CN109576406B - High-efficient leather products is with anti-fake cutting device - Google Patents

Abstract

The invention discloses an anti-counterfeiting cutting device for high-efficiency leather products, which structurally comprises an atomization anti-particle smoking filter device, a device sealing cover, a device operating platform, a device base and supporting legs, wherein the device sealing cover is embedded and installed on the surface of the atomization anti-particle smoking filter device, the device operating platform is arranged on the right side of the device sealing cover and is electrically connected with the atomization anti-particle smoking filter device through a lead, and the bottom of the device operating platform is connected with the top of the device base. Avoid the leather edge from generating black particles.

Description

High-efficient leather products is with anti-fake cutting device

Technical Field

The invention relates to the field of leather cutting, in particular to an efficient anti-counterfeiting cutting device for leather.

Background

Leather products are widely used in home, apparel, etc. and are required to be cut to a size and shape before being formed into a given shape. However, the existing anti-counterfeiting cutting device for the high-efficiency leather products has the following defects:

1. when the anti-counterfeiting cutting device is used, because more data are needed to be cut by some leather products, smoke can be generated in the laser heating feed cutting process, the smoke is accumulated in the device in a mode of less convergence and more smoke under the condition of covering the sealing cover, and workers can be injured when the smoke drifts out after the sealing cover is opened.

2. And when the leather is cut by the laser in the heating feed, the residual heat on the leather is left on the edge of the leather in the cutting process, so that black particles are generated on the edge of the leather, and the leather is thrown away subsequently.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a high-efficiency anti-counterfeiting cutting device for leather products, which aims to overcome the defects that when the anti-counterfeiting cutting device in the prior art is used, as the cutting data of some leather products are more, smoke is generated in the laser heating feed cutting process, the smoke is accumulated in the device in a mode of little smoke convergence and much smoke under the condition of covering a sealing cover, workers are injured when the sealing cover is opened, and as the laser cuts the leather products in the heating feed cutting process, the residual heat on the leather products is remained on the edge of the leather products in the cutting process, black particles are generated on the edge of the leather products, and the leather products are thrown and processed subsequently.

In order to achieve the purpose, the invention is realized by the following technical scheme:

the utility model provides a high-efficient leather products are with anti-fake cutting device, its structure includes atomizing and prevents granule smoking filter equipment, device closing cap, device operation panel, device base, supporting legs, the embedding of device closing cap is installed in atomizing and is prevented granule smoking filter equipment surface, device closing cap right side is equipped with the device operation panel, the device operation panel is connected with atomizing and prevent granule smoking filter equipment electricity through the wire, device operation panel bottom is connected with device base top, the supporting legs is equipped with four and top and device base bottom is perpendicular and be connected through the mode of electric welding, the device base is connected with the device closing cap through atomizing and preventing granule smoking filter equipment, the supporting legs is connected with atomizing and preventing granule smoking filter equipment through the device base, atomizing and preventing granule smoking filter equipment includes that pushes down fixed placing plate, programming trend device, Laser leather products cutting device, atomizing prevent particle device, inhale carbon nature filter equipment, it installs in programming trend device below to push down to fix and place the board, programming trend device lower surface is connected with laser leather products cutting device upper surface, laser leather products cutting device right side is equipped with the atomizing and prevents the particle device, atomizing prevent that the particle device inboard is nested mutually and be connected through the gliding mode with programming trend device outside, atomizing is prevented that particle device left side is equipped with and inhales carbon nature filter equipment.

The lower pressing and fixing placing plate comprises a placing plate, a sliding groove, a sliding block and a lower pressing and fixing plate, wherein the upper surface of the placing plate is connected with the bottom of the sliding groove, the sliding block is embedded and installed inside the sliding groove, the right side of the sliding block is provided with the lower pressing and fixing plate and is of an integrated structure, the lower pressing and fixing plate is connected with the sliding groove in a sliding mode through the sliding block, and the lower surface of the lower pressing and fixing plate is attached to the upper surface of the placing plate.

