Title of Invention	A WEFT CONTROLLING DEVICE FOR USING WEFT AS WARP IN A STRAP WEAVING MACHINE
Abstract	A weft controlling device for using weft as warp in a strap weaving machine has motors mounted on an assembly board and controlling rods each movably connected to a corresponding one of the motors by a controlling thread and each controlling rod having a weft hole in a distal end thereof so as to allow weft to pass through the weft hole. Springs are each mounted around a corresponding one of the controlling rods to provide a recovery force to the corresponding controlling rod. The movement of the controlling rods by the motors is able to drive the weft to a specific position for selection by the strap weaving machine.

Title of Invention

A WEFT CONTROLLING DEVICE FOR USING WEFT AS WARP IN A STRAP WEAVING MACHINE

Abstract

A weft controlling device for using weft as warp in a strap weaving machine has motors mounted on an assembly board and controlling rods each movably connected to a corresponding one of the motors by a controlling thread and each controlling rod having a weft hole in a distal end thereof so as to allow weft to pass through the weft hole. Springs are each mounted around a corresponding one of the controlling rods to provide a recovery force to the corresponding controlling rod. The movement of the controlling rods by the motors is able to drive the weft to a specific position for selection by the strap weaving machine.

Full Text	WEFT CONTROLLING DEVICE FOR USING WEFT AS WARP IN A STRAP WEAVING MACHINE BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a controlling device, and more particularly to a weft controlling device for using weft as warp in a strap weaving machine. The controlling device has controlling rods each having a warp passing therethrough so that when a certain quantity of the controlling rods are selected, the warp passing through the selected controlling rods are then able to be used as the weft. 2. Description of Related Art Weaving technology for strap weaving machines has been developed for centuries. To have diversities in the woven patterns, different controlling devices for controlling the warp or the weft have been available in the market. Basically, a striped strap is woven by colorful warp. If the weft is also colorful, the woven fabric (the strap) becomes a checkered strap. As we all know, the checkered strap may contain different colors and patterns. In order to present the checkered straps with different patterns, weft controlling device plays a crucial role. The conventional weft controlling device is composed of an operation chain in combination with a disk. When the user wants to change the color of the weft, which involves e.g., 120 stitches in a complete cycle for changing the color, the operation chain will have the corresponding quantity of knots. Therefore, whenever there is a need for changing the color of the weft, the user will have to go through a lot of effort to change the configuration of the operation chain. After the configuration of the operation chain is determined, the operation chain in combination of the disk can only be used to weave the specific checkered strap. Another approach to solve the complexity of the existing problem in making the checkered strap is to use a controlling device to control the movement of the weft. However, when the controlling device is activated, the chekered strap will encounter a problem of having frayed side faces. Therefore, a heating method is adopted to eliminate the frayed side faces of the produced checkered strap, which utilizes the convergence of the heated frayed side faces of the checkered strap to be hidden inside the edge of the checkered strap. This method solves the existing problem though it still has the difficulty of simplifying the entire structure of the weaving machine. To overcome the shortcomings, the present invention tends to provide a weft controlling device to mitigate and obviate the aforementioned problems. The primary objective of the present invention is to provide a weft controlling device for using weft as warp so as not only to simplify the structure of the strap weaving machine, but also to accomplish the desired goal. In order to accomplish the foregoing objective, the weft controlling device has controlling rods each having a weft coming from a spindle therethrough. When a specific weft is chosen, the corresponding controlling rod is moved to a position so as to be woven into the fabric and the remaining weft will be woven into the fabric as warp. Another objective of the invention is that each of the controlling rods is controlled by an individual motor which may be a step motor or a server motor. Accordingly, the present invention provides a weft controlling device for using weft as warp in a strap weaving machine, the weft controlling device comprising: motors mounted on an assembly board; controlling rods each movably connected to a corresponding one of the motors by a controlling thread and each controlling rod having a weft hole in a distal end thereof so as to allow weft to pass through the weft hole; and springs each mounted around a corresponding one of the controlling rods to provide a recovery force to the corresponding controlling rod, whereby movement of the controlling rods by the motors is able to drive the weft to a specific position for selection by the strap weaving machine. Other objects, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic plan view showing the structure of the weft controlling device of the present invention; Fig. 2 is an exploded perspective view showing the parts mounted on an assembly board; Fig. 3 is a perspective view showing the controlling rods in combination with the controlling threads; Figs. 4 and 5 are a schematic views showing the relative operation on the assembly board and the controlling rods; and Fig. 6 is a perspective view showing the application of the weft controlling device of the present invention. DETAILED DESCRIPTION OF THR PREFERRED EMBODIMENT With reference to Figs. 1 and 2, the weft controlling device in accordance with the present invention has an assembly board (10), motors (20), controlling threads (30) and controlling rods (40). The assembly board (10) has multiple holes (11) defined therethrough for mounting the motors (20) thereon, a front casing (12) and a rear casing (14) together with the front casing (12) to partially enclose the assembly board (10). Each motor (20) is mounted on the assembly board (10) and has a motor shaft (21) extending out from a side of the assembly board (10) to be connected to a controlling lever (22). A first end face formed on top of the controlling lever (22) is provided with teeth (220) and a second end face oppositely formed on a bottom of the controlling lever (22) is connected to a first distal end of a resilient element (222). A second distal end of the resilient element (222) is positioned on the assembly board (10). The teeth (220) are provided for connecting with a first distal end of an operation thread (26). The assembly board (10) further has sets of guiding wheels (24), each set of guiding wheels (24) being securely yet rotatably mounted on the assembly board (10) to correspond to one of the operation threads (26). It is noted from the drawing that each set of the guiding wheels (24) contains three guiding wheels (24) each being so positioned as to guide the corresponding operation thread (26) to a specific location. A second distal end of the operation thread (26) is connected to a first distal end of a controlling thread (30). Because the connection between the operation thread (26) and the controlling thread (30) is conventional and is irrelevant to the essence of the present invention, the following detailed description gives no credit as to how the operation thread (26) and the controlling thread (30) are connected with each other. With reference to Fig. 3, it is seen that four controlling threads (30) pass through four corresponding controlling holes (320) in a controlling board (32). After passing through the corresponding controlling holes (320), each of the four controlling threads (30) connects to a first distal end of a controlling rod (40). The first distal end of the controlling rod (40) extends through a guiding board (42) to connect to a corresponding one of the controlling threads (30). A second distal end of each of the controlling threads (40) extends through a corresponding one of guiding holes (460) in a guiding plate (46) to allow the weft coming from a spindle (not shown) to extend through a weft hole (402) in the second distal end of the controlling rod (40). Each controlling rod (40) has a spring (44) mounted therearound. A first distal end of the springs (44) is securely mounted on the corresponding controlling rod (40) and a second distal end of the springs (44) abuts a bottom face of the guiding board (42) so that when a specific controlling rod (40) is moved, the corresponding spring (44) will provide the controlling rod (40) a recovery force so as to return the controlling rod (40) back to its original position. With reference to Figs. 4 and 5, the weft controlling device is controlled to move simultaneously and synchronously with the heddle. Due to the control mechanism being not the focus of the present invention, there will be no further description about how the weft controlling device is moving synchronously with the heddle. When a specific controlling rod (40) is selected, as shown in Fig. 5, the selected controlling rod (40) is lifted, which loosens the tension on the controlling operation thread (26). Accordingly, the corresponding controlling lever (22) will tilt to a certain angle for picking out by a weft weaving mechanism. With reference to Fig. 6, it is notable that when a specific controlling rod (40) is selected and is moved upward relative to the guiding plate (46), the weft passing through the weft hole (402) in the second distal end of the controlling rod (40) is also lifted, such that the weft controlling mechanism is able to use the selected weft to change the pattern of the checked strap. That is, if there are two controlling rods (40) each carrying a weft of a color are selected, when the weft controlling mechanism uses these two wefts, the woven strap will not be the same as the strap woven by only one weft. It is also noted that when the controlling rods (40) are not selected, all the wefts passing through the controlling rods (40) are used as warp woven into the strap (not shown). With the foregoing weft controlling device of the present invention, the selvedge of the strap is smooth and because the controlling rods (44) are able to be easily chosen to meet different requirements, the operation of the strap weaving machine is greatly simplified. It is to be understood, however, that even though numerous characteristics and advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed. WE CLAIM; 1. A weft controlling device for using weft as warp in a strap weaving machine, the weft controlling device comprising: motors (20) mounted on an assembly board (10); controlling rods (40) each movably connected to a corresponding one of the motors (20) by a controlling thread (30) and each controlling rod (40) having a weft hole (402) in a distal end thereof so as to allow weft to pass through the weft hole (402); and springs (44) each mounted around a corresponding one of the controlling rods (40) to provide a recovery force to the corresponding controlling rod (40), whereby movement of the controlling rods (40) by the motors (20) is able to drive the weft to a specific position for selection by the strap weaving machine. 2. The weft controlling device as claimed in claim 1 comprising an assembly board (10) for mounting thereon the motors (20). 3. The weft controlling device as claimed in claim 2, wherein the assembly board (10) has a front casing (12) and a rear casing (14) together with the front casing (12) to partially enclose the assembly board (10). 4. The weft controlling device as claimed in claim 2, wherein each motor (20) has a motor shaft (21) extending out from a side of the assembly board (10) to connect to a controlling lever (22), the controlling lever (22) having a first end connected to a resilient element (222) positioned on the assembly board (10) and a second end provided with teeth (220) for connection with a first end of an operation thread (26), a second end of the operation thread (26) connected to a corresponding one of the controlling threads (30). 5. The weft controlling device as claimed in claim 4, wherein the assembly board (10) has sets of guiding wheels (24) rotatably mounted on the assembly board (10). 6. The weft controlling device as claimed in claim 4, wherein each controlling thread (30) passes through a corresponding one of controlling holes (320) in a controlling board (32). 7. The weft controlling device as claimed in claim 6, wherein each controlling rod (40) extends through a corresponding one of guiding holes (460) in a guiding plate (46) to connect to a distal end of the controlling thread (30). 8. The weft controlling device as claimed in claim 7, wherein a first end of the spring (44) abuts a bottom face of the controlling board (32) and a second end of the spring (44) is securely mounted on the corresponding one of the controlling rods (40). 9. The weft controlling device as claimed in claim 8, wherein the motor (20) is a step motor. 10. The weft controlling device as claimed in claim 8, wherein the motor is a server motor. 11. A weft controlling device for using weft as warp in a strap weaving machine, substantially as herein described with reference to the accompanying drawings.

