CN108726441B - Loom beam transporting and adjusting mechanism - Google Patents

Abstract

The invention relates to a beam transport and adjustment mechanism. The beam transportation and adjustment mechanism comprises an adjustment device, a driving device and a transportation device; the adjusting device comprises a hooking part, the hooking part comprises a connecting part and a hooking part, the connecting part is connected with the driving device, the hooking part is bent to be hooked, and the end part of the hooking part faces outwards; the driving device is connected to the conveying device, and can drive the hooking part to move by driving the connecting part to move; the conveying device is used for driving the hooking part to move by driving the driving device to move so as to realize the conveying of the loom beam. The beam transportation and adjustment mechanism can simplify the working flow of beam transportation and width adjustment, save time and force and greatly improve the production efficiency.

Description

Loom beam transporting and adjusting mechanism

Technical Field

The invention relates to the technical field of textile equipment, in particular to a beam transporting and adjusting mechanism.

Background

In the production of cloth, it is often necessary to transport the beam of a loom from one plant to another. Because the transportation distance is long, and the beam of a loom is large in volume and heavy in weight, the manual transportation work intensity is very high. Therefore, it is common to transport the beam of a loom using an electrotechnical transport vehicle. When transporting the beam, the electrician transport vehicle is to fork the side plates at two ends of the beam and transport the beam to another workshop. When the width of the beam, namely the distance between two side plates on the beam, needs to be adjusted, the existing operation method is that after an electrician transport vehicle unloads the beam to the ground, the beam core of the beam is taken by a forklift fork, and the two side plates on the beam are in a suspended state to finish adjustment.

Disclosure of Invention

Based on the above, it is necessary to provide a beam transporting and adjusting mechanism capable of realizing beam transportation and facilitating beam width adjustment, aiming at the problems of time and labor waste in the current beam transportation and beam width adjustment.

The specific technical scheme is as follows:

a beam transport and adjustment mechanism comprises an adjustment device, a driving device and a transport device;

the adjusting device comprises a hooking part, the hooking part comprises a connecting part and a hooking part, the connecting part is connected with the driving device, the hooking part is bent to be hooked, and the end part of the hooking part faces outwards;

the driving device is connected to the conveying device, and can drive the hooking part to move by driving the connecting part to move;

the conveying device is used for driving the hooking part to move by driving the driving device to move so as to realize the conveying of the loom beam.

In one embodiment, the adjusting device further comprises a transmission part, and the connecting part is connected with the driving device through the transmission part.

In one embodiment, the driving part comprises a first driving wheel and a driving belt, the first driving wheel is connected to the transporting device and located above the hooking part, one end of the driving belt is connected to the connecting part, the other end of the driving belt is connected to the periphery of the first driving wheel, and the driving device is connected to the first driving wheel to drive the first driving wheel to rotate.

In one embodiment, the transmission part further comprises a second transmission wheel, the second transmission wheel is connected to the conveying device and located below the first transmission wheel, the other end of the transmission belt is connected to the periphery of the second transmission wheel, the transmission belt winds around the first transmission wheel, and the driving device is connected to the second transmission wheel.

In one embodiment, the periphery of the second driving wheel is provided with gear teeth, the driving belt is a driving chain, and the second driving wheel is meshed with the driving belt.

In one embodiment, the number of the adjusting devices is two, the two connecting portions are oppositely arranged, the end portions of the two hooking portions face opposite directions, the two first driving wheels are parallel, the two second driving wheels are parallel, a driving gear is sleeved on a driving shaft of the driving device, and the driving gear is meshed with the two second driving wheels at the same time.

In one embodiment, the connecting portion and the hooking portion are in smooth transition.

In one embodiment, the device further comprises a control device, the driving device and the transporting device are both connected to the control device, the control device can control the driving device to drive the hooking part to move, and the control device can also control the transporting device to move.

In one embodiment, the handle is connected to the transporting device, and at least three rollers are connected to the bottom of the transporting device, wherein at least one of the rollers is a universal wheel.

In one embodiment, the device further comprises a power supply assembly, and the driving device and the transporting device are connected with the power supply assembly.

