CN220664373U - Protection structure of geotechnical cloth automatic feeding equipment - Google Patents

Abstract

The utility model discloses a protection structure of automatic geotechnical cloth feeding equipment, which comprises a conveying table and a winding device, wherein a cutting device and a compressing and conveying device are sequentially arranged on the conveying table, the winding device is positioned close to the compressing and conveying device, a first end plate is rotatably arranged at one end of the conveying table close to the winding device, a plurality of electric telescopic rods are movably arranged between the first end plate and the conveying table, a second end plate is rotatably arranged at one end of the compressing and conveying device, a plurality of connecting rods are slidably arranged on the second end plate, and each connecting rod is rotatably arranged at one end of the compressing and conveying device.

Description

Protection structure of geotechnical cloth automatic feeding equipment

Technical Field

The utility model relates to the technical field of geotechnical cloth production and processing, in particular to a protection structure of geotechnical cloth automatic feeding equipment.

Background

The geotextile is also called geotextile, is a permeable geotextile material formed by needling or braiding synthetic fibers, is one of new material geotextile materials, is in a cloth shape, is divided into a woven geotextile and a non-woven filament geotextile, has excellent filtering, draining, isolating, reinforcing, seepage preventing and protecting effects, and has the characteristics of light weight, high tensile strength, good permeability, high temperature resistance, freezing resistance, aging resistance and corrosion resistance.

In the automatic winding system in the geotechnical cloth production process, after winding is completed, the height of the bottom of the coiled material is slightly lower than the height of the table surface of the conveying table, after the current winding procedure is completed, the geotechnical cloth in front of feeding is cut by a cutting knife, and then the residual unreeled geotechnical cloth (part of geotechnical cloth between the cutting knife and the winding roller) is wound by a winding roller. However, in the final winding step, due to the hardness of the geotextile, the end of the geotextile is easy to generate high-force friction with the end of the conveying table, and damage is caused to the conveying table or the geotextile, so that a protection structure of the geotextile automatic feeding device is needed to meet the demands of people.

Disclosure of Invention

The utility model aims to provide a protection structure of automatic geotextile feeding equipment, which solves the problem that the tail end of geotextile is easy to generate large-force friction with the tail end of a conveying table to damage the conveying table or the geotextile due to the self-hardness relation of the geotextile in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a protection architecture of geotechnique's cloth automatic feed equipment, includes transport platform and coiling mechanism, transport bench has set gradually cutting device and has compressed tightly conveyor, the coiling mechanism is located to be close to compressing tightly conveyor department, transport bench is close to the one end that the coiling mechanism is last to rotate and to install first end plate, and movable mounting has a plurality of electric telescopic handle between first end plate and the transport platform, it installs the second end plate to compress tightly to rotate on conveyor's the one end, and slidable mounting has a plurality of connecting rod on the second end plate, and every connecting rod is all rotated and is installed on compressing tightly conveyor's one end.

Preferably, the bottom end of the first end plate is provided with a plurality of first hinges, and the first hinges are all arranged at one end of the conveying table.

Preferably, the bottom of first end plate is provided with first connecting piece, and the output shaft of electric telescopic handle rotates and installs on first connecting piece, and the one end of carrying the platform is provided with the second connecting piece, and the cylinder body of electric telescopic handle rotates and installs on the second connecting piece.

Preferably, the top end of the second end plate is provided with a plurality of second hinges, and the second hinges are all arranged at one end of the compaction conveying device.

Preferably, the second end plate is provided with a rail, both sides of the rail are provided with sliding grooves, a sliding shaft is slidably arranged in the sliding grooves, and the sliding shaft is rotatably arranged in one end of the connecting rod.

Preferably, both ends of the sliding shaft are provided with limiting baffle plates, the limiting baffle plates are larger than the groove width of the sliding groove, and the two limiting baffle plates are respectively positioned on the outer walls of the two sides of the rail.

Preferably, one end of the compressing and conveying device is provided with a third connecting piece, and the connecting rod is rotatably arranged on the third connecting piece.

The beneficial effects of the utility model are as follows:

according to the utility model, the first end plate is driven to rotate upwards by extending the electric telescopic rod, so that the geotextile forms a certain angle with the table surface of the conveying table after the cutting process is finished, and the geotextile is jacked up to form a certain gap with the conveying table, so that friction between the geotextile and the conveying table in the final rolling process of the geotextile is reduced, and damage to the table surface of the conveying table and the geotextile is reduced.

According to the utility model, through the cooperation between the first end plate which actively rotates and the second end plate which passively rotates, the problem that the first end plate and the second end plate cannot be aligned with the gap of the winding roller when the initial feeding conveying table moves to feed the winding device is prevented, and the problem that the first end plate which actively rotates causes the second end plate to deform is avoided, so that the feeding equipment is protected.