Full Text

WEFT CONTROLLING DEVICE FOR USING WEFT AS WARP IN A STRAP WEAVING MACHINE
BACKGROUND OF THE INVENTION
1. Field of the Invention
The present invention relates to a controlling device, and more particularly to a weft controlling device for using weft as warp in a strap weaving machine. The controlling device has controlling rods each having a warp passing therethrough so that when a certain quantity of the controlling rods are selected, the warp passing through the selected controlling rods are then able to be used as the weft.
2. Description of Related Art
Weaving technology for strap weaving machines has been developed for centuries. To have diversities in the woven patterns, different controlling devices for controlling the warp or the weft have been available in the market. Basically, a striped strap is woven by colorful warp. If the weft is also colorful, the woven fabric (the strap) becomes a checkered strap. As we all know, the checkered strap may contain different colors and patterns. In order to present the checkered straps with different patterns, weft controlling device plays a crucial role. The conventional weft controlling device is composed of an operation chain in combination with a disk. When the user wants to change the color of the weft, which involves e.g., 120 stitches in a complete cycle for changing the color, the operation chain will have the corresponding quantity of knots. Therefore, whenever there is a need for changing the color of the weft, the user will have to go through a lot of effort to change the configuration of the operation chain. After the configuration of the operation chain is determined, the operation chain in combination of the disk can only be used to weave the specific checkered strap.

Another approach to solve the complexity of the existing problem in making the checkered strap is to use a controlling device to control the movement of the weft. However, when the controlling device is activated, the chekered strap will encounter a problem of having frayed side faces. Therefore, a heating method is adopted to eliminate the frayed side faces of the produced checkered strap, which utilizes the convergence of the heated frayed side faces of the checkered strap to be hidden inside the edge of the checkered strap. This method solves the existing problem though it still has the difficulty of simplifying the entire structure of the weaving machine.
To overcome the shortcomings, the present invention tends to provide a weft controlling device to mitigate and obviate the aforementioned problems.
The primary objective of the present invention is to provide a weft controlling device for using weft as warp so as not only to simplify the structure of the strap weaving machine, but also to accomplish the desired goal.
In order to accomplish the foregoing objective, the weft controlling device has controlling rods each having a weft coming from a spindle therethrough. When a specific weft is chosen, the corresponding controlling rod is moved to a position so as to be woven into the fabric and the remaining weft will be woven into the fabric as warp.
Another objective of the invention is that each of the controlling rods is controlled by an individual motor which may be a step motor or a server motor.
Accordingly, the present invention provides a weft controlling device for using weft as warp in a strap weaving machine, the weft controlling device comprising: motors mounted on an assembly board; controlling rods each movably connected to a corresponding one of the motors by a controlling thread

and each controlling rod having a weft hole in a distal end thereof so as to allow weft to pass through the weft hole; and springs each mounted around a corresponding one of the controlling rods to provide a recovery force to the corresponding controlling rod, whereby movement of the controlling rods by the motors is able to drive the weft to a specific position for selection by the strap weaving machine.
Other objects, advantages and novel features of the invention will become more apparent from the following detailed description when taken in conjunction with the accompanying drawings.