Compared with the prior art, the invention has the following beneficial effects:

according to the beam transporting and adjusting mechanism, the transporting device drives the driving device and the hooking part connected to the driving device to move to the position below the beam core of the hooking part, the driving device drives the connecting part to ascend to drive the hooking part to ascend to hook the beam core of the beam, and the transporting device drives the driving device and the hooking part connected to the driving device to move to a preset position. At this moment, the shaft core of the beam is positioned on the hooking part, the side plates of the beam are suspended, if the width of the beam needs to be adjusted, the connecting part is driven by the driving device and the hooking part is driven to lower the beam to a proper position, a worker can directly adjust the distance between the two side plates on the beam on the hooking part, the adjustment of the width of the beam is completed, and the beam is not required to be carried to other equipment. Therefore, the beam transportation and adjustment mechanism can simplify the working flow of beam transportation and width adjustment, save time and force and greatly improve the production efficiency.

According to the beam transporting and adjusting mechanism, the number of adjusting devices can be two, so that the simultaneous transportation of two beams can be realized, the time is saved to a greater extent, and the production efficiency is improved.

In addition, the beam transporting and adjusting mechanism further comprises a control device, the driving device and the transporting device are connected to the control device, the control device can control the driving device to drive the hooking part to move up and down to finish the forking of the beam, the movement of the transporting device can be controlled, and the automatic beam transporting is realized.

Drawings

FIG. 1 is a schematic view of a beam transport and adjustment mechanism according to an embodiment;

fig. 2 is a side view of the beam transport and adjustment mechanism shown in fig. 1.

Description of the reference numerals

10. A beam transport and adjustment mechanism; 100. an adjusting device; 110. a hooking part; 111. a connection part; 112. a hooking part; 120. a transmission member; 121. a transmission belt; 122. a first driving wheel; 123. a second driving wheel; 200. a driving device; 300. a transport device; 310. a handle; 320. a universal wheel; 400. a control device; 500. a power supply assembly; 20. a beam; 21. a shaft core; 22. and a side plate.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, one embodiment of the present invention relates to a beam transport and adjustment mechanism 10. The beam transport and adjustment mechanism 10 includes an adjustment device 100, a driving device 200, and a transport device 300.

The adjusting device 100 includes a hooking member 110, the hooking member 110 includes a connection portion 111 and a hooking portion 112, the connection portion 111 is connected to the driving device 200, the hooking portion 112 is curved to be hooked, and an end portion of the hooking portion 112 faces outward.

The driving device 200 is connected to the transporting device 300, and the driving device 200 can drive the hooking portion 112 to move by driving the connecting portion 111 to move.

The transporting device 300 is used for driving the hooking part 110 to move by driving the driving device 200 to move, so as to realize the transportation of the beam 20.

In a specific example, the adjusting device 100 further includes a transmission part 120, and the connection part 111 is connected to the driving device 120 through the transmission part 130.

Preferably, the driving part 120 includes a first driving wheel 122 and a driving belt 121, the first driving wheel 122 is connected to the transporting device 300 and located above the hooking part 110, one end of the driving belt 121 is connected to the connecting part 111, the other end of the driving belt 121 is connected to the periphery of the first driving wheel 122, and the driving device 200 is connected to the first driving wheel 122 for driving the first driving wheel 122 to rotate.

Further preferably, the transmission part 120 further includes a second transmission wheel 123, the second transmission wheel 123 is connected to the transporting device 300 and located below the first transmission wheel 122, the other end of the transmission belt 120 is connected to the periphery of the second transmission wheel 123, the transmission belt 121 bypasses the first transmission wheel 122, and the driving device 200 is connected to the second transmission wheel 123. By arranging the second driving wheel 123, the conveying belt 121 bypasses the first driving wheel 112 and is connected to the periphery of the second driving wheel 123, so that the problem that the driving belt 121 is possibly swayed at one end of the connecting part 111 when the driving device 200 directly drives the first driving wheel 122 to rotate, so that the driving shaft 20 is unstable can be avoided, and the driving shaft 20 is more stable in the ascending or descending process.

