CN210188803U - Ultrasonic welding device for hexagonal geocell - Google Patents

Abstract

The utility model discloses an ultrasonic welding device for hexagonal geocell, which at least comprises a frame, wherein the top of the frame is provided with a sliding device, the sliding device is fixed with the frame, the sliding device can transversely translate integrally, a plurality of welding assemblies are arranged below the sliding device, the welding assemblies are fixedly connected with the sliding device, each welding assembly comprises a welding machine and a welding die which are arranged in sequence, and the welding die is contacted with a sheet to be welded; the welding assembly comprises an operation platform, wherein a filler strip assembly is arranged on the operation platform and comprises a plurality of parallel filler strips, and the positions of the filler strips correspond to the welding assembly. The utility model has the advantages that: the utility model has reasonable structural design, does not need to move transversely through the sheet supporting plate to adjust the welding position, not only improves the efficiency, but also can flexibly and accurately control the moving distance of the welding assembly; the production of the hexagonal geocell can be realized; the product is more standard and standard.

Description

Ultrasonic welding device for hexagonal geocell

Technical Field

The utility model belongs to the technical field of geotechnological check room welding, especially, relate to a hexagon is ultrasonic welding device for geotechnological check room.

Background

The geocell is widely applied to the geotechnical fields of roadbed construction, slope greening and the like. The geocell is a honeycomb or latticed three-dimensional structure formed by connecting a plurality of ribs according to different modes. Currently, geocells on the market are mainly formed by welding, riveting or plug-in connection of reinforcing strips. The traditional geocell ultrasonic welding machine can only produce quadrilateral (rhombus) geocells.

The prior art welding machines have the following drawbacks: 1) the existing geocell ultrasonic welding machine is used for producing a universal quadrilateral (rhombus) geocell aiming at a narrow welding seam (<10 mm); 2) if the shape of the original geotechnical grid chamber can be changed by widening the teeth of the ultrasonic welding die, the amplitude is very small (<30mm), when the width of the teeth of the welding die exceeds 20mm, the welding time is increased, equipment is damaged due to audio overload, when the width of the teeth of the welding die exceeds 30mm, the teeth of the welding die basically cannot work normally, and the minimum side length of the hexagonal geotechnical grid chamber is generally more than 30mm, so that the hexagon cannot be realized by changing the teeth of the welding die; 3) the welding assembly can only move on the vertical direction as a whole, so that the welding of the sheets is realized, and different welding seam distances can not be realized by automatically adjusting the transverse flexible movement of the welding assembly when the equipment runs.

To sum up, for solving the structural not enough of current welding machine, the utility model relates to a hexagon ultrasonic welding device for geotechnological check room convenient to operation, reasonable in design and can the quantization production.

Disclosure of Invention

An object of the utility model is to provide an ultrasonic welding device is used to hexagon geotechnological check room, this ultrasonic welding device is used to hexagon geotechnological check room, and the operation of being convenient for, reasonable in design can quantify production.

In order to achieve the above object, the utility model adopts the following technical scheme:

the welding device comprises a rack, a plurality of welding assemblies and a welding mechanism, wherein the top of the rack is provided with the welding assemblies which are fixed with the rack through a sliding device, and the welding assemblies can transversely move on the rack;

the welding assembly comprises an operation platform, wherein a filler strip assembly is arranged on the operation platform and comprises a plurality of parallel filler strips, and the positions of the filler strips correspond to the welding assembly.

Preferably, still include the material loading subassembly, the material loading subassembly is including unreeling frame, blowing platform and propelling movement platform, the frame is unreeled to the sheet sets up in one side of blowing platform, the propelling movement platform includes propelling movement platform one and propelling movement platform two, propelling movement platform one with two symmetries of propelling movement platform and set up perpendicularly in the both ends of blowing platform.

Preferably, a cutter is arranged at one end of the discharging platform, which is in contact with the unwinding frame, and the cutter is used for cutting off the sheet.

