CN221292379U - Thermal shrinkage pipe flattening conveyor - Google Patents

Abstract

The application relates to a heat-shrinkable tube flattening conveyor, and relates to the technical field of heat-shrinkable tube processing; the device comprises a support frame, a first conveying assembly, a pressing conveying assembly, an adjusting device and a driving device; the first conveying assembly is arranged on the supporting frame, and the pressing conveying assembly is arranged on the first conveying assembly; the adjusting device is arranged on the first conveying assembly and is used for adjusting the size of a gap formed between the pressing conveying assembly and the first conveying assembly so as to squeeze the heat shrinkage tube positioned at the gap; the driving device is used for driving the first conveying assembly and the pressing conveying assembly to convey the heat-shrinkable tube positioned at the gap; the application has the effect of improving the space utilization rate when the heat shrinkage tube is stored.

Description

Thermal shrinkage pipe flattening conveyor

Technical Field

The application relates to the technical field of heat-shrinkable tube processing, in particular to a heat-shrinkable tube flattening conveyor.

Background

The heat shrinkage tube is a special polyolefin heat shrinkage sleeve, can also be made of EVA, has the functions of high-temperature shrinkage, softness, flame retardance, insulation and corrosion resistance, and is widely applied to insulation protection of various wire harnesses, welding spots and inductors.

In the actual production process, the heat shrinkage tube after thermoplastic molding is in a continuous hollow column shape, and the hollow area between adjacent heat shrinkage tubes is occupied more, so that the space utilization rate is lower, and the heat shrinkage tube needs to be improved.

Disclosure of utility model

In order to improve the space utilization rate when the heat-shrinkable tube is stored, the application provides a heat-shrinkable tube flattening conveyor.

The application provides a heat shrinkage tube flattening conveyor which adopts the following technical scheme:

A heat shrinkage tube flattening conveyor comprises a support frame, a first conveying assembly, a pressing conveying assembly, an adjusting device and a driving device; the first conveying assembly is arranged on the supporting frame, and the pressing conveying assembly is arranged on the first conveying assembly; the adjusting device is arranged on the first conveying assembly and is used for adjusting the size of a gap formed between the pressing conveying assembly and the first conveying assembly so as to squeeze the heat shrinkage tube positioned at the gap; the driving device is used for driving the first conveying assembly and the pressing conveying assembly to convey the heat-shrinkable tube located at the gap.

By adopting the technical scheme, an operator inserts one end of the heat-shrinkable tube into a gap between the first conveying assembly and the pressing-down conveying assembly, and the first conveying assembly and the pressing-down conveying assembly convey the heat-shrinkable tube under the drive of the driving device; the setting of adjusting device is used for adjusting the size of pushing down clearance between conveying subassembly and the first conveying subassembly, and then adjusts the extrusion degree to the pyrocondensation pipe to this reduces the size of pyrocondensation pipe cavity region, and then is convenient for operating personnel accomodate the pyrocondensation pipe after the extrusion, helps improving the utilization ratio to pyrocondensation pipe accommodation space.

Preferably, the first conveyor assembly comprises a first mounting frame and a first conveyor belt; the first mounting frame is fixedly connected to the supporting frame, and the first conveying belt is arranged on the first mounting frame in an ampere mode.

Through adopting above-mentioned technical scheme, the pyrocondensation pipe conveys under conveyor's effect to this improves conveying efficiency.

Preferably, the pressing conveying assembly comprises a second mounting frame and a pressing conveying belt; the second mounting frame is connected to the first mounting frame in a sliding mode.

By adopting the technical scheme, the first conveyor belt and the pressing conveyor belt rotate in opposite directions under the drive of the driving device, and the heat shrinkage tube positioned between the first conveyor belt and the pressing conveyor belt is conveyed; the driving device drives the two groups of belts to convey in opposite directions, so that the conveying efficiency is improved, the cost is saved, and certain economic benefits are achieved.

