CN212865391U - Non-woven fabric dividing and cutting machine - Google Patents

Abstract

The utility model relates to a non-woven fabric slitter, it contains cutting bed, there is the slide rail cutting bed is last through the leg joint, it is connected with the host computer to slide on the slide rail, cutting bed is last to be equipped with two drive framves respectively, two the drive frame is located the both ends of slide rail respectively, the host computer is located between two drive framves, it is connected with the wire reel to rotate on the drive frame, around being equipped with the cable on the wire reel, the one end that the wire reel was kept away from to the cable can be dismantled through the connecting piece and connect on the host computer, still be equipped with on the drive frame and be used for driving wire reel pivoted. The application has the technical effects that: need not the manual work and promote the host computer, the host computer can be under the drive of two motors automatic tailor labour saving and time saving to the non-woven fabrics on the slide rail.

Description

Non-woven fabric dividing and cutting machine

Technical Field

The application relates to the technical field of non-woven fabrics cutting, especially, relate to a non-woven fabric slitter.

Background

The non-woven fabric is a fabric formed without spinning woven fabric, and is formed by only forming a fiber web structure by directionally or randomly arranging textile short fibers or filaments and then reinforcing the fiber web structure by adopting a mechanical method, a thermal bonding method or a chemical method. The non-woven fabric has no warp and weft, is very convenient to cut and sew, is light in weight and easy to shape, and is popular with hand fans.

Notice No. CN206752186U discloses a cloth cutting machine, which comprises a main frame, a slide rail, the slide rail support, prop the cloth frame, electric cabinet and cutting bed, the slide rail support includes two distal end supports and near-end support that the structure is the same, distal end support and near-end support separable fixation are in the relative position in cutting bed both sides border, the both ends of slide rail are fixed respectively on distal end support and near-end support, distal end support includes tripod and the ejector pin with tripod sliding connection, the tripod upper end is provided with two pressfitting at the clamping jaw of slide rail both sides cutting bed border department, be fixed with the stand on the clamping jaw, the host computer baffle that the direction is relative and crisscross setting is connected to the rotation on two stands, be provided with the elastic component that restriction host computer baffle rotated and control host computer baffle resets.

The technical scheme has the following defects: above-mentioned cloth cutting machine needs the manual work to promote the host computer repeatedly for a long time and tailors the non-woven fabrics, and staff's intensity of labour is great, and the process of tailorring is wasted time and energy.

SUMMERY OF THE UTILITY MODEL

In order to improve the problem that the process of tailorring of non-woven fabrics wastes time and energy, the application provides a non-woven fabric slitter adopts following technical scheme: the utility model provides a non-woven fabric slitter, contains the cutting bed, there is the slide rail through the leg joint on the cutting bed, it is connected with the host computer to slide on the slide rail, be equipped with two drive framves on the cutting bed respectively, two the drive frame is located the both ends of slide rail respectively, the host computer is located between two drive framves, it is connected with the wire reel to rotate on the drive frame, around being equipped with the cable on the wire reel, the one end that the wire reel was kept away from to the cable passes through the connecting piece and can dismantle the connection on the host computer, still be equipped with on the drive frame and be used for driving.

Through the technical scheme, the two motors can drive the two wire reels to synchronously rotate towards the same direction when being started, the two wire reels can respectively carry out wire take-up and wire release operations on the two cables, and the host machine positioned between the two wire reels can reciprocate along the slide rail under the driving of the two cables, so that the host machine can cut the non-woven fabrics laid on the slide rail, and the effect of automatically cutting the non-woven fabrics on the slide rail is achieved, and time and labor are saved; after the non-woven fabric is cut out, the staff accessible connecting piece is lifted off the cable from the host computer to the staff can dismantle and accomodate the host computer.

Preferably, the connecting piece contains the link that sets up on the host computer, the tip that the wire reel was kept away from to the cable is equipped with the link assorted link plate with the link, the link plate corresponds to peg graft in the link and the link is extended partially.

According to the technical scheme, when the wire spool winds the cable, the cable can drive the main machine to move along the sliding rail in a mode that the hanging ring is pulled by the hook, so that the effect of connecting the cable with the main machine is achieved; simultaneously, the staff can also be through pulling out the mode of couple in from the link with the cable lift off from the host computer to reached and dismantled the effect of being connected with host computer and cable.

Preferably, the end part of the hanging plate extending out of the hanging ring is penetrated and connected with a limiting bolt in a threaded manner, and the end part of the limiting bolt is abutted against the host machine.

Through the technical scheme, the hook is difficult to separate from the hanging ring under the action of external force under the limitation of the limiting bolt, so that the connection firmness between the hook and the hanging ring is enhanced, and the host can stably move along the sliding rail under the driving of a cable; when the cable is required to be detached from the host machine, a worker can detach the limiting bolt from the hook in a bolt detaching mode, and then detach the cable from the host machine in a mode of pulling the hook out of the hanging ring.

