Title of Invention	SQUEEZE VALVE
Abstract	The invention relates to a device for cleaning a thick matter delivery pipe (10), comprising an end-hose (18) which is mounted on an outlet side, a device (24) for introducing a pressurised fluid into the thick matter delivery pipe (10), and a cleaning body (22) that can be driven through the delivery pipe (10) by the fluid, said cleaning body lying against the entire circumference of the inner surface of the thick matter delivery pipe (10).According to the invention, the device comprises a sensor (26) for determining the consistency of the material in a section of the thick matter delivery pipe (10), a control unit (28) to which a signal can be transmitted from the sensor (26) upon a change in the consistency of the material, and a closing device (30) that can be actuated by the control unit when the signal is received, the closing device being used to at least partially close the end-hose (18).

Title of Invention

SQUEEZE VALVE

Abstract

The invention relates to a device for cleaning a thick matter delivery pipe (10), comprising an end-hose (18) which is mounted on an outlet side, a device (24) for introducing a pressurised fluid into the thick matter delivery pipe (10), and a cleaning body (22) that can be driven through the delivery pipe (10) by the fluid, said cleaning body lying against the entire circumference of the inner surface of the thick matter delivery pipe (10).According to the invention, the device comprises a sensor (26) for determining the consistency of the material in a section of the thick matter delivery pipe (10), a control unit (28) to which a signal can be transmitted from the sensor (26) upon a change in the consistency of the material, and a closing device (30) that can be actuated by the control unit when the signal is received, the closing device being used to at least partially close the end-hose (18).