Preferably, the driving device comprises a driving assembly and a gear set; the driving assembly is arranged on the supporting frame, and the gear set is arranged on the first mounting frame; the drive assembly drives the first conveyor belt and the push down conveyor belt through the gear sets to rotate in opposite directions.

Through adopting above-mentioned technical scheme, drive assembly rotates with this drive first conveyer and pushing down the conveyer through drive gear train.

Preferably, the adjusting device comprises an adjusting assembly, wherein the adjusting assembly comprises a first mounting block, a second mounting block and an adjusting screw; the first installation block is fixedly connected to one side of the first installation frame, the second installation block is fixedly connected to one side of the second installation frame, and the first installation block and the second installation block are positioned on the same side of the first installation frame; one end of the adjusting screw rod penetrates through the second fixed block in the height direction and is rotationally connected to the first fixed block, and the first fixed block is in threaded connection with the adjusting screw rod.

By adopting the technical scheme, an operator adjusts the distance between the first installation frame and the second installation frame by rotating the adjusting screw, so that the heat shrinkage tubes with different sizes and thicknesses are extruded, and the size of a hollow area between the heat shrinkage tubes is reduced; in addition, the size of the interval is adjusted by rotating the adjusting screw, so that the operation is convenient, and the practicability is realized.

Preferably, one end of the adjusting screw, which is far away from the supporting plate, is fixedly connected with a rotating hand wheel.

Through adopting above-mentioned technical scheme, operating personnel rotates the hand wheel through rotating in order to drive and adjust the rotation of the screw rod of an equipment, laborsaving and convenient operation, and then help improving adjustment efficiency.

Preferably, the adjusting device further comprises a limiting assembly, wherein the limiting assembly comprises a first limiting block, a second limiting block and a connecting rod; the first limiting block is fixedly connected to one side of the first installation frame, the second limiting block is fixedly connected to one side of the second installation frame, and the first limiting block and the second limiting block are both positioned on the same side of the first installation frame; one end of the connecting rod is fixedly connected to one side, close to the second limiting block, of the first limiting block, and the other end of the connecting rod penetrates through the second limiting block and is connected to the second limiting block in a sliding mode.

Through adopting above-mentioned technical scheme, under the rotation of mediation screw rod, the second installation piece downwardly moving, the second stopper slides down on the connecting rod simultaneously to this is spacing to the direction of movement of second mounting bracket, helps improving the stability when the second mounting bracket slides along connecting rod direction of height.

Preferably, the limiting component further comprises an elastic piece, one end of the elastic piece is abutted to one side, close to the second limiting block, of the first limiting block, and the other end of the elastic piece is abutted to one side, close to the first limiting block, of the second limiting block.

Through adopting above-mentioned technical scheme, the second installation piece drives second mounting bracket downwardly moving under adjusting screw's effect, and the second stopper is along connecting rod downwardly compressing spring this moment, and the setting of spring plays certain supporting role to the second stopper, helps improving the stability of second mounting bracket in the slip in-process.

In summary, the present application includes at least one of the following beneficial technical effects:

1. An operator inserts one end of the heat-shrinkable tube into a gap between the first conveying assembly and the pressing conveying assembly, and the first conveying assembly and the pressing conveying assembly convey the heat-shrinkable tube under the driving of the driving device; the adjusting device is used for adjusting the size of the gap between the pressing transmission assembly and the first transmission assembly, so that the extrusion degree of the heat shrinkage tube is adjusted, the size of a hollow area of the heat shrinkage tube is reduced, an operator can store the extruded heat shrinkage tube conveniently, and the utilization rate of the storage space of the heat shrinkage tube is improved;

2. An operator adjusts the distance between the first installation frame and the second installation frame by rotating the adjusting screw rod, so that the heat shrinkage pipes with different sizes and thicknesses are extruded, and the size of a hollow area between the heat shrinkage pipes is reduced; in addition, the size of the interval is adjusted by rotating the adjusting screw, so that the operation is convenient, and the practicability is realized;

3. Under adjusting screw's rotation, the second installation piece moves down, and the second stopper slides down on the connecting rod simultaneously to this is spacing to the direction of movement of second mounting bracket, helps improving the stability when second mounting bracket slides along the connecting rod direction of height.

