Title of Invention	"PLAN SIFTER WITH VIBRATIONAL MOUNTINGS"
Abstract	The invention relates to a plan sifter with a self-supporting structure which is preferably used for sifting granular and flour-like products in mills. The object is discernibly to simplify the construction and assembly of such plan sifters and at the same time to improve the sanitation conditions. The object is achieved in that one or more double compartments mounted laterally against one another are combined with a universal drive unit.

Title of Invention

"PLAN SIFTER WITH VIBRATIONAL MOUNTINGS"

Abstract

The invention relates to a plan sifter with a self-supporting structure which is preferably used for sifting granular and flour-like products in mills. The object is discernibly to simplify the construction and assembly of such plan sifters and at the same time to improve the sanitation conditions. The object is achieved in that one or more double compartments mounted laterally against one another are combined with a universal drive unit.

Full Text	The invention relates to a plan sifter, in particular a square plan sifter and its structure with respect to the supporting elements. Plan sifters of this type are used, in particular, for sifting scrap, semolina- and/or flour-like products in mill process engineering and for sorting various types of vegetable grain such as wheat, rye or maize and generally for separating granular material into different grain sizes. Plan sifters, in particular large and square plan sifters, belong to the current state of the art, for example for separating and sieving/sifting or classifying ground cereal products. Operation of a plan sifter is influenced by many factors, natural limits to performance being imposed, even in the best condition. The intensity of the vibrating movement (maximum acceleration) is also restricted both by the moving behaviour of the ground product and by the maximum permitted forces in the housing. Performance data are therefore determined according to the specific quality of the individual fractions. A square plan sifter is known from WO 93/16815, which has a swinging drive which forces the plan sifter and all sieves to perform a rotating movement, the plan sifter usually being suspended as a whole on rods as a freely vibrating screen. With these plan sifters, horizontally arranged sieves having different mesh widths are superimposed vertically to form stacks. The sieves are assembled in the form of stacks and are pushed into cupboard-like sieve housings and fixed. The sieve housings are usually arranged symmetrically on either side of an unbalanced drive. The sieve housings form a supporting construction with the base plate and continuous cross bars. The sieve housings are rigidly connected at their front faces to the interposed drive housing via a connecting support. The unbalanced drive can have an unbalance mass which is connected to the drive shaft at a variable distance as a function of speed (EP-A-491331). According to DE-PS 2823623 the frame of such a plan sifter is designed as a supporting housing which receives and laterally supports the stack of sieves, with a housing base which forms a supporting base for the stack of sieves and on the upwardly directed lateral walls thereof. In a different form, a plan sifter according to DE-PS 2256307 has stack fixing devices which produce vertical forces, the forces of the vibration generator being transmitted via top and bottom elements of rigid stack frames which are resistant to vibration. The stack frames are characterised by two respective vertical elements which are each arranged in a plane containing the centre of gravity of the stack and at right angles to the longitudinal plane extending through the stack and the vibration generator and which are rigidly connected to the top and bottom elements of the stack frames. The vertical elements form the vertical edges of a square vibrating frame, the vibrating bearings of the plan sifter being arranged on these vertical elements. Although such constructions can sometimes be modular in design, they are expensive to produce. It is accordingly the object of the invention to design a generic plan sifter such that its production of the supporting structure is discernibly simplified by a further developed modular construction. Furthermore, the dead weight is simultaneously to be reduced and sanitation and accessibility improved within the limits imposed in terms of vibration. This object is achieved by the features of the characterising part of claim 1. Since the flow of force can be effected via the supporting structure, further possibilities for modularisation are afforded. The force flows more gently overall and a greater proportion of the flow of force can be conveyed via the stack of sieves in a manner which is beneficial to operation. A supporting structure of this type can obviously be compared with the state of the art according to DE-PS 2256307 only with respect to the basic elements of base, vertical supports and cover, but its detailed design