Full Text	Attorney Docket: 3827-152 PCT/EP2005/002897 DEVICE AND METHOD FOR CLEANING A THICK MATTER DELIVERY PIPE The invention concerns a device for cleaning a thick matter delivery pipe according to the pre-eharacterizing portion of claim 1, a process for cleaning a thick matter delivery pipe according to the pre-characterizing portion of claim 9, as well as a squeeze valve that can be inserted onto a flexible delivery pipe according to the pre-characterizing portion of claim 15. Thick matter such as concrete is delivered to a construction site in that it is pumped by means of a thick matter pump from a material supply container through a thick matter delivery pipe extending all the way to the construction site. Following utilization of the pump, the delivery pipe must be emptied of the residual material remaining therein and cleaned. The residual material can be pumped back to the material supply container. This however has the disadvantage, that the returned concrete can no longer be employed and must be disposed of. In the case of long, thick matter delivery pipes, there is the additional problem that the material supply container can run over. For this reason in most cases a cleaning body, such as for example a ball sponge, is introduced at the inlet side of the thick matter conveyor pipe. The sponge ball lies with its entire outer circumference against the inner surface of the thick matter delivery pipe and is advanced through the thick matter delivery pipe until the end by application of air or water under pressure. At this time, it pushes the residual material remaining in the thick matter delivery pipe ahead of it and presses it out of the outlet side of the end-hose. The use of water as pressure medium has the disadvantage, that the residual concrete is diluted by the water and thus cannot be used. Acting upon the sponge ball with compressed air requires, for safety reasons, a capturing device at the outlet, which prevents the sponge ball causing damage after expulsion out of the end-hose. The capturing device is removed when the pump is in operation and is only attached during the cleaning operation. It's assembly and disassembly is inconvenient and laborious in large applications, such as, for example, mobile concrete pumps. It is thus the task of the invention to improve a device and a process of the above-described type in such a manner that the cleaning of the thick matter delivery pipe requires less time and effort. {WP32I49I;!} A 54 852 PCT/EP2005/002897 This task is inventively solved by a device with the characteristics of claim 1 and a process wit the characteristics of claim 9. The inventive solution is based upon the idea, that the cleaning body is captured in the end-hose by the at least partial closing of the end-hose, after the majorit of the residual material has already been removed from the thick matter delivery pipe. For this purpose, a sensor detects a change in consistency of the material in a section of the thick matte] delivery pipe as the cleaning body reaches this section. This can occur thereby, that the sensor recognizes the arrival of the cleaning body in the section of the delivery pipe. A further, simph method is comprised therein, that the sensor recognizes whether it is primarily thick matter or primarily fluid that is located in this section of the thick matter delivery pipe. The sensor recognizes the passage-through of the cleaning body through this section by detecting that the consistency of the material contained in the section changes: first, thick matter such as concret is contained in this section, then after passage-through of the cleaning body, fluid is contained. In principle it is possible to use water as the fluid, wherein a water pump is employed for conveying the water. It is however preferred that air is employed as the fluid and that the devic for introduction of the fluid is a compressor for producing compressed air. Thereby it is prevented that the residual concrete remaining in the thick matter delivery pipe is diluted. The residual concrete can then, in large part, be reused and need not be disposed of, which can be expensive. The sensor is preferably an ultrasound sensor adapted to transmit ultrasound into the thick matt delivery pipe. Ultrasound signals reflected from the inner wall of the thick matter delivery pipe allow the calibrated sensor to determine the consistency of the material located in the pipe-line Therein the sensor is preferably calibrated for recognition of at least two different material consistencies. These could be, for example, the material pairs "thick matter/fluid", "thick matter/cleaning body" or "fluid/cleaning body". The cleaning body is preferably comprised of compressible material. It is preferably introduced via a slide valve located at the inlet side oft! thick matter delivery pipe. {WP32149I;!} 2 A 54 852 PCT/EP2005/002897 It is preferred that the end-hose includes a jacket pipe of elastomeric material, preferably of rubber, and that the closable opening includes a squeeze valve for narrowing the internal width or for closure of the end-hose. If the end-hose is closed, then a part of the residual concrete can be retained therein. It is particularly preferable when the inner width of the end-hose is only narrowed, so that the cleaning body remains trapped, however, the largest portion of the residual material can be squeezed out of the end-hose through the narrowed opening, which expelled concrete can then still be used. The squeeze valve according to claim 15 serves for the rapid closure of the end-hose upon inteiTuption of the pumping process. Thereby, an uncontrolled emission of concrete out of the end-hose is prevented and the environment is protected. This squeeze valve, which is the preferred closure device for the inventive device for cleaning a thick matter delivery pipe, is characterized thereby, that it can be introduced essentially upon any desired flexible pipeline, in particular an end-hose of the thick matter delivery pipe. It is thus not subjected to friction by action of the thick matter conveyed through the pipeline. Further, it has no rigid components which could present a danger of injury, with the exception of the valve. The hose has on its outer side, opposite to the hollow inner space, a covering of a textile fabric layer. Further, it is advantageous when it is embedded in a sleeve of elastomeric material. The sleeve likewise preferably surrounds the jacket. This imparts an increased shape stability to the squeeze valve. The sleeve preferably has the shape of a hollow cylinder. Therein, the inner diameter must be as large as the outer diameter of the likewise cylindrically shaped pipeline. The jacket is preferably comprised of a preferably multi-layered textile fabric. In the inlet and the outlet opening a valve is preferably provided, so that the hollow space can be easily filled with gas and thereafter be emptied. In the following the invention will be described in greater detail on a basis of illustrative examples represented schematically in the figure. There is shown in: Fig. 1 a diagrammatic representation of a device for cleaning a thick matter delivery pipe; {WP32149I;!