Preferably, sucking discs are arranged at two ends of the discharging platform.

Preferably, one end of the pushing platform, which is far away from the material placing platform, is provided with a pushing cylinder, a piston rod of the pushing cylinder is provided with a clamping assembly, and the clamping assembly moves along the longitudinal direction of the pushing platform under the driving of the pushing cylinder.

Preferably, the clamping assembly comprises a driving device and a clamping plate, and the clamping plate is driven by the driving device to clamp the sheets to be welded.

Preferably, the width of the filler strip is 30-100 mm.

Preferably, the sliding device comprises a sliding rail, a sliding block and a fixed plate, the sliding block and the fixed plate are fixed and symmetrically arranged on the fixed plate, and the sliding rail and the top of the rack are fixed and symmetrically arranged on the fixed plate.

Compared with the prior art, the utility model, following beneficial effect has: the utility model has reasonable structural design, does not need to move transversely through the sheet supporting plate to adjust the welding position, not only improves the efficiency, but also can flexibly and accurately control the moving distance of the welding assembly; the production of the hexagonal geocell can be realized; the product is more standard and standard.

Drawings

Fig. 1 is a schematic perspective view of an ultrasonic welding device for hexagonal geocells according to the present invention;

fig. 2 is a schematic structural view of the sliding device of the ultrasonic welding device for hexagonal geocells of the present invention;

fig. 3 is a schematic structural view of the welding assembly and the sliding device of the ultrasonic welding device for hexagonal geocells according to the present invention;

fig. 4 is a schematic structural view of a welding assembly, an operation platform and a feeding platform of the ultrasonic welding device for the hexagonal geocell of the present invention;

fig. 5 is a schematic structural view of the clamping assembly of the ultrasonic welding device for hexagonal geocell of the present invention;

fig. 6 is a schematic structural view of a gasket assembly of the ultrasonic welding device for hexagonal geocell of the present invention;

description of reference numerals: 1-a welding assembly, 11-a welding machine, 12-a welding mould, 2-an operation platform, 21-a filler strip, 211-a filler strip assembly I, 212-a filler strip assembly II, 22-a filler strip, 3-a feeding assembly, 31-a unreeling frame, 32-a discharging platform, 33-a pushing platform, 331-a pushing platform I, 332-a pushing platform II, 4-a sucker, 5-a pushing cylinder, 6-a clamping plate, 61-a clamping plate I, 62-a clamping plate II, 7-a finger cylinder, 71-a sliding block, 8-a sliding device, 81-a sliding rail, 82-a sliding block, 83-a fixing plate and 9-a machine frame.

Detailed Description

The present invention will be further described with reference to the accompanying drawings 1 to 6 and examples.

As shown in fig. 1, an ultrasonic welding apparatus for hexagonal geocell to an ultrasonic welding apparatus for hexagonal geocell, comprises at least

The welding device comprises a frame 9, wherein a plurality of welding assemblies 1 are arranged at the top of the frame, the welding assemblies 1 are fixed with the frame through sliding devices 8, and the welding assemblies 1 can move transversely on the frame. The welding assembly 1 comprises a welding machine 11 and a welding die 12 which are arranged in sequence, welding teeth are arranged at the bottom of the welding die 12, and the welding die is in contact with a sheet to be welded; the welding assembly comprises an operation platform 2, wherein a gasket assembly 21 is arranged on the operation platform 2, the gasket assembly 21 comprises a plurality of gaskets 22 which are arranged in parallel, and the positions of the gaskets 22 correspond to the welding assembly.

Wherein, the width of filler strip is 30~100mm, and contrast prior art, the layer board is portable, carries out the lateral shifting of sheet layer board, moves the layer board to next welded position, welds again, and is not only inefficient, produces the sheet dislocation easily at the removal in-process moreover, welds nonstandard, and the layer board can't realize the change distance moreover and removes. The ultrasonic welding device for the hexagonal geocell realizes the transverse movement of the welding assembly 1 through the sliding device, does not need to move the filler strip, realizes the accurate control of the welding seam distance, and also improves the efficiency.

