CN218838050U - Textile casing cutting device - Google Patents

Abstract

The utility model discloses a cutting device for textile sleeve, the present case simple structure easily realizes, the setting of rim plate to the textile sleeve who supplies the lapping places wherein. The cutting mechanism is arranged, so that the textile casing pipe can be cut conveniently, and the cutting function is realized. Get drop feed mechanism's setting, be convenient for press from both sides the textile sleeve pipe on the rim plate and press from both sides tightly to prolong to preset the position and loosen after the cutting is accomplished to press from both sides the textile sleeve pipe through setting up different motion stroke and tightly prolong to different preset positions, be favorable to cutting out the textile sleeve pipe of different length, its practicality is good. The spring of the cutting mechanism is arranged, so that the hot cutter can still be in a tensioning state after being heated and deformed, and the cutting effect is guaranteed and the cutting quality is improved.

Description

Textile casing cutting device

Technical Field

The utility model relates to a textile sleeve cutting device.

Background

The wire harness is used as the nerve of the automobile, and the protective material of the wire harness belongs to important automobile parts. At present, a self-winding type textile sleeve which is formed by weaving polyester monofilaments and multifilaments is adopted to protect the automobile wiring harness. The self-rolling type textile casing has the characteristics of fire resistance, wear resistance, flexibility, dust resistance, simplicity and rapidness in operation and the like.

Chinese patent publication No. CN 208342931U discloses a cable outer sleeve cutting device, which has a compact structure, can automatically feed and discharge the sleeve, and has high automation degree and relatively accurate cutting size. However, for the self-rolling type textile sleeve which is soft and has better toughness and wear resistance, the cable outer sleeve cutting technology is not suitable for cutting the self-rolling type textile sleeve.

At present, also there is the device that can cut from roll type textile sleeve among the prior art, and its self has limiting displacement, can avoid the weaving pipe main part to take place to rock when the cutting, can be used for the cutting of the weaving pipe of multiple different diameters. However, the cutting blade of the cutting device may be deformed by heat during use, which may result in incomplete cutting or uneven cutting of the textile tube, thereby affecting the cutting effect.

Therefore, how to overcome the above-mentioned drawbacks has become an important issue to be solved by those skilled in the art.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes above-mentioned technique is not enough, provides a weaving sleeve pipe cutting device.

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

the utility model provides a textile sleeve cutting device, including device body 1, device body 1 is including the income work or material rest 2, the processing box 3 that set gradually, go into and be equipped with the rim plate 4 that the textile sleeve 100 that supplies the lapping placed wherein on the work or material rest 2, including set up in the cutting mechanism 31 of its first half and be used for pressing from both sides the textile sleeve 100 that sets up on the rim plate 4 tight stretch to preset position and the get that loosens after the cutting is accomplished and put material mechanism 32, cutting mechanism 31 is including being used for carrying out the hot knife 311 of cutting and being used for preventing to textile sleeve 100 downwards the spring 312 that hot knife 311 warp.

Preferably, the processing box 3 is provided with a supporting mechanism 5 for supporting the textile sleeve 100 during cutting, the supporting mechanism 5 includes a supporting cylinder 51 arranged on the processing box 3 and a supporting seat 52 driven by the supporting cylinder 51 and capable of moving up and down, and the supporting seat 52 is provided with a groove 520 matched with the textile sleeve 100 in shape.

Preferably, an auxiliary feeder 6 for clamping the textile sleeve 100 is arranged on one side surface of the processing box 3 close to the material feeding frame 2, and the auxiliary feeder 6 comprises a mounting seat 61 connected to one side surface of the processing box 3 and two vertical columns 62 arranged on the mounting seat 61 in a front-back parallel manner.

Preferably, be equipped with between the supplementary feeder 6 and the hot-cutting knife 311 below and be used for carrying out the guiding mechanism 7 that leads with the textile sleeve 100 that supplementary feeder 6 sent, guiding mechanism 7 is including connecting backing plate 71 at processing box 3 middle part, being used for carrying out the stand pipe 72 that leads with the textile sleeve 100 that supplementary feeder 6 sent, backing plate 71 is equipped with deflector 73 that has the through-hole and the limiting plate 74 that has the through-hole to the epirelief, the end of stand pipe 72 with the through-hole inner wall connection of deflector 73, deflector 73 with be equipped with first clamping jaw cylinder 75 between the limiting plate 74.

