CN118273091A - Backpack production fabric cutting device with waste recycling function - Google Patents

Abstract

The invention discloses a backpack production fabric cutting device with a waste recycling function, which comprises a cutting table, a cutting mechanism, a crushing mechanism and a compacting mechanism, wherein a mounting frame is arranged at the top of the cutting table, and a storage box is arranged on the side wall of the cutting table; cutting the fabric on the cutting table when the cutting mechanism works; the crushing mechanism comprises a stirring component which is arranged on the side wall of the mounting frame and is used for sweeping waste materials cut by the cutting mechanism during operation out of the top of the cutting table during operation, and a crushing component which is arranged on the side wall of the cutting table and is used for crushing the waste materials pulled out by the stirring component during operation; the compaction mechanism is installed and is corresponding at the lateral wall of tailorring the platform and with the containing box, this kind of knapsack production surface fabric tailorring device with waste recovery function replaces traditional tailorring the mode that the device retrieved the waste material, has avoided tailorring the waste cloth that gets off and has occupied storage space relatively, and then needs frequent clearance of staff, causes the great problem of staff working strength.

Description

Backpack production fabric cutting device with waste recycling function

Technical Field

The invention relates to the technical field of fabric cutting devices, in particular to a backpack production fabric cutting device with a waste recycling function.

Background

The knapsack is more common in daily life, and the variety of knapsack is various, and it is mainly through the formation after sewing up the polylith surface fabric after tailorring in the production process, needs to use the cutting device of surface fabric in this process.

The cutting device generally generates more leftover materials when cutting the fabric, and the leftover materials are piled up after cutting out to influence the subsequent cutting work, so that the current cutting device can recycle the waste materials in the cutting process.

But current cutting device is in the in-process of retrieving the waste material that cuts down, because the waste fabric that cuts down is long cloth generally, collect long waste cloth behind the collecting box, waste material comparison occupy storage space, because storage space is limited, and then need the staff frequent clearance to the collecting box, and then increased staff's working strength.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the application and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description of the application and in the title of the application, which may not be used to limit the scope of the application.

Therefore, the invention aims to provide the backpack production fabric cutting device with the waste recycling function, which replaces the traditional mode of recycling waste by using the cutting device, and avoids the problem that the cut waste fabric occupies a storage space and further needs frequent cleaning by staff, so that the working strength of the staff is high.

In order to solve the technical problems, according to one aspect of the present invention, the following technical solutions are provided:

a backpack production fabric cutting device with waste recycling function, comprising:

the cutting table is provided with a mounting rack at the top and a storage box on the side wall;

The cutting mechanism is arranged on the mounting frame and used for cutting the fabric on the cutting table when in operation;

the crushing mechanism is arranged on the side wall of the cutting table and comprises a stirring component which is arranged on the side wall of the mounting frame and is used for sweeping waste materials cut by the cutting mechanism when working out of the top of the cutting table when working and a crushing component which is arranged on the side wall of the cutting table and is used for crushing the waste materials pulled out by the stirring component when working out, wherein the stirring component is automatically driven to work when the cutting mechanism works, and the crushing component is automatically driven to work when the stirring component works;

The compaction mechanism is arranged on the side wall of the cutting table and corresponds to the storage box, wherein the compaction mechanism is automatically driven to work when the crushing assembly works, and crushed waste falling in the storage box is intermittently compacted.

As an optimal scheme of the backpack production fabric cutting device with the waste recovery function, the cutting mechanism comprises a cutting knife assembly movably mounted at the bottom of the mounting frame and a driving assembly mounted on the mounting frame and used for driving the cutting knife assembly to reciprocate when in operation.

As a preferable scheme of the backpack production fabric cutting device with the waste recycling function, the bottom of the inner side of the mounting frame is provided with a mounting groove;

the driving assembly comprises a threaded rod arranged on the side wall of the mounting frame, a first limiting slide rod arranged in the mounting groove and a driving motor arranged on the side wall of the mounting frame, and the output end of the driving motor is connected with the side wall of the threaded rod.

As an optimal scheme of the backpack production fabric cutting device with the waste recovery function, the cutting knife assembly comprises a movable seat and a cutting blade, wherein one end of the movable seat is in threaded sleeve connection with the threaded rod, and the other end of the movable seat is in sleeve connection with the first limit sliding rod, and the cutting blade is detachably arranged at the bottom of the movable seat.