As shown in fig. 4, the feeding assembly 3 is further included, the feeding assembly includes a unreeling frame 31, a material placing platform 32 and a pushing platform 33, the sheet unreeling frame is arranged on one side of the material placing platform, the pushing platform 33 includes a first pushing platform 331 and a second pushing platform 332, and the first pushing platform and the second pushing platform are symmetrical and vertically arranged at two ends of the material placing platform.

As shown in fig. 6, the filler strip assembly 21 is divided into two groups, a first filler strip assembly 211 and a second filler strip assembly 212, two groups of filler strip assemblies are arranged in a cross manner, the first filler strip assembly 211 and the second filler strip assembly 212 are all provided with ten parallel filler strips 22, wherein the distance between the connected filler strips 22 arranged on the first filler strip assembly 211 and the second filler strip assembly 212 is consistent with the distance between the connected welding assemblies, the outer end of the filler strip assembly is provided with a fixing strip, and the cylinder 23 arranged below the fixing strip drives the filler strip assembly to move along the longitudinal direction of the operation platform 2, so that the corresponding position of the filler strip on the operation platform is adjusted.

After the first filler strip assembly 211 is welded for one time in the left-up direction, the first filler strip assembly 211 is fixed, the welding die assemblies are lifted, all the welding die assemblies move horizontally along the sliding rails, the moving distance is the width of the short side designed for the hexagonal geocell is consistent, and after the first filler strip assembly 211 is welded for one time in the right-up direction, the welding of one short side of the hexagon is completed; and the second backing strip assembly 212 is fixed, the first backing strip assembly 211 is pulled out and presses a sheet above the second backing strip assembly, then a new sheet to be welded is placed, and meanwhile, all the welding die assemblies horizontally move along the sliding rail until the distance of the movement corresponds to the second backing strip assembly 212, welding is carried out according to a welding mode on the first backing strip assembly 211, and the operation is repeated in sequence.

As a further improvement, a cutter is arranged at one end of the unwinding platform 32, which is in contact with the unwinding frame 31, and the cutter is used for cutting off the sheet.

As a further improvement, both ends of the discharging platform are provided with suckers 4. Wherein, two groups of suckers 4 are arranged at two ends of the discharging platform 32, and each group of suckers is two and is used for sucking up the sheets to be welded.

As a further improvement, a pushing cylinder 5 is arranged at one end, away from the material placing platform, of the pushing platform, a clamping assembly is arranged on a piston rod of the pushing cylinder, and the clamping assembly moves longitudinally along the pushing platform under the driving of the pushing cylinder.

As a further improvement, as shown in fig. 5, the clamping assembly includes a driving device and a clamping plate 6 that clamps the sheet to be welded under the driving of the driving device. The driving device can be a finger cylinder 7, the clamping plate 6 comprises a first clamping plate 61 and a second clamping plate 62, wherein the clamping plate 6 is fixed with a sliding block 71 on the finger cylinder 7, when the sliding block 71 slides longitudinally, the clamping plate 6 also slides, and then the first clamping plate 61 and the second clamping plate 62 clamp or release the sheet.

The material loading subassembly is at specific during operation, the sheet is rolled up and is placed in and unreel frame 31, bottom at the blowing platform is provided with the sprocket, under the drive of sprocket, the sheet is rolled up and unreels, the sheet after unreeling cuts off through the cutter, the rethread sucking disc 4 is sucked up the sheet, the height of sucking disc is highly unanimous with the highly of grip block setting, propelling movement cylinder 5 makes the centre gripping subassembly remove along propelling movement platform 33, the position that the sheet was sucked up by the sucking disc is removed to the centre gripping subassembly, grip block 6 opens this moment, and grip block 6 relative motion centre gripping sheet under the drive of finger cylinder 7, and under the drive of propelling movement cylinder 5, back longitudinal movement along propelling movement platform 33, and then transport the sheet to the welding station.

