CN115042262B - Material cutting equipment cuts - Google Patents

Abstract

The invention discloses cutting equipment for cut materials, which belongs to the field of cutting equipment for cut materials and comprises a conveyor belt component, a clamping and conveying mechanism, a cutting mechanism and a discharging mechanism, wherein the clamping and conveying mechanism, the cutting mechanism and the discharging mechanism are sequentially connected; the conveyor belt assembly is used for conveying the cut materials to the clamping and conveying mechanism, the cutting mechanism and the discharging mechanism. The material cutting equipment cuts materials through the conveyor belt assembly and sequentially passes through the clamping and conveying mechanism, the cutting mechanism and the discharging mechanism. The X-axis is along the direction of cutting material conveying, and the Y-axis is perpendicular to the horizontal direction of the cutting material conveying direction. The X-axis driving assembly hides the X-axis rack at two sides of the cutting rack, and the problem that the X-axis rack is damaged due to collision is avoided. In addition, the rack can be hidden, so that the appearance of the equipment is more attractive.

Description

Material cutting equipment cuts

Technical Field

The invention relates to the field of cutting equipment for cut materials, in particular to cutting equipment for cut materials.

Background

Cutting materials such as leather, cloth and the like are indispensable materials in our lives, and the cutting materials are most commonly applied to making clothes and home textile articles in daily life. When the material is cut, the processes of discharging, cutting, discharging and the like are required to be completed. In current cutting equipment, need follow and cut material direction of transfer and set up the track, make the cutting head can remove along cutting material direction of transfer, but current track protrusion in cutting equipment's lathe receives the collision easily and damages.

Disclosure of Invention

The invention aims to provide a cutting device for cut materials, which aims to solve the problem that a track arranged along the conveying direction of the cut materials is damaged due to collision.

In order to achieve the purpose, the invention adopts the following technical scheme:

the invention provides cutting equipment for cut materials, which comprises a conveyor belt assembly, a clamping and conveying mechanism, a cutting mechanism and a discharging mechanism, wherein the clamping and conveying mechanism, the cutting mechanism and the discharging mechanism are sequentially connected;

the conveying belt assembly is used for conveying the cut materials to the clamping and conveying mechanism, the cutting mechanism and the discharging mechanism;

the cutting mechanism comprises a cutting rack, an X-axis driving assembly, a cross beam and a cutting machine head; the left side and the right side of the cutting rack are respectively provided with a track groove, and X-axis racks are arranged in the track grooves; the X-axis driving assembly comprises an X-axis driving motor, a transmission rod, a first sliding plate and a second sliding plate;

the X-axis driving motor and the transmission rod are arranged in the cross beam, and the output end of the X-axis driving motor is in driving connection with the transmission rod; the first sliding plate and the second sliding plate are respectively arranged on two sides of the cross beam; the first sliding plate and the second sliding plate are both provided with a transmission gear and a transmission synchronous belt, the transmission gear is meshed with the X-axis rack on the same side, and the transmission synchronous belt is in driving connection with the transmission rod.

In the cutting equipment for the cutting materials, the conveyor belt component comprises a conveyor belt, a first drive roller, a second drive roller, a first tensioning roller and a second tensioning roller;

the first transmission roller is arranged on the pinch mechanism, and the second transmission roller, the first tensioning roller and the second tensioning roller are arranged on the discharging mechanism; first tensioning roller and second tensioning roller all set up in the front side of second driving roller, just the level of second driving roller is higher than first tensioning roller, conveyer belt cup joint in the outside of first driving roller, second driving roller and first tensioning roller, conveyer belt is tightly supported to second tensioning roller.

In the cutting device for the cut materials, the discharging mechanism comprises a discharging rack, a receiving box and a brush frame;

the second driving roller, the first tensioning roller and the second tensioning roller are respectively arranged on the discharging rack, and the material receiving box is arranged at the discharging end of the discharging rack; the brush frame is arranged below the second transmission roller, a brush is arranged at the top of the brush frame, and the brush tightly supports against the conveying belt.