Drawings

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

fig. 2 is a schematic side view of a sectional structure of an electric telescopic rod of a protection structure of an automatic geotextile feeding device according to the present utility model;

FIG. 3 is a schematic side view of a connecting rod of a protection structure of an automatic geotextile feeding device according to the present utility model;

fig. 4 is a schematic top view of a slide shaft of a protection structure of an automatic geotextile feeding device according to the present utility model.

In the figure: 1. a conveying table; 2. a winding device; 3. a cutting device; 4. a compacting and conveying device; 5. a first end plate; 6. an electric telescopic rod; 7. a second end plate; 8. a connecting rod; 9. a first hinge; 10. a first connector; 11. a second connector; 12. a second hinge; 13. a track; 14. a chute; 15. a slide shaft; 16. a limiting baffle; 17. and a third connecting piece.

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, a protection structure of geotechnical cloth automatic feeding equipment, including carrying platform 1 and coiling mechanism 2, cutting device 3 and compress tightly conveyor 4 have been set gradually on carrying platform 1, coiling mechanism 2 is located to be close to compressing tightly conveyor 4 departments, first end plate 5 is installed in the rotation on the one end that carrying platform 1 is close to coiling mechanism 2, movable mounting has a plurality of electric telescopic handle 6 between first end plate 5 and the carrying platform 1, second end plate 7 is installed in the rotation on the one end of compressing tightly conveyor 4, slidable mounting has a plurality of connecting rod 8 on the second end plate 7, every connecting rod 8 is all installed in the rotation on one end of compressing tightly conveyor 4.

During initial feeding, the compaction conveying device 4 is pressed down to press geotechnical cloth on the table top of the conveying table 1, at the moment, the second end plate 7 descends to be close to the first end plate 5, the conveying table 1 moves towards the winding device 2, the first end plate 5 and the second end plate 7 are driven to the gap of the winding roller of the winding device 2, in the moving process, the electric telescopic rod 6 is driven to extend, so that the first end plate 5 rotates upwards by a certain extent, the first end plate 5 and the second end plate 7 are prevented from colliding with the winding roller at the gap of the winding roller, the compaction conveying device 4 drives the conveying mechanism to convey geotechnical cloth into the winding roller through the gap between the first end plate 5 and the second end plate 7, the winding roller rotates to wind the end of the geotechnical cloth, and therefore feeding is achieved, the geotechnical cloth can be more accurately inserted into the gap of the winding roller through the rotatable first end plate 5, and the rotatable second end plate 7 can be driven to rotate, the fact that the geotechnical cloth is prevented from being extruded when the first end plate 5 and the second end plate 7 are close to the winding roller, and deformation of the geotechnical cloth is prevented;

finally, in the rolling process, the cutting device 3 cuts off the geotechnical cloth, the rolling device 2 is still in rolling operation, the tail end of the geotechnical cloth is easy to generate high-force friction with the tail end of the conveying table 1 due to the hardness relation of the geotechnical cloth, damage is formed to the conveying table 1 or the geotechnical cloth, at the moment, the output shaft of the driving electric telescopic rod 6 stretches out, the first end plate 5 rotates upwards to form a certain angle with the table surface of the conveying table 1, so that the first end plate 5 jacks up the geotechnical cloth, a certain gap is formed between the first end plate and the conveying table 1, friction between the geotechnical cloth and the conveying table 1 in the final rolling process of the geotechnical cloth is reduced, and damage to the table surface of the conveying table 1 and the geotechnical cloth is reduced.

Referring to fig. 2, in this embodiment, the bottom end of the first end plate 5 is provided with a plurality of first hinges 9, and the plurality of first hinges 9 are all disposed on one end of the conveying table 1, and the first hinges 9 connect the first end plate 5 on the conveying table 1, so that the first end plate 5 is guaranteed to rotate and meanwhile, the geotechnical cloth is prevented from being conveyed under the influence of the first hinges 9.

Referring to fig. 2, in the present embodiment, the bottom end of the first end plate 5 is provided with a first connecting member 10, the output shaft of the electric telescopic rod 6 is rotatably mounted on the first connecting member 10, one end of the conveying table 1 is provided with a second connecting member 11, the cylinder body of the electric telescopic rod 6 is rotatably mounted on the second connecting member 11, the first connecting member 10 and the second connecting member 11 connect the electric telescopic rod 6 with the first end plate 5 and the conveying table 1, when the electric telescopic rod 6 stretches, the output shaft of the electric telescopic rod 6 rotates in the first connecting member 10, and the cylinder body of the electric telescopic rod 6 rotates in the second connecting member 11, thereby realizing the rotation of the first end plate 5 with the first hinge 9 as a rotation connection point.

