CN210504903U - Single-layer flexible material conveying mechanism - Google Patents

Abstract

The utility model discloses a single-layer flexible material conveying mechanism, which consists of a main platform, a beam structure and a conveying belt structure; the main body platform includes: welding a frame, a side door plate, an X-direction motor and an X-direction driven wheel; the beam mechanism includes: the device comprises a Y-direction guide rail, a cross beam shield, a Y-direction opening belt, a Y-direction motor, a left and right transmission belt cylinder clamping block assembly and a machine head assembly; the conveyer belt mechanism includes: the device comprises a suede conveyor belt, a conveyor belt tensioning roller support and a front conveying roller support; the welding frame is a main body support, and an X-direction shaft penetrates through the X-direction synchronizing wheel and the X-direction driven wheel and is fixed on the welding frame; the conveyor belt tensioning roller is connected with the conveyor belt tensioning roller bracket and is fixed on the welding frame; the utility model overcomes carry the material precision low, slow, the little problem of production batch, through the utility model discloses a design, pay-off more accurate, speed is faster, can batch production, improves production efficiency.

Description

Single-layer flexible material conveying mechanism

Technical Field

The utility model belongs to cutting machine production field is applicable to one kind of transported material of flexible cloth cutting machine, concretely relates to individual layer flexible material conveying mechanism.

Background

In order to prevent the large-format machine from wasting time and labor when being used for laying flexible materials, the length of the machine on the market is set and can not work for a long time, a customer needs to cut products which exceed the length of the machine on the premise, the similar machine can not realize sectional butt joint, cutting and continuous feeding, and each cut piece must be controlled within 2MM during butt joint.

Disclosure of Invention

An object of the utility model is to overcome above-mentioned prior art's weak point, provide a carry flexible material mechanism, this structure has solved the conventionality problem, improves production efficiency, improves the butt joint precision, reduces product cost.

The utility model aims at realizing through the following technical scheme:

a single-layer flexible material conveying mechanism comprises a main body platform, a cross beam structure and a conveying belt structure.

Wherein, the subject platform includes: the device comprises a welding frame, a side door plate, an X-direction guide rail left side cover, an X-direction guide rail right side cover, a left side cover, a right side cover, a rear side cover, a platform, a rear cover plate, a left side plate, a right side plate, a rear roller cover plate, an X-direction tensioning assembly, an X-direction guide rail, an X-direction opening belt, an X-direction synchronizing wheel, an X-direction shaft, an X-direction motor base and an X-direction driven wheel.

The welding frame is a main body support, the side door plate, the X-direction guide rail left side cover, the X-direction guide rail right side cover, the left side cover, the right side cover and the rear side cover are fixed on the periphery of the welding frame, and the platform, the rear cover plate, the left side plate and the right side plate are fixed on the welding frame.

The X-direction motor is arranged on the X-direction motor base.

The X-direction motor base is fixed on the welding frame.

The X-direction shaft passes through the X-direction synchronizing wheel and the X-direction driven wheel and is fixed on the welding frame.

The X-direction tensioning assembly and the X-direction guide rail are fixed on the welding frame.

The X-direction motor controls the beam structure to move through the X-direction opening belt.

Wherein, crossbeam mechanism includes: y is to guide rail, crossbeam guard shield, Y to open belt, Y to motor, cone pulley, crossbeam left side board, crossbeam right side board, Y to take-up pulley, anticollision subassembly, backup pad, supporting seat, crossbeam left side guard shield, crossbeam right side guard shield, compress cylinder subassembly, control drive belt cylinder clamp splice subassembly, aircraft nose subassembly.

The supporting plates are respectively fixed at the left end and the right end of the cross beam.

The supporting seat is arranged below the supporting plate.

The supporting seat can slide on the X-direction guide rail.

The Y-direction guide rail and the beam shield are fixed on the beam.

The left side and the right side of the cross beam are provided with a left side plate and a right side plate of the cross beam.

The Y-direction motor and the cone pulley are arranged on the left side plate of the cross beam.

The anti-collision assembly is fixed on the beam left side shield and the beam right side shield.