is not obvious as it is not covered by the principles of vibration. In particular, the production and assembly of the parts of the supporting structure are simplified. The supporting structure of the plan sifter according to the invention consists of several double compartments which are connected to one another at the sides and are suspended by vertical supports at the ends. The double compartments consist of a cover and a base, which are connected by vertical profiles and form two (respective) compartments (sieve compartment) with lateral parts. A separate frame construction for base and cover is or can be dispensed with. The lateral parts are fastened positively and non-positively in the vertical profiles, the positive fastening ensuring tightness and therefore sanitation. Cold and warm bridges can be avoided by further insulation. An air duct in the vertical profiles can cause heating of the profile surface due to permeation with warm air from the cover, so condensation is avoided. Such an option may be worthwhile, in particular in the case of delicate products. The warm air stream can be prepared by removal from the product stream or also separately. The stacks of sieves can then be inserted and fixed, preferably purely positively, in the supporting structure. These stacks of sieves can be fixed both conventionally and, in a further embodiment of the invention, using pneumatic means. An elastic, inflatable element which ensures defined, uniform vertical fixing when filled with air and at the same time has a sound-damping effect is arranged in the space between stacks of sieves and cover. In contrast to conventional fixing which is effected from the exterior, fixing can be carried out more simply and compactly from the interior. In a further embodiment of" the invention, the external lateral parts and also the doors consist of sandwich constructions or foamed elements, these sandwich elements being known as such but not such an application. The doors are preferably inserted and fixed positively and non-positively between two vertical profiles and are therefore easy to use. Accordingly there is provided a plan sifter with vibratory mountings and at least two stacks of sieves which are formed by a number of superimposed sieves and are arranged in symmetrical layers opposite a vibration exciter, the stacks of sieves being fixed horizontally and vertically and the forces of the vibration exciter being transmitted to the stacks of sieves via sieve compartments which are stable to vibration and in that the stacks of sieves are held and fixed between four vertical profiles in each case, and lateral parts and doors which are inserted and fixed in an interlocking manner surround the stacks of sieves in a dust-tight manner, the doors simultaneously contributing to the fixing of the stacks of sieves, characterized in that the sieve compartments in the form of double compartments are designed as a module which can be mounted completely separately, at least one double compartment being provided, and the lateral parts are sandwich panels consisting of metallic facing panels and an intermediate layer of foam and in that, moreover, insulators are arranged in the vertical profiles and door profiles to avoid cold bridges, a connection to the lateral parts being provided. An embodiment of the invention is described in detail hereinafter with reference to drawings. Figure 1 is an exploded view of a plan sifter. Figure 2 shows a double compartment. Figure 3 is a sectional view of a compartment and a door. Figure 4 shows a cover, as viewed from below. Plan sifters of this type are operated in a suspended arrangement, but this is not shown in detail in the drawings. The unbalanced drive which is inserted laterally into the plan sifter as a separate module in contrast to the state of the art as an independent drive unit and is therefore connected to the double compartments is not shown in detail either. The drive unit represents an unbalanced drive with resonant motor in order, via the drive, to set the double compartments and therefore the stacked sieves into a vibrating movement which is normal with such plan sifters. As a square plan sifter, the plan sifter contains 5x2 stacks of sieves 9 in this embodiment, and similar arrangements of 1x2 stacks of sieves 9 can be made upwards. In this example, the supporting structure consists of five double compartments laterally - connected to one another and of four vertical supports 3 arranged on the transverse sides. The double compartments themselves consist of a base 1 and a cover 2 which are connected by vertical profiles 5 and form two compartments 4 with lateral parts 6. The driving unit is arranged in the space between the double compartments while allowing for the number of double compartments. The lateral parts 6 with a foam sandwich construction are fitted into the vertical profiles 5 in indentations 7 in the vertical profiles 5. Sieves arranged in stacks of sieves 9 are inserted and fixed in further recesses 8 in the vertical profiles 5. Complete