As a further improvement, as shown in fig. 2 and 3, the sliding device 8 includes a sliding rail 81 and a sliding block 82, the sliding block 82 is fixed to the fixed plate and symmetrically disposed on the fixed plate 83, and the sliding rail 81 is fixed to the top of the rack and symmetrically disposed on the fixed plate. The welding assembly 2 is fixed to the fixing plate 83 and is fixed to the frame in a sliding manner through the sliding device, and the welding assembly 2 can slide integrally along the direction of the sliding rail 81 during specific work.

In the prior art, after the welding is completed in sequence, the sheet supporting plate needs to be moved transversely to move to the next welding position, so that the defects are more, and the efficiency is lower. The utility model discloses a welding subassembly 1 can carry out integrative lateral shifting along slide rail 81's direction, and the distance of removal is 20 ~ 400mm to realize the continuous welding of the different positions of sheet, efficiency promotes, need not to move the filler strip of below when carrying out the welding of hexagon minor face.

The above description of the embodiments is only intended to help understand the method of the present invention and its core ideas. It should be noted that, for those skilled in the art, without departing from the principle of the present invention, the present invention can be further modified and modified, and such modifications and modifications also fall within the protection scope of the appended claims.

Claims (8)

1. The utility model provides a hexagon ultrasonic welding device for geotechnique's check room which characterized in that: the welding device at least comprises a rack (9), wherein the top of the rack is provided with a plurality of welding assemblies (1), the welding assemblies (1) are fixed with the rack through sliding devices (8), and the welding assemblies (1) can transversely move on the rack; the welding device comprises an operation platform (2), wherein a filler strip assembly (21) is arranged on the operation platform (2), the filler strip assembly (21) comprises a plurality of parallel filler strips (22), and the positions of the filler strips (22) correspond to those of the welding assembly.

2. The ultrasonic welding device for hexagonal geocells of claim 1, wherein: still include material loading subassembly (3), the material loading subassembly is including unreeling frame (31), blowing platform (32) and propelling movement platform (33), it sets up in one side of blowing platform to unreel the frame, propelling movement platform (33) are including propelling movement platform (331) and propelling movement platform two (332), propelling movement platform one with two symmetries of propelling movement platform and set up perpendicularly in the both ends of blowing platform.

3. The ultrasonic welding device for hexagonal geocells of claim 2, wherein: and a cutter is arranged at one end of the discharging platform (32) contacted with the unwinding frame (31) and is used for cutting off the sheet.

4. The ultrasonic welding device for hexagonal geocells of claim 2, wherein: and both ends of the discharging platform are provided with suckers (4).

5. The ultrasonic welding device for hexagonal geocells of claim 2, wherein: the one end that the blowing platform was kept away from to the propelling movement platform is provided with propelling movement cylinder (5), be provided with the centre gripping subassembly on the piston rod of propelling movement cylinder, this centre gripping subassembly is along the longitudinal movement of propelling movement platform under the drive of propelling movement cylinder.

6. The ultrasonic welding device for hexagonal geocells of claim 5, wherein: the clamping assembly comprises a driving device and a clamping plate (6), and the clamping plate is driven by the driving device to clamp the sheets to be welded.

7. The ultrasonic welding device for hexagonal geocells of claim 1, wherein: the width of the filler strip is 30-100 mm.

8. The ultrasonic welding device for hexagonal geocells of claim 1, wherein: the sliding device (8) comprises a sliding rail (81), a sliding block (82) and a fixing plate (83), the sliding block (82) and the fixing plate (83) are fixed and symmetrically arranged on the fixing plate, and the sliding rail (81) and the top of the rack are fixed and symmetrically arranged on the fixing plate.

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