Preferably, the guide plate 73 is provided with a sensing assembly 8, and the sensing assembly 8 comprises a sensing rod 81 hinged on the guide plate 73 and supported by a textile sleeve 100 passing through the sensing rod, and a sensor 82 fixedly connected to the rear upper end of the guide plate 73 for sensing whether the sensing rod 81 falls down.

Preferably, the material taking and placing mechanism 32 includes an X-direction sliding table 321 connected to the upper half portion of the processing box 3, a sliding plate 322 driven by the X-direction sliding table 321 to move left and right, and a second clamping jaw cylinder 323 connected to the sliding plate 322 and capable of clamping/unclamping.

Preferably, the cutting mechanism 31 further includes a first cylinder 313 connected to the upper half portion of the processing box 3, and a first movable block 314 driven by the first cylinder 313 and capable of moving up and down, the front half portion of the first movable block 314 is connected to a first adapter 316 capable of moving left and right through a slide rail 315, the rear half portion of the first movable block 314 is directly connected to a second adapter 317, one end of the hot cutter 311 is connected to the bottom of the first adapter 316, the other end of the hot cutter is connected to the bottom of the second adapter 317, the first movable block 314 is provided with a screw 3140 penetrating downwards and extending to one side of the first adapter 316, one end of the spring 312 is connected to the end of the screw 3140, and the other end of the spring is connected to the first adapter 316.

Preferably, the processing box 3 further comprises a storage bin 9 arranged at the lower half part thereof.

Preferably, the wheel disc 4 is provided with limiting columns 41 distributed in a circumferential array, the middle part of the wheel disc is connected with a bearing sleeve 42, a bearing 43 is installed in the bearing sleeve 42, and the bearing 43 is connected with a flange shaft 44 which is matched with the bearing 43.

Preferably, a touch control integrated machine 10 for controlling and observing production conditions is arranged on the processing box body 3.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the scheme is simple in structure and easy to realize, and the wheel disc is arranged so that the coiled textile sleeve can be placed in the wheel disc. The cutting mechanism is arranged so as to cut the textile sleeve conveniently and realize the cutting function. Get drop feed mechanism's setting, be convenient for press from both sides the weaving sleeve pipe on the rim plate and press from both sides tightly to elongate to predetermineeing the position and loosen after the cutting is accomplished to in order to press from both sides the weaving sleeve pipe through setting up different motion stroke and tightly elongate to different predetermineeing the position, be favorable to cutting out the weaving sleeve pipe of different length, its practicality is good. The spring of the cutting mechanism is arranged, so that the hot cutter can still be in a tensioning state after being heated and deformed, and the cutting effect is guaranteed and the cutting quality is improved.

2. The supporting cylinder of the supporting mechanism is arranged to drive the supporting seat to move up and down, so that the textile sleeve can be supported by the supporting cylinder in an upward movement manner during cutting, excessive bending of the textile sleeve due to the downward pressure generated by the hot cutter is prevented, the occurrence of poor cutting is reduced, and the cutting effect is improved; and on the other hand, the cutting device can move downwards after cutting to retract to the original position without influencing the subsequent transportation of the textile sleeve to be processed. The arrangement of the groove is convenient for the textile sleeve not to deform while supporting, and the cutting effect is favorably ensured.

3. The guide mechanism is arranged on the guide pipe, so that the textile sleeve sent out by the auxiliary feeder can be guided conveniently, and the textile sleeve can be output along the guide pipe conveniently. The guide plate is arranged so that the guide tube is installed therein. The setting of limiting plate to prevent that the textile sleeve pipe from the too big degree of deformation when cutting, in order to avoid the influence to get feeding mechanism and get the material next time. The setting of first clamping jaw cylinder to press from both sides tight textile sleeve when the cutting, prevent that textile sleeve from removing and influence cutting effect.

