CN215247986U - Conveying gauge device - Google Patents

Abstract

The utility model relates to a carry and keep off rule device, it contains and keeps off rule subassembly, layer board and sliding seat, and the sliding seat is connected with the back-and-forth movement drive transmission, keeps off the rule subassembly and passes through the articulated shaft and even on the sliding seat, keeps off rule subassembly relative articulated shaft weight and sets up partially forward, keeps off rule subassembly clearance fit on the layer board, and the front side of layer board leaves the space of dodging that supplies to keep off the rule subassembly and turn over down. The gauge stopping component can move back and forth along with the movable seat; when the gauge stopping component moves forwards to the front side of the supporting plate, the gauge stopping component turns downwards around the hinged shaft to enable the gauge stopping component to avoid the position, and materials can be conveyed forwards smoothly after avoiding the position; when making the material continue to carry, keep off the rule subassembly and can advance and overturn downwards at the in-process that advances and give way, do not influence the material and continue to carry forward, do not influence the normal conveying speed of material to improve material conveying efficiency, the material passes through the back, keeps off the rule subassembly return and is in again on the position that blocks the material, waits for next material.

Description

Conveying gauge device

Technical Field

The utility model relates to a carry and keep off rule device.

Background

The material is conveyed in a plurality of ways, wherein it is common that the material is held by the conveyor and conveyed one by one. For example, the materials (such as paper, paperboard, paper boxes, artworks, production articles and the like) placed on the conveyor belt or the conveyor wheel or the conveyor roller and the like are supported one by one and conveyed forwards. When the materials are conveyed one by one to the front stop gauge, the materials are stopped by the stop gauge to be conveyed in place, the materials are correspondingly processed after being conveyed in place, and after the materials are processed, the materials are conveyed by the conveying device to move forward continuously, so that the processed materials can be output or conveyed to the next station; before the conveying is continued, the stop gauge needs to move to give way, and the moving giving way of the stop gauge is usually lifted or moved left and right relative to the conveying advancing direction. The mode that this kind of fender rule removed the position, can't satisfy the demand of faster operating speed, need keep off the rule and let the position after completely, just can continue to carry the material and advance, influence speed, efficiency is lower.

SUMMERY OF THE UTILITY MODEL

In view of the technical problem who exists among the background art, the utility model aims at providing a carry and keep off rule device. This carry and keep off rule device cooperation material and carry, be used for the front side to block the material and fix a position, spacing in the material is carried to when letting the position supply material continue to carry, its keeps off rule subassembly and can advance and overturn downwards at the in-process that advances and let the position, does not influence the material and continues to carry forward, does not influence the normal transport speed of material, so that improve material transport efficiency.

In order to solve the technical problem, the utility model discloses a following technical scheme: carry and keep off rule device, including keeping off rule subassembly, layer board and sliding seat, its characterized in that: the movable seat is connected with the front-back movement driving device in a transmission mode, the gauge blocking component is connected to the movable seat through an articulated shaft, the gauge blocking component is arranged forward and heavier relative to the weight of the articulated shaft, the gauge blocking component is in sliding fit or rolling fit on the supporting plate, and an avoiding space for downward turning of the gauge blocking component is reserved on the front side of the supporting plate. The gauge stopping component of the conveying gauge stopping device can move back and forth along with the movable seat; when the gauge stopping component moves forwards to the front side of the supporting plate, the gauge stopping component overturns downwards around the hinge shaft, so that the gauge stopping component can avoid the position, and materials can be conveyed forwards smoothly after avoiding the position; after the materials are conveyed forwards and pass through the rear part, the movable seat moves backwards, the stop gauge assembly overturns upwards to return, returns to the supporting plate and moves backwards, and is used for stopping the materials after the materials move backwards in place, so that the materials are positioned and limited. The conveying gauge blocking device is matched with material conveying, and during forward conveying of materials, the gauge blocking assembly blocks the materials at the front side to position and limit; when the material continues to be conveyed, the stop gauge component can advance and overturn downwards in the advancing process to yield, the material is not influenced to continue to be conveyed forwards, the normal conveying speed of the material is not influenced, the material conveying efficiency is improved, and after the material passes through the return device, the stop gauge component returns to be located at the position blocking the material again to wait for the next material.