As a further scheme of the invention, the programming trend device comprises a connecting block, a Y guide rod, an X guide rod, a connecting shell and balls, wherein the inner side of the connecting block is embedded and sleeved with the outer side of the Y guide rod and is connected in a sliding manner, the right side of the Y guide rod is provided with the X guide rod, the X guide rod is connected with the Y guide rod in a sliding manner through the connecting block, eight balls are arranged at the upper end and the lower end of the inner side of the connecting shell in an embedded manner, the lower surfaces of the balls are attached to the upper surface of the X guide rod and are connected in a sliding manner, the connecting shell is connected with the X guide rod in a sliding manner through the balls, and the lower surface of the connecting shell is connected with the upper surface of the.

As a further proposal of the invention, the laser leather cutting device comprises a brake, a high-temperature power supply connecting wire, a rubber sleeve, a controller and a laser generator, the upper surface of the brake is connected with the lower surface of the connecting shell in an electric welding mode, the lower surface of the brake is connected with the top end of the high-temperature power supply connecting wire, the outer side of the top end of the high-temperature power supply connecting wire is nested with the inner side of the rubber sleeve, the high-temperature power supply connecting wire is connected with the controller through the rubber sleeve, the rubber sleeve is arranged below the controller and is of an integrated structure, the left side of the controller is provided with a brake, the two ends of the controller are connected through a high-temperature power supply connecting wire, the controller is electrically connected with the laser generator through a wire, the brake is electrically connected with the laser generator through a wire, and the high-temperature power supply connecting wire is connected with the laser generator through the controller.

As a further scheme of the invention, the atomization particle prevention device comprises a sliding connecting sleeve, a water pump, a water pumping hose, a water tank base, a water accumulation tank, a connecting handle, a plastic pipeline and an atomization nozzle, the upper surface of the sliding connection sleeve is connected with the lower surface of the water suction pump in an electric welding mode, the head end of the water suction hose is embedded and installed on the inner side of the water suction pump, the tail end of the water pumping hose is embedded and arranged at the inner side of the water tank base, the upper surface of the water tank base is connected with the lower surface of the water accumulation tank through an electric welding mode, the bottom end of the connecting handle is connected with the upper surface of the water accumulating tank in an electric welding mode, the inner side of the atomizing nozzle at the outer side of the bottom end of the plastic pipeline is nested, the atomizing nozzle is connected with a water suction pump through a plastic pipeline, the water suction hose is connected with the plastic pipeline through the water suction pump, and the water tank base is connected with a connecting handle through a water accumulating tank.

As a further scheme of the invention, the carbon suction filtering device comprises an electric drive suction device and a carbon particle pushing and releasing device, and the electric drive suction device is arranged on the left side of the carbon particle pushing and releasing device.

As a further aspect of the present invention, the electric power driven inhalation device includes a motor base, a driving motor, a rotating shaft, a belt rotating shaft, a plastic belt, a driving shaft, inhalation fan blades, a gas inlet port, and a gas inlet pipe, wherein the lower surface of the motor base is welded to the upper surface of the driving motor, the rotating shaft is embedded in the driving motor and located on the same center line, the belt rotating shaft is embedded in the rotating shaft and located on the same center line, the driving motor is connected to the belt rotating shaft through the rotating shaft, the plastic belt is installed around the outer side of the driving shaft, the inhalation fan blades are installed at the front end of the gas inlet port, the gas inlet port is installed on the surface of the gas inlet pipe and is an integrated structure, and the gas inlet pipe.