Preferably, the driving frame is provided with an accommodating groove matched with the limiting bolt.

Through above-mentioned technical scheme, after the staff lifted off spacing bolt from the couple, the accessible was accomodate spacing bolt with the mode of spacing bolt correspondence grafting in accomodating the inslot to the possibility that the spacing bolt dropped and lost after being lifted off has been reduced.

Preferably, the driving frame is further provided with two disassembling grooves respectively, and the two disassembling grooves are oppositely arranged and are communicated with the accommodating groove.

Through above-mentioned technical scheme, when needing to connect cable and host computer, the staff accessible will point to stretch into and dismantle the inslot, hold between the fingers the mode of upwards mentioning of spacing bolt then and take out spacing bolt from accomodating the inslot fast, reduced spacing bolt and pegged graft and lead to the staff to be difficult to the possibility of taking out spacing bolt fast in accomodating the inslot to efficiency when staff's connecting cable and host computer has been improved.

Preferably, the connecting piece contains the fixed block of setting on the host computer, the tip that the wire reel was kept away from to the cable is equipped with the connecting block, the fixed block deviates from on the terminal surface of slide rail along vertical direction seted up with connecting block assorted fixed slot, the fixed block sets up the threading groove that supplies the cable to pass along the horizontal direction on the terminal surface of drive yoke, the connecting block corresponds the joint in the fixed slot, the cable is worn to establish in the threading inslot.

According to the technical scheme, when the wire spool winds the cable, the cable can drive the main machine to move along the sliding rail in a mode that the connecting block drives the fixing block, so that the effect of connecting the cable with the main machine is achieved; simultaneously, the staff can also be through pulling out the mode of connecting block in from the fixed block with the cable lift off from the host computer to reached and dismantled the effect of being connected with host computer and cable.

Preferably, the bottom of the fixing groove is provided with a first magnetic block, the connecting block is provided with a second magnetic block matched with the first magnetic block, and the first magnetic block and the second magnetic block are in abutting contact with each other.

Through the technical scheme, the connecting block can be tightly adsorbed in the fixing groove under the action of the magnetic force of the first magnetic block and the second magnetic block; the connecting block is difficult to break away from the fixed slot under the effect of external force due to the arrangement of the first magnetic block and the second magnetic block, the firmness of connection between the connecting block and the fixed block is enhanced, and the main machine can be driven by a cable to stably move along the sliding rail.

Preferably, an annular guide groove is formed in the opening of the fixing groove along the periphery.

Through above-mentioned technical scheme, when the staff is pegging graft the connecting block correspondence in the fixed slot, the guide way has the effect of direction for the connecting block can be along the slope cell wall of guide way in the fixed slot is slided fast, thereby efficiency when staff's connecting cable and host computer has been improved.

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

1. the main machine does not need to be manually pushed, and can automatically cut the non-woven fabric on the slide rail under the driving of the two motors, so that time and labor are saved;

2. after the non-woven fabric is cut out, the staff accessible connecting piece is lifted off the cable from the host computer to the staff can dismantle and accomodate the host computer.

Drawings

Fig. 1 is a schematic view of the entire structure of embodiment 1.

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

Fig. 3 is a schematic structural view for embodying the housing groove in embodiment 1.

FIG. 4 is a schematic view of the entire structure of embodiment 2.

Fig. 5 is an enlarged schematic view at B in fig. 4.

FIG. 6 is a schematic sectional view of a first magnetic block in embodiment 2.

Reference numerals: 1. cutting a bed; 2. a support; 3. a slide rail; 4. a host; 5. a driving frame; 6. a wire spool; 7. a cable; 8. a connecting member; 9. a motor; 10. hanging a ring; 11. hanging the plate; 12. a limit bolt; 13. a receiving groove; 14. disassembling the groove; 15. a fixed block; 16. connecting blocks; 17. fixing grooves; 18. a threading slot; 19. a first magnetic block; 20. a second magnetic block; 21. a guide groove.

Detailed Description

The present application is described in further detail below with reference to figures 1-6.

Example 1: the utility model provides a non-woven fabric slitter, as shown in figure 1, contains cutting bed 1, is connected with slide rail 3 through support 2 on the cutting bed 1, and it is connected with host computer 4 to slide on the slide rail 3, still has the drive frame 5 of two L types on the cutting bed 1 respectively bolted connection, and two drive frames 5 are located the both ends of slide rail 3 respectively and keep away from the one end of cutting bed 1 and extend to the top of slide rail 3, rotate respectively on two drive frames 5 and are connected with wire reel 6.