4. The arrangement of the X-direction sliding table and the sliding plate of the material taking and placing mechanism facilitates driving the second clamping jaw cylinder to move left and right, so that the textile sleeve can be driven to move left and right to a preset position in a clamped mode, the textile sleeve can be clamped and elongated to different positions by setting different movement strokes, the textile sleeve with different lengths can be cut conveniently, and the practicability is good; on the other hand so that can with guiding mechanism's first clamping jaw cylinder cooperation sets up, makes textile sleeve cutting section be in quiescent condition, and is more stable during messenger's cutting, is favorable to improving cutting quality.

5. The present case setting of spacing post to can be according to the different adjusting position of weaving sleeve coil of pipe diameter, carry on spacingly to it, prevent that weaving sleeve coil of pipe from taking place the skew in process of production. The bearing sleeve, the bearing and the flange shaft are arranged to facilitate the release of the spinning sleeves on the wheel disc one by one, so that the paying-off effect is realized, the continuity and the stability of the feeding process can be ensured, and the spinning sleeves are prevented from being knotted in a staggered manner in the feeding process.

Drawings

Fig. 1 is a perspective view of the present disclosure.

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

Fig. 3 is one of partial structural views of the present disclosure.

Fig. 4 is a second partial structural view of the present invention.

Fig. 5 is a schematic structural diagram of the material taking and placing mechanism in the present case.

Fig. 6 is a schematic structural diagram of the cutting mechanism of the present disclosure.

Fig. 7 is a third partial structural diagram of the present invention.

Detailed Description

The features of the present invention and other related features are described in further detail below by way of examples to facilitate understanding by those skilled in the art:

as shown in fig. 1 to 7, a textile sleeve cutting device comprises a device body 1, the device body 1 comprises a material feeding frame 2 and a processing box body 3 which are sequentially arranged, a wheel disc 4 for placing the textile sleeve 100 in a roll is arranged on the material feeding frame 2, a cutting mechanism 31 arranged on the upper half of the processing box body 3 and a material taking and placing mechanism 32 used for clamping and stretching the textile sleeve 100 on the wheel disc 4 to a preset position and loosening the textile sleeve after the cutting is completed are arranged in the processing box body 3, and the cutting mechanism 31 comprises a hot cutter 311 used for downwards cutting the textile sleeve 100 and a spring 312 used for preventing the hot cutter 311 from deforming.

The scheme is simple in structure and easy to realize, and the wheel disc 4 is arranged so that the coiled textile sleeve 100 can be placed in the wheel disc. The cutting mechanism 31 is arranged so as to cut the textile sleeve 100, and a cutting function is realized. Get drop feed mechanism 32's setting, be convenient for press from both sides the weaving sleeve pipe 100 on the rim plate 4 tightly to stretch to preset the position and loosen after the cutting is accomplished to press from both sides the weaving sleeve pipe 100 tightly to stretch to different preset positions through setting up different motion stroke, be favorable to cutting out the weaving sleeve pipe 100 of different length, its practicality is good. The spring 312 of the cutting mechanism 31 is arranged so that the hot cutter 311 can still be in a tensioned state after being heated and deformed, which is beneficial to ensuring the cutting effect and improving the cutting quality. In specific implementation, the spring 312 is in a tensioned state during installation, and the spring 312 will contract after the hot cutter 311 is deformed by heat, so that the hot cutter 311 is always in a tensioned state.

As shown in fig. 1 and fig. 3, in a specific implementation, a supporting mechanism 5 for supporting the textile sleeve 100 during cutting is arranged on the processing box 3, the supporting mechanism 5 includes a supporting cylinder 51 arranged on the processing box 3, and a supporting seat 52 driven by the supporting cylinder 51 to move up and down, and a groove 520 arranged in a shape matching with the textile sleeve 100 is arranged on the supporting seat 52.

As described above, the supporting cylinder 51 of the supporting mechanism 5 is arranged to facilitate driving the supporting seat 52 to move up and down, so as to facilitate moving up and supporting the textile sleeve 100 during cutting, and prevent the textile sleeve 100 from being excessively bent by the downward pressure generated by the hot knife 311, thereby being beneficial to reducing the occurrence of poor cutting and improving the cutting quality; and on the other hand, the cutting device can move downwards after cutting to retract to the original position without influencing the subsequent transportation of the textile sleeve 100 to be processed. The grooves 520 are arranged so as to support the textile sleeve 100 without deforming, which is beneficial to ensuring the cutting effect.