The beam left side shield and the beam right side shield are arranged on the beam left side plate and the beam right side plate.

The cloth pressing air cylinder component, the left and right transmission belt air cylinder clamping block components are fixed on the cross beam.

The head assembly is connected with the Y-direction guide rail.

The Y-direction motor controls the movement of the head assembly by controlling the Y-direction opening belt.

Wherein, conveyer belt mechanism includes: the device comprises a suede-like conveying belt, a conveying belt tensioning roller support, a front conveying roller support, a rear conveying roller and a rear conveying roller support.

The suede-like conveyor belt penetrates through the front conveyor roller, the rear conveyor roller and the conveyor belt tensioning roller and is connected together end to end.

The conveyor belt tensioning roller is connected with the conveyor belt tensioning roller bracket and is fixed on the welding frame.

The front conveying roller is connected with the front conveying roller bracket and is fixed on the welding frame.

The rear conveying roller is connected with the rear conveying roller bracket and is fixed on the welding frame.

The cloth pressing air cylinder assembly is fixed on the cross beam and fixes cloth on the surface of the suede conveyor belt.

The left and right conveyor belt cylinder clamping block assemblies are fixed on the cross beam, and the left and right conveyor belt cylinder clamping block assemblies clamp the left and right sides of the conveyor belt.

The X-direction motor drives the conveyor belt to simultaneously drive the material to move when controlling the beam structure to move through the X-direction opening belt.

The utility model has the advantages and beneficial effects that:

the utility model overcomes carry the material precision low, slow, the little problem of production batch, through the utility model discloses a design, the pay-off is more accurate, speed is faster, can batch production, reduces artifically, improves production efficiency.

Drawings

FIG. 1 is a schematic view of the whole machine;

FIG. 2 is a schematic view of a body platform;

FIG. 3 is a partial schematic view of the body platform;

FIG. 4 is a schematic view of the beam mechanism (front);

FIG. 5 is a schematic view of the beam mechanism (rear);

FIG. 6 is a left side partial schematic view of the beam mechanism;

FIG. 7 is a partial right side view of the beam mechanism;

FIG. 8 is a schematic view of a conveyor belt mechanism.

1. The main platform 2, the cross beam mechanism 3, the conveyor belt mechanism 4, the welding frame 5, the side door plate 6, the X-direction guide rail left side cover 7, the X-direction guide rail right side cover 8, the left side cover 9, the right side cover 10, the rear side cover 11, the platform 12, the rear cover plate 13, the left side plate 14, the right side plate 15, the rear roller cover plate 16, the X-direction tensioning assembly 17, the X-direction guide rail 18, the X-direction opening belt 19, the X-direction synchronizing wheel 20, the X-direction shaft 21, the X-direction motor 22, the X-direction motor base 23, the X-direction driven wheel 24, the Y-direction guide rail 25, the cross beam 26, the cross beam shield 27, the Y-direction opening belt 28, the Y-direction motor 29, the tower wheel 30, the cross beam left side plate 31, the cross beam right side plate 32, the Y-direction tensioning wheel 33, the anti-collision assembly 34, the support plate 35, the support base 36, the right side beam shield 37, the Conveyor belt tensioning roller 43, conveyor belt tensioning roller support 44, front conveyor roller 45, front conveyor roller support 46, rear conveyor roller 47, rear conveyor roller support.

Detailed Description

For a further understanding of the contents, features and effects of the present invention, reference will now be made to the following examples, which are to be considered in conjunction with the accompanying drawings. It should be noted that the present embodiment is illustrative, not restrictive, and the scope of the invention should not be limited thereby.

The single-layer flexible material conveying mechanism consists of a main platform, a cross beam mechanism and a conveying belt mechanism.

Wherein, main part platform (1) includes: the X-direction guide rail device comprises a welding frame (4), a side door plate (5), an X-direction guide rail left side cover (6), an X-direction guide rail right side cover (7), a left side cover (8), a right side cover (9), a rear side cover (10), a platform (11), a rear cover plate (12), a left side plate (13), a right side plate (14), a rear roller cover plate (15), an X-direction tensioning assembly (16), an X-direction guide rail (17), an X-direction opening belt (18), an X-direction synchronizing wheel (19), an X-direction shaft (20), an X-direction motor (21), an X-direction motor base (22) and an X-direction driven wheel (23).