As shown in fig. 1 and 2, a cable 7 is tightly wound on the wire spool 6, one end of the cable 7 is fixedly connected to the wire spool 6, one end of the cable 7, which is far away from the wire spool 6, is detachably connected to the host machine 4 through the connecting piece 8, the host machine 4 is located between the two cables 7, the two wire spools 6 are respectively connected with a motor 9 for driving the wire spool 6 to rotate through bolts, and the two motors 9 can synchronously rotate towards the same direction when being started. Consequently, when two motors 9 start, one of them motor 9 can drive wire reel 6 and receive or the unwrapping wire operation to cable 7, another motor 9 can drive wire reel 6 and unreel or receive the line operation to cable 7 in step, thereby make and be located host computer 4 between two cables 7 and can follow slide rail 3 reciprocating sliding under the drive of two cables 7, so that host computer 4 can be automatically to tailorring the non-woven fabrics of laying on slide rail 3, the process of tailorring of non-woven fabrics need not the manual work and promotes host computer 4, time saving and labor saving.

As shown in fig. 1 and 2, the connecting member 8 is provided as: contain two fixed connection links 10 on host computer 4, the tip fixedly connected with and the link 10 assorted link plate 11 of wire reel 6 are kept away from to cable 7, cable 7 corresponds the mode of pegging graft in link 10 along vertical direction through link plate 11 and is connected with host computer 4, a tip that cable 7 was kept away from to link plate 11 extends link 10, and link plate 11 extends the tip that link 10 was worn to establish and threaded connection has stop bolt 12 along the horizontal direction, stop bolt 12's tip is supported tightly on host computer 4. Therefore, when the two motors 9 are started, the two cables 7 can drive the main machine 4 to move along the slide rail 3 in a mode that the hanging ring 10 is hooked by the hanging plate 11, so that the main machine 4 can cut the non-woven fabric on the slide rail 3 normally, and the arrangement of the two limiting bolts 12 has the function of limiting the position of the hanging plate 11, so that the hanging plate 11 is difficult to separate from the hanging ring 10 in the cutting process, and the connection firmness between the cables 7 and the main machine 4 is enhanced; after the cutting is finished, the worker can detach the limiting bolt 12 from the hanging plate 11 in a bolt detaching mode, and then detach the cable 7 from the host machine 4 in a mode of pulling the hanging plate 11 out of the hanging ring 10, so that the worker can detach and store the host machine 4.

As shown in fig. 1 and 3, the two driving frames 5 are respectively provided with an accommodating groove 13 matched with the limit bolt 12, the driving frames 5 are also respectively provided with two detaching grooves 14 communicated with the accommodating grooves 13, and the two detaching grooves 14 are respectively oppositely arranged at two sides of the accommodating groove 13. Therefore, after the worker detaches the limit bolt 12 from the hanging plate 11, the limit bolt 12 can be accommodated in the driving frame 5 by inserting the limit bolt 12 into the accommodating groove 13; when the cable 7 is required to be connected to the host 4, the worker can quickly take out the limit bolt 12 from the receiving groove 13 through the detaching groove 14, so that the worker can quickly connect the cable 7 to the host 4.

The implementation principle of the embodiment is as follows: when the non-woven fabric is required to be cut, a worker can firstly fix the two driving frames 5 at proper positions on the cutting bed 1 in a bolt connection mode, so that one end part, far away from the cutting bed 1, of each driving frame 5 extends to the upper side of the corresponding sliding rail 3, then the two cables 7 are respectively connected to the two sides of the host 4 in a mode of inserting the hanging plate 11 into the hanging ring 10, then the limiting bolts 12 are taken out of the accommodating grooves 13, the limiting bolts 12 are connected onto the hanging plate 11 in a threaded mode to limit the positions of the hanging plate 11, the two motors 9 are started to drive the two wire winding discs 6 to rotate, the two cables 7 can drive the host 4 to move along the sliding rails 3 to cut the non-woven fabric on the sliding rails 3 under the driving of the two wire winding discs 6, and therefore, the effect of automatically cutting the non-woven fabric is; after finishing cutting, the staff can lift the limit bolt 12 and the hanging plate 11 off in sequence, and then lift the main frame 4 off from the slide rail 3 for storage.