As shown in fig. 3 and 4, in a specific implementation, an auxiliary feeder 6 for clamping the textile sleeve 100 is arranged on one side surface of the processing box 3 close to the material inlet frame 2, and the auxiliary feeder 6 comprises an installation seat 61 connected to one side surface of the processing box 3 and two vertical columns 62 arranged on the installation seat 61 in parallel in the front and at the back. In this way, the textile sleeve 100 can be conveniently penetrated and slightly clamped between the two columns 62 of the auxiliary feeder 6, the position of the textile sleeve 100 is prevented from being deviated in the feeding process, and the stability of continuous feeding is ensured.

As shown in fig. 1 and 3, in a specific implementation, a guide mechanism 7 for guiding the textile sleeve 100 sent out by the auxiliary feeder 6 is disposed between the auxiliary feeder 6 and the lower side of the hot cutter 311, the guide mechanism 7 includes a pad 71 connected to the middle of the processing box 3 and a guide tube 72 for guiding the textile sleeve 100 sent out by the auxiliary feeder 6, the pad 71 is provided with a guide plate 73 with a through hole and a limit plate 74 with a through hole in an upward protruding manner, the end of the guide tube 72 is connected to the inner wall of the through hole of the guide plate 73, and a first jaw cylinder 75 is disposed between the guide plate 73 and the limit plate 74.

As mentioned above, the guiding tube 72 of the guiding mechanism 7 is arranged to guide the textile sleeve 100 fed out by the auxiliary feeder 6, so that the textile sleeve 100 is fed out along the guiding tube 72. The guide plate 73 is provided so as to allow the guide tube 72 to be fitted therein. The limiting plate 74 is arranged to prevent the textile sleeve 100 from deforming too much during cutting, so as to avoid affecting the next material taking of the material taking and feeding mechanism 32. The first clamping jaw air cylinder 75 is arranged to clamp the textile sleeve 100 during cutting, so that the textile sleeve 100 is prevented from moving to affect the cutting effect.

As shown in fig. 4, in a specific implementation, a sensing assembly 8 is installed on the guide plate 73, and the sensing assembly 8 includes a sensing rod 81 hinged on the guide plate 73 and supported by a textile sleeve 100 passing through the guide plate, and a sensor 82 fixedly connected to the rear upper end of the guide plate 73 for sensing whether the sensing rod 81 falls down. Therefore, whether the textile sleeve 100 still exists or not can be accurately detected, and when the textile sleeve 100 does not exist, namely the consumption is finished, the device body 1 stops working, so that unnecessary loss is reduced. In specific implementation, when the textile sleeve 100 is not completely consumed in the operation process of the device, the induction rod 81 is suspended under the support of the textile sleeve 100, and the inductor 82 does not act at the moment; when the textile sleeve 100 is completely consumed, the sensing rod 81 falls down, and the sensor 82 sends a stop signal after sensing the sensing rod 81, so that the device stops running.

As shown in fig. 5, in specific implementation, the material taking and placing mechanism 32 includes an X-direction sliding table 321 connected to the frame/housing of the upper half portion of the processing box 3 through screws, a sliding plate 322 driven by the X-direction sliding table 321 to move left and right, and a second clamping jaw cylinder 323 connected to the sliding plate 322 and capable of clamping/releasing, when the guiding mechanism 7 guides the textile sleeve 100 out, the clamping jaw of the second clamping jaw cylinder 323 clamps the textile sleeve 100 and moves along the horizontal direction to elongate the textile sleeve 100 to a preset position, and when the cutting mechanism 31 finishes cutting, the clamping jaw of the second clamping jaw cylinder 323 releases the textile sleeve 100 to drop the textile sleeve 100.