As a preferable scheme of the backpack production fabric cutting device with the waste recovery function, a connecting groove with an opening structure is arranged at one side of the bottom of the movable seat, limiting holes are formed in two sides of the inner wall of the connecting groove, and elastic protrusions corresponding to the limiting holes are arranged on two sides of the top of the cutting blade.

As an optimal scheme of the backpack production fabric cutting device with the waste recycling function, the backpack production fabric cutting device with the waste recycling function is characterized in that a crawler wheel is arranged in the mounting groove, a through groove communicated with the mounting groove is formed in the side wall of the mounting frame, and a first gear with the side wall extending into the through groove and meshed with the crawler wheel is arranged on the side wall of the mounting frame;

The side wall of the movable seat is provided with a first serration plate meshed with the crawler wheel;

the material stirring assembly comprises a first bevel gear set, a material stirring rod and a cutting table, wherein one end of the first bevel gear set is connected with the bottom of the first gear through a rotating shaft, and the material stirring rod is connected with the other end of the first bevel gear set through the rotating shaft and corresponds to the top of the cutting table.

As an optimal scheme of the backpack production fabric cutting device with the waste recovery function, the smashing component comprises a first cutting component and a second cutting component, wherein the first cutting component is installed on the side wall of the cutting table and is used for vertically cutting waste materials dialed by the stirring component when working, the second cutting component is installed at the bottom of the first cutting component and is used for intermittently and transversely cutting the waste materials cut by the first cutting component when working, the stirring component is used for automatically driving the first cutting component to work, and the second cutting component is automatically driven to work when working.

As an optimal scheme of the backpack production fabric cutting device with the waste recycling function, the other side of the first bevel gear set is connected with a first belt pulley through a rotating shaft;

The first cutting assembly comprises a first mounting frame arranged on the side wall of the cutting table, two cutting rollers which are positioned in the first mounting frame and provided with a plurality of cutting blades on the side wall, and second gears which are arranged on the outer side wall of the first mounting frame and are respectively connected with the side walls of the two cutting rollers through rotating shafts, wherein the two second gears are meshed, the side wall of the second gears is provided with a second belt pulley, and one of the second belt pulleys is connected with the first belt pulley through a belt;

The second cutting assembly comprises a second installation frame installed at the bottom of the first installation frame, a first reciprocating screw rod installed in the second installation frame and with opposite threads at two ends, a second limiting slide rod inside the second installation frame, and a transverse cutting blade with one end screwed on the first reciprocating screw rod and the other end sliding on the second limiting slide rod, wherein the side wall of the second installation frame is provided with a third belt pulley connected with the side wall of the first reciprocating screw rod and the other second belt pulley through a belt.

As an optimal scheme of the backpack production fabric cutting device with the waste recovery function, the compaction mechanism comprises a third installation frame, a compaction plate and a transmission assembly, wherein the third installation frame is installed on the side wall of the cutting table and is located below the second installation frame, the compaction plate is located on the inner side of the third installation frame, the top surface of the compaction plate is provided with a plurality of through holes, and the transmission assembly is in transmission connection with the first reciprocating screw rod and intermittently drives the compaction plate to turn up and down in the process of moving up and down during working.

As an optimal scheme of the backpack production fabric cutting device with the waste recovery function, the other end of the first reciprocating screw rod is connected with a second bevel gear set through a rotating shaft;

The transmission assembly comprises a mounting plate, a second reciprocating screw rod and a lifting block, wherein the mounting plate is positioned on the inner wall of the third mounting frame, the mounting plate extends downwards, the top of the mounting plate is provided with a limiting chute, the second reciprocating screw rod is positioned in the limiting chute, the top of the second reciprocating screw rod is connected with the other end of the second bevel gear set, the lifting block is positioned in the limiting chute and is in threaded connection with the second reciprocating screw rod, and the side wall of the mounting plate is provided with a second serration plate;

The side wall of the compacting plate is provided with a connecting frame which is movably sleeved with the lifting block, and the side wall of the connecting frame is provided with a third gear which is meshed with the second serration plate.