horizontal fixing of the stacks of sieves 9 is guaranteed by the inserted doors 10 consisting of lateral parts 6 fitted in door profiles 15. The lateral parts 6 consist of metal covering plates 12 (preferably aluminium) and an intermediate layer of foam 13. Insulators (polymeric liner) 14 in the vertical profiles 5 act as cold bridges. The lateral parts 6 are merely inserted into the indentations 7 and fixed and adhered using gauges. The continuous cavities provided in the vertical profiles 5 optionally serve as an additional air duct for warm air and prevent condensation. The vertical profiles 5 themselves can consist of conventional commercial aluminium profiles. The frame of the door 10 is similar in design to the vertical profiles 5, even with respect to the connection to the door leaf (similar lateral part 6). The vertical profiles 5 themselves are connected to the base 1 and the cover 2 by screw connections so the necessary shape and strength is achieved and the force flows in the above-mentioned manner. Base 1 and cover 2 are laser-cut and bent into shape prior to coating. Covering elements (not shown) can be fastened on the outer corner parts of the vertical profiles 5 to obtain flush, smooth external contours of the plan sifter. The same applies to the upper and lower lateral edges. The lateral parts 6 can be coated with the necessary paint or the like, making further treatment before, during or after assembly unnecessary. In the space between the cover 2 and the uppermost sieve of a stack of sieves 9, a tubular element (not shown) is also optionally arranged substantially on the sieve frame to allow defined, vertical fixing of the stack of sieves 9 when filled with air or other gases. A uniform, measurable fixing force is applied, and this also increases the reliability of operation. A vibration generator can also be arranged according to DE-PS 2256307 and the sieving process will also take place in a similar manner. The drive is preferably pre-assembled as a module and is mounted separately, allowing transportation of a plan sifter to be carried out in modules and to be completed comparatively inexpensively on site. Key to reference numerals 1 base 2 cover 3 vertical support 4 compartment 5 vertical profile 6 lateral part 7 indentation 8 recess 9 stack of sieves 10 door 11 space 12 covering plate 13 foam 14 insulation 15 door profile We Claim: 1. Plan sifter with vibratory mountings and at least two stacks of sieves (9) which are formed by a number of superimposed sieves and are arranged in symmetrical layers opposite a vibration exciter, the stacks of sieves (9) being fixed horizontally and vertically and the forces of the vibration exciter being transmitted to the stacks of sieves (9) via sieve compartments which are stable to vibration and in that the stacks of sieves (9) are held and fixed between four vertical profiles (5) in each case, and lateral parts (6) and doors (10) which are inserted and fixed in an interlocking manner surround the stacks of sieves (9) in a dust-tight manner, the doors (10) simultaneously contributing to the fixing of the stacks of sieves (9), characterized in that the sieve compartments in the form of double compartments are designed as a module which can be mounted completely separately, at least one double compartment being provided, and the lateral parts (6) are sandwich panels consisting of metallic facing panels (12) and an intermediate layer of foam (13) and in that, moreover, insulators (14) are arranged in the vertical profiles (5) and door profiles (15) to avoid cold bridges, a connection to the lateral parts (6) being provided. 2. Plan sifter as claimed in claim 1, wherein the lateral parts (6) are f sandwich panels consisting of metal covering plates (12) and an intermediate layer of foam (13). 3. Plan sifter as claimed in claims 1 or 2, wherein insulators (14) are arranged in the vertical profiles (5) and door profiles (15) to prevent cold bridges, a connection with the lateral parts (6) being produced. 4. Plan sifter as claimed in claims 1 to 3, wherein a respective continuous air duct is provided in the vertical profiles (5). 5. Plan sifter as claimed in claim 1, wherein a flexible, inflatable element is arranged in a space between the cover (2) and the stack of sieves (9) on the uppermost sieve frame of the stack of sieves (9) for the vertical fixing of the stack of sieves (9). 6. Plan sifter as claimed in claim 1, wherein a driving unit with the vibration generator is a module which can be mounted completely separately. 7. Plan sifter as claimed in claim 1, wherein the sieve compartments in the form of double compartments are modules which can be mounted completely separately, at least one double compartment being provided. 8. Plan sifter as claimed in claim 1, wherein the elements are formed from two highly rigid layers (base (1) and cover (2)) and from a softer core (compartment (4)) similarly to the sandwich construction. 9. Plan sifter substantially as herein described with reference to the accompanying drawings.