The first driving wheel 122 has a limit groove, and the limit groove can enable the conveyor belt 121 to be more firmly sleeved on the first driving wheel 122. The second driving wheel 123 has gear teeth on the periphery, and the driving belt 121 may be a driving chain, and the second driving wheel 123 is meshed with the driving belt 121. Because the transmission chain is connected with the periphery of the second transmission wheel 123, and the second transmission wheel 123 is meshed with the transmission chain, the forward rotation or reverse rotation of the second transmission wheel 123 is less than 360 degrees. To pull the beam 20 up off the ground, the circumference of the second drive wheel 123 should be greater than 150mm.

In a specific example, the driving device 200 may be a direct current motor. The direct current motor can rotate forward and backward, and can drive the second driving wheel 123 to rotate clockwise when the direct current motor rotates forward, and the driving chain is wound on the second driving wheel 123 to drive the connecting part 111 and the hooking part 112 to move upwards. When the direct current motor is reversed, the second driving wheel 123 can be driven to rotate anticlockwise, and the part of the driving chain meshed with the second driving wheel 123 on the second driving wheel 123 is released to drive the connecting part 111 and the hooking part 112 to move downwards.

In a specific example, the number of the adjusting devices 100 is two, the two connecting portions 111 are oppositely arranged, the end portions of the two hooking portions 112 face opposite directions, the two first driving wheels 122 are parallel, the two second driving wheels 123 are parallel, and a driving gear is sleeved on a driving shaft of the driving device 200 and meshed with the two second driving wheels 123 at the same time. The two hooking members 110 are each coupled to one of the transmission members 120 to ensure that either one of the hooking members 110 can be moved independently. The arrangement can realize simultaneous transportation of the two beam shafts 20, save time to a greater extent and improve production efficiency.

In a specific example, the connecting portion 111 and the hooking portion 112 smoothly transition. The connecting part 111 and the hooking part 112 of the hooking part 110 are in smooth transition, so that the beam 20 can be ensured not to slide relatively with the hooking part 110 in the transportation process of the beam transportation and adjustment mechanism 10, and the beam 20 is effectively prevented from sliding in the transportation process.

In a specific example, the beam transport and adjustment mechanism 10 described above further includes a control device 400. The control device 400 is disposed inside the transporting device 300, the driving device 200 and the transporting device 300 are both connected to the control device 400, the control device 400 can control the driving device 200 to drive the hooking member 110 to move, and the control device 400 can also control the transporting device 300 to move. The control device 400 controls the driving device 200 to drive the hooking part 110 to move so as to fork the loose core 21 of the beam 20, and controls the transporting device 300 to drive the driving device 200 to move and drive the hooking part 110 to move, so that the automatic transporting beam 20 of the beam transporting and adjusting mechanism 10 is realized.

Preferably, the control device 400 has a control switch. The control switch has a plurality of keys, and the keys at least include a start key, a stop key, an up key, and a down key, and the start key can control the start of the transport device 300, the stop key can control the stop of the transport device 300, the up key can control the driving device 200 to drive the hooking member 110 to rise, and the down key can control the driving device 200 to drive the hooking member 110 to fall.

In a specific example, the handle 310 is connected to the transporting device 300, and at least three rollers are connected to the bottom of the transporting device 300, where at least one of the rollers is a universal wheel 320. The handle 310 and the universal wheel 320 can realize movement of the transportation device 300 in all directions, so that the transportation device 300 can move flexibly and is not limited.

In a specific example, the beam transport and adjusting mechanism 10 further includes a power supply assembly 500, and the driving device 200 and the transporting device 300 are connected to the power supply assembly 500.

The power supply assembly 500 includes a first power supply and a second power supply. The first power source is connected to the outside of the transportation device 300, and is used for providing electric power to the transportation device 300. A second power source is connected to the inside of the transportation device 200, and the second power source is used to supply power to the driving device 200.