Compared with the prior art, the backpack production fabric cutting device with the waste recovery function has the beneficial effects that after the fabric on the cutting table is cut through the cutting mechanism, the cut waste is pulled out by the material pulling component, then the crushed waste is crushed by the crushing component and falls into the storage box, the crushed waste in the storage box is intermittently compacted by the compacting mechanism driven by the crushing component during operation, the storage performance of the storage box is improved, the traditional mode of recovering the waste by the cutting mechanism is replaced, the problem that the storage space is occupied by the cut waste fabric, and further frequent cleaning of workers is needed, and the working strength of the workers is high is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings, which are to be understood as merely some embodiments of the present invention, and from which other drawings can be obtained by those skilled in the art without inventive faculty. Wherein:

FIG. 1 is a schematic view of a view angle of a device for cutting a backpack production fabric with waste recycling function according to the present invention;

FIG. 2 is a schematic view of a backpack production fabric cutting device with waste recycling function according to another view angle of the present invention;

FIG. 3 is a structural exploded view of a backpack production fabric cutting device with waste recycling function of the present invention;

FIG. 4 is a side sectional view of a backpack production fabric cutting device with waste recycling function of the present invention;

FIG. 5 shows a cutting knife assembly of a backpack production fabric cutting device with waste recycling function according to the present invention;

FIG. 6 is a structural exploded view of the comminuting mechanism of the face fabric cutting apparatus for backpack production with scrap recycling function of the present invention;

fig. 7 is a structural exploded view of a compacting mechanism of a backpack production fabric cutting device with waste recycling function of the present invention.

In the figure: 100. a cutting table; 110. a mounting frame; 110a, mounting slots; 110a-1, track wheel; 110a-2, through slots; 110b, a first gear; 120. a storage box; 200. a cutting mechanism; 210. a cutting knife assembly; 210a, a mobile seat; 210a-1, a connecting groove; 210a-2, a first serration element; 210b, cutting blades; 220. a drive assembly; 220a, threaded rod; 220b, a first limit slide bar; 220c, driving a motor; 300. a crushing mechanism; 310. a stirring assembly; 310a, a first bevel gear set; 310a-1, a first pulley; 310b, a stirring rod; 320. a crushing assembly; 320a, a first cutting assembly; 320a-1, a first mounting frame; 320a-2, cutting rolls; 320a-3, a second gear; 320a-31, a second pulley; 320b, a second cutting assembly; 320b-1, a second mounting frame; 320b-2, a first reciprocating screw; 320b-21, a third pulley; 320b-22, a second bevel gear set; 320b-3, a second limit slide bar; 320b-4, transverse cutting blades; 400. a compacting mechanism; 410. a third mounting frame; 420. compacting the plate; 420a, a connecting frame; 420a-1, a third gear; 430. a transmission assembly; 430a, mounting plate; 430a-1, a second serration element; 430b, a second reciprocating screw rod; 430c, lifting blocks.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings.

Next, the present invention will be described in detail with reference to the drawings, wherein the sectional view of the device structure is not partially enlarged to general scale for the convenience of description, and the drawings are only examples, which should not limit the scope of the present invention. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

The invention provides a backpack production fabric cutting device with a waste recycling function, which replaces the traditional mode of recycling waste by using a cutting device, and solves the problem that the cut waste fabric occupies a storage space and further needs frequent cleaning by staff, so that the working strength of the staff is high.

Fig. 1 to 7 are schematic structural views showing a knapsack production fabric cutting device with a waste recovery function of the present invention, and fig. 1 to 7 are detailed descriptions of the knapsack production fabric cutting device with the waste recovery function.

Example 1

Referring to fig. 1 to 7, the invention discloses a backpack production fabric cutting device with a waste recycling function, wherein a main body part of the backpack production fabric cutting device comprises a cutting table 100, a cutting mechanism 200, a crushing mechanism 300 and a compacting mechanism 400.

Referring to fig. 1-4, a cutting table 100 is used for carrying a backpack fabric to be cut and conveniently installing a cutting mechanism 200, a crushing mechanism 300 and a compacting mechanism 400, a mounting frame 110 is arranged at the top of the cutting table 100, a containing box 120 is arranged on the side wall of the cutting table, the mounting frame 110 is used for conveniently installing the cutting mechanism 200, and the containing box 120 is used for conveniently containing crushed fabric waste;

Referring to fig. 1 to 4, the cutting mechanism 200 is used for cutting the fabric on the top of the cutting table 100 when working, the cutting mechanism 200 is mounted on the mounting frame 110 and cuts the fabric on the cutting table 100 when working, and then the knapsack fabric is cut according to the requirement;