} 3 A 54 852 PCT/EP2005/002897 Fig. 2 a perspective representation of an end-hose of the thick matter delivery pipe with the device according to Fig. 1; and Fig. 3 a sectional representation of a squeeze valve. The thick matter delivery pipe 10 is designed to convey thick matter, such as concrete, from a material supply container 12 to a construction site 14. It is mounted on a boom, of which the end section of a boom arm 16 is show in Fig. 2, and carries on its outlet end a rubber end-hose 18. For cleaning after the pumping process, a cleaning body 22 in the form of a compressible sponge ball, lying with its outer diameter against the inner wall of the thick matter delivery pipe 10, is introduced into the inlet via a slide valve 20. At the same time, the slide valve 20 blocks the thick matter conveyor pipe 10 towards the material supply container 12. By means of a compressor 24, compressed air is introduced into the thick matter delivery pipe, which pushes the sponge ball 22 through the thick matter delivery pipe 10 in the direction of the end-hose 18. The residual concrete remaining in the thick matter delivery pipe 10 is thereby removed out the end-hose 18 by the sponge ball 22. In one section of the thick matter delivery pipe 10, close to the end-hose 18, an ultrasound sensor 26 is provided, which the inner wall of the thick matter delivery pipe 10 impinges with ultrasound. The ultrasound reflected from the inner wall and measured by the sensor 26 experiences a change, when the consistency of the material located in the section of the thick matter delivery pipe 10 carrying the sensor changes. This is the case, when the sponge ball 22 passes the sensor 26. The sponge ball 22 pushes the residual concrete ahead of it as a column; behind the sponge ball 22, there is primarily compressed air. The change in consistency measured by the sensor 26 from concrete to air is recognized by the sensor, which transmits a signal to the control unit 28. The end-hose 18 carries a squeeze value 30, which upon actuation narrows or closes its inner cross-section. The squeeze valve 30 is actuated by the control unit 28, when the control unit obtains a signal from the sensor 26 characterizing a change in consistency. The sponge ball 22 remains hanging in the narrowed side of the end-hose 18, while the residual concrete pushed ahead of the sponge ball 22 can still pass through this location and be reused. Simultaneously, with the actuation of the squeeze valve 30, the control unit 28 switches off the compressor 24. For removal of the sponge ball 22 from the end-hose 18, the squeeze valve 30 is de-tensioned and the thick matter delivery pipe 10 is once again acted upon with compressed air. {WP321491;!} 4 A 54 852 PCT/EP2005/002897 The inventive squeeze valve (Fig. 3) exhibits a sleeve 32 of an elastomeric material. The sleeve 32 is cylindrical in shape and has an inner diameter,; which is somewhat larger than the outer diameter of the end-hose 18, so that the squeeze valve 30 can be slid thereupon. In the sleeve 32 a hose 34 of an elastomeric material is embedded, which borders the ring-shaped hollow space 35. The hose 34 is covered on its outer side with a textile fabric layer 38. It further exhibits an opening 40, via which it can be filled with gas, in particular compressed air, via a line 41 (Fig. 2). In the inlet / outlet opening 40 a valve 42 is provided. In the sleeve 32 a ring-shaped jacket 44 is embedded, in the inside of which the hose 34 is situated. The jacket 44 is comprised of multiple layers of a textile fabric and is, for this reason, more difficult to deform than the textile fabric layer 38. Upon actuation of the squeeze valve, compressed air is introduced via the valve 42 into the hollow space 36. so that the hose 34 can be narrowed. The jacket 44 constricts the diameter of the hose 34 in the radially inwards from the outside, so that the filling of the hollow space 36 with compressed air brings about a narrowing of the inner diameter of the sleeve 32. This narrowing is transmitted onto the flexible end-hose 18 passing through the sleeve 32, so that upon actuation of the squeeze valve 30 it's narrow width can be narrowed or as the case may be the end-hose 18 then can be closed off. In summary the following can be concluded: The invention relates to a device for cleaning a thick matter delivery pipe 10, comprising an end-hose 18 which is mounted on an outlet side and is provided with a device 24 for introducing a pressurised fluid into the thick matter delivery pipe 10, and a cleaning body 22 that can be driven through the delivery pipe 10 by a fluid, an entire circumference of said cleaning body lying against the inner surface of the thick matter delivery pipe 10. According to the invention, the device comprises a sensor 26 for determining the consistency of the material in a section of the thick matter delivery pipe 10, a control unit 28 to which a signal can be transmitted from the sensor 26 in the case of a change in the consistency of the material, and a closing device 30 that can be actuated by the control unit when a signal is received and which is used to at least partially close the end-hose 18. {WP32I491;!} 5 A 54 852 PCT/EP2005/002897 Patent Claims 1. Device for cleaning a thick matter delivery pipe (10) having an end-hose (18) provided on the outlet side, which includes a device (24) for introduction of a fluid under pressure into the thick matter delivery pipe (10) and a cleaning body (20) which, under influence of the fluid, lies against the full circumference of the inner surface of the thick matter delivery pipe (10) and is conveyable therethrough, characterized by a sensor (26) determining the consistency of the material situated in a section of the thick matter delivery pipe (10), a control unit (28), to which a signal is transmitted by sensor (26) upon a change in the consistency of the material, and a closure device (30) actuatable by the control unit (28) upon receiving the signal, for at least partial closure of the end-hose (18). 2. Device according to claim 1, thereby characterized, that the fluid is air and that the device (24) for introduction of the fluid is a compressor for producing compressed air. 3. Device according to claim 1, thereby characterized, that the fluid is water and that the device (24) for introduction of the fluid is a water pump. 4. Device according to one of the preceding claims, characterized by a slide valve (20) provided on the inlet side of the thick matter delivery pipe (10) for introduction or insertion of the cleaning body (22). 5. Device according to one of the preceding claims, thereby characterized, that the sensor (26) is calibrated for recognition of least two different material consistencies. 6. Device according to one of the preceding claims, thereby characterized, that the sensor (26) is a ultrasound sensor emitting ultrasound into the thick matter delivery pipe (10). 7. Device according to one of the preceding claims, thereby characterized, that the cleaning body (22) is comprised of a compressible material. {WP321491;!} 6 A 54 852 PCT/EP2005/002897 8. Device according to one of the preceding claims, thereby characterized, that the end-hose (18) includes a jacket pipe of elastomeric material, preferably of rubber, and that the closure device (30) includes a squeeze valve for narrowing the internal width or for closure of the end-hose (18). 9. Process for cleaning a thick matter delivery pipe (10) with an end-hose (18) provided on the outlet side, in which fluid under pressure is introduced into the thick matter delivery pipe (10) and in which a cleaning body (22) is conveyed through the pipe under the influence of the fluid, the cleaning body lying against the entire circumference of the inner diameter of the thick matter delivery pipe (10), thereby characterized, that the consistency of the material located in a section of the thick matter delivery pipe (10) is determined by means of a sensor (26), that the sensor (26) transmits a signal to the control unit (28) upon a change in the consistency of the material, and that the control unit (28) actuates a closure device (30) upon receiving this signal, as a result of which actuation the end-hose (18) is at least partially closed. 10. Process according to claim 9, thereby characterized, that the fluid is compressed air, which is introduced into the thick matter delivery pipe (10) via a compressor. 11. Process-according to claim 9, thereby characterized, that the fluid is water, which is introduced into a thick matter delivery pipe (10) via a water pump. 12. Process according to one of claims 9 through 11, thereby characterized, that the cleaning body (22) is introduced by a slide valve :(20) provided at the inlet side of the thick matter delivery pipe (10). 13. Process according to one of claims 9 through 12, thereby characterized, that the sensor (26) recognizes at least two different predetermined material consistencies. {WP32149I;!} 7 A 54 852 PCT/EP2005/002897 14. Process according to one of claims 9 through 13, thereby characterized, that the sensor (26) impinges the thick matter delivery line (10) with ultrasound and determines the material consistency by evaluation of the reflected ultrasound. 15. A squeeze valve insertable upon a flexible pipe line, in particular an end-hose (18) of a thick matter delivery line (10), characterized by a hose (34) of an elastomeric material enclosing a ring-shaped hollow space (36), which hose (34) includes an inlet and outlet opening (40) for filling and emptying the hollow space (36) with a gas under pressure, and a ring-shaped jacket (44) receiving the hose (34) on its inside, which prevents expansion the radially outwards direction. 