As described above, the arrangement of the X-direction sliding table 321 and the sliding plate 322 of the material taking and placing mechanism 32 facilitates driving the second clamping jaw cylinder 323 to move left and right, so as to drive the clamped textile sleeve 100 to move left and right to a preset position, and also to clamp and elongate the textile sleeve 100 to different positions by setting different movement strokes, which is beneficial to cutting textile sleeves 100 with different lengths, and the practicability is good; on the other hand so that can with the first clamping jaw cylinder 75 cooperation setting of guiding mechanism 7 makes textile sleeve 100 cutting segment be in quiescent condition, and is more stable during the messenger cuts, is favorable to improving cutting quality.

As shown in fig. 2 and fig. 6, in specific implementation, the cutting mechanism 31 further includes a first cylinder 313 connected to a frame/housing of the upper half of the processing box 3 through a screw, and a first movable block 314 driven by the first cylinder 313 and capable of moving up and down, the front half of the first movable block 314 is connected to a first adapter 316 capable of moving left and right through a slide rail 315, the rear half is directly connected to a second adapter 317, one end of the hot cutter 311 is connected to the bottom of the first adapter 316, the other end of the hot cutter is connected to the bottom of the second adapter 317, the first movable block 314 is provided with a screw 3140 penetrating downwards and extending to one side of the first adapter 316, one end of the spring 312 is connected to the end of the screw 3140, and the other end of the spring 312 is connected to the first adapter 316.

As described above, the arrangement of the first cylinder 313, the first movable block 314, the slide rail 315, the first adapter 316, and the second adapter 317 of the cutting mechanism 31 facilitates driving the hot cutter 311 to move up and down, so that the hot cutter 311 can extend downward during cutting and retract upward after cutting is completed, and the transportation of the textile sleeve 100 to be processed subsequently is not hindered while the cutting operation is completed.

As shown in fig. 1, the processing box 3 further includes a storage bin 9 disposed at a lower half portion thereof. In this manner, the cut textile sleeve 100 is received, facilitating collection of the textile sleeve 100. In specific implementation, when the cutting mechanism 31 finishes cutting, the clamping jaws on the second clamping jaw cylinder 323 of the material taking and placing mechanism 32 loosen the cut textile sleeve 100, so that the textile sleeve 100 falls into the storage bin 9.

As shown in fig. 7, the wheel disc 4 is provided with limiting posts 41 distributed in a circumferential array, the middle part of the wheel disc is connected with a bearing sleeve 42, a bearing 43 is installed in the bearing sleeve 42, and the bearing 43 is connected with a flange shaft 44 which is matched with the bearing 43.

As described above, the position-limiting columns 41 are arranged so that the position can be adjusted according to the diameter of the textile sleeve 100 roll to limit the textile sleeve, and the textile sleeve roll is prevented from deviating in the production process. The arrangement of the bearing sleeve 42, the bearing 43 and the flange shaft 44 is convenient for discharging the textile sleeves 100 on the wheel disc 4 circle by circle, so that the paying-off effect is realized, the continuity and the stability of the feeding process can be ensured, and the textile sleeves 100 are prevented from being knotted in a staggered manner in the feeding process. In the first processing, after the operator places the coiled textile sleeve 100 on the wheel 4, the textile sleeve 100 is manually inserted through the auxiliary feeder 6 and the guide mechanism 7 so as to be gripped by the pick-and-place mechanism 32.

As shown in fig. 1, a touch control integrated machine 10 for controlling and observing production conditions is arranged on the processing box 3. In this manner, the production of the textile sleeve 100 is easily controlled and observed, so as to reduce the labor intensity of the operator and improve the production efficiency. In specific implementation, an operator can operate the touch control all-in-one machine 10 to control the device body 1 to work.

As mentioned above, the present application protects a textile sleeve cutting device, and all technical solutions identical or similar to the present application should be considered to fall within the scope of the present application.

