CN220787557U - Automatic geotechnical cloth feeding equipment - Google Patents

Abstract

The utility model discloses automatic geotechnical cloth feeding equipment which comprises a base, wherein a supporting frame is slidably arranged on the base, a conveying table is arranged at the top of the supporting frame, two mutually symmetrical horizontal sliding rails are arranged on the base, when the geotechnical cloth feeding equipment is used, a first air cylinder pushes the supporting frame to slide along the base, the material receiving end of the conveying table is close to the feeding end of a geotechnical cloth production mechanism, deviation correction is carried out on geotechnical cloth through a deviation correcting mechanism, the front end of the geotechnical cloth is enabled to move to the position right below a conveying mechanism, at the moment, a second air cylinder drives a feeding belt to vertically descend, the feeding belt is enabled to be matched with the conveying table to clamp the front end of the geotechnical cloth, at the moment, the first air cylinder drives the supporting frame to move along the direction away from the feeding end of the base, and enables the two feeding plates to butt against a winding roller, so that the front end of the geotechnical cloth can accurately move to the position of the winding roller, and the aim of automatic feeding is achieved.

Description

Automatic geotechnical cloth feeding equipment

Technical Field

The utility model relates to the technical field of geotechnical cloth production, in particular to geotechnical cloth automatic feeding equipment.

Background

Because in geotechnical cloth rolling equipment, the wind-up roll has certain distance from geotechnical cloth conveying structure, geotechnical cloth is difficult to automatically move to the wind-up roll position geotechnical cloth winding in-process because of self hardness relation, and most of geotechnical cloth front ends need to be fixed in the wind-up roll manually.

Disclosure of Invention

The utility model aims to provide automatic geotextile feeding equipment so as to solve the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the automatic geotechnical cloth feeding equipment comprises a base, wherein a support frame is slidably arranged on the base, a conveying table is arranged at the top of the support frame, two mutually symmetrical horizontal sliding rails are arranged on the base, two horizontal sliding grooves matched with the horizontal sliding rails are formed in the bottom of the support frame, two mutually symmetrical connecting blocks are arranged on the base, a first air cylinder is arranged on each connecting block, and the first air cylinder is connected with the support frame;

the top of the conveying table is sequentially provided with a deviation correcting mechanism, a cutting mechanism and a conveying mechanism, two mutually symmetrical vertical sliding rails are arranged on the conveying mechanism, vertical sliding blocks are slidably arranged on the vertical sliding rails, side plates are arranged on the two vertical sliding blocks, two driving rollers are rotatably arranged between the two side plates, the two driving rollers are connected with the same feeding belt, one of them curb plate is last to be installed servo motor, and servo motor's action output shaft is installed on one of them driving roller, install two second cylinders of mutual symmetry on the transport mechanism, install the connecting plate on the action output of second cylinder, the connecting plate is installed on perpendicular slider, two the charge plate is all installed to the edge between the curb plate and the transport platform.

Preferably, a transmission cavity is formed in the deviation correcting mechanism, a transmission toothed roller is rotatably mounted in the transmission cavity, two transmission sliding blocks are slidably mounted in the transmission cavity, and transmission tooth grooves meshed with the transmission gears are formed in the transmission sliding blocks.

Preferably, a deviation rectifying rod is arranged at the bottom of the transmission sliding block.

Preferably, the support frame is rotatably provided with two support gears, and the base is axially provided with a guide rack meshed with the support gears.

Preferably, a hand wheel is rotatably arranged on the deviation correcting mechanism and connected to the transmission toothed roller.

Preferably, the installation block is installed on the deviation correcting mechanism, the connecting rod is rotatably installed on the installation block, and the meter counter is rotatably installed on the connecting rod.

Preferably, the action output end of the first cylinder is provided with a sleeve joint part, the support frame is provided with two mutually symmetrical connecting shafts, and the sleeve joint part is sleeved on the connecting shafts.

The beneficial effects of the utility model are as follows:

according to the utility model, through the structures such as the first cylinder and the supporting frame, the supporting frame is pushed to slide along the base through the first cylinder when the geotechnical cloth feeding device is used, the material receiving end of the conveying table is close to the feeding end of the geotechnical cloth production mechanism, the geotechnical cloth is corrected through the correction mechanism, the front end of the geotechnical cloth is enabled to move to the position right below the conveying mechanism, the feeding belt is driven to vertically descend through the second cylinder at the moment, the feeding belt and the conveying table are enabled to be matched to clamp the front end of the geotechnical cloth, the supporting frame is driven to move along the base in the direction away from the feeding end through the first cylinder at the moment, and the two feeding plates are enabled to be in butt joint with the winding roller, so that the front end of the geotechnical cloth can be accurately moved to the position of the winding roller, and the purpose of automatic feeding is achieved.