16. Squeeze valve according to claim 15, thereby characterized, that the hose (34) is covered on its outer side, opposite the hollow space (36), with a textile fabric layer (38). 17. Squeeze valve according to claim 15 or 16, thereby characterized, that the hose (34) is embedded in a sleeve (32) of elastomeric material. 18. Squeeze valve according to claim 17, thereby characterized, that the sleeve (32) surrounds the jacket (44). 19. Squeeze valve according to claim 17 or 18, thereby characterized, that the sleeve (32) has the shape of a hollow cylinder and that its inner diameter is at least as large as the outer diameter of the pipe line. 20. Squeeze valve according to one of claims 15 through 19, thereby characterized, that the jacket (44) is comprised of a preferably multi-layer textile or fabric. 21. Squeeze valve according to one of claims 15 through 20, thereby characterized, that a valve (42) is provided in the inlet and outlet opening (40). {WP32149I;!} 8 A 54 852 PCT/EP2005/002897 22. Use of the squeeze valve (30) according to one of claims 15 through 21 as closure device for a device for cleaning a thick matter delivery pipe according to one of claims 1 through 8 or as the case may be for a process according to one of claims 9 through 14. 9 {WP321491;!} "A 54 852 PCT/EP2005/002897 Patent Claims 1. Device for cleaning a thick matter delivery pipe (10) having an end-hose (18), the end-hose (18) including a jacket pipe of elastomeric material, preferably of rubber, a cleaning body (20) which with full circumference lies against the inner surface of the thick matter delivery pipe (10), a device (24) for introduction of a fluid under pressure into the thick matter delivery pipe (10) and for acting on the cleaning body (22) and transporting the cleaning body through the deilvery pipe, with a closure device (30) for the at least partial closure of the end-hose (18), and a sensor (26) determining the consistency of the material situated in a section of the thick matter delivery pipe (10) and for transmitting a signal characterizing a change in consistency to a control unit (28) for actuation of the a closure device (30), wherein the a closure device (30) is a squeeze valve for narrowing the internal width of or for closing the end-hose (18). 2. Device according to claim 1, thereby characterized, that the fluid is air and that the device (24) for introduction of the fluid is a compressor for producing compressed air. 3. Device according to claim 1, thereby characterized, that the fluid is water and that the device (24) for introduction of the fluid is a water pump. 4. Device according to one of the preceding claims, characterized by a slide valve (20) provided on the inlet side of the thick matter delivery pipe (10) for introduction or insertion of the cleaning body (22). 5. Device according to one of the preceding claims, thereby characterized, that the sensor (26) is calibrated for recognition of least two different material consistencies. i \V\|'32257').I ! SUBSTITE PAGES 10 54 852 PCT/EB2005/002897 6. Device according to one of the preceding claims, thereby characterized, that the sensor (26) is a ultrasound sensor emitting ultrasound into the thick matter delivery pipe (10). 7. Device according to one of the preceding claims, thereby characterized, that the cleaning body (22) is comprised of a compressible material. 8. Process for cleaning a thick matter delivery pipe (10) with an end-hose (18) provided on the outlet side, the end-hose (18) including a jacket pipe of elastomeric material, preferably of rubber, in which fluid under pressure is introduced into the thick matter delivery pipe (10) and in which a cleaning body (22) is conveyed through the pipe under the influence of the fluid, the cleaning body fully circumferentially in contact with the inner diameter of the thick matter delivery pipe (10), wherein the consistency of the material located in a section of the thick matter delivery pipe (10) is determined via a sensor (26), wherein a change in the consistency of the material causes the sensor (26) to transmit a signal to the control unit (28), and wherein the control unit (28) actuates a closure device (30) upon receiving this signal, as a result of which actuation the end-hose (18) is narrowed or the end-hose (18) is closed. 9. Process according to claim 8, thereby characterized, that the fluid is compressed air, which is introduced into the thick matter delivery pipe (10) via a compressor. 10. Process according to claim 8, thereby characterized, that the fluid is water, which is introduced into a thick matter delivery pipe (10) via a water pump. 1 1. Process according to one of claims 8 through 10, thereby characterized, that the cleaning body (22) is introduced by a slide valve (20) provided at the inlet side of the thick matter delivery pipe (10). 12. Process according to one of claims 9 through 12, thereby characterized, that the sensor (26) recognizes al least two different predetermined material consistencies. !WI'32257y.l 1 .\ 54 852 PCT/EP2005/002897 13. Process according to one of claims 8 through 12, thereby characterized, that the sensor (26) impinges the thick matter delivery line (10) with ultrasound and determines the material consistency by evaluation of the reflected ultrasound. 14. A squeeze valve insertable upon an end-hose (18) of a thick matter delivery line (10) for use in a device according to one of claims 1\| through 7 or, as the case may be, a process S according to one of claims 8 through 13, characterized by a hose (34) of an elastomeric material enclosing a ring-shaped hollow space (36), which hose (34) includes an inlet and outlet opening (40) for filling and emptyingithe hollow space (36) with a gas under pressure, and a ring-shaped jacket (44) receiving the hose (34) on its inside, which jacket prevents expansion of the hose in the radially outwards direction. 15. .Squeeze valve according to claim 14, thereby characterized, that the hose (34) is covered on its outer side, opposite the hollow space (36), with a textile fabric layer (38). 16. Squeeze valve according to claim 14 or 15, thereby characterized, that the hose (34) is embedded in a sleeve (32) of elastomeric material. 17. Squeeze valve according to claim 16, thereby characterized, that the sleeve (32) surrounds the jacket (44). 18. Squeeze valve according to claim 16 or 17, thereby characterized, that the sleeve (32) has the shape of a hollow cylinder and that its inner diameter is at least as large as the outer diameter of the pipeline. 19. Squeeze valve according to one of claims 14 through 18, thereby characterized, that the jacket (44) is comprised of a preferably multi-layer textile or fabric. 20. Squeeze valve according to one of claims 14 through 19, thereby characterized, that a valve (42) is provided in the inlet and outlet-opening (40). A 54 852 PCT/IiP2OO5'002897 2 1 A squeeze valve insertablc upon a flexible pipeline, in particular an end-hose (18) of thick matter delivery line (10), characterized by a hose (34) of an elastomeric materiel enclosing a ring-shaped hollow space (36), which hose (34) includes an inlet and out! opening (40) for filling andemptying the hollow space (36) with a gas under pressure and a ring-shaped jacket (44) receiving the hose (34) on its inside, which jacket prevt expansion of the hose in the radially outwards direction. 22. Squeeze valve according to claim 21, thereby characterized, that the hose (34) is cove on its outer side, opposite the hollow space (36), with a textile fabric layer (38). 23. Squeeze valve according to claim 21 or 22, thereby characterized, that the hose (34) i: embedded in a sleeve (32) of elastomeric material. 24. Squeeze valve according to claim 23. thereby characterized, that the sleeve (32) surrounds the jacket (44). 25. Squeeze valve according to claim 23 or 24, thereby characterized, that the sleeve (32) the shape of a hollow cylinder and that its inner diameter is at least as large as the outi diameter of the pipeline. 26. Squeeze \al\e according to one of claims 21 through 25. thereby characterized, that ll jacket (44) is comprised of a preferably multi-layer textile or fabric. i \| 27. Squeeze valve according to one of claims 2 1 jthrough 26, thereby characterized, that a valve (42) is provided in the inlet and outlet opening (40).