The welding frame (4) is a main body support, a side door plate (5), an X-direction guide rail left side cover (6), an X-direction guide rail right side cover (7), a left side cover (8), a right side cover (9) and a rear side cover (10) are fixed on the periphery of the welding frame (4), and a platform (11), a rear cover plate (12), a left side plate (13) and a right side plate (14) are fixed on the welding frame (4).

The X-direction motor (21) is arranged on the X-direction motor base (22).

The X-direction motor base (22) is fixed on the welding frame (4).

The X-direction shaft (20) penetrates through the X-direction synchronizing wheel (19) and the X-direction driven wheel (23) and is fixed on the welding frame (4).

The X-direction tensioning assembly (16) and the X-direction guide rail (17) are fixed on the welding frame (4).

The X-direction motor (21) controls the beam structure (2) to move through the X-direction opening belt (18).

Wherein, crossbeam mechanism (2) includes: y is to guide rail (24), crossbeam (25), crossbeam guard shield (26), Y to open belt (27), Y is to motor (28), cone pulley (29), crossbeam left side board (30), crossbeam right side board (31), Y is to take-up pulley (32), anticollision subassembly (33), backup pad (34), supporting seat (35), crossbeam right side guard shield (36), crossbeam left side guard shield (37), compress cloth cylinder assembly (38), control drive belt cylinder clamp splice subassembly (39), aircraft nose subassembly (40).

The supporting plates (34) are respectively fixed at the left end and the right end of the cross beam (25).

The supporting seat (35) is arranged below the supporting plate (34).

The supporting seat (35) can slide on the X-direction guide rail (17).

The Y-direction guide rail (24) and the beam shield (26) are fixed on the beam (25).

And a beam left side plate (30) and a beam right side plate (31) are arranged on the left side and the right side of the beam (25).

The Y-direction motor (28) and the cone pulley (29) are arranged on the left side plate (30) of the cross beam.

The anti-collision assembly (33) is fixed on the beam left side shield (37) and the beam right side shield (36).

The beam left side shield (37) and the beam right side shield (36) are arranged on the beam left side plate (30) and the beam right side plate (31).

The cloth pressing air cylinder assembly (38) and the left and right transmission belt air cylinder clamping block assemblies (39) are fixed on the cross beam (25).

The head assembly (40) is connected with the Y-direction guide rail (24).

The Y-direction motor (28) controls the movement of the handpiece component (40) by controlling the Y-direction opening belt (27).

Wherein, conveyer belt mechanism (3) includes: a suede conveyor belt (41), a conveyor belt tensioning roller (42), a conveyor belt tensioning roller bracket (43), a front conveyor roller (44), a front conveyor roller bracket (45), a rear conveyor roller (46) and a rear conveyor roller bracket (47).

The suede conveyor belt (41) passes through the front conveyor roller (44), the rear conveyor roller (46) and the conveyor belt tensioning roller (42) and is connected together end to end.

The conveyor belt tensioning roller (42) is connected with a conveyor belt tensioning roller bracket (43) and is fixed on the welding frame (4).

The front conveying roller (44) is connected with a front conveying roller bracket (45) and is fixed on the welding frame (4).

The rear conveying roller (46) is connected with a rear conveying roller bracket (47) and is fixed on the welding frame (4).

The cloth pressing air cylinder assembly (38) is fixed on the cross beam (25), and the cloth is fixed on the surface of the suede conveyor belt (41) by the cloth pressing air cylinder assembly (38).

The left and right conveyor belt cylinder clamping block assemblies (39) are fixed on the cross beam (25), and the left and right conveyor belt cylinder clamping block assemblies (39) clamp the left and right sides of the suede conveyor belt (41).

The X-direction motor (21) controls the transverse beam structure (2) to move through the X-direction opening belt (18) to drive the conveying belt structure (3) to move and simultaneously drive the materials to move.