Drawings

Fig. 1 is a schematic view of a heat shrink tube flattening conveyor in an embodiment.

Fig. 2 is an enlarged schematic view at a in fig. 1.

Fig. 3 is a cross-sectional view of an embodiment to embody the structure of the adjusting device.

Reference numerals illustrate:

1. A support frame; 11. a fixing plate; 2. a first transfer assembly; 21. a first mounting frame; 22. a first conveyor belt; 221. a first rotating roller; 3. pressing down the conveying assembly; 31. a second mounting frame; 32. pressing down the conveyor belt; 321. a second roller; 4. an adjusting device; 41. an adjustment assembly; 411. a first mounting block; 412. a second mounting block; 413. adjusting a screw; 414. rotating a hand wheel; 42. a limit component; 421. a first limiting block; 422. a second limiting block; 423. a connecting rod; 424. an elastic member; 5. a driving device; 51. a drive assembly; 511. a driving member; 512. a drive gear; 513. a driven gear; 514. a first chain; 515. a second chain; 52. a gear set; 521. a first gear; 522. a second gear; 523. a third gear; 6. and a collection box.

Detailed Description

The application is described in further detail below with reference to fig. 1-3.

The embodiment of the application discloses a heat shrinkage tube flattening conveyor. Referring to fig. 1, a heat shrink tube flattening conveyor includes a support frame 1 and a first transfer assembly 2; the support frame 1 one end is provided with collects box 6, and first conveying subassembly 2 includes first mounting bracket 21, and specifically, first mounting bracket 21 welds on support frame 1.

Referring to fig. 1, the first transmission assembly further includes a first conveyor belt 22, the first conveyor belt 22 being mounted on the first mounting frame 21 by two sets of first rotating rollers 221; specifically, one set of first rollers 221 is located at an end of the first mounting frame 21 near the collection box 6, and the other set of first rollers 221 is located at an end of the first mounting frame 21 far from the collection box 6.

Referring to fig. 1, a heat shrink tube flattening conveyor includes a pressing conveying assembly 3, the pressing conveying assembly 3 including a second mounting frame 31 and a pressing conveying belt 32; the second mounting frame 31 is mounted on one side of the first mounting frame 21 away from the support frame 1, and the pressing conveying belt 32 is mounted on the second mounting plate through a second rotating roller 321; specifically, one set of second rotating rollers 321 is located at one end of the second mounting frame 31 close to the collecting box 6, and the other set of second rotating rollers 321 is located at one end of the second mounting frame 31 far away from the collecting box 6.

Referring to fig. 1 and 2, a heat shrink tube flattening conveyor includes a drive apparatus 5, the drive apparatus 5 including a gear set 52, the gear set 52 including a first gear 521, a second gear 522, and a third gear 523; the first gear 521 is mounted at one end of the first roller 221 near the collection box 6, the second gear 522 is mounted at one end of the second roller 321 near the collection box 6, and the first gear 521 and the second gear 522 are located at the same side of the first mounting frame 21; specifically, the central axis of the first gear 521 is correspondingly welded to the end of the first rotating roller 221, and the central axis of the second gear 522 is correspondingly welded to the end of the second rotating roller 321; the support frame 1 is fixedly connected with a fixed plate 11, and the fixed plate 11 and the first gear 521 are positioned on the same side of the first mounting frame 21; the third gear 523 is mounted to a side of the fixed plate 11 remote from the first mounting frame 21.

Referring to fig. 1 and 2, the driving device 5 further includes a driving assembly 51, and the driving assembly 51 includes a driving member 511, a driving gear 512, a driven gear 513, a first chain 514, and a second chain 515; the driving piece 511 is installed on the support frame 1 through an installation seat, and the driving piece 511 and the fixing plate 11 are positioned on the same side of the first installation frame 21; specifically, the driving member 511 may be a motor; the driving gear 512 is mounted at the output end of the driving member 511, and the central shaft of the driven gear 513 is welded to one end of the central shaft of the first gear 521, which is far away from the first mounting frame 21; the first chain 514 is mounted on the driving gear 512 and the driven gear 513, the second chain 515 is mounted on the first gear 521 and the third gear 523, and the second gear 522 is engaged with the outer circumference of the second chain 515.