Full Text

Attorney Docket: 3827-152 PCT/EP2005/002897
DEVICE AND METHOD FOR CLEANING A THICK MATTER DELIVERY PIPE
The invention concerns a device for cleaning a thick matter delivery pipe according to the pre-eharacterizing portion of claim 1, a process for cleaning a thick matter delivery pipe according to the pre-characterizing portion of claim 9, as well as a squeeze valve that can be inserted onto a flexible delivery pipe according to the pre-characterizing portion of claim 15.
Thick matter such as concrete is delivered to a construction site in that it is pumped by means of a thick matter pump from a material supply container through a thick matter delivery pipe extending all the way to the construction site. Following utilization of the pump, the delivery pipe must be emptied of the residual material remaining therein and cleaned. The residual material can be pumped back to the material supply container. This however has the disadvantage, that the returned concrete can no longer be employed and must be disposed of. In the case of long, thick matter delivery pipes, there is the additional problem that the material supply container can run over. For this reason in most cases a cleaning body, such as for example a ball sponge, is introduced at the inlet side of the thick matter conveyor pipe. The sponge ball lies with its entire outer circumference against the inner surface of the thick matter delivery pipe and is advanced through the thick matter delivery pipe until the end by application of air or water under pressure. At this time, it pushes the residual material remaining in the thick matter delivery pipe ahead of it and presses it out of the outlet side of the end-hose.
The use of water as pressure medium has the disadvantage, that the residual concrete is diluted by the water and thus cannot be used. Acting upon the sponge ball with compressed air requires, for safety reasons, a capturing device at the outlet, which prevents the sponge ball causing damage after expulsion out of the end-hose. The capturing device is removed when the pump is in operation and is only attached during the cleaning operation. It's assembly and disassembly is inconvenient and laborious in large applications, such as, for example, mobile concrete pumps.
It is thus the task of the invention to improve a device and a process of the above-described type in such a manner that the cleaning of the thick matter delivery pipe requires less time and effort.
{WP32I49I;!}

A 54 852 PCT/EP2005/002897
This task is inventively solved by a device with the characteristics of claim 1 and a process wit the characteristics of claim 9. The inventive solution is based upon the idea, that the cleaning body is captured in the end-hose by the at least partial closing of the end-hose, after the majorit of the residual material has already been removed from the thick matter delivery pipe. For this purpose, a sensor detects a change in consistency of the material in a section of the thick matte] delivery pipe as the cleaning body reaches this section. This can occur thereby, that the sensor recognizes the arrival of the cleaning body in the section of the delivery pipe. A further, simph method is comprised therein, that the sensor recognizes whether it is primarily thick matter or primarily fluid that is located in this section of the thick matter delivery pipe. The sensor recognizes the passage-through of the cleaning body through this section by detecting that the consistency of the material contained in the section changes: first, thick matter such as concret is contained in this section, then after passage-through of the cleaning body, fluid is contained.
In principle it is possible to use water as the fluid, wherein a water pump is employed for conveying the water. It is however preferred that air is employed as the fluid and that the devic for introduction of the fluid is a compressor for producing compressed air. Thereby it is prevented that the residual concrete remaining in the thick matter delivery pipe is diluted. The residual concrete can then, in large part, be reused and need not be disposed of, which can be expensive.
The sensor is preferably an ultrasound sensor adapted to transmit ultrasound into the thick matt delivery pipe. Ultrasound signals reflected from the inner wall of the thick matter delivery pipe allow the calibrated sensor to determine the consistency of the material located in the pipe-line Therein the sensor is preferably calibrated for recognition of at least two different material consistencies. These could be, for example, the material pairs "thick matter/fluid", "thick matter/cleaning body" or "fluid/cleaning body". The cleaning body is preferably comprised of compressible material. It is preferably introduced via a slide valve located at the inlet side oft! thick matter delivery pipe.
{WP32149I;!} 2

A 54 852 PCT/EP2005/002897
It is preferred that the end-hose includes a jacket pipe of elastomeric material, preferably of rubber, and that the closable opening includes a squeeze valve for narrowing the internal width or for closure of the end-hose. If the end-hose is closed, then a part of the residual concrete can be retained therein. It is particularly preferable when the inner width of the end-hose is only narrowed, so that the cleaning body remains trapped, however, the largest portion of the residual material can be squeezed out of the end-hose through the narrowed opening, which expelled concrete can then still be used.
The squeeze valve according to claim 15 serves for the rapid closure of the end-hose upon inteiTuption of the pumping process. Thereby, an uncontrolled emission of concrete out of the end-hose is prevented and the environment is protected. This squeeze valve, which is the preferred closure device for the inventive device for cleaning a thick matter delivery pipe, is characterized thereby, that it can be introduced essentially upon any desired flexible pipeline, in particular an end-hose of the thick matter delivery pipe. It is thus not subjected to friction by action of the thick matter conveyed through the pipeline. Further, it has no rigid components which could present a danger of injury, with the exception of the valve.
The hose has on its outer side, opposite to the hollow inner space, a covering of a textile fabric layer. Further, it is advantageous when it is embedded in a sleeve of elastomeric material. The sleeve likewise preferably surrounds the jacket. This imparts an increased shape stability to the squeeze valve. The sleeve preferably has the shape of a hollow cylinder. Therein, the inner diameter must be as large as the outer diameter of the likewise cylindrically shaped pipeline. The jacket is preferably comprised of a preferably multi-layered textile fabric. In the inlet and the outlet opening a valve is preferably provided, so that the hollow space can be easily filled with gas and thereafter be emptied.
In the following the invention will be described in greater detail on a basis of illustrative examples represented schematically in the figure. There is shown in:
Fig. 1 a diagrammatic representation of a device for cleaning a thick matter delivery
pipe;
{WP32149I;!} 3