The following optimization or supplementary explanation can be performed on the technical scheme.

For example, the back-and-forth movement driving device comprises a servo motor and a transmission assembly, the servo motor is in transmission connection with the transmission assembly, and the transmission assembly is in transmission connection with the movable seat. Adopt servo motor drive sliding seat back-and-forth movement, convenient debugging can debug and satisfy different stroke demands, and is more practical, wherein can debug the position that keeps off rule subassembly return (returning), lets it accurately stop the material and fix a position, spacing, lets through the debugging that keep off rule subassembly can satisfy the location, the spacing demand of different batches, different specification materials.

In addition, the hinge shaft is located at the front end of the movable seat. Compact structure, installation processing are convenient, keep off rule subassembly upset downwards and upset upwards more smoothly.

Preferably, a cushion block is additionally arranged on the front side wall of the supporting plate. The cushion block can be made of different materials so as to be convenient for replacing the cushion block and reduce the noise of collision.

The movable seat can be optimized and arranged on the track in the front and back directions. The front and back movement of the movable seat is smoother and smoother.

Still further optimize, the track sets up the rear side at the layer board. The structure layout is reasonable, and the processing and the assembly are more convenient.

For another example, the conveying gauge device further comprises a supporting seat, the front-back movement driving device and the supporting plate are arranged on the supporting seat, and the movable seat is arranged on the supporting seat. The conveying gauge blocking device is integrally positioned on the supporting seat, so that the conveying gauge blocking device is convenient to disassemble and assemble, and the position of the supporting seat is adjusted subsequently so as to adapt to a conveying device or materials.

In addition, the movable seat is connected with a housing which is provided with a material supporting surface and is covered above the supporting plate, the movable seat and the track. Can cover the sliding seat through the housing, also can cover the track, protect, the material can be held by the housing cooperation simultaneously.

And optimization can be carried out again, for example, the gauge blocking assembly comprises a mounting seat and a gauge blocking plate, the gauge blocking plate is arranged on the mounting seat, and the hinge shaft is arranged between the mounting seat and the movable seat. The gauge stopping assembly is convenient to assemble, reasonable in structure and smooth in operation.

The beneficial effects of the utility model are that, the fender rule subassembly among this transport fender rule device can enough cooperate and stop the material to advance, carry out the material location, it is spacing, can cooperate when the material continues to carry forward to advance again and overturn downwards and step down, do not influence the material and continue to carry forward, do not influence the normal transport speed of material, overcome need dodge among the prior art after just can continue to carry the not enough of material, improved material conveying efficiency, it is more practical, this transport fender rule device can be used for cooperating conveyor to carry out the material and carry. Therefore, compared with the prior art, the utility model has substantive characteristics and progress.

Drawings

The following describes details and operational principles of embodiments and examples of the present invention with reference to the drawings.

Fig. 1 is a schematic perspective view of the middle conveying gauge device of the present invention.

Fig. 2 is a schematic diagram of the exploded structure of fig. 1.

Fig. 3 is a schematic view of a hidden part structure in fig. 1.

Fig. 4 is a schematic structural view of fig. 1 from another angle.

In the figure: 15. a gauge block assembly; 16. a support plate; 17. a movable seat; 18. a forward-backward movement driving device; 19. hinging a shaft; 20. a servo motor; 21. a transmission assembly; 22. cushion blocks; 23. a track; 24. a supporting seat; 25. a housing; 26. a mounting seat; 27. a gauge block member; 28. and (5) clamping blocks.

Detailed Description

The technical solution in the embodiment of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiment of the present invention; obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention based on the embodiments of the present invention.