BRIEF DESCRIPTION OF THE DRAWINGS
Fig. 1 is a schematic plan view showing the structure of the weft controlling device of the present invention;
Fig. 2 is an exploded perspective view showing the parts mounted on an assembly board;
Fig. 3 is a perspective view showing the controlling rods in combination with the controlling threads;
Figs. 4 and 5 are a schematic views showing the relative operation on the assembly board and the controlling rods; and
Fig. 6 is a perspective view showing the application of the weft controlling device of the present invention. DETAILED DESCRIPTION OF THR PREFERRED EMBODIMENT
With reference to Figs. 1 and 2, the weft controlling device in accordance with the present invention has an assembly board (10), motors (20), controlling threads (30) and controlling rods (40).
The assembly board (10) has multiple holes (11) defined therethrough for mounting the motors (20) thereon, a front casing (12) and a rear casing (14) together with the front casing (12) to partially enclose the assembly board (10).
Each motor (20) is mounted on the assembly board (10) and has a motor shaft (21) extending out from a side of the assembly board (10) to be connected to a controlling lever (22). A first end face formed on top of the controlling lever (22) is provided with teeth (220) and a second end face oppositely formed on a bottom of the controlling lever (22) is connected to a first distal end of a resilient element (222). A second distal end of the resilient element (222) is positioned on the assembly board (10).

The teeth (220) are provided for connecting with a first distal end of an operation thread (26). The assembly board (10) further has sets of guiding wheels (24), each set of guiding wheels (24) being securely yet rotatably mounted on the assembly board (10) to correspond to one of the operation threads (26). It is noted from the drawing that each set of the guiding wheels (24) contains three guiding wheels (24) each being so positioned as to guide the corresponding operation thread (26) to a specific location. A second distal end of the operation thread (26) is connected to a first distal end of a controlling thread (30). Because the connection between the operation thread (26) and the controlling thread (30) is conventional and is irrelevant to the essence of the present invention, the following detailed description gives no credit as to how the operation thread (26) and the controlling thread (30) are connected with each other.
With reference to Fig. 3, it is seen that four controlling threads (30) pass through four corresponding controlling holes (320) in a controlling board (32). After passing through the corresponding controlling holes (320), each of the four controlling threads (30) connects to a first distal end of a controlling rod (40).
The first distal end of the controlling rod (40) extends through a guiding board (42) to connect to a corresponding one of the controlling threads (30). A second distal end of each of the controlling threads (40) extends through a corresponding one of guiding holes (460) in a guiding plate (46) to allow the weft coming from a spindle (not shown) to extend through a weft hole (402) in the second distal end of the controlling rod (40). Each controlling rod (40) has a spring (44) mounted therearound. A first distal end of the springs (44) is securely mounted on the corresponding controlling rod (40) and a second distal end of the springs (44) abuts a bottom face of the guiding board (42) so that when a specific controlling rod (40) is moved, the corresponding spring (44) will

provide the controlling rod (40) a recovery force so as to return the controlling rod (40) back to its original position.
With reference to Figs. 4 and 5, the weft controlling device is controlled to move simultaneously and synchronously with the heddle. Due to the control mechanism being not the focus of the present invention, there will be no further description about how the weft controlling device is moving synchronously with the heddle.
When a specific controlling rod (40) is selected, as shown in Fig. 5, the selected controlling rod (40) is lifted, which loosens the tension on the controlling operation thread (26). Accordingly, the corresponding controlling lever (22) will tilt to a certain angle for picking out by a weft weaving mechanism.
With reference to Fig. 6, it is notable that when a specific controlling rod (40) is selected and is moved upward relative to the guiding plate (46), the weft passing through the weft hole (402) in the second distal end of the controlling rod (40) is also lifted, such that the weft controlling mechanism is able to use the selected weft to change the pattern of the checked strap. That is, if there are two controlling rods (40) each carrying a weft of a color are selected, when the weft controlling mechanism uses these two wefts, the woven strap will not be the same as the strap woven by only one weft. It is also noted that when the controlling rods (40) are not selected, all the wefts passing through the controlling rods (40) are used as warp woven into the strap (not shown).
With the foregoing weft controlling device of the present invention, the selvedge of the strap is smooth and because the controlling rods (44) are able to be easily chosen to meet different requirements, the operation of the strap weaving machine is greatly simplified.
It is to be understood, however, that even though numerous characteristics and

advantages of the present invention have been set forth in the foregoing description, together with details of the structure and function of the invention, the disclosure is illustrative only, and changes may be made in detail, especially in matters of shape, size, and arrangement of parts within the principles of the invention to the full extent indicated by the broad general meaning of the terms in which the appended claims are expressed.