Referring to fig. 1 and 2, the driving member 511 is configured to drive the driving gear 512 to rotate so as to drive the first chain 514 and the driven gear 513 to rotate; the driven gear 513 rotates to drive the first gear 521 to rotate, and at the same time, the first gear 521 rotates to drive the second chain 515 and the third gear 523 to rotate; the rotation of the second chain 515 synchronously drives the second gear 522 to rotate, so that the rotation directions of the first gear 521 and the second gear 522 are opposite, that is, the rotation directions of the corresponding first rotating roller 221 and the corresponding second rotating roller 321 are opposite; the driving device 5 is used for driving the first conveyor belt 22 and the pressing conveyor belt 32 to rotate in opposite directions, so that the heat shrinkage pipe at the gap between the first conveyor belt 22 and the pressing conveyor belt 32 is conveyed towards the direction approaching the collecting box 6.

Referring to fig. 1 and 3, a heat-shrinkable tube flattening conveyor further includes an adjusting device 4, where the adjusting device 4 includes a limiting component 42, specifically, the limiting component 42 is provided with four groups, and two groups are respectively provided on two sides of the corresponding first mounting frame 21; the limiting assembly 42 includes a first limiting block 421 and a second limiting block 422; specifically, the first limiting block 421 is welded on one side of the first mounting frame 21, the second limiting block 422 is welded on one side of the second mounting frame 31, and the first limiting block 421 and the second limiting block 422 are located on the same side of the first mounting frame 21.

Referring to fig. 3, the limiting component 42 further includes a connecting rod 423 and an elastic member 424, specifically, one end of the connecting rod 423 is welded to one side of the first limiting block 421 away from the supporting frame 1, and the other end of the connecting rod 423 penetrates through the second limiting block 422 along the height direction and is slidably connected to the second limiting block 422; specifically, the elastic member 424 may be a spring, which is sleeved on the connecting rod 423, and one end of the spring is abutted on the first limiting block 421 and the other end of the spring is abutted on the second limiting block 422.

Referring to fig. 1 and 3, the adjusting device 4 further includes an adjusting assembly 41, specifically, the adjusting assembly 41 is provided with two groups, and two sides of the corresponding first mounting frame 21 are respectively provided with one group; the adjustment assembly 41 includes a first mounting block 411 and a second mounting block 412; specifically, the first mounting block 411 is welded to one side of the first mounting frame 21, the second mounting block 412 is welded to one side of the second mounting frame 31, and the first mounting block 411 and the second mounting block 412 are located on the same side of the first mounting frame 21.

Referring to fig. 3, the adjusting assembly 41 further includes an adjusting screw 413, specifically, a rotating hand wheel 414 is welded to one end of the adjusting screw 413; one end of the adjusting screw 413, which is far away from the rotating hand wheel 414, penetrates through the second mounting block 412 and is rotatably connected to the first mounting block 411 through a bearing, and a threaded hole for rotatably connecting the adjusting screw 413 is formed in the first mounting block 411.

The implementation principle of the heat shrinkage tube flattening conveyor provided by the embodiment of the application is as follows: an operator rotates the hand wheel 414 to drive the adjusting screw 413 to rotate, so that the second installation block 412 moves downwards, and the second limiting block 422 compresses the elastic piece 424 downwards at the moment, so that the distance between the second installation frame 31 and the first installation frame 21 is adjusted, and the heat shrinkage pipe to be penetrated is extruded; the operating personnel keep away from the one end of collecting box 6 from first mounting bracket 21, inserts the clearance department between first conveyer 22 and the push-down conveyer 32 with pyrocondensation pipe tip, and first conveyer 22 and push-down conveyer 32 convey the pyrocondensation pipe towards the one end that is close to collecting box 6 under drive arrangement 5's drive to extrude the pyrocondensation pipe in the conveying process, with this space that reduces pyrocondensation pipe hollow region, and then help improving the utilization ratio to the space when accomodating.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (8)