As a further scheme of the invention, the carbon particle pushing and releasing device comprises bin door handrails, a bin door, torque hinges, a limiting base, rolling shafts, a pushing and accumulating box, carbon powder and an exhaust pipeline, wherein an air inlet pipeline is arranged on the left side surface of the pushing and accumulating box, the left end of each bin door handrail is connected with the right side surface of the bin door, the bottom end of each bin door is connected with the upper surface of the outer side of each torque hinge, four rolling shafts are arranged and are arranged above the limiting base, the carbon powder is arranged on the inner side of the pushing and accumulating box in a distributed mode, the outer side of the left end of the exhaust pipeline is nested with the right side surface of the pushing and accumulating box, and the upper surface of each rolling shaft is attached to the lower.

Advantageous effects of the invention

The invention relates to an efficient anti-counterfeiting cutting device for leather products, which can fix the device at a specified position by matching supporting legs with a device base, open a device sealing cover, place the leather products to be cut on a placing plate, lift a lower pressing fixing plate upwards, release the device after placement, press the lower pressing fixing plate downwards along a sliding groove by matching with a sliding block, operate the device by a device operating platform, start a brake to enable the brake to control a laser generator to cut the leather products through a controller connected with a high-temperature power supply connecting wire, enable the laser generator to move on a Y guide rod and an X guide rod to cut the leather products, start a water suction pump on a sliding connecting sleeve to suck water in a water storage tank above the water tank base through a water suction hose during cutting, and spray the water into a plastic pipeline to the lower part of cutting through an atomizing nozzle, the leather edge is prevented from generating black particles, when the device sealing cover is opened, a driving motor below a motor base can be started firstly to drive a rotating shaft of the driving motor to be matched with a belt rotating shaft, then a surrounding plastic belt can be driven to rotate, the driving motor is matched with a driving shaft to drive suction fan blades to rotate, smoke is sucked into an air inlet pipeline through an air inlet, the smoke is sucked into a dust pushing box which drives carbon powder in advance by opening a bin door handrail and putting the bin door into the dust pushing box along a rolling shaft to be filtered, the filtered smoke can be discharged along an exhaust pipeline in a lighter weight manner than air, and the smoke is prevented from being pushed into the device in a mode of little smoke convergence.

According to the efficient anti-counterfeiting cutting device for the leather, generated smoke is sucked into a pipeline by starting the driving motor to drive the suction fan blades to rotate slowly during cutting, filtered gas which is lighter than air is discharged through the exhaust pipe when entering the accumulating box filled with carbon powder, the smoke is prevented from being accumulated in the device in a mode of little or much smoke convergence, water can be atomized by pumping water through the water pump during cutting, waste heat on the leather is reduced, and black particles are prevented from being generated at the edge of the leather.

Drawings

Other features, objects and advantages of the invention will become more apparent from a reading of the detailed description of non-limiting embodiments with reference to the attached drawings.

In the drawings:

FIG. 1 is a schematic structural diagram of an anti-counterfeiting cutting device for high-efficiency leatherware of the invention.

Fig. 2 is a plan view of the structure of an anti-particle atomization smoking filter device.

Fig. 3 is a detailed structural diagram of an atomization anti-particle smoking filter device of the invention.

FIG. 4 is a plan view of the structure of a carbon inhalation filter device of the present invention.

FIG. 5 is a detailed structural diagram of a carbon inhalation filter device according to the present invention.

In the figure: an atomization anti-particle smoking filter device-1, a device seal cover-2, a device operating table-3, a device base-4, supporting feet-5, a downward pressing fixed placing plate-11, a programming trend device-12, a laser leather cutting device-13, an atomization anti-particle device-14, a carbon inhalation filter device-15, a placing plate-111, a sliding groove-112, a sliding block-113, a downward pressing fixed plate-114, a connecting block-121, a Y guide rod-122, an X guide rod-123, a connecting shell-124, a ball-125, a brake-131, a high temperature power supply connecting wire-132, a rubber sleeve-133, a controller-134, a laser generator-135, a sliding connecting sleeve-141, a water pump-142, a water pumping hose-143, a water pumping hose-15, a water pumping, The device comprises a water tank base-144, a water accumulating tank-145, a connecting handle-146, a plastic pipeline-147, an atomizing spray head-148, an electric drive suction device-151, a carbon particle pushing and placing device-152, a motor base-1511, a drive motor-1512, a rotating shaft-1513, a belt rotating shaft-1514, a plastic belt-1515, a driving shaft-1516, a suction fan blade-1517, an air inlet-1518, an air inlet pipeline-1519, a door handrail-1521, a door-1522, a torque hinge-1523, a limiting base-1524, a rolling shaft-1525, a pushing and accumulating tank-1526, carbon powder-1527 and an exhaust pipeline-1528.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-5, the present invention provides a technical solution of an anti-counterfeiting cutting device for high-efficiency leather:

the utility model provides a high-efficient leather products are with anti-fake cutting device, its structure includes atomizing and prevents granule smoking filter equipment 1, device closing cap 2, device operation panel 3, device base 4, supporting legs 5, device closing cap 2 embedding is installed in atomizing and prevents granule smoking filter equipment 1 surface, device closing cap 2 right side is equipped with device operation panel 3, device operation panel 3 is connected with atomizing and prevent granule smoking filter equipment 1 electricity through the wire, device operation panel 3 bottom is connected with device base 4 top, supporting legs 5 are equipped with four and the top is perpendicular and is connected through the electric welding mode with device base 4 bottom, device base 4 is connected with device closing cap 2 through atomizing and prevents granule smoking filter equipment 1, supporting legs 5 is connected with atomizing and prevents granule smoking filter equipment 1 through device base 4, atomizing and prevent granule smoking filter equipment 1 includes that the fixed board of placing 11 of pushing down, The programming trend device 12, the laser leather cutting device 13, the atomization particle prevention device 14 and the carbon inhalation filtering device 15, the downward pressing fixed placing plate 11 is installed below the programming trend device 12, the lower surface of the programming trend device 12 is connected with the upper surface of the laser leather cutting device 13, the atomization particle prevention device 14 is arranged on the right side of the laser leather cutting device 13, the inner side of the atomization particle prevention device 14 is nested with the outer side of the programming trend device 12 and is connected in a sliding mode, the carbon inhalation filtering device 15 is arranged on the left side of the atomization particle prevention device 14, the downward pressing fixed placing plate 11 comprises a placing plate 111, a sliding groove 112, a sliding block 113 and a downward pressing fixed plate 114, the upper surface of the placing plate 111 is connected with the bottom of the sliding groove 112, the sliding block 113 is embedded and installed on the inner side of the sliding groove 112, the right side of the sliding block 113 is provided with the downward pressing fixed plate 114 and is, the lower pressing fixing plate 114 is slidably connected with the sliding groove 112 through a sliding block 113, the lower surface of the lower pressing fixing plate 114 is attached to the upper surface of the placing plate 111, the programming trend device 12 comprises a connecting block 121, a Y guide rod 122, an X guide rod 123, a connecting shell 124 and balls 125, the inner side of the connecting block 121 is nested with the outer side of the Y guide rod 122 and is connected in a sliding manner, the right side of the Y guide rod 122 is provided with the X guide rod 123, the X guide rod 123 is slidably connected with the Y guide rod 122 through the connecting block 121, the balls 125 are provided with eight balls and are embedded and installed at the upper end and the lower end of the inner side of the connecting shell 124, the lower surface of the ball 125 is attached to the upper surface of the X guide rod 123 and is connected in a sliding manner, the connecting shell 124 is slidably connected with the X guide rod 123 through the balls 125, and the lower surface of the connecting shell 124 is connected, the laser leather cutting device 13 comprises a brake 131, a high-temperature power supply connecting wire 132, a rubber sleeve 133, a controller 134 and a laser generator 135, wherein the upper surface of the brake 131 is connected with the lower surface of a connecting shell 124 in an electric welding mode, the lower surface of the brake 131 is connected with the top end of the high-temperature power supply connecting wire 132, the outer side of the top end of the high-temperature power supply connecting wire 132 is nested with the inner side of the rubber sleeve 133, the high-temperature power supply connecting wire 132 penetrates through the rubber sleeve 133 to be connected with the controller 134, the rubber sleeve 133 is installed below the controller 134 and is of an integrated structure, the brake 131 is arranged on the left side of the controller 134, two ends of the brake are connected through the high-temperature power supply connecting wire 132, the controller 134 is electrically connected with the laser generator 135 through a lead, the brake 131 is electrically connected with the laser generator, the atomization particle prevention device 14 comprises a sliding connecting sleeve 141, a water pump 142, a water pumping hose 143, a water tank base 144, a water accumulating tank 145, a connecting handle 146, a plastic pipeline 147 and an atomization nozzle 148, wherein the upper surface of the sliding connecting sleeve 141 is connected with the lower surface of the water pump 142 in an electric welding mode, the head end of the water pumping hose 143 is embedded in the water pump 142, the tail end of the water pumping hose 143 is embedded in the water tank base 144, the upper surface of the water tank base 144 is connected with the lower surface of the water accumulating tank 145 in an electric welding mode, the bottom end of the connecting handle 146 is connected with the upper surface of the water accumulating tank 145 in an electric welding mode, the inner sides of the atomization nozzle 148 outside the bottom end of the plastic pipeline 147 are nested, the atomization nozzle 148 is connected with the water pump 142 through the plastic pipeline 147, and the water pumping hose 143 is, the water tank base 144 is connected with the connecting handle 146 through the water accumulating tank 145, the carbon inhalation filter device 15 comprises an electric drive inhalation device 151 and a carbon particle pushing and releasing device 152, the electric drive inhalation device 151 is installed at the left side of the carbon particle pushing and releasing device 152, the electric drive inhalation device 151 comprises a motor base 1511, a drive motor 1512, a rotating shaft 1513, a belt rotating shaft 1514, a plastic belt 1515, a driving shaft 1516, inhalation fan blades 1517, a gas inlet port 1518 and an air inlet pipeline 1519, the lower surface of the motor base 1511 is welded with the upper surface of the drive motor 1512, the rotating shaft 1513 is embedded inside the drive motor 1512 and is positioned on the same center line, the belt rotating shaft 1514 is embedded inside the rotating shaft 1513 and is positioned on the same center line, the drive motor 1512 is connected with the belt rotating shaft 1514 through the rotating shaft 1513, the plastic belt 1515 is installed around the driving shaft 1516, the suction fan 1517 is installed at the front end of the gas inlet port 1518, the gas inlet port 1518 is installed on the surface of the gas inlet pipe 1519 and is of an integrated structure, the air inlet pipe 1519 is embedded inside the carbon particle pushing device 152, the carbon particle pushing device 152 includes a bin door armrest 1521, a bin door 1522, a torque hinge 1523, a limiting base 1524, a rolling shaft 1525, a pushing and accumulating box 1526, carbon powder 1527 and an exhaust pipe 1528, an air inlet pipeline 1519 is arranged on the left side surface of the accumulation pushing box 1526, the left end of the bin door handrail 1521 is connected with the right side surface of the bin door 1522, the bottom end of the bin door 1522 is connected with the upper surface of the outer side of the torque hinge 1523, four rolling shafts 1525 are arranged and are arranged above the limiting base 1524, the carbon powder 1527 is distributed inside the thrust box 1526, the outer side of the left end of the exhaust pipe 1528 is nested with the right surface of the thrust box 1526, the upper surface of the rolling shaft 1525 is attached to the lower surface of the accumulating box 1526 and is connected with the accumulating box 1526 in a sliding mode.