In the beam transport and adjustment mechanism 10 described above, the movement mode of the transport device 300 can be selected. First, the transporter 300 may be moved by manual pushing. The handle 310 is connected to the transporting device 300, at least three rollers are connected to the bottom of the transporting device 300, at least one of the rollers is a universal wheel 320, and a worker can push the transporting device 300 to move by manipulating the handle 310. Second, the transportation device 300 may be powered by a power supply assembly, and the control device 400 may control the transportation device 300 to move according to a set route.

In the above-mentioned beam transporting and adjusting mechanism 10, the transporting device 300 drives the driving device 200 and the hooking member 110 connected to the driving device 200 to move to a position where the hooking portion 112 of the hooking member 110 is located below the shaft 21 of the beam 20, the driving device 200 drives the connecting portion 111 to rise to drive the hooking portion 112 to rise to hook the shaft 21 of the beam 20, and the transporting device 300 drives the driving device 200 and the hooking member 110 connected to the driving device 200 to move to a predetermined position. At this time, the shaft core 21 of the beam 20 is located on the hooking portion 112, the side plates 22 of the beam 20 are suspended, if the width of the beam 20 needs to be adjusted, the driving device 200 drives the connecting portion 111 and drives the hooking portion 112 to lower the beam 20 to a proper position, a worker can directly adjust the distance between the two side plates 22 on the beam 20 on the hooking portion 112, and the width adjustment of the beam 20 is completed without being carried to other devices. Therefore, the beam transporting and adjusting mechanism can simplify the working flow of beam 20 transportation and width adjustment, save time and force, and greatly improve the production efficiency.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The above examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (6)

1. The beam transporting and adjusting mechanism is characterized by comprising an adjusting device, a driving device and a transporting device;

the adjusting device comprises a hooking part, the hooking part comprises a connecting part and a hooking part, the connecting part is connected with the driving device, the hooking part is bent to be hooked, and the end part of the hooking part faces outwards;

the driving device is connected to the conveying device, and can drive the hooking part to move by driving the connecting part to move;

the conveying device is used for driving the hooking part to move by driving the driving device to move so as to realize the conveying of the loom beam;

the adjusting device further comprises a transmission part, and the connecting part is connected with the driving device through the transmission part;

the transmission part comprises a first transmission wheel and a transmission belt, the first transmission wheel is connected to the conveying device and is positioned above the hooking part, one end of the transmission belt is connected to the connecting part, the other end of the transmission belt is connected to the periphery of the first transmission wheel, and the driving device is connected to the first transmission wheel and is used for driving the first transmission wheel to rotate; the first driving wheel is provided with a limiting groove, and the limiting groove can enable the driving belt to be sleeved on the first driving wheel;

the transmission part further comprises a second transmission wheel, the second transmission wheel is connected to the conveying device and located below the first transmission wheel, the other end of the transmission belt is connected to the periphery of the second transmission wheel, the transmission belt winds around the first transmission wheel, and the driving device is connected to the second transmission wheel;

the periphery of the second driving wheel is provided with gear teeth, the driving belt is a driving chain, and the second driving wheel is meshed with the driving belt.

2. The beam of a loom transportation and adjustment mechanism according to claim 1, wherein the number of said adjustment means is two, two said connecting portions are disposed opposite to each other, the end portions of two said hooking portions face opposite directions, two said first driving wheels are juxtaposed, two said second driving wheels are juxtaposed, a driving gear is sleeved on the driving shaft of said driving means, and said driving gear is simultaneously engaged with two said second driving wheels.

3. The beam transport and adjustment mechanism according to any one of claims 1 to 2, characterized in that the connecting portion and the hooking portion are smoothly transitioned.

4. The beam transport and adjustment mechanism according to any one of claims 1-2, further comprising a control device, wherein the driving device and the transport device are both connected to the control device, the control device is capable of controlling the driving device to drive the hooking member to move, and the control device is also capable of controlling the transport device to move.

5. The beam transport and adjustment mechanism according to any one of claims 1-2, characterized in that the transport device is connected with a handle, the bottom of the transport device is connected with at least three rollers, wherein at least one of the rollers is a universal wheel.

6. The beam transport and adjustment mechanism according to any one of claims 1-2, further comprising a power supply assembly, wherein the driving device and the transport device are both connected to the power supply assembly.