Drawings

Fig. 1 is a schematic structural view of an automatic geotextile feeding device according to the present utility model;

fig. 2 is a schematic cross-sectional structure of a deviation correcting mechanism of an automatic geotechnical cloth feeding device according to the present utility model;

FIG. 3 is a schematic top view of a conveying mechanism of an automatic geotextile feeding device according to the present utility model;

fig. 4 is a schematic side sectional structure of an automatic geotextile feeding apparatus according to the present utility model.

In the figure: 1. a base; 2. a support frame; 3. a conveying table; 4. a connecting block; 5. a first cylinder; 6. a socket; 7. a cutting mechanism; 8. a conveying mechanism; 9. a side plate; 10. a feeding belt; 11. a feeding plate; 12. a servo motor; 13. a deviation correcting mechanism; 14. a mounting block; 15. a connecting rod; 16. a meter counter; 17. a transmission cavity; 18. a transmission slide block; 19. a transmission tooth slot; 20. a driving toothed roller; 21. a deviation rectifying rod; 22. a horizontal chute; 23. a horizontal slide rail; 24. a connecting shaft; 25. a vertical slide rail; 26. a second cylinder; 27. a connecting plate; 28. a vertical slider; 29. a hand wheel; 30. and a driving roller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-4, an automatic geotechnical cloth feeding device comprises a base 1, wherein a support frame 2 is slidably arranged on the base 1, a conveying table 3 is arranged at the top of the support frame 2, two mutually symmetrical horizontal sliding rails 23 are arranged on the base 1, two horizontal sliding grooves 22 matched with the horizontal sliding rails 23 are formed in the bottom of the support frame 2, two mutually symmetrical connecting blocks 4 are arranged on the base 1, a first air cylinder 5 is arranged on each connecting block 4, and the first air cylinder 5 is connected with the support frame 2;

the top of carrying platform 3 installs rectifying mechanism 13, cutting mechanism 7 and transport mechanism 8 in proper order, two mutually symmetrical perpendicular slide rail 25 have been arranged on the transport mechanism 8, slidable mounting has perpendicular slider 28 on the perpendicular slide rail 25, all install curb plate 9 on two perpendicular sliders 28, two driving rollers 30 are installed in the rotation between two curb plates 9, be connected with same conveyer belt 10 on two driving rollers 30, install servo motor 12 on one of them curb plate 9, servo motor 12's action output shaft is installed on one of them driving roller 30, install two mutually symmetrical second cylinders 26 on the transport mechanism 8, install connecting plate 27 on the action output of second cylinder 26, connecting plate 27 installs on perpendicular slider 28, the charge plate 11 is all installed to the edge between two curb plates 9 and carrying platform 3.

Through the first cylinder 5 that is equipped with and structure such as support frame 2 to can be when using, promote support frame 2 through first cylinder 5 and slide along base 1, make the receiving end of carrying platform 3 be close to geotechnique cloth production mechanism's pay-off end, and rectify the geotechnique cloth through rectifying mechanism 13, make the front end of geotechnique cloth remove to the conveying mechanism 8 under, drive the feeding belt 10 through second cylinder 26 and descend perpendicularly this moment, make feeding belt 10 and carry platform 3 cooperation to press from both sides tight geotechnique cloth front end, drive support frame 2 through first cylinder 5 and follow base 1 and move to the direction of keeping away from the feeding end this moment, and make two delivery boards 11 dock with the wind-up roll on, rethread servo motor 12 drive driving roller 30 rotates, and then make feeding belt 10 rotate and make geotechnique cloth remove through feeding belt 10, and then make the front end of geotechnique cloth can be accurate remove to the position of wind-up roll, thereby realize automatic feed's purpose.

Specifically, in this embodiment, a transmission cavity 17 is formed in the deviation rectifying mechanism 13, a transmission toothed roller 20 is rotatably mounted in the transmission cavity 17, two transmission sliders 18 are slidably mounted in the transmission cavity 17, transmission tooth grooves 19 meshed with transmission gears are formed in the transmission sliders 18, and a deviation rectifying rod 21 is mounted at the bottom of the transmission sliders 18.