The invention relates to an efficient anti-counterfeiting cutting device for leather products, which has the working principle that: the device can be fixed at a designated position by matching the supporting feet 5 with the device base 4, the device sealing cover 2 is opened, leather products to be cut are placed on the placing plate 111, the lower pressing fixing plate 114 is lifted upwards and released after being placed, the lower pressing fixing plate 114 can be matched with the sliding block 113 to press the leather products downwards along the sliding groove 112, the leather products are cut by the laser generator 135 which is controlled by the controller 134 connected with the brake 131 through the high-temperature power supply connecting wire 132 when being operated by the device operating platform 3, the laser generator 135 can move on the Y guide rod 122 and the X guide rod 123 to cut the leather products, the water in the water accumulating tank 145 above the water tank base 144 can be pumped by starting the water pumping pump 142 on the sliding connecting sleeve 141 through the water pumping hose 143 during cutting, and the water is sprayed below the cutting through the atomizing nozzle 148 in the pumping plastic pipeline 147, when the device cover 2 is to be opened, the driving motor 1512 below the motor base 1511 is started to drive the rotating shaft 1513 of the driving motor to be matched with the belt rotating shaft 1514, so as to drive the surrounding plastic belt 1515 to rotate, the driving shaft 1516 is matched with the sucking fan 1517 to rotate, smoke is sucked into the air inlet pipeline 1519 through the air inlet port 1518, the smoke is sucked in advance by opening the bin door 1522 through the bin door handrail 1521 and putting the bin door handrail 1522 into the accumulating box 1526 driving the carbon powder 1527 along the rolling shaft 1525 for filtering, the filtered smoke is lighter than air and can be discharged along the air outlet pipeline 1528, and the smoke is prevented from being accumulated in the device in a mode of little or much smoke accumulation.