A 54 852 PCT/EP2005/002897
Fig. 2 a perspective representation of an end-hose of the thick matter delivery pipe with
the device according to Fig. 1; and
Fig. 3 a sectional representation of a squeeze valve.
The thick matter delivery pipe 10 is designed to convey thick matter, such as concrete, from a material supply container 12 to a construction site 14. It is mounted on a boom, of which the end section of a boom arm 16 is show in Fig. 2, and carries on its outlet end a rubber end-hose 18. For cleaning after the pumping process, a cleaning body 22 in the form of a compressible sponge ball, lying with its outer diameter against the inner wall of the thick matter delivery pipe 10, is introduced into the inlet via a slide valve 20. At the same time, the slide valve 20 blocks the thick matter conveyor pipe 10 towards the material supply container 12. By means of a compressor 24, compressed air is introduced into the thick matter delivery pipe, which pushes the sponge ball 22 through the thick matter delivery pipe 10 in the direction of the end-hose 18. The residual concrete remaining in the thick matter delivery pipe 10 is thereby removed out the end-hose 18 by the sponge ball 22. In one section of the thick matter delivery pipe 10, close to the end-hose 18, an ultrasound sensor 26 is provided, which the inner wall of the thick matter delivery pipe 10 impinges with ultrasound. The ultrasound reflected from the inner wall and measured by the sensor 26 experiences a change, when the consistency of the material located in the section of the thick matter delivery pipe 10 carrying the sensor changes. This is the case, when the sponge ball 22 passes the sensor 26. The sponge ball 22 pushes the residual concrete ahead of it as a column; behind the sponge ball 22, there is primarily compressed air. The change in consistency measured by the sensor 26 from concrete to air is recognized by the sensor, which transmits a signal to the control unit 28.
The end-hose 18 carries a squeeze value 30, which upon actuation narrows or closes its inner cross-section. The squeeze valve 30 is actuated by the control unit 28, when the control unit obtains a signal from the sensor 26 characterizing a change in consistency. The sponge ball 22 remains hanging in the narrowed side of the end-hose 18, while the residual concrete pushed ahead of the sponge ball 22 can still pass through this location and be reused. Simultaneously, with the actuation of the squeeze valve 30, the control unit 28 switches off the compressor 24. For removal of the sponge ball 22 from the end-hose 18, the squeeze valve 30 is de-tensioned and the thick matter delivery pipe 10 is once again acted upon with compressed air.
{WP321491;!} 4

A 54 852 PCT/EP2005/002897
The inventive squeeze valve (Fig. 3) exhibits a sleeve 32 of an elastomeric material. The sleeve 32 is cylindrical in shape and has an inner diameter,; which is somewhat larger than the outer diameter of the end-hose 18, so that the squeeze valve 30 can be slid thereupon. In the sleeve 32 a hose 34 of an elastomeric material is embedded, which borders the ring-shaped hollow space 35. The hose 34 is covered on its outer side with a textile fabric layer 38. It further exhibits an opening 40, via which it can be filled with gas, in particular compressed air, via a line 41 (Fig. 2). In the inlet / outlet opening 40 a valve 42 is provided. In the sleeve 32 a ring-shaped jacket 44 is embedded, in the inside of which the hose 34 is situated. The jacket 44 is comprised of multiple layers of a textile fabric and is, for this reason, more difficult to deform than the textile fabric layer 38. Upon actuation of the squeeze valve, compressed air is introduced via the valve 42 into the hollow space 36. so that the hose 34 can be narrowed. The jacket 44 constricts the diameter of the hose 34 in the radially inwards from the outside, so that the filling of the hollow space 36 with compressed air brings about a narrowing of the inner diameter of the sleeve 32. This narrowing is transmitted onto the flexible end-hose 18 passing through the sleeve 32, so that upon actuation of the squeeze valve 30 it's narrow width can be narrowed or as the case may be the end-hose 18 then can be closed off.
In summary the following can be concluded: The invention relates to a device for cleaning a thick matter delivery pipe 10, comprising an end-hose 18 which is mounted on an outlet side and is provided with a device 24 for introducing a pressurised fluid into the thick matter delivery pipe 10, and a cleaning body 22 that can be driven through the delivery pipe 10 by a fluid, an entire circumference of said cleaning body lying against the inner surface of the thick matter delivery pipe 10. According to the invention, the device comprises a sensor 26 for determining the consistency of the material in a section of the thick matter delivery pipe 10, a control unit 28 to which a signal can be transmitted from the sensor 26 in the case of a change in the consistency of the material, and a closing device 30 that can be actuated by the control unit when a signal is received and which is used to at least partially close the end-hose 18.
{WP32I491;!} 5

A 54 852 PCT/EP2005/002897
Patent Claims
1. Device for cleaning a thick matter delivery pipe (10) having an end-hose (18) provided
on the outlet side, which includes a device (24) for introduction of a fluid under pressure
into the thick matter delivery pipe (10) and a cleaning body (20) which, under influence
of the fluid, lies against the full circumference of the inner surface of the thick matter
delivery pipe (10) and is conveyable therethrough, characterized by a sensor (26)
determining the consistency of the material situated in a section of the thick matter
delivery pipe (10), a control unit (28), to which a signal is transmitted by sensor (26)
upon a change in the consistency of the material, and a closure device (30) actuatable by
the control unit (28) upon receiving the signal, for at least partial closure of the end-hose
(18).
2. Device according to claim 1, thereby characterized, that the fluid is air and that the device
(24) for introduction of the fluid is a compressor for producing compressed air.
3. Device according to claim 1, thereby characterized, that the fluid is water and that the
device (24) for introduction of the fluid is a water pump.
4. Device according to one of the preceding claims, characterized by a slide valve (20)
provided on the inlet side of the thick matter delivery pipe (10) for introduction or
insertion of the cleaning body (22).
5. Device according to one of the preceding claims, thereby characterized, that the sensor
(26) is calibrated for recognition of least two different material consistencies.
6. Device according to one of the preceding claims, thereby characterized, that the sensor
(26) is a ultrasound sensor emitting ultrasound into the thick matter delivery pipe (10).
7. Device according to one of the preceding claims, thereby characterized, that the cleaning
body (22) is comprised of a compressible material.
{WP321491;!} 6

A 54 852 PCT/EP2005/002897
8. Device according to one of the preceding claims, thereby characterized, that the end-hose
(18) includes a jacket pipe of elastomeric material, preferably of rubber, and that the
closure device (30) includes a squeeze valve for narrowing the internal width or for
closure of the end-hose (18).
9. Process for cleaning a thick matter delivery pipe (10) with an end-hose (18) provided on
the outlet side, in which fluid under pressure is introduced into the thick matter delivery
pipe (10) and in which a cleaning body (22) is conveyed through the pipe under the
influence of the fluid, the cleaning body lying against the entire circumference of the
inner diameter of the thick matter delivery pipe (10), thereby characterized, that the
consistency of the material located in a section of the thick matter delivery pipe (10) is
determined by means of a sensor (26), that the sensor (26) transmits a signal to the
control unit (28) upon a change in the consistency of the material, and that the control
unit (28) actuates a closure device (30) upon receiving this signal, as a result of which
actuation the end-hose (18) is at least partially closed.
10. Process according to claim 9, thereby characterized, that the fluid is compressed air,
which is introduced into the thick matter delivery pipe (10) via a compressor.
11. Process-according to claim 9, thereby characterized, that the fluid is water, which is
introduced into a thick matter delivery pipe (10) via a water pump.
12. Process according to one of claims 9 through 11, thereby characterized, that the cleaning
body (22) is introduced by a slide valve :(20) provided at the inlet side of the thick matter
delivery pipe (10).
13. Process according to one of claims 9 through 12, thereby characterized, that the sensor
(26) recognizes at least two different predetermined material consistencies.
{WP32149I;!} 7