Referring to fig. 1-3, the crushing mechanism 300 is used for crushing the waste cut after the cutting mechanism 200 works, the crushing mechanism 300 is installed on the side wall of the cutting table 100, the crushing mechanism 300 comprises a stirring component 310 installed on the side wall of the mounting frame 110 and used for sweeping the cut waste out of the top of the cutting table 100 when the cutting mechanism 200 works, and a crushing component 320 installed on the side wall of the cutting table 100 and used for crushing the waste pulled out of the stirring component 310 when the cutting mechanism 200 works, the stirring component 310 is used for driving the cutting mechanism 200 to work and sweeping the cut fabric waste out of the top surface of the cutting table 100 out of the top of the cutting table 100, the crushing component is used for crushing the waste pulled out of the stirring component 310, wherein the cutting mechanism 200 works, the stirring component 310 works and the crushing component 320 works, and the stirring component 310 works, and the cutting mechanism 200 works to drive the stirring component 310 to work and stir the cut waste out of the top of the cutting table 100, and meanwhile, the stirring component 310 works to drive the crushing component 320 to work and compact the stirred waste to crush the cut waste, so that the subsequent space is saved;

Referring to fig. 1-2, the compacting mechanism 400 is configured to compact the crushed waste falling into the storage box 120, so as to save a storage space of the storage box 120, the compacting mechanism 400 is mounted on a side wall of the cutting table 100 and corresponds to the storage box 120, wherein when the crushing assembly 320 works, the compacting mechanism 400 is automatically driven to work, the crushed waste falling into the storage box 120 is intermittently compacted, and when the crushing assembly 320 works, the compacting mechanism 400 is driven to work, the crushed waste falling into the storage box 120 is intermittently compacted, so as to further improve the storage space of the storage box 120.

In this embodiment, the specific usage flow is as follows: placing the knapsack surface fabric that will tailors at the top of tailorring platform 100, fix a position the back through locating component, tailorring the time of cutting out the knapsack surface fabric through cutting mechanism 200, dial material subassembly 310 dial the waste material of cutting out the top of platform 100, meanwhile, smash the waste material that subassembly 310 was dialled out with group material subassembly 320 smash, the surface fabric after smashing falls into containing box 120, and then at smashing the subassembly 320 during operation, drive compaction mechanism 400 intermittent type and carry out the compaction to the surface fabric after smashing in the containing box 120, and then after the waste material compaction in the containing box 120, improve the storage performance of containing box 120 to the waste material.

Example 2

1-4, The cutting mechanism 200 includes a cutting knife assembly 210 movably mounted at the bottom of the mounting frame 110 and a driving assembly 220 mounted on the mounting frame 110 and driving the cutting knife assembly 210 to reciprocate in operation, the cutting knife assembly 210 is used for cutting backpack fabric on the top of the cutting table in moving, and the driving assembly 220 is used for driving the cutting knife assembly 210 to move in operation, so as to cut the backpack fabric.

In this embodiment, referring to fig. 4, a mounting groove 110a is formed at the bottom of the inner side of the mounting frame 110, for facilitating the installation of the first limit slide bar 220b and the crawler wheel 110a-1;

Referring to fig. 1 to 4, the driving assembly 220 includes a threaded rod 220a installed on a side wall of the mounting frame 110, a first limit slide rod 220b installed in the mounting groove 110a, and a driving motor 220c installed on a side wall of the mounting frame 110 and having an output end connected to the side wall of the threaded rod 220a, wherein the threaded rod 220a is used for driving the movable base 210a to move along the threaded rod 220a under the limit action of the first limit slide rod 220b when rotating, the first limit slide rod 220b is used for limiting the movable base 210a, so that the threaded rod 220a is prevented from synchronously rotating when rotating, and the driving motor 220c is used for driving the threaded rod 220a to rotate when working.

In this embodiment, referring to fig. 4-5, the cutting knife assembly 210 includes a moving seat 210a with one end screwed on the threaded rod 220a and the other end sleeved on the first limit sliding rod 220b, and a cutting blade 210b detachably mounted at the bottom of the moving seat 210a, where the mounting seat is used to drive the cutting blade 210b to move when moving, and the cutting blade 210b is used to cut the backpack fabric when moving.

In this embodiment, referring to fig. 5, a connecting slot 210a-1 with an opening structure at one side is provided at the bottom of the movable seat 210a, for facilitating the disassembly and assembly of the cutting blade 210b from one side, limiting holes are provided at two sides of the inner wall of the connecting slot 210a-1, for cooperating with elastic protrusions, for limiting and installing the cutting blade 210b, elastic protrusions corresponding to the limiting holes are provided at two sides of the top of the cutting blade 210b, for implementing the detachable connection of the cutting blade 210b and the movable seat 210a after cooperating with the limiting holes.