Full Text

The invention relates to a plan sifter, in particular a square plan sifter and its structure with respect to the supporting elements.
Plan sifters of this type are used, in particular, for sifting scrap, semolina- and/or flour-like products in mill process engineering and for sorting various types of vegetable grain such as wheat, rye or maize and generally for separating granular material into different grain sizes.
Plan sifters, in particular large and square plan sifters, belong to the current state of the art, for example for separating and sieving/sifting or classifying ground cereal products.
Operation of a plan sifter is influenced by many factors, natural limits to performance being imposed, even in the best condition. The intensity of the vibrating movement (maximum acceleration) is also restricted both by the moving behaviour of the ground product and by the maximum permitted forces in the housing. Performance data are therefore determined according to the specific quality of the individual fractions.
A square plan sifter is known from WO 93/16815, which has a swinging drive which forces the plan sifter and all sieves to perform a rotating movement, the plan sifter usually being suspended as a whole on rods as a freely vibrating screen.
With these plan sifters, horizontally arranged sieves having different mesh widths are superimposed vertically to form stacks. The sieves are assembled in the form of stacks and are pushed into cupboard-like sieve housings and fixed. The sieve housings are usually arranged symmetrically on either side of an unbalanced drive. The sieve housings form a supporting construction with the base plate and continuous cross bars. The sieve housings are rigidly connected at their

front faces to the interposed drive housing via a connecting support. The unbalanced drive can have an unbalance mass which is connected to the drive shaft at a variable distance as a function of speed (EP-A-491331). According to DE-PS 2823623 the frame of such a plan sifter is designed as a supporting housing which receives and laterally supports the stack of sieves, with a housing base which forms a supporting base for the stack of sieves and on the upwardly directed lateral walls thereof. In a different form, a plan sifter according to DE-PS 2256307 has stack fixing devices which produce vertical forces, the forces of the vibration generator being transmitted via top and bottom elements of rigid stack frames which are resistant to vibration. The stack frames are characterised by two respective vertical elements which are each arranged in a plane containing the centre of gravity of the stack and at right angles to the longitudinal plane extending through the stack and the vibration generator and which are rigidly connected to the top and bottom elements of the stack frames. The vertical elements form the vertical edges of a square vibrating frame, the vibrating bearings of the plan sifter being arranged on these vertical elements.
Although such constructions can sometimes be modular in design, they are expensive to produce.
It is accordingly the object of the invention to design a generic plan sifter such that its production of the supporting structure is discernibly simplified by a further developed modular construction. Furthermore, the dead weight is simultaneously to be reduced and sanitation and accessibility improved within the limits imposed in terms of vibration. This object is achieved by the features of the characterising part of claim 1.
Since the flow of force can be effected via the supporting
structure, further possibilities for modularisation are
afforded. The force flows more gently overall and a greater
proportion of the flow of force can be conveyed via the stack

of sieves in a manner which is beneficial to operation. A supporting structure of this type can obviously be compared with the state of the art according to DE-PS 2256307 only with respect to the basic elements of base, vertical supports and cover, but its detailed design is not obvious as it is not covered by the principles of vibration. In particular, the production and assembly of the parts of the supporting structure are simplified. The supporting structure of the plan sifter according to the invention consists of several double compartments which are connected to one another at the sides and are suspended by vertical supports at the ends.
The double compartments consist of a cover and a base, which are connected by vertical profiles and form two (respective) compartments (sieve compartment) with lateral parts. A separate frame construction for base and cover is or can be dispensed with.
The lateral parts are fastened positively and non-positively in the vertical profiles, the positive fastening ensuring tightness and therefore sanitation. Cold and warm bridges can be avoided by further insulation. An air duct in the vertical profiles can cause heating of the profile surface due to permeation with warm air from the cover, so condensation is avoided. Such an option may be worthwhile, in particular in the case of delicate products. The warm air stream can be prepared by removal from the product stream or also separately.
The stacks of sieves can then be inserted and fixed, preferably purely positively, in the supporting structure. These stacks of sieves can be fixed both conventionally and, in a further embodiment of the invention, using pneumatic means. An elastic, inflatable element which ensures defined, uniform vertical fixing when filled with air and at the same time has a sound-damping effect is arranged in the space between stacks of sieves and cover. In contrast to conventional fixing which is effected from the exterior,
fixing can be carried out more simply and compactly from the interior.
In a further embodiment of" the invention, the external lateral
parts and also the doors consist of sandwich constructions or
foamed elements, these sandwich elements being known as such
but not such an application. The doors are preferably
inserted and fixed positively and non-positively between two vertical profiles and are therefore easy to use.
Accordingly there is provided a plan sifter with vibratory mountings and at least two stacks of sieves which are formed by a number of superimposed sieves and are arranged in symmetrical layers opposite a vibration exciter, the stacks of sieves being fixed horizontally and vertically and the forces of the vibration exciter being transmitted to the stacks of sieves via sieve compartments which are stable to vibration and in that the stacks of sieves are held and fixed between four vertical profiles in each case, and lateral parts and doors which are inserted and fixed in an interlocking manner surround the stacks of sieves in a dust-tight manner, the doors simultaneously contributing to the fixing of the stacks of sieves, characterized in that the sieve compartments in the form of double compartments are designed as a module which can be mounted completely separately, at least one double compartment being provided, and the lateral parts are sandwich panels consisting of metallic facing panels and an intermediate layer of foam and in that, moreover, insulators are arranged in the vertical profiles and door profiles to avoid cold bridges, a connection to the lateral parts being provided.
An embodiment of the invention is described in detail hereinafter with reference to drawings.
Figure 1 is an exploded view of a plan sifter.
Figure 2 shows a double compartment.
Figure 3 is a sectional view of a compartment and a door.
Figure 4 shows a cover, as viewed from below.
Plan sifters of this type are operated in a suspended arrangement, but this is not shown in detail in the drawings. The unbalanced drive which is inserted laterally into the plan sifter as a separate module in contrast to the state of the art as an independent drive unit and is therefore connected to
the double compartments is not shown in detail either.