WE CLAIM;
1. A weft controlling device for using weft as warp in a strap weaving machine, the weft controlling device comprising: motors (20) mounted on an assembly board (10); controlling rods (40) each movably connected to a corresponding one of the motors (20) by a controlling thread (30) and each controlling rod (40) having a weft hole (402) in a distal end thereof so as to allow weft to pass through the weft hole (402); and springs (44) each mounted around a corresponding one of the controlling rods (40) to provide a recovery force to the corresponding controlling rod (40), whereby movement of the controlling rods (40) by the motors (20) is able to drive the weft to a specific position for selection by the strap weaving machine.
2. The weft controlling device as claimed in claim 1 comprising an assembly board (10) for mounting thereon the motors (20).
3. The weft controlling device as claimed in claim 2, wherein the assembly board (10) has a front casing (12) and a rear casing (14) together with the front casing (12) to partially enclose the assembly board (10).
4. The weft controlling device as claimed in claim 2, wherein each motor (20) has a motor shaft (21) extending out from a side of the assembly board (10) to connect to a controlling lever (22), the controlling lever (22) having a first end connected to a resilient element (222) positioned on the assembly board (10) and a second end provided with teeth (220) for connection with a first end of an operation thread (26), a second end of the operation thread (26) connected to a corresponding one of the controlling threads (30).
5. The weft controlling device as claimed in claim 4, wherein the assembly board (10) has sets of guiding wheels (24) rotatably mounted on the assembly board (10).

6. The weft controlling device as claimed in claim 4, wherein each controlling
thread (30) passes through a corresponding one of controlling holes (320) in a
controlling board (32).
7. The weft controlling device as claimed in claim 6, wherein each controlling rod
(40) extends through a corresponding one of guiding holes (460) in a guiding plate
(46) to connect to a distal end of the controlling thread (30).
8. The weft controlling device as claimed in claim 7, wherein a first end of the spring (44) abuts a bottom face of the controlling board (32) and a second end of the spring (44) is securely mounted on the corresponding one of the controlling rods (40).
9. The weft controlling device as claimed in claim 8, wherein the motor (20) is a step motor.

10. The weft controlling device as claimed in claim 8, wherein the motor is a server motor.
11. A weft controlling device for using weft as warp in a strap weaving machine, substantially as herein described with reference to the accompanying drawings.

Documents:

256-mas-2002 abstract duplicate.pdf

256-mas-2002 abstract.pdf

256-mas-2002 claims duplicate.pdf

256-mas-2002 claims.pdf

256-mas-2002 correspondence others.pdf

256-mas-2002 correspondence po.pdf

256-mas-2002 description (complete) duplicate.pdf

256-mas-2002 description (complete).pdf

256-mas-2002 drawings duplicate.pdf

256-mas-2002 drawings.pdf

256-mas-2002 form-1.pdf

256-mas-2002 form-19.pdf

256-mas-2002 form-26.pdf

256-mas-2002 form-3.pdf

256-mas-2002 petition.pdf

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Patent Number

200436

Indian Patent Application Number

256/MAS/2002

PG Journal Number

08/2007

Publication Date

23-Feb-2007

Grant Date

17-May-2006

Date of Filing

05-Apr-2002

Name of Patentee

SHRI. CHEN-HUI LIN

Applicant Address

28, LIN 8, DA-TAN VILLAGE, KUAN-YIN HSIANG, TAOYUAN HEIEN, TAIWAN

Inventors:

#	Inventor's Name	Inventor's Address
1	CHENG-HSIUNG CHENG	28, LIN 8, DA-TAN VILLAGE, KUAN-YIN HSIANG, TAOYUAN HEIEN, TAIWAN

PCT International Classification Number

D03C 19/00

PCT International Application Number

N/A

PCT International Filing date

PCT Conventions:

#	PCT Application Number	Date of Convention	Priority Country
1			NA