In this embodiment, referring to fig. 1-4, a crawler wheel 110a-1 is disposed in an installation groove 110a, and is used for driving a first gear 110b to rotate during rotation, a through groove 110a-2 which is communicated with the installation groove 110a is formed in a side wall of the installation frame 110, and is used for facilitating the saw teeth of the first gear 110b to be meshed with the saw teeth of the crawler wheel 110a-1 after extending into the through groove 110a-2, and a first gear 110b which is provided with a side wall extending into the through groove 110a-2 and meshed with the crawler wheel 110a-1 is disposed on a side wall of the installation frame 110, and is used for driving a first bevel gear set 310a to rotate during rotation;

referring to fig. 1-5, a first serration plate 210a-2 engaged with the crawler wheel 110a-1 is disposed on a side wall of the moving seat 210a, so that when the moving seat 210a moves to drive the first serration plate 210a-2 to move, the crawler belt outside the crawler wheel 110a-1 is driven to rotate, and then the first gear 110b is driven to rotate;

Referring to fig. 1 to 6, the kick-out assembly 310 includes a first bevel gear set 310a having one end connected to the bottom of the first gear 110b through a rotation shaft, and a kick-out lever 310b connected to the other end of the first bevel gear set 310a through a rotation shaft and corresponding to the top of the cutting table 100, wherein the first bevel gear set 310a is used for driving the kick-out lever 310b to rotate when rotating, the kick-out lever 310b is used for scraping out cut-out waste when rotating, and then a track on the outer side of the track wheel 110a-1 is driven to rotate in the moving process, the first gear 110b is driven to rotate when rotating, the first bevel gear set 310a is driven to rotate when the first gear 110b rotates, and the kick-out lever 310b is driven to rotate when rotating, so that waste cut out of the top of the cutting table 100 is pulled out.

In this embodiment, referring to fig. 6, the crushing assembly 320 includes a first cutting assembly 320a installed on a side wall of the cutting table 100 and configured to vertically cut the waste material from the material pulling assembly 310 during operation, and a second cutting assembly 320b installed on a bottom of the first cutting assembly 320a and configured to intermittently and laterally cut the waste material from the first cutting assembly 320a during operation, where the first cutting assembly 320a is configured to vertically cut the waste material from the material pulling assembly 310 by automatically driving the material pulling assembly 310 during operation, and the second cutting assembly 320b is configured to intermittently and laterally cut the waste material from the first cutting assembly 320a when the first cutting assembly 320a is operated, so as to crush the waste material, where the first cutting assembly 320a is automatically driven to operate, the second cutting assembly 320b is automatically driven to operate when the material pulling assembly 310 is operated, the first cutting assembly 320a is driven to vertically cut the waste material, and the second cutting assembly 320b is driven to intermittently and laterally cut the waste material into small pieces when the first cutting assembly 320a is operated.

In this embodiment, referring to fig. 6, the other side of the first bevel gear set 310a is connected to a first pulley 310a-1 through a rotating shaft, so that when the first bevel gear set 310a rotates to drive the first pulley 310a-1 to rotate, the second pulley 320a-31 is driven to rotate;

Referring to fig. 1-6, the first cutting assembly 320a includes a first mounting frame 320a-1 mounted on a sidewall of the cutting table 100, two cutting rollers 320a-2 positioned in the first mounting frame 320a-1 and having a plurality of cutting blades on a sidewall thereof, and a second gear 320a-3 mounted on an outer sidewall of the first mounting frame 320a-1 and having a sidewall connected to the sidewalls of the two cutting rollers 320a-2 through a rotation shaft, respectively, the first mounting frame 320a-1 being adapted to facilitate mounting of the cutting rollers 320a-2, the cutting rollers 320a-2 being adapted to vertically cut the waste material when rotated, the second gear 320a-3 being adapted to rotate the cutting rollers 320a-2 when rotated, the two second gears 320a-3 being engaged with each other and having the second pulleys 320a-31 on a sidewall thereof being adapted to relatively rotate the two second gears 320a-3, wherein one of the second pulleys 320a-31 is connected to the first pulley 310a-1 through a belt, the second pulleys 320a-31 being adapted to rotate the second pulleys 310 a-31 when the first pulleys 310a-1 rotates, the second pulleys 320a-31 being adapted to relatively rotate the second pulleys 320a-3 when the two second pulleys 320a-3 are relatively rotated, and the second pulleys 320a-3 are adapted to relatively rotate the second pulleys 320 a-3;