A 54 852 PCT/EP2005/002897
14. Process according to one of claims 9 through 13, thereby characterized, that the sensor
(26) impinges the thick matter delivery line (10) with ultrasound and determines the
material consistency by evaluation of the reflected ultrasound.
15. A squeeze valve insertable upon a flexible pipe line, in particular an end-hose (18) of a
thick matter delivery line (10), characterized by a hose (34) of an elastomeric material
enclosing a ring-shaped hollow space (36), which hose (34) includes an inlet and outlet
opening (40) for filling and emptying the hollow space (36) with a gas under pressure,
and a ring-shaped jacket (44) receiving the hose (34) on its inside, which prevents
expansion the radially outwards direction.
16. Squeeze valve according to claim 15, thereby characterized, that the hose (34) is covered
on its outer side, opposite the hollow space (36), with a textile fabric layer (38).
17. Squeeze valve according to claim 15 or 16, thereby characterized, that the hose (34) is
embedded in a sleeve (32) of elastomeric material.
18. Squeeze valve according to claim 17, thereby characterized, that the sleeve (32)
surrounds the jacket (44).
19. Squeeze valve according to claim 17 or 18, thereby characterized, that the sleeve (32) has
the shape of a hollow cylinder and that its inner diameter is at least as large as the outer
diameter of the pipe line.
20. Squeeze valve according to one of claims 15 through 19, thereby characterized, that the
jacket (44) is comprised of a preferably multi-layer textile or fabric.
21. Squeeze valve according to one of claims 15 through 20, thereby characterized, that a
valve (42) is provided in the inlet and outlet opening (40).
{WP32149I;!} 8

A 54 852 PCT/EP2005/002897
22. Use of the squeeze valve (30) according to one of claims 15 through 21 as closure device for a device for cleaning a thick matter delivery pipe according to one of claims 1 through 8 or as the case may be for a process according to one of claims 9 through 14.
9
{WP321491;!}

"A 54 852 PCT/EP2005/002897
Patent Claims
1. Device for cleaning a thick matter delivery pipe (10) having
an end-hose (18), the end-hose (18) including a jacket pipe of elastomeric
material, preferably of rubber,
a cleaning body (20) which with full circumference lies against the inner surface
of the thick matter delivery pipe (10),
a device (24) for introduction of a fluid under pressure into the thick matter
delivery pipe (10) and for acting on the cleaning body (22) and transporting the cleaning
body through the deilvery pipe,
with a closure device (30) for the at least partial closure of the end-hose (18), and a sensor (26) determining the consistency of the material situated in a section of
the thick matter delivery pipe (10) and for transmitting a signal characterizing a change in
consistency to a control unit (28) for actuation of the a closure device (30),
wherein the a closure device (30) is a squeeze valve for narrowing the internal
width of or for closing the end-hose (18).
2. Device according to claim 1, thereby characterized, that the fluid is air and that the device
(24) for introduction of the fluid is a compressor for producing compressed air.
3. Device according to claim 1, thereby characterized, that the fluid is water and that the
device (24) for introduction of the fluid is a water pump.
4. Device according to one of the preceding claims, characterized by a slide valve (20)
provided on the inlet side of the thick matter delivery pipe (10) for introduction or
insertion of the cleaning body (22).
5. Device according to one of the preceding claims, thereby characterized, that the sensor
(26) is calibrated for recognition of least two different material consistencies.
i \V|'32257').I ! SUBSTITE PAGES
10

54 852 PCT/EB2005/002897
6. Device according to one of the preceding claims, thereby characterized, that the sensor
(26) is a ultrasound sensor emitting ultrasound into the thick matter delivery pipe (10).
7. Device according to one of the preceding claims, thereby characterized, that the cleaning
body (22) is comprised of a compressible material.
8. Process for cleaning a thick matter delivery pipe (10) with an end-hose (18) provided on
the outlet side, the end-hose (18) including a jacket pipe of elastomeric material,
preferably of rubber, in which fluid under pressure is introduced into the thick matter
delivery pipe (10) and in which a cleaning body (22) is conveyed through the pipe under
the influence of the fluid, the cleaning body fully circumferentially in contact with the
inner diameter of the thick matter delivery pipe (10), wherein the consistency of the
material located in a section of the thick matter delivery pipe (10) is determined via a
sensor (26), wherein a change in the consistency of the material causes the sensor (26) to
transmit a signal to the control unit (28), and wherein the control unit (28) actuates a
closure device (30) upon receiving this signal, as a result of which actuation the end-hose
(18) is narrowed or the end-hose (18) is closed.
9. Process according to claim 8, thereby characterized, that the fluid is compressed air,
which is introduced into the thick matter delivery pipe (10) via a compressor.
10. Process according to claim 8, thereby characterized, that the fluid is water, which is
introduced into a thick matter delivery pipe (10) via a water pump.
1 1. Process according to one of claims 8 through 10, thereby characterized, that the cleaning body (22) is introduced by a slide valve (20) provided at the inlet side of the thick matter delivery pipe (10).
12. Process according to one of claims 9 through 12, thereby characterized, that the sensor (26) recognizes al least two different predetermined material consistencies.
!WI'32257y.l 1