Referring to the drawings, in the embodiment of the present invention, the conveying gauge device includes a gauge assembly 15, a supporting plate 16 and a movable seat 17. The movable seat 17 is in transmission connection with a forward-backward movement driving device 18, and the forward-backward movement driving device 18 drives the movable seat 17 to move forward and backward, and the forward movement is the same as the forward direction of material conveying.

Wherein, keep off rule subassembly 15 and connect on sliding seat 17 through articulated shaft 19, keep off rule subassembly 15 and can cross along with the back-and-forth movement of sliding seat 17 to keep off rule subassembly 15 and can rotate around articulated shaft 19 around sliding seat 17 relatively, can let keep off rule subassembly 15 and overturn downwards and upwards overturn relatively sliding seat 17.

The gauge assembly 15 is disposed forwardly biased with respect to the weight of the hinge shaft 19, and the gauge assembly 15 is relatively heavy in weight at a front portion of the hinge shaft 19. The gauge assembly 15 is movably fitted (for example, sliding fit or rolling fit) on the supporting plate 16, and an avoidance space for turning down the gauge assembly 15 is reserved on the front side of the supporting plate 16. In the process that the gauge stopping assembly 15 moves back and forth along with the movable seat 17, the gauge stopping assembly 15 is supported by the supporting plate 16 to move; and when the gauge stopping assembly 15 moves forward along with the movable seat 17 to the front side of the supporting plate 16 without supporting and supporting, the gauge stopping assembly 15 turns downwards around the hinge shaft 19, the gauge stopping assembly 15 turns downwards to avoid, and the position is made available for materials to pass forwards smoothly.

According to the working principle, the material is supported by a conveying device (such as a conveying belt or a conveying wheel or a conveying roller) to be conveyed and moved forward to the position of the gauge stopping assembly 15, the gauge stopping assembly 15 in the embodiment stops the material, and the positioning and the limiting of the material are realized so as to process the material; after the materials are processed, the conveying device continues to convey the materials to move forward, the gauge blocking assembly 15 can move forward along with the movable seat 17 at the moment, the materials are not influenced to be conveyed to move forward, and when the gauge blocking assembly 15 moves forward to the front side of the supporting plate 16 along with the movable seat 17, the gauge blocking assembly 15 is not supported by the supporting plate 16, and the gauge blocking assembly 15 turns over downwards (namely turns over) to avoid, so that the materials can pass; after the materials pass through, the movable seat 17 retreats, the stop gauge assembly 15 is upwards overturned by being propped by the supporting plate 16, returns to the supporting plate 16 again, then continuously retreats along with the movable seat 17 to return to the position where the materials are stopped again, and waits for the next material.

The gauge stopping component 15 of the conveying gauge stopping device can move back and forth along with the movable seat 17; when the gauge stopping assembly 15 moves forwards to the front side of the supporting plate 16 along with the movable seat 17, the gauge stopping assembly 15 turns downwards around the hinge shaft 19, so that the gauge stopping assembly 15 can avoid the position, and materials can be conveyed forwards smoothly after avoiding the position; after the materials are conveyed forwards and pass through the rear part, the movable seat 17 moves backwards, the gauge blocking assembly 15 overturns upwards to return, the gauge blocking assembly 15 returns to the supporting plate 16 and moves backwards, and the materials are blocked after the materials move backwards in place, so that the materials are positioned and limited. The conveying gauge blocking device is matched with material conveying, and during forward conveying of materials, the gauge blocking assembly 15 blocks the materials at the front side to position and limit; when the material continues to be carried, keep off rule subassembly 15 and can advance and overturn downwards at the in-process of advancing and give way, do not influence the material and continue to carry forward, do not influence the normal conveying speed of material to improve material conveying efficiency, the material passes through the back, keeps off rule subassembly 15 return and is in again on the position that blocks the material, waits for next material. The shortcoming that materials can be continuously conveyed after avoiding in the prior art is overcome, the conveying gauge device is more practical, and the conveying gauge device can be used for being matched with a conveying device to convey materials.