Referring to fig. 1 to 6, the second cutting assembly 320b includes a second mounting frame 320b-1 mounted at the bottom of the first mounting frame 320a-1, a first reciprocating screw 320b-2 mounted in the second mounting frame 320b-1 with opposite screw threads at both ends, a second limit slide bar 320b-3 positioned inside the second mounting frame 320b-1, and a cross cutting blade 320b-4 having one end screw-coupled to the first reciprocating screw 320b-2 and the other end screw-coupled to the second limit slide bar 320b-3 in a sliding manner, the second mounting frame 320b-1 being adapted to facilitate mounting of the first reciprocating screw 320b-2 and the second limit slide bar 320b-3, the first reciprocating screw 320b-2 being adapted to drive the two cross cutting blades 320b-4 to reciprocate upon rotation, the second limit slide bar 320b-3 being adapted to limit the cross cutting blade 320b-4, and further, the first reciprocating screw 320b-2 is prevented from being driven to synchronously rotate when rotating, the two transverse cutting blades 320b-4 are used for intermittently and transversely cutting the waste material cut into small strips when intermittently and relatively moving, the waste material is further cut into small pieces, the crushing of the waste material is completed, the side wall of the second mounting frame 320b-1 is provided with a third belt pulley 320b-21 connected with the side wall of the first reciprocating screw 320b-2 and connected with the other second belt pulley 320a-31 through a belt, the first reciprocating screw 320b-2 is driven to rotate when rotating, the third belt pulley 320b-21 is driven to rotate when the second belt pulley 320a-31 rotates, the first reciprocating screw 320b-2 is driven to rotate, the two transverse cutting blades 320b-4 are driven to reciprocate relatively under the limiting action of the second limiting slide rod 320b-3, so that the waste is cut into small pieces after transverse cutting.

In this embodiment, referring to fig. 1 to 7, the compacting mechanism 400 includes a third mounting frame 410 mounted on a side wall of the cutting table 100 and located below the second mounting frame 320b-1, a compacting plate 420 located inside the third mounting frame 410 and having a plurality of through holes on a top surface, and a transmission assembly 430 in transmission connection with the first reciprocating screw 320b-2 and intermittently driving the compacting plate 420 to turn up and down in a process of moving up and down in operation, wherein the third mounting frame 410 is used for conveniently mounting the transmission assembly 430 and the compacting plate 420, the compacting plate 420 is used for compacting crushed waste inside the storage box 120 when moving down and turning down, the plurality of through holes are used for conveniently reducing weight of the compacting plate 420, and the compacting plate 420 falls into the storage box 120 through the through holes in a process of turning up and down in convenience, and the transmission assembly 430 is used for driving the compacting plate 420 to reciprocate up and down in a process of moving up and down in operation of the crushing assembly 320, so as to intermittently compact crushed waste inside the storage box 120.

In this embodiment, referring to fig. 3, the other end of the first reciprocating screw 320b-2 is connected to the second bevel gear set 320b-22 through a rotating shaft, so as to drive the second reciprocating screw 430b to rotate during rotation;

Referring to fig. 1 to 7, the transmission assembly 430 includes a mounting plate 430a disposed on an inner wall of the third mounting frame 410 and having a limit chute disposed at a top thereof, a second reciprocating screw 430b disposed in the limit chute and having a top thereof connected to the other end of the second bevel gear set 320b-22, and a lifting block 430c disposed in the limit chute and threadedly connected to the second reciprocating screw 430b, the mounting plate 430a being configured to facilitate mounting of the second reciprocating screw 430b, the second reciprocating screw 430b being configured to drive the lifting block 430c to reciprocate up and down when rotated, the lifting block 430c being configured to drive the compacting plate 420 to reciprocate up and down when moved, a second serrated plate 430a-1 being disposed on a sidewall of the mounting plate 430a for driving the third gear 420a-1 to rotate during the up and down movement of the compacting plate 420;

Referring to fig. 7, a connecting frame 420a movably sleeved with a lifting block 430c is disposed on a side wall of the compacting plate 420, a third gear 420a-1 meshed with the second serration plate 430a-1 is disposed on a side wall of the connecting frame 420a, and is used for driving the compacting plate 420 to turn over when rotating, and the second bevel gear set 320b-22 drives the second reciprocating screw 430b to rotate, so as to drive the lifting block 430c and the compacting plate 420 to reciprocate up and down, and further drives the third gear 420a-1 to reciprocate under the action of the second serration plate 430a-1, so that when driving the compacting plate 420 to move down, waste in the storage box 120 is compacted by synchronously turning down, and when driving the compacting plate 420 to move up, the crushed waste is convenient to drop into the storage box 120 after synchronously turning up.