.\ 54 852 PCT/EP2005/002897
13. Process according to one of claims 8 through 12, thereby characterized, that the sensor
(26) impinges the thick matter delivery line (10) with ultrasound and determines the
material consistency by evaluation of the reflected ultrasound.
14. A squeeze valve insertable upon an end-hose (18) of a thick matter delivery line (10) for
use in a device according to one of claims 1| through 7 or, as the case may be, a process
S according to one of claims 8 through 13, characterized by a hose (34) of an elastomeric
material enclosing a ring-shaped hollow space (36), which hose (34) includes an inlet and outlet opening (40) for filling and emptyingithe hollow space (36) with a gas under pressure, and a ring-shaped jacket (44) receiving the hose (34) on its inside, which jacket prevents expansion of the hose in the radially outwards direction.
15. .Squeeze valve according to claim 14, thereby characterized, that the hose (34) is covered
on its outer side, opposite the hollow space (36), with a textile fabric layer (38).
16. Squeeze valve according to claim 14 or 15, thereby characterized, that the hose (34) is
embedded in a sleeve (32) of elastomeric material.
17. Squeeze valve according to claim 16, thereby characterized, that the sleeve (32)
surrounds the jacket (44).
18. Squeeze valve according to claim 16 or 17, thereby characterized, that the sleeve (32) has
the shape of a hollow cylinder and that its inner diameter is at least as large as the outer
diameter of the pipeline.
19. Squeeze valve according to one of claims 14 through 18, thereby characterized, that the
jacket (44) is comprised of a preferably multi-layer textile or fabric.
20. Squeeze valve according to one of claims 14 through 19, thereby characterized, that a
valve (42) is provided in the inlet and outlet-opening (40).

A 54 852 PCT/IiP2OO5'002897
2 1 A squeeze valve insertablc upon a flexible pipeline, in particular an end-hose (18) of thick matter delivery line (10), characterized by a hose (34) of an elastomeric materiel enclosing a ring-shaped hollow space (36), which hose (34) includes an inlet and out! opening (40) for filling andemptying the hollow space (36) with a gas under pressure and a ring-shaped jacket (44) receiving the hose (34) on its inside, which jacket prevt expansion of the hose in the radially outwards direction.
22. Squeeze valve according to claim 21, thereby characterized, that the hose (34) is cove
on its outer side, opposite the hollow space (36), with a textile fabric layer (38).
23. Squeeze valve according to claim 21 or 22, thereby characterized, that the hose (34) i:
embedded in a sleeve (32) of elastomeric material.
24. Squeeze valve according to claim 23. thereby characterized, that the sleeve (32)
surrounds the jacket (44).
25. Squeeze valve according to claim 23 or 24, thereby characterized, that the sleeve (32)
the shape of a hollow cylinder and that its inner diameter is at least as large as the outi
diameter of the pipeline.
26. Squeeze \al\e according to one of claims 21 through 25. thereby characterized, that ll
jacket (44) is comprised of a preferably multi-layer textile or fabric.
i
|
27. Squeeze valve according to one of claims 2 1 jthrough 26, thereby characterized, that a
valve (42) is provided in the inlet and outlet opening (40).

Documents:

02384-kolnp-2006 abstract.pdf

02384-kolnp-2006 claims.pdf

02384-kolnp-2006 correspondence others.pdf

02384-kolnp-2006 description (complete).pdf

02384-kolnp-2006 drawings.pdf

02384-kolnp-2006 form-1.pdf

02384-kolnp-2006 form-2.pdf

02384-kolnp-2006 form-3.pdf

02384-kolnp-2006 form-5.pdf

02384-kolnp-2006 international publication.pdf

02384-kolnp-2006 international search report.pdf

02384-kolnp-2006 pct form.pdf

02384-kolnp-2006 priority document.pdf

02384-kolnp-2006-correspondence others-1.1.pdf

02384-kolnp-2006-correspondence-1.2.pdf

02384-kolnp-2006-international search authority report-1.1.pdf

02384-kolnp-2006-other pct form.pdf

2384-KOLNP-2006-(12-02-2013)-ABSTRACT.pdf

2384-KOLNP-2006-(12-02-2013)-ANNEXURE TO FORM-3.pdf

2384-KOLNP-2006-(12-02-2013)-CLAIMS.pdf

2384-KOLNP-2006-(12-02-2013)-CORRESPONDENCE.pdf

2384-KOLNP-2006-(12-02-2013)-DESCRIPTION (COMPLETE).pdf

2384-KOLNP-2006-(12-02-2013)-DRAWINGS.pdf

2384-KOLNP-2006-(12-02-2013)-FORM-1.pdf

2384-KOLNP-2006-(12-02-2013)-FORM-2.pdf

2384-KOLNP-2006-(12-02-2013)-OTHERS.pdf

2384-KOLNP-2006-(12-02-2013)-PETITION UNDER RULE 137.pdf

2384-KOLNP-2006-(24-06-2008)-FORM 13.pdf

2384-KOLNP-2006-CORRESPONDENCE.pdf

2384-KOLNP-2006-DRAWINGS.pdf

2384-kolnp-2006-form 18.pdf

2384-KOLNP-2006-FORM 6.pdf

abstract-02384-kolnp-2006.jpg

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Patent Number

257637

Indian Patent Application Number

2384/KOLNP/2006

PG Journal Number

43/2013

Publication Date

25-Oct-2013

Grant Date

22-Oct-2013

Date of Filing

23-Aug-2006

Name of Patentee

PUTZMEISTER ENGINEERING GMBH

Applicant Address

MAX-EYTH-STRASSE 10, 72631 AICHTAL, GERMANY

Inventors:

#	Inventor's Name	Inventor's Address
1	MURTHUM, ERNST	70771 Leinfelden-Echterdingen
2	WEHNER, VOLKER	Brunnring 38, 72108 Rottenburg
3	SCHURAN, MAX	Wiesenweg 26, 21220 Seevetal
4	BUEHRER, KLAUS	Pulsstrasse 18, 70794 Filderstadt

PCT International Classification Number

B08B9/055

PCT International Application Number

PCT/EP2005/002897

PCT International Filing date

2005-03-18

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	102004015417.1	2004-03-26	Germany