The following optimization or further explanation can be made on the basis of the above embodiment.

The movable base 17 is driven by the forward-backward movement driving device 18 to move forward and backward, for example, the forward-backward movement driving device 18 is driven by an air cylinder or a motor. In the embodiment, an optimized mode is adopted, wherein the forward-backward movement driving device 18 comprises a servo motor 20 and a transmission assembly 21; the servo motor 20 is in transmission connection with the transmission component 21, and the transmission component 21 is in transmission connection with the movable seat 17; the transmission assembly 21 may mainly comprise a transmission belt (such as a synchronous belt, not shown in the figure) and a transmission wheel, the transmission belt is clamped by a clamping block 28, the clamping block 28 is connected with the movable seat 17 and drives the movable seat 17 to move back and forth in a matching manner, and the transmission assembly 21 may also adopt other structures such as a rack and pinion structure or a screw nut structure; adopt servo motor 20 drive sliding seat 17 back-and-forth movement, can debug the front and back position that keeps off rule subassembly 15 return (back), let keep off rule subassembly 15 accuracy and block the material and fix a position, spacing, let keep off rule subassembly 15 can satisfy the location, the spacing demand of different batches, different specification materials through the debugging, can control servo motor 20 and drive the distance that sliding seat 17 moved the back-and-forth movement, the debugging is comparatively convenient, can debug and satisfy different stroke demands, it is more practical. During debugging, manual inching debugging can be performed, the servo motor 20 drives the movable seat 17 to move step by step, and the position of the gauge stopping component 15 is slowly adjusted to a proper position, so that the driving stroke of the servo motor 20 is debugged and determined; the debugging (or trial calibration) mode driven by the servo motor is not only used for the debugging mode, but also can be used for a plurality of devices or mechanisms in the carton box manufacturing equipment, during trial calibration, the servo motor is operated to drive the target part (such as the transmission assembly in the embodiment) to move step by step, the servo motor is generally operated by inching to drive, and the target part is driven to move to a proper position to drive the driving stroke of the servo motor, so that the debugging mode is more practical.

In addition, the hinge shaft 19 is located at the front end portion of the movable seat 17. The movable seat 17 and the gauge stopping assembly 15 are compact in structure and convenient to install and process, and the gauge stopping assembly 15 can be overturned downwards and upwards more smoothly.

It is also preferred that a spacer 22 is additionally provided on the front side wall of the pallet 16. The cushion block 22 can be made of different materials (such as rubber), and the cushion block 22 can be worn and replaced, so that the noise of collision can be reduced.

Preferably, the movable seat 17 is disposed on the front and rear rails 23. When the movable seat 17 moves back and forth, the movable seat 17 moves along the track 23, and the movable seat 17 moves more smoothly. The rail 23 is provided in many ways, for example, a guide groove or a slide rail is adopted, the movable seat 17 can move back and forth in a sliding or rolling manner, the rail 23 is adopted in the figure, and the movable seat 17 moves back and forth in a sliding manner.

Further optimizing, the position of track 23 can set up the rear side at layer board 16, and structural configuration is reasonable, and processing, assembly are more convenient. Of course the position of the rails 23 may also be at other positions, such as on both sides or in the middle of the pallet 16.

For another example, the conveying gauge device further includes a supporting seat 24 (e.g., a supporting plate), the forward-backward movement driving device 18 and the supporting plate 16 are installed on the supporting seat 24, and the movable seat 17 is disposed on the supporting seat 24. The conveying gauge blocking device is integrally positioned on the supporting seat 24, so that the whole device is convenient to disassemble and assemble, and the position of the supporting seat 24 is adjusted to adapt to conveying devices or materials with different specifications. In the figure, the support base 24 has a transverse guide hole 29 for subsequent arrangement on a transverse guide rail, and also can be adjusted in transverse position by a motor.