In this embodiment, the specific workflow is as follows: when the driving component 220 works to drive the cutting knife component 210 to move, the backpack fabric positioned at the top of the cutting table is cut, meanwhile, the material stirring component 310 works to drive the material stirring rod 310b to rotate, the cut waste is stirred into the first mounting frame 320a-1, at the moment, the first cutting component 320a vertically cuts the waste entering the first mounting frame 320a-1, the waste is cut into a plurality of long strips and then falls into the second mounting frame 320b-1, the second cutting component 320b transversely cuts the plurality of long strips and then cuts the waste into a plurality of small pieces of waste, the crushing of the waste is further completed, the crushed waste falls into the storage box 120, and when the second cutting component 320b works, the transmission component 430 intermittently drives the compacting plate 420 to reciprocate up and down and turn over, so that the waste in the storage box 120 is intermittently compacted, the storage amount of the storage box 120 is increased, and frequent cleaning by workers is not required.

Although the invention has been described hereinabove with reference to embodiments, various modifications thereof may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed, but that the invention will include all embodiments falling within the scope of the appended claims.

Claims (10)

1. Backpack production surface fabric tailors device with waste recovery function, characterized by comprising:

the cutting table (100) is provided with a mounting rack (110) at the top and a storage box (120) on the side wall;

The cutting mechanism (200) is arranged on the mounting frame (110) and is used for cutting the fabric on the cutting table (100) when in operation;

The smashing mechanism (300) is arranged on the side wall of the cutting table (100), the smashing mechanism (300) comprises a stirring component (310) which is arranged on the side wall of the mounting frame (110) and used for sweeping waste materials cut by the cutting mechanism (200) when working out of the top of the cutting table (100) and a smashing component (320) which is arranged on the side wall of the cutting table (100) and used for smashing the waste materials pulled out by the stirring component (310) when working, the stirring component (310) is automatically driven to work when the cutting mechanism (200) works, and the smashing component (320) is automatically driven to work when the stirring component (310) works;

the compaction mechanism (400) is arranged on the side wall of the cutting table (100) and corresponds to the storage box (120), wherein when the crushing assembly (320) works, the compaction mechanism (400) is automatically driven to work, and crushed waste falling in the storage box (120) is intermittently compacted.

2. The backpack production fabric cutting device with the waste recycling function according to claim 1, wherein the cutting mechanism (200) comprises a cutting knife assembly (210) movably mounted at the bottom of the mounting frame (110) and a driving assembly (220) mounted on the mounting frame (110) and used for driving the cutting knife assembly (210) to reciprocate.

3. The backpack production fabric cutting device with the waste recycling function according to claim 2, wherein the mounting groove (110 a) is formed in the bottom of the inner side of the mounting frame (110);

The driving assembly (220) comprises a threaded rod (220 a) arranged on the side wall of the mounting frame (110), a first limit sliding rod (220 b) arranged in the mounting groove (110 a) and a driving motor (220 c) arranged on the side wall of the mounting frame (110) and the output end of which is connected with the side wall of the threaded rod (220 a).

4. A backpack production fabric cutting device with waste recycling function according to claim 3, wherein the cutting knife assembly (210) comprises a movable seat (210 a) with one end screwed on the threaded rod (220 a) and the other end sleeved on the first limit sliding rod (220 b), and a cutting blade (210 b) detachably mounted at the bottom of the movable seat (210 a).

5. The backpack production fabric cutting device with the waste recycling function according to claim 4, wherein a connecting groove (210 a-1) with an opening structure on one side is arranged at the bottom of the movable seat (210 a), limiting holes are formed in two sides of the inner wall of the connecting groove (210 a-1), and elastic protrusions corresponding to the limiting holes are arranged on two sides of the top of the cutting blade (210 b).