The working process is as follows:

the X-direction motor (21) works to drive the X-direction synchronizing wheel (19) to rotate and drive the X-direction driven wheels (23) at two ends of the X-direction shaft (20), and the X-direction opening belt (18) is connected with the beam structure (2), so that the X-direction motor (21) controls the beam structure (2) to move through the X-direction opening belt (18); the cloth pressing air cylinder assembly (38) is fixed on the cross beam (25), cloth is fixed on the surface of the suede conveyor belt (41) by the cloth pressing air cylinder assembly (38), the left conveyor belt air cylinder clamping block assembly (39) and the right conveyor belt air cylinder clamping block assembly (39) are fixed on the cross beam (25), the left conveyor belt air cylinder clamping block assembly (39) and the right conveyor belt air cylinder clamping block assembly (39) clamp the left side and the right side of the suede conveyor belt (41), and the conveyor belt structure (3) is driven to drive materials when the X-direction motor (21) controls the cross beam structure (2) to move through.

When the cloth pressing air cylinder assembly (38) releases cloth when the cloth pressing machine reaches a specified position, the suede conveyor belt (41) is released by the left conveyor belt air cylinder clamping block assembly (39) and the right conveyor belt air cylinder clamping block assembly (39), the Y-direction motor (28) works to drive the cone pulley (29) to rotate, the Y-direction opening belt (27) is connected with the machine head assembly (40), so that the Y-direction motor (28) controls the machine head assembly (40) to move by controlling the Y-direction opening belt (27), and the X-direction motor (21) controls the beam structure (2) to move by controlling the X-direction opening belt (18), so that the machine head assembly (40) works in a working.

When the cloth feeding is finished, the cloth pressing air cylinder assembly (38) fixes the cloth on the surface of the suede conveyor belt (41), the left conveyor belt air cylinder clamping block assembly (39) and the right conveyor belt air cylinder clamping block assembly (39) clamp the left side and the right side of the suede conveyor belt (41), the X-direction motor (21) drives the conveyor belt structure (3) when controlling the beam structure (2) to move through the X-direction opening belt (18), and the finished cloth is conveyed to the front of a machine, and meanwhile, the unprocessed cloth is also driven to a designated position.

Claims (3)

1. A single-layer flexible material conveying mechanism comprises a main body platform, a cross beam structure and a conveying belt structure; a subject platform, comprising: the device comprises a welding frame, a side door plate, an X-direction guide rail left side cover, an X-direction guide rail right side cover, a left side cover, a right side cover, a rear side cover, a platform, a rear cover plate, a left side plate, a right side plate, a rear roller cover plate, an X-direction tensioning assembly, an X-direction guide rail, an X-direction opening belt, an X-direction synchronizing wheel, an X-direction shaft, an X-direction motor base and an X-direction driven wheel; a beam mechanism comprising: the device comprises a Y-direction guide rail, a cross beam shield, a Y-direction opening belt, a Y-direction motor, a cone pulley, a cross beam left side plate, a cross beam right side plate, a Y-direction tensioning wheel, an anti-collision assembly, a supporting plate, a supporting seat, a cross beam left side shield, a cross beam right side shield, a cloth pressing air cylinder assembly, a left and right transmission belt air cylinder clamping block assembly and a machine head assembly; a conveyor belt mechanism comprising: the device comprises a suede-like conveyor belt, a conveyor belt tensioning roller bracket, a front conveyor roller bracket, a rear conveyor roller and a rear conveyor roller bracket; the method is characterized in that: the welding frame is a main body support, and an X-direction shaft penetrates through the X-direction synchronizing wheel and the X-direction driven wheel and is fixed on the welding frame; the anti-collision assembly is fixed on the beam left side shield and the beam right side shield; the conveyor belt tensioning roller is connected with the conveyor belt tensioning roller bracket and is fixed on the welding frame.

2. The single layer flexible material conveying mechanism of claim 1, wherein: the X-direction motor controls the beam structure to move through the X-direction opening belt.

3. The single layer flexible material conveying mechanism of claim 1, wherein: the Y-direction motor controls the movement of the head assembly through the Y-direction opening belt.

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