Furthermore, the movable seat 17 is connected with a cover 25, the cover 25 has a material supporting surface, and the cover 25 is covered above the supporting plate 16, the movable seat 17 and the rail 23. The movable seat 17 and the track 23 can be covered by the housing 25 for protection, and meanwhile, materials can be supported by the housing 25 in a matching way, so that the structure is prevented from being exposed, and articles are prevented from falling in the structure to influence normal operation; and the provision of the housing 25 ensures that rotation of the mounting 26 or gauge assembly 15 does not interfere with the transport and blocking of material (e.g. cardboard) and cause additional displacement of the material.

The gauge assembly 15 generally includes a gauge member 27 (e.g., a gauge plate or gauge block, etc.). In the embodiment, the optimized structure is that, for example, the gauge blocking assembly 15 includes an installation seat 26 and a gauge blocking plate, the gauge blocking plate is installed on the installation seat 26, and the hinge shaft 19 is arranged between the installation seat 26 and the movable seat 17; the gauge stopping assembly 15 is convenient to assemble, reasonable in structure and smooth in operation; by means of the mounting seat 26, forward bias setting of the weight of the gauge blocking assembly 15 relative to the weight of the hinge shaft 19 is conveniently achieved, and bias can be performed by means of the weight of the mounting seat 26. In the figure, the gauge plate is an L-shaped plate, so that the installation is convenient, and other shapes can be adopted.

The foregoing is a preferred embodiment of the present invention, and it should be noted that the scope of the present invention is not limited thereto. For those skilled in the art, without departing from the scope of the present invention, it should be understood that various modifications, enhancements and equivalents may be made without departing from the scope of the present invention.

Claims (9)

1. Carry and keep off rule device, including keeping off rule subassembly (15), layer board (16) and sliding seat (17), its characterized in that: the movable seat (17) is in transmission connection with the front-back movement driving device (18), the gauge blocking component (15) is connected to the movable seat (17) through a hinge shaft (19), the gauge blocking component (15) is arranged in a forward biased mode relative to the weight of the hinge shaft (19), the gauge blocking component (15) is in sliding fit or rolling fit on the supporting plate (16), and an avoiding space for downward turning of the gauge blocking component (15) is reserved on the front side of the supporting plate (16).

2. The conveyor bar gauge apparatus of claim 1, wherein: the front-back movement driving device (18) comprises a servo motor (20) and a transmission component (21), the servo motor (20) is in transmission connection with the transmission component (21), and the transmission component (21) is in transmission connection with the movable seat (17).

3. The conveyor bar gauge apparatus of claim 1, wherein: the hinge shaft (19) is positioned at the front end part of the movable seat (17).

4. The conveyor bar gauge apparatus of claim 1, wherein: the front side wall of the supporting plate (16) is also provided with a cushion block (22).

5. The conveyor bar gauge apparatus of claim 1, wherein: the movable seat (17) is arranged on a track (23) which runs in the front-back direction.

6. The conveyor bar of claim 5, wherein: the rail (23) is provided on the rear side of the pallet (16).

7. The conveyor bar gauge apparatus of claim 1, wherein: the device also comprises a supporting seat (24), a front-back movement driving device (18) and a supporting plate (16) are arranged on the supporting seat (24), and a movable seat (17) is arranged on the supporting seat (24).

8. The conveyor bar of claim 5, wherein: the movable seat (17) is connected with a cover shell (25), the cover shell (25) is provided with a material supporting surface, and the cover shell (25) is covered above the supporting plate (16), the movable seat (17) and the track (23).

9. The conveyor bar gauge apparatus of claim 1, wherein: the gauge blocking component (15) comprises an installation seat (26) and a gauge blocking plate, the gauge blocking plate is arranged on the installation seat (26), and the hinge shaft (19) is arranged between the installation seat (26) and the movable seat (17).

Images