6. The backpack production fabric cutting device with the waste recycling function according to claim 4, wherein a crawler wheel (110 a-1) is arranged in the mounting groove (110 a), a through groove (110 a-2) communicated with the mounting groove (110 a) is formed in the side wall of the mounting frame (110), and a first gear (110 b) with the side wall extending into the through groove (110 a-2) and meshed with the crawler wheel (110 a-1) is arranged on the side wall of the mounting frame (110);

The side wall of the movable seat (210 a) is provided with a first serration plate (210 a-2) meshed with the crawler wheel (110 a-1);

The material stirring assembly (310) comprises a first bevel gear set (310 a) with one end connected with the bottom of the first gear (110 b) through a rotating shaft and a material stirring rod (310 b) which is connected with the other end of the first bevel gear set (310 a) through the rotating shaft and corresponds to the top of the cutting table (100).

7. The backpack production fabric cutting device with the waste recycling function according to claim 6, wherein the smashing component (320) comprises a first cutting component (320 a) which is installed on the side wall of the cutting table (100) and is used for vertically cutting waste materials dialed by the stirring component (310) when in operation, and a second cutting component (320 b) which is installed at the bottom of the first cutting component (320 a) and is used for intermittently and transversely cutting the waste materials cut by the first cutting component (320 a), wherein the stirring component (310) is used for automatically driving the first cutting component (320 a) to operate, and the first cutting component (320 a) is used for automatically driving the second cutting component (320 b) to operate when in operation.

8. The backpack production fabric cutting device with the waste recycling function according to claim 7, wherein the other side of the first bevel gear set (310 a) is connected with a first belt pulley (310 a-1) through a rotating shaft;

The first cutting assembly (320 a) comprises a first mounting frame (320 a-1) mounted on the side wall of the cutting table (100), two cutting rollers (320 a-2) which are positioned in the first mounting frame (320 a-1) and provided with a plurality of cutting blades on the side wall, and second gears (320 a-3) which are mounted on the outer side wall of the first mounting frame (320 a-1) and respectively connected with the side walls of the two cutting rollers (320 a-2) through rotating shafts, wherein the two second gears (320 a-3) are meshed and the side wall is provided with a second belt pulley (320 a-31), and one second belt pulley (320 a-31) is connected with the first belt pulley (310 a-1) through a belt;

The second cutting assembly (320 b) comprises a second mounting frame (320 b-1) mounted at the bottom of the first mounting frame (320 a-1), a first reciprocating screw rod (320 b-2) mounted in the second mounting frame (320 b-1) and with opposite threads at two ends, a second limit sliding rod (320 b-3) positioned in the second mounting frame (320 b-1), and a transverse cutting blade (320 b-4) with one end in threaded connection with the first reciprocating screw rod (320 b-2) and the other end in sliding connection with the second limit sliding rod (320 b-3), wherein a third belt pulley (320 b-21) connected with the side wall of the first reciprocating screw rod (320 b-2) and connected with the other second belt pulley (320 a-31) through a belt is arranged on the side wall of the second mounting frame (320 b-1).

9. The backpack production fabric cutting device with the waste recycling function according to claim 8, wherein the compaction mechanism (400) comprises a third mounting frame (410) which is mounted on the side wall of the cutting table (100) and is positioned below the second mounting frame (320 b-1), a compaction plate (420) which is positioned on the inner side of the third mounting frame (410) and is provided with a plurality of through holes on the top surface, and a transmission assembly (430) which is in transmission connection with the first reciprocating screw (320 b-2) and intermittently drives the compaction plate (420) to synchronously turn up and down in the process of moving up and down during operation.

10. The backpack production fabric cutting device with the waste recycling function according to claim 9, wherein the other end of the first reciprocating screw rod (320 b-2) is connected with a second bevel gear set (320 b-22) through a rotating shaft;

the transmission assembly (430) comprises a mounting plate (430 a) which is positioned on the inner wall of the third mounting frame (410) and provided with a downward extending limiting chute at the top, a second reciprocating screw (430 b) which is positioned in the limiting chute and is connected with the other end of the second bevel gear set (320 b-22) at the top, and a lifting block (430 c) which is positioned in the limiting chute and is in threaded connection with the second reciprocating screw (430 b), wherein a second serrated plate (430 a-1) is arranged on the side wall of the mounting plate (430 a);

The side wall of the compaction plate (420) is provided with a connecting frame (420 a) movably sleeved with the lifting block (430 c), and the side wall of the connecting frame (420 a) is provided with a third gear (420 a-1) meshed with the second serration plate (430 a-1).