1. The utility model provides a pyrocondensation pipe flattens conveyer which characterized in that: comprises a supporting frame (1), a first conveying component (2), a pressing conveying component (3), an adjusting device (4) and a driving device (5); the first conveying assembly (2) is arranged on the supporting frame (1), and the pressing conveying assembly (3) is arranged on the first conveying assembly (2); the adjusting device (4) is arranged on the first conveying assembly (2), and the adjusting device (4) is used for adjusting the size of a gap between the pushing-down conveying assembly (3) and the first conveying assembly (2) so as to squeeze the heat shrinkage tube positioned at the gap; the driving device (5) is used for driving the first conveying assembly (2) and the pressing conveying assembly (3) to convey the heat-shrinkable tube located at the gap.

2. A heat shrink tube flattening conveyor in accordance with claim 1, wherein: the first conveying assembly (2) comprises a first mounting frame (21) and a first conveying belt (22); the first mounting frame (21) is fixedly connected to the supporting frame (1), and the first conveying belt (22) is mounted on the first mounting frame (21).

3. A heat shrink tube flattening conveyor in accordance with claim 2, wherein: the pressing conveying assembly (3) comprises a second mounting frame (31) and a pressing conveying belt (32); the second mounting frame (31) is mounted on one side, deviating from the support frame (1), of the first mounting frame (21), and the pushing-down conveying belt (32) is mounted on the second mounting frame (31).

4. A heat shrink tube flattening conveyor in accordance with claim 3, wherein: the driving device (5) comprises a driving assembly (51) and a gear set (52); the driving assembly (51) is arranged on the support frame (1), and the gear set (52) is arranged on the first mounting frame (21); the drive assembly (51) drives the first conveyor belt (22) and the push down conveyor belt (32) to rotate in opposite directions through a gear set (52).

5. A heat shrink tube flattening conveyor in accordance with claim 4, wherein: the adjusting device (4) comprises an adjusting assembly (41), wherein the adjusting assembly (41) comprises a first mounting block (411), a second mounting block (412) and an adjusting screw (413); the first mounting block (411) is fixedly connected to one side of the first mounting frame (21), the second mounting block (412) is fixedly connected to one side of the second mounting frame (31), and the first mounting block (411) and the second mounting block (412) are positioned on the same side of the first mounting frame (21); one end of the adjusting screw rod (413) penetrates through the second mounting block (412) along the height direction and is rotatably connected to the first mounting block (411), and the first mounting block (411) is in threaded connection with the adjusting screw rod (413).

6. A heat shrink tube flattening conveyor in accordance with claim 5, wherein: one end of the adjusting screw rod (413) far away from the supporting frame (1) is fixedly connected with a rotating hand wheel (414).

7. A heat shrink tube flattening conveyor in accordance with claim 5, wherein: the adjusting device (4) further comprises a limiting assembly (42), and the limiting assembly (42) comprises a first limiting block (421), a second limiting block (422) and a connecting rod (423); the first limiting block (421) is fixedly connected to one side of the first mounting frame (21), the second limiting block (422) is fixedly connected to one side of the second mounting frame (31), and the first limiting block (421) and the second limiting block (422) are both positioned on the same side of the first mounting frame (21); one end of the connecting rod (423) is fixedly connected to one side, close to the second limiting block (422), of the first limiting block (421), and the other end of the connecting rod (423) penetrates through the second limiting block (422) and is connected to the second limiting block (422) in a sliding mode.

8. A heat shrink tube flattening conveyor in accordance with claim 7, wherein: the limiting assembly (42) further comprises an elastic element (424); one end of the elastic piece (424) is abutted to one side, close to the second limiting block (422), of the first limiting block (421), and the other end of the elastic piece (424) is abutted to one side, close to the first limiting block (421), of the second limiting block (422).