Referring to fig. 3, in this embodiment, the top end of the second end plate 7 is provided with a plurality of second hinges 12, and the plurality of second hinges 12 are all disposed at one end of the compaction conveying device 4, and the second hinges 12 connect the second end plate 7 to the compaction conveying device 4, so that the rotation of the second end plate 7 is ensured, and meanwhile, the geotechnical cloth conveying is prevented from being influenced by the second hinges 12.

Referring to fig. 3-4, in this embodiment, the second end plate 7 is provided with a track 13, both sides of the track 13 are provided with a sliding groove 14, a sliding shaft 15 is slidably mounted in the sliding groove 14, the sliding shaft 15 is rotatably mounted in one end of the connecting rod 8, when the first end plate 5 rotates upwards, the second end plate 7 follows rotation due to the geotechnical cloth located between the first end plate 5 and the second end plate 7, at this moment, the second end plate 7 drives the track 13 to rotate upwards, so that the sliding shaft 15 moves towards the tail end of the sliding groove 14, thereby realizing rotation of the second end plate 7, and when the second end plate 7 loses thrust of the first end plate 5, the sliding groove 14 is provided with a limit on continuous movement of the sliding shaft 15, thereby ensuring stability when the second end plate 7 sags.

Referring to fig. 4, in the present embodiment, both ends of the sliding shaft 15 are provided with limiting blocking pieces 16, the limiting blocking pieces 16 are larger than the slot width of the sliding slot 14, the two limiting blocking pieces 16 are respectively located on the outer walls of both sides of the track 13, and the limiting blocking pieces 16 effectively prevent the sliding shaft 15 from being separated from the sliding slot 14.

Referring to fig. 3, in this embodiment, a third connecting member 17 is disposed at one end of the compressing and conveying device 4, and the connecting rod 8 is rotatably mounted on the third connecting member 17, and the third connecting member 17 connects the connecting rod 8 to the compressing and conveying device 4, so that the stability of connection between the second end plate 7 and the compressing and conveying device 4 is ensured, and meanwhile, the linkage of the connecting rod 8 when the second end plate 7 rotates is ensured.

The present utility model is not limited to the above-mentioned embodiments, and any person skilled in the art, based on the technical solution of the present utility model and the inventive concept thereof, can be replaced or changed within the scope of the present utility model.

Claims (7)

1. The utility model provides a protection architecture of geotechnique's cloth automatic feeding equipment, includes delivery table (1) and coiling mechanism (2), its characterized in that: the utility model discloses a conveying device, including conveying platform (1), cutting device (3) and compression conveyor (4) have been set gradually on conveying platform (1), coiling mechanism (2) are located to be close to compression conveyor (4) department, conveying platform (1) is close to and rotates on the one end of coiling mechanism (2) and install first terminal plate (5), and movable mounting has a plurality of electric telescopic handle (6) between first terminal plate (5) and conveying platform (1), rotate on the one end of compression conveyor (4) and install second end plate (7), slidable mounting has a plurality of connecting rod (8) on second end plate (7), and every connecting rod (8) all rotate and install on one end of compression conveyor (4).

2. The protective structure of an automatic geotextile feeding apparatus according to claim 1, wherein: the bottom of first end plate (5) is provided with a plurality of first hinge (9), and a plurality of first hinge (9) all set up on the one end of carrying platform (1).

3. The protective structure of an automatic geotextile feeding apparatus according to claim 1, wherein: the bottom of first end plate (5) is provided with first connecting piece (10), and the output shaft of electric telescopic handle (6) rotates and installs on first connecting piece (10), and the one end of delivery table (1) is provided with second connecting piece (11), and the cylinder body of electric telescopic handle (6) rotates and installs on second connecting piece (11).

4. The protective structure of an automatic geotextile feeding apparatus according to claim 1, wherein: the top end of the second end plate (7) is provided with a plurality of second hinges (12), and the second hinges (12) are all arranged at one end of the compaction conveying device (4).

5. The protective structure of an automatic geotextile feeding apparatus according to claim 1, wherein: the second end plate (7) is provided with a track (13), both sides of the track (13) are provided with sliding grooves (14), a sliding shaft (15) is arranged in the sliding grooves (14) in a sliding mode, and the sliding shaft (15) is rotatably arranged in one end of the connecting rod (8).

6. The protective structure of an automatic geotextile feeding apparatus according to claim 5, wherein: both ends of the sliding shaft (15) are provided with limiting baffle plates (16), the limiting baffle plates (16) are larger than the groove width of the sliding groove (14), and the two limiting baffle plates (16) are respectively positioned on the outer walls of the two sides of the track (13).

7. The protective structure of an automatic geotextile feeding apparatus according to claim 1, wherein: one end of the compaction conveying device (4) is provided with a third connecting piece (17), and the connecting rod (8) is rotatably arranged on the third connecting piece (17).