Through the mutual cooperation of the transmission toothed roller 20 and the transmission sliding blocks 18, the two transmission sliding blocks 18 can be driven to be close to or far away from each other when the transmission toothed roller 20 rotates, and the deviation correcting rod 21 is further made to be close to or far away from each other, so that geotechnical cloth with different width sizes can be fed conveniently, and the geotechnical cloth cannot deviate in the feeding process.

Specifically, in this embodiment, two support gears are rotatably installed on the support frame 2, and a guide rack meshed with the support gears is axially provided on the base 1.

Through the support gear who arranges, can support frame 2 to at support frame 2 along the base 1 in-process of removing, make support gear rotate on the rack guide, play fine stabilization to support frame 2's removal process.

Specifically, in this embodiment, a hand wheel 29 is rotatably installed on the deviation rectifying mechanism 13, and the hand wheel 29 is connected to the driving toothed roller 20.

Through the hand wheel 29 arranged, when the distance between the two deviation correcting rods 21 needs to be adjusted, the hand wheel 29 can be rotated to drive the transmission toothed roller 20 to rotate, and the purpose of adjusting the distance between the two deviation correcting rods 21 is achieved.

Specifically, in this embodiment, the installation block 14 is installed on the deviation rectifying mechanism 13, the connecting rod 15 is rotatably installed on the installation block 14, and the meter counter 16 is rotatably installed on the connecting rod 15.

The specific length of the feed can be detected well by the meter 16 arranged.

Specifically, in this embodiment, the socket connector 6 is installed at the motion output end of the first cylinder 5, two mutually symmetrical connecting shafts 24 are installed on the support frame 2, and the socket connector 6 is sleeved on the connecting shafts 24.

Through the socket joint 6 and the connecting shaft 24 which are arranged, the connection and the disassembly between the first air cylinder 5 and the supporting frame 2 can be facilitated, the maintenance and the replacement of the first air cylinder 5 are further facilitated, and the overhaul efficiency is further improved.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. Automatic geotechnical cloth feeding equipment, including the base, its characterized in that: the base is provided with two mutually symmetrical connecting blocks, the connecting blocks are provided with first air cylinders, and the first air cylinders are connected with the support frame;

the top of the conveying table is sequentially provided with a deviation correcting mechanism, a cutting mechanism and a conveying mechanism, two mutually symmetrical vertical sliding rails are arranged on the conveying mechanism, vertical sliding blocks are slidably arranged on the vertical sliding rails, side plates are arranged on the two vertical sliding blocks, two driving rollers are rotatably arranged between the two side plates, the two driving rollers are connected with the same feeding belt, one of them curb plate is last to be installed servo motor, and servo motor's action output shaft is installed on one of them driving roller, install two second cylinders of mutual symmetry on the transport mechanism, install the connecting plate on the action output of second cylinder, the connecting plate is installed on perpendicular slider, two the charge plate is all installed to the edge between the curb plate and the transport platform.

2. An automatic geotextile feeding apparatus according to claim 1, wherein: the correcting mechanism is internally provided with a transmission cavity, a transmission toothed roller is rotatably arranged in the transmission cavity, two transmission sliding blocks are slidably arranged in the transmission cavity, and transmission tooth grooves meshed with the transmission gears are formed in the transmission sliding blocks.

3. An automatic geotextile feeding apparatus according to claim 2, wherein: and a deviation correcting rod is arranged at the bottom of the transmission sliding block.

4. An automatic geotextile feeding apparatus according to claim 1, wherein: two support gears are rotatably arranged on the support frame, and a guide rack meshed with the support gears is axially arranged on the base.

5. An automatic geotextile feeding apparatus according to claim 1, wherein: and a hand wheel is rotatably arranged on the deviation correcting mechanism and connected to the transmission toothed roller.

6. An automatic geotextile feeding apparatus according to claim 1, wherein: install the installation piece on the mechanism of rectifying, install the connecting rod on the installation piece rotation, rotate on the connecting rod and install meter rice ware.

7. An automatic geotextile feeding apparatus according to claim 1, wherein: the action output end of the first cylinder is provided with a sleeve joint part, the support frame is provided with two mutually symmetrical connecting shafts, and the sleeve joint part is sleeved on the connecting shafts.