The invention solves the problems that when the anti-counterfeiting cutting device in the prior art is used, because a plurality of pieces of leather are required to be cut, smoke can be generated in the laser heating feed cutting process, the smoke is accumulated in the device in a mode of little smoke convergence on a sealing cover, the smoke can be blown out to hurt workers when the sealing cover is opened, and because the laser cuts the leather in the heating feed, the waste heat on the leather in the cutting process can be remained on the edge of the leather to cause black particles to be generated on the edge of the leather, and the defect of treatment is needed to be thrown subsequently is overcome. And the accessible suction pump is drawing water and is atomizing water at the in-process of cutting, reduces the waste heat on the leather products, avoids the leather products edge to produce black granule.

While there have been shown and described what are at present considered the fundamental principles and essential features of the invention and its advantages, it will be apparent to those skilled in the art that the invention is not limited to the details of the foregoing exemplary embodiments, but is capable of other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (1)

1. The utility model provides a high-efficient leatherware is with anti-fake cutting device, its structure includes atomizing and prevents granule smoking filter equipment (1), device closing cap (2), device operation panel (3), device base (4), supporting legs (5), its characterized in that: the device sealing cover (2) is embedded in the surface of the atomization particle-proof smoking filter device (1), a device operating table (3) is arranged on the right side of the device sealing cover (2), the device operating table (3) is electrically connected with the atomization particle-proof smoking filter device (1) through a lead, the bottom of the device operating table (3) is connected with the top of a device base (4), four supporting legs (5) are arranged, the tops of the four supporting legs are perpendicular to the bottom of the device base (4) and are connected with each other in an electric welding mode, the device base (4) is connected with the device sealing cover (2) through the atomization particle-proof smoking filter device (1), and the supporting legs (5) are connected with the atomization particle-proof smoking filter device (1) through the device base (4); the atomization particle-preventing smoking filter device (1) comprises a downward pressing fixed placing plate (11), a programming trend device (12), a laser leather cutting device (13), an atomization particle-preventing device (14) and a carbon-absorbing filter device (15), wherein the downward pressing fixed placing plate (11) is installed below the programming trend device (12), the lower surface of the programming trend device (12) is connected with the upper surface of the laser leather cutting device (13), the atomization particle-preventing device (14) is arranged on the right side of the laser leather cutting device (13), the inner side of the atomization particle-preventing device (14) is embedded and sleeved with the outer side of the programming trend device (12) and is connected with the outer side of the programming trend device (12) in a sliding mode, and the carbon-absorbing filter device (15) is arranged on the left side of the atomization particle-preventing device (14); the downward-pressing fixed placing plate (11) comprises a placing plate (111), a sliding groove (112), a sliding block (113) and a downward-pressing fixed plate (114), the upper surface of the placing plate (111) is connected with the bottom of the sliding groove (112), the sliding block (113) is embedded and installed on the inner side of the sliding groove (112), the downward-pressing fixed plate (114) is arranged on the right side of the sliding block (113) and is of an integrated structure, the downward-pressing fixed plate (114) is connected with the sliding groove (112) in a sliding mode through the sliding block (113), and the lower surface of the downward-pressing fixed plate (114) is attached to the upper surface of the placing plate (111); the programming trend device (12) comprises a connecting block (121), a Y guide rod (122), an X guide rod (123), a connecting shell (124) and a ball (125), the inner side of the connecting block (121) is embedded and sleeved with the outer side of the Y guide rod (122) and is connected with the Y guide rod in a sliding way, an X guide rod (123) is arranged on the right side of the Y guide rod (122), the X guide rod (123) is connected with the Y guide rod (122) in a sliding way through a connecting block (121), the eight balls (125) are embedded into the upper end and the lower end of the inner side of the connecting shell (124), the lower surface of the ball (125) is jointed with the upper surface of the X guide rod (123) and is connected with the X guide rod in a sliding way, the connecting shell (124) is connected with the X guide rod (123) in a sliding way through a ball (125), the lower surface of the connecting shell (124) is