The drive unit represents an unbalanced drive with resonant motor in order, via the drive, to set the double compartments and therefore the stacked sieves into a vibrating movement which is normal with such plan sifters.
As a square plan sifter, the plan sifter contains 5x2 stacks of sieves 9 in this embodiment, and similar arrangements of 1x2 stacks of sieves 9 can be made upwards. In this example, the supporting structure consists of five double compartments laterally - connected to one another and of four vertical
supports 3 arranged on the transverse sides. The double compartments themselves consist of a base 1 and a cover 2 which are connected by vertical profiles 5 and form two compartments 4 with lateral parts 6. The driving unit is arranged in the space between the double compartments while allowing for the number of double compartments. The lateral parts 6 with a foam sandwich construction are fitted into the vertical profiles 5 in indentations 7 in the vertical profiles 5. Sieves arranged in stacks of sieves 9 are inserted and fixed in further recesses 8 in the vertical profiles 5. Complete horizontal fixing of the stacks of sieves 9 is guaranteed by the inserted doors 10 consisting of lateral parts 6 fitted in door profiles 15. The lateral parts 6 consist of metal covering plates 12 (preferably aluminium) and an intermediate layer of foam 13. Insulators (polymeric liner) 14 in the vertical profiles 5 act as cold bridges. The lateral parts 6 are merely inserted into the indentations 7 and fixed and adhered using gauges.
The continuous cavities provided in the vertical profiles 5 optionally serve as an additional air duct for warm air and prevent condensation. The vertical profiles 5 themselves can consist of conventional commercial aluminium profiles.
The frame of the door 10 is similar in design to the vertical profiles 5, even with respect to the connection to the door leaf (similar lateral part 6).
The vertical profiles 5 themselves are connected to the base 1 and the cover 2 by screw connections so the necessary shape and strength is achieved and the force flows in the above-mentioned manner. Base 1 and cover 2 are laser-cut and bent into shape prior to coating.
Covering elements (not shown) can be fastened on the outer corner parts of the vertical profiles 5 to obtain flush, smooth external contours of the plan sifter. The same applies to the upper and lower lateral edges.
The lateral parts 6 can be coated with the necessary paint or the like, making further treatment before, during or after assembly unnecessary.
In the space between the cover 2 and the uppermost sieve of a stack of sieves 9, a tubular element (not shown) is also optionally arranged substantially on the sieve frame to allow defined, vertical fixing of the stack of sieves 9 when filled with air or other gases. A uniform, measurable fixing force is applied, and this also increases the reliability of operation.
A vibration generator can also be arranged according to DE-PS 2256307 and the sieving process will also take place in a similar manner. The drive is preferably pre-assembled as a module and is mounted separately, allowing transportation of a plan sifter to be carried out in modules and to be completed comparatively inexpensively on site.