Example 2: a non-woven fabric slitter is different from the embodiment 1 in that: as shown in fig. 4 and 5, the connecting member 8 is provided as: contain two fixed blocks 15 that set firmly respectively in 4 both sides of host computer, fixed block 15 is located between 4 and the wire reel 6 of host computer, the tip fixedly connected with connecting block 16 of wire reel 6 is kept away from to cable 7, set up along vertical direction on the fixed block 15 with connecting block 16 assorted fixed slot 17, still set up the threading groove 18 that supplies cable 7 to wear to establish along the horizontal direction on the fixed block 15, cable 7 corresponds the grafting in fixed slot 17 through connecting block 16, and cable 7 corresponds the mode of wearing to establish in threading groove 18 and is connected with host computer 4. Therefore, when the motor 9 drives the wire spool 6 to rotate, the two cables 7 can drive the main machine 4 to move along the slide rail 3 in a manner that the connecting block 16 pulls the fixing block 15; after finishing cutting, the worker can detach the cable 7 from the host computer 4 by taking the fixing block 15 out of the fixing groove 17, so that the worker can detach and store the host computer 4.

As shown in fig. 4 and 6, an opening of the fixing groove 17 is provided with an annular guide groove 21 along a circumference, and the guide groove 21 has a guiding function, so that the connecting block 16 can be quickly inserted into the fixing groove 17 along the guide groove 21; the bottom of fixed slot 17 bonds there is first magnet 19, and the periphery of first magnet 19 contacts with the cell wall of fixed slot 17, and the corresponding second magnet 20 that bonds on connecting block 16, when connecting block 16 corresponds the grafting in fixed slot 17, first magnet 19 and second magnet 20 are mutually supported tightly and are adsorbed. Therefore, the arrangement of the first magnetic block 19 and the second magnetic block 20 has the effect of reinforcing the connection firmness between the connecting block 16 and the fixing block 15, so that the possibility of separation of the cable 7 and the host machine 4 in the cutting process is reduced, and the host machine 4 can be driven by the cable 7 to stably cut the non-woven fabric.

The implementation principle of the embodiment is as follows: when the non-woven fabric needs to be cut, a worker can connect the cable 7 to the host 4 in a manner of correspondingly inserting and adsorbing the connecting block 16 into the fixing groove 17, so that the host 4 can move along the sliding rail 3 to cut the non-woven fabric under the driving of the cable 7; after the cutting is finished, the worker can detach the cable 7 from the main unit 4 by pulling the connecting block 16 out of the fixing groove 17 by overcoming the magnetic attraction of the first magnetic block 19 and the second magnetic block 20, so that the worker can detach and store the main unit 4.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a non-woven fabric slitter, contains cutting bed (1), be connected with slide rail (3) through support (2) on cutting bed (1), it is connected with host computer (4), its characterized in that to slide on slide rail (3): be equipped with two drive racks (5) on cutting bed (1) respectively, two drive rack (5) are located the both ends of slide rail (3) respectively, host computer (4) are located between two drive racks (5), it is connected with wire reel (6) to rotate on drive rack (5), around being equipped with cable (7) on wire reel (6), the one end that wire reel (6) were kept away from in cable (7) is passed through connecting piece (8) and can be dismantled and connect on host computer (4), still be equipped with on drive rack (5) and be used for driving wire reel (6) pivoted motor (9).

2. The machine according to claim 1, characterized in that: connecting piece (8) contain link (10) that set up on host computer (4), the tip that wire reel (6) were kept away from in cable (7) is equipped with link (11) with link (10) assorted, link (11) correspond to peg graft in link (10) and part extends link (10).

3. The machine according to claim 2, characterized in that: the end part of the hanging plate (11) extending out of the hanging ring (10) penetrates through and is connected with a limiting bolt (12) in a threaded mode, and the end part of the limiting bolt (12) abuts against the host (4).

4. The machine according to claim 3, characterized in that: and the driving frame (5) is provided with a containing groove (13) matched with the limiting bolt (12).

5. The machine according to claim 4, characterized in that: two disassembly grooves (14) are further formed in the driving frame (5) respectively, and the two disassembly grooves (14) are arranged oppositely and communicated with the containing groove (13).

6. The machine according to claim 1, characterized in that: connecting piece (8) contain fixed block (15) of setting on host computer (4), the tip that wire reel (6) were kept away from in cable (7) is equipped with connecting block (16), fixed block (15) deviate from on the terminal surface of slide rail (3) along vertical direction offer with connecting block (16) assorted fixed slot (17), set up threading groove (18) that supply cable (7) to pass along the horizontal direction on the terminal surface of fixed block (15) orientation drive frame (5), connecting block (16) correspond the joint in fixed slot (17), cable (7) are worn to establish in threading groove (18).

7. The machine according to claim 6, characterized in that: the bottom of the fixing groove (17) is provided with a first magnetic block (19), the connecting block (16) is provided with a second magnetic block (20) matched with the first magnetic block (19), and the first magnetic block (19) and the second magnetic block (20) are in abutting contact with each other.

8. The machine according to claim 7, characterized in that: an annular guide groove (21) is formed in the opening of the fixing groove (17) along the periphery.

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