Claims (10)

1. The utility model provides a weaving sleeve pipe cutting device, including device body (1), its characterized in that device body (1) is including the income work or material rest (2), processing box (3) that set gradually, it places rim plate (4) wherein to go into spinning sleeve pipe (100) that are equipped with the confession lapping on work or material rest (2), including setting up in its first half cutting mechanism (31) and being used for with spinning sleeve pipe (100) clamp on rim plate (4) tightly stretch to preset position and get material mechanism (32) of getting that loosen after the cutting is accomplished, cutting mechanism (31) are including being used for carrying out the hot knife (311) of cutting and being used for preventing to spinning sleeve pipe (100) downwards hot knife (311) are out of shape spring (312).

2. The textile sleeve cutting device according to claim 1, characterized in that the processing box (3) is provided with a supporting mechanism (5) for supporting the textile sleeve (100) during cutting, the supporting mechanism (5) comprises a supporting cylinder (51) arranged on the processing box (3) and a supporting seat (52) driven by the supporting cylinder (51) to move up and down, and the supporting seat (52) is provided with a groove (520) matched with the shape of the textile sleeve (100).

3. The textile sleeve cutting device according to claim 1, characterized in that an auxiliary feeder (6) for clamping the textile sleeve (100) is arranged on one side surface of the processing box body (3) close to the material feeding frame (2), and the auxiliary feeder (6) comprises a mounting seat (61) connected to one side surface of the processing box body (3) and two vertical columns (62) which are arranged on the mounting seat (61) in a front-back side-by-side mode.

4. The textile sleeve cutting device according to claim 3, characterized in that a guide mechanism (7) for guiding the textile sleeve (100) sent out by the auxiliary feeder (6) is arranged between the auxiliary feeder (6) and the lower part of the hot cutter (311), the guide mechanism (7) comprises a backing plate (71) connected to the middle part of the processing box body (3) and a guide pipe (72) for guiding the textile sleeve (100) sent out by the auxiliary feeder (6), the backing plate (71) is provided with a guide plate (73) with a through hole and a limiting plate (74) with a through hole in an upward protruding manner, the tail end of the guide pipe (72) is connected with the inner wall of the through hole of the guide plate (73), and a first clamping jaw cylinder (75) is arranged between the guide plate (73) and the limiting plate (74).

5. The textile sleeve cutting device according to claim 4, characterized in that a sensing assembly (8) is mounted on the guide plate (73), and the sensing assembly (8) comprises a sensing rod (81) hinged on the guide plate (73) and supported by the textile sleeve (100) passing through, and a sensor (82) fixedly connected to the rear upper end of the guide plate (73) and used for sensing whether the sensing rod (81) falls or not.

6. The textile casing cutting device according to claim 1, characterized in that the material taking and discharging mechanism (32) comprises an X-direction sliding table (321) connected to the upper half part of the processing box body (3), a sliding plate (322) driven by the X-direction sliding table (321) to move left and right, and a second clamping jaw air cylinder (323) connected to the sliding plate (322) and capable of clamping/releasing.

7. The textile sleeve cutting device according to claim 1, wherein the cutting mechanism (31) further comprises a first cylinder (313) connected to the upper half portion of the processing box body (3), and a first movable block (314) driven by the first cylinder (313) and capable of moving up and down, the front half portion of the first movable block (314) is connected with a first adapter (316) capable of moving left and right through a sliding rail (315), the rear half portion of the first movable block is directly connected with a second adapter (317), one end of the hot cutter (311) is connected with the bottom of the first adapter (316), the other end of the hot cutter is connected with the bottom of the second adapter (317), the first movable block (314) is provided with a screw (3140) which penetrates downwards and extends to one side of the first adapter (316), one end of the spring (312) is connected with the tail end of the screw (3140), and the other end of the spring is connected with the first adapter (316).

8. The textile sleeve cutting device according to claim 1, characterized in that the processing box (3) further comprises a storage bin (9) arranged at the lower half part thereof.

9. The textile sleeve cutting device according to claim 1, characterized in that the wheel disc (4) is provided with circumferentially arrayed limiting posts (41), the middle part of the wheel disc is connected with a bearing sleeve (42), a bearing (43) is arranged in the bearing sleeve (42), and the bearing (43) is connected with a flange shaft (44) which is matched with the bearing.

10. The textile sleeve cutting device according to claim 1, characterized in that a touch control integrated machine (10) for controlling and observing production conditions is arranged on the processing box body (3).

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