connected with the upper surface of the laser leather cutting device (13) in an electric welding mode; the laser leather cutting device (13) comprises a brake (131), a high-temperature power supply connecting wire (132), a rubber sleeve (133), a controller (134) and a laser generator (135), wherein the upper surface of the brake (131) is connected with the lower surface of a connecting shell (124) in an electric welding mode, the lower surface of the brake (131) is connected with the top end of the high-temperature power supply connecting wire (132), the outer side of the top end of the high-temperature power supply connecting wire (132) is nested with the inner side of the rubber sleeve (133), the high-temperature power supply connecting wire (132) penetrates through the rubber sleeve (133) to be connected with the controller (134), the rubber sleeve (133) is installed below the controller (134) and is of an integrated structure, the left side of the controller (134) is provided with the brake (131) and two ends of the brake are connected with the high-temperature power supply connecting wire (132), and the controller (134) is, the brake (131) is electrically connected with the laser generator (135) through a lead, and the high-temperature power supply connecting wire (132) is connected with the laser generator (135) through a controller (134); the atomization particle prevention device (14) comprises a sliding connecting sleeve (141), a water suction pump (142), a water suction hose (143), a water tank base (144), a water accumulation tank (145), a connecting handle (146), a plastic pipeline (147) and an atomization nozzle (148), wherein the upper surface of the sliding connecting sleeve (141) is connected with the lower surface of the water suction pump (142) in an electric welding mode, the head end of the water suction hose (143) is embedded in the inner side of the water suction pump (142), the tail end of the water suction hose (143) is embedded in the inner side of the water tank base (144), the upper surface of the water tank base (144) is connected with the lower surface of the water accumulation tank (145) in an electric welding mode, the bottom end of the connecting handle (146) is connected with the upper surface of the water accumulation tank (145) in an electric welding mode, the inner side of the atomization nozzle (148) on the outer side of the bottom end of the plastic pipeline (147) is nested, and, the water pumping hose (143) is connected with a plastic pipeline (147) through a water pumping pump (142), and the water tank base (144) is connected with a connecting handle (146) through a water accumulating tank (145); the carbon suction filtering device (15) comprises an electric drive suction device (151) and a carbon particle pushing and releasing device (152), wherein the electric drive suction device (151) is arranged on the left side of the carbon particle pushing and releasing device (152); the electric drive suction device (151) comprises a motor base (1511), a drive motor (1512), a rotating shaft (1513), a belt rotating shaft (1514), a plastic belt (1515), a driving shaft (1516), suction fan blades (1517), a gas inlet (1518) and a gas inlet pipeline (1519), wherein the lower surface of the motor base (1511) is welded with the upper surface of the drive motor (1512), the rotating shaft (1513) is embedded and installed inside the drive motor (1512) and is positioned on the same center line, the belt rotating shaft (1514) is embedded and installed inside the rotating shaft (1513) and is positioned on the same center line, the drive motor (1512) is connected with the belt rotating shaft (1514) through the rotating shaft (1513), the plastic belt (1515) is installed around the outside of the driving shaft (1516), the suction fan blades (1517) are installed at the front end of the gas inlet (1518), the gas inlet (1518) is installed on the surface of the gas inlet pipeline (1519) and is an, the gas inlet pipeline (1519) is embedded and arranged at the inner side of the carbon particle pushing and releasing device (152); the carbon particle pushing and placing device (152) comprises a bin door handrail (1521), a bin door (1522), a torque hinge (1523), a limiting base (1524), a rolling shaft (1525), a pushing and accumulating box (1526), carbon powder (1527) and an exhaust pipeline (1528), an air inlet pipeline (1519) is arranged on the left side surface of the accumulation pushing box (1526), the left end of the bin gate armrest (1521) is connected with the right side surface of the bin gate (1522), the bottom end of the bin door (1522) is connected with the upper surface of the outer side of the torque hinge (1523), the four rolling shafts (1525) are arranged above the limiting base (1524), the carbon powder (1527) is arranged at the inner side of the accumulating box (1526) in a distributed manner, the outer side of the left end of the exhaust pipeline (1528) is nested with the right surface of the accumulating box (1526), the upper surface of the rolling shaft (1525) is attached to the lower surface of the accumulating box (1526) and is connected with the accumulating box in a sliding mode;