Key to reference numerals
1 base
2 cover
3 vertical support
4 compartment
5 vertical profile
6 lateral part
7 indentation
8 recess
9 stack of sieves

10 door
11 space
12 covering plate
13 foam
14 insulation
15 door profile

We Claim:
1. Plan sifter with vibratory mountings and at least two stacks of sieves (9)
which are formed by a number of superimposed sieves and are arranged in symmetrical layers opposite a vibration exciter, the stacks of sieves (9) being fixed horizontally and vertically and the forces of the vibration exciter being transmitted to the stacks of sieves (9) via sieve compartments which are stable to vibration and in that the stacks of sieves (9) are held and fixed between four vertical profiles (5) in each case, and lateral parts (6) and doors (10) which are inserted and fixed in an interlocking manner surround the stacks of sieves (9) in a dust-tight manner, the doors (10) simultaneously contributing to the fixing of the stacks of sieves (9), characterized in that the sieve compartments in the form of double compartments are designed as a module which can be mounted completely separately, at least one double compartment being provided, and the lateral parts (6) are sandwich panels consisting of metallic facing panels (12) and an intermediate layer of foam (13) and in that, moreover, insulators (14) are arranged in the vertical profiles (5) and door profiles (15) to avoid cold bridges, a connection to the lateral parts (6) being provided.
2. Plan sifter as claimed in claim 1, wherein the lateral parts (6) are
f
sandwich panels consisting of metal covering plates (12) and an intermediate layer of foam (13).
3. Plan sifter as claimed in claims 1 or 2, wherein insulators (14) are
arranged in the vertical profiles (5) and door profiles (15) to prevent cold
bridges, a connection with the lateral parts (6) being produced.
4. Plan sifter as claimed in claims 1 to 3, wherein a respective continuous
air duct is provided in the vertical profiles (5).
5. Plan sifter as claimed in claim 1, wherein a flexible, inflatable element
is arranged in a space between the cover (2) and the stack of sieves (9) on the

uppermost sieve frame of the stack of sieves (9) for the vertical fixing of the stack of sieves (9).
6. Plan sifter as claimed in claim 1, wherein a driving unit with the
vibration generator is a module which can be mounted completely separately.
7. Plan sifter as claimed in claim 1, wherein the sieve compartments in
the form of double compartments are modules which can be mounted
completely separately, at least one double compartment being provided.
8. Plan sifter as claimed in claim 1, wherein the elements are formed from
two highly rigid layers (base (1) and cover (2)) and from a softer core
(compartment (4)) similarly to the sandwich construction.
9. Plan sifter substantially as herein described with reference to the
accompanying drawings.

Documents:

2421-del-1997-abstract.pdf

2421-del-1997-claims.pdf

2421-DEL-1997-Correspondence-Others-(18-08-2010).pdf

2421-del-1997-correspondence-others.pdf

2421-del-1997-correspondence-po.pdf

2421-del-1997-description (complete).pdf

2421-del-1997-drawings.pdf

2421-del-1997-form-1.pdf

2421-del-1997-form-13.pdf

2421-del-1997-form-19.pdf

2421-del-1997-form-2.pdf

2421-DEL-1997-Form-3-(18-08-2010).pdf

2421-del-1997-form-3.pdf

2421-del-1997-form-4.pdf

2421-del-1997-gpa.pdf

2421-del-1997-pct-210.pdf

2421-del-1997-petition-137.pdf

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Patent Number

243800

Indian Patent Application Number

2421/DEL/1997

PG Journal Number

46/2010

Publication Date

12-Nov-2010

Grant Date

08-Nov-2010

Date of Filing

27-Aug-1997

Name of Patentee

BUHLER AG

Applicant Address

CH-9240 UZWIL, SWITZERLAND.

Inventors:

#	Inventor's Name	Inventor's Address
1	MARC-LEON DEILLON	CH-9042 SPEICHER, SWITZERLAND.
2	CHRISTOPH KELLER	CH-9403 GOLDACH, SWITZERLAND.

PCT International Classification Number

B07B 1/49

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1	2042/96	1996-08-20	Switzerland