the device can be fixed at a designated position by matching the supporting feet (5) with the device base (4), the device sealing cover (2) is opened, leather products to be cut are placed on the placing plate (111), the downward pressing fixing plate (114) is lifted upwards and released after being placed, the downward pressing fixing plate (114) can be matched with the sliding block (113) to press the leather products downwards along the sliding groove (112), the leather products are pressed by operating the device operating platform (3), the brake (131) is started to control the laser generator (135) to cut the leather products through the controller (134) connected with the high-temperature power connecting wire (132), the laser generator (135) can move on the Y guide rod (122) and the X guide rod (123) to cut the leather products, the water pump (142) on the sliding connecting sleeve (141) can be started to pump water in the water accumulating tank (145) above the water tank base (144) through the hose (143) during cutting, when the cutting fluid is pumped into a plastic pipeline (147) and sprayed below the cut through an atomizing nozzle (148), black particles are prevented from being generated at the edge of the leather product, and when the device cover (2) is opened, the driving motor (1512) under the motor base (1511) can be started to drive the rotating shaft (1513) to match with the belt rotating shaft (1514) to drive the surrounding plastic belt (1515) to rotate, and then the driving shaft (1516) is matched to drive the suction fan blade (1517) to rotate to suck the smoke into the air inlet pipeline (1519) through the air inlet (1518), the smoke is sucked and is put into a pushing and accumulating box (1526) driving carbon powder (1527) along a rolling shaft (1525) to be filtered by opening a bin door handrail (1522) through a bin door handrail (1521), the filtered smoke is lighter than air and can be discharged along an exhaust pipeline (1528), and the smoke is prevented from being accumulated in the device in a mode of little smoke accumulation.

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