In the cutting material cutting equipment, the cutting mechanism is also provided with an adsorption device, and the adsorption device comprises an adsorption plate and a plurality of negative pressure adsorption units; a plurality of air holes are formed in the surface of the conveying belt;

the negative pressure adsorption unit is arranged in the cutting rack and comprises an air pump, an air collection box, a communication air pipe, a plurality of platform air pipes and a plurality of air hoods; the air hood is arranged at the top of the cutting machine frame, and an opening of the air hood is upward;

the adsorption plate is erected on the cutting frame; the adsorption plate is provided with a plurality of adsorption areas, and a plurality of adsorption holes are formed in the adsorption areas; the gas hood is tightly attached to the bottom surface of the adsorption area;

the air collecting box is arranged on one side of the cutting rack, an air outlet end of the air collecting box is communicated with one end of the communicating air pipe, and the other end of the communicating air pipe is communicated with an air exhaust end of the air pump; one end of each of the platform air pipes is connected with the air inlet end of the air collection box, and the other end of each of the platform air pipes is communicated with the corresponding air hood;

and a filter screen is arranged at the communication part of the gas collection box and the communication air pipe.

Among the material cutting equipment cuts, the gas hood is equipped with a plurality of gas plug subassemblies, the gas plug subassembly includes gas plug cylinder and gas plug, the gas plug cylinder set up in the bottom of gas hood, the output of gas plug cylinder passes the gas hood, and with the gas plug is connected.

In the cutting material cutting equipment, the clamping and conveying mechanism comprises a clamping and conveying rack and a first clamping and conveying assembly;

the first clamping and conveying assembly comprises a first upper clamping rod, a fence frame, a first lower clamping rod and a horizontal driving assembly;

two ends of the first lower clamping rod are respectively provided with a first lifting driving assembly, and two ends of the first upper clamping rod are respectively connected with the driving ends of the first lifting driving assemblies at two sides; the fence frame is arranged on the clamping and conveying rack and is positioned between the first upper clamping rod and the first lower clamping rod; the top of the first lower clamping rod is provided with an avoidance notch matched with the fence frame; the horizontal driving assembly is arranged in the clamping and conveying rack and connected with the first lower clamping rod and used for driving the first upper clamping rod and the first lower clamping rod to move horizontally;

the first transmission roller is connected with the pinch machine frame in a rolling mode, and the transmission belt is laid on the fence frame and penetrates through a gap between the first upper clamping rod and the first lower clamping rod.

In the cut material cutting equipment, the clamping and conveying mechanism further comprises a second clamping and conveying assembly, the second clamping and conveying assembly is positioned at the rear side of the first clamping and conveying assembly and comprises a second upper clamping rod, a second lower clamping rod and a second lifting driving assembly, the two ends of the second lower clamping rod are respectively provided with the second lifting driving assembly, and the second lifting driving assembly comprises a second cylinder and a second pressure relief fixing frame; the second pressure relief fixing frame is arranged at the top of the second cylinder, a second sliding groove is formed in the second pressure relief fixing frame, and the second lower clamping rod is fixed at the bottom of the second sliding groove; the output end of the second air cylinder sequentially penetrates through the second sliding groove and the second lower clamping rod and is connected with the second upper clamping rod.

In the cutting equipment for the cut materials, the cutting machine head comprises a machine head seat, a cutter head seat, a puncher, a Y-axis driving motor and a shell; the cross beam is provided with a Y-axis rack, the Y-axis driving motor is arranged in the headstock, and the headstock and the puncher are both arranged on the front side or the rear side of the headstock; the output end of the Y-axis driving motor penetrates through the tool bit seat and is connected with a driving gear; the driving gear is meshed with the Y-axis rack; the outer shell cover is arranged on the outer side of the Y-axis driving motor.

In the cutting equipment for the cut materials, the puncher comprises a mounting plate, a puncher main body, a bus plate, a piston rod, a punching rod, a punch, a waste absorbing seat body, a connecting block, a first electromagnetic valve, a second electromagnetic valve and a driving device;

the mounting plate is mounted on one side of the puncher main body, one side of the confluence plate is mounted on the other side of the puncher main body, the first electromagnetic valve and the second electromagnetic valve are mounted on the other side of the confluence plate, and the confluence plate is provided with an air inlet nozzle;

the piston rod is movably arranged on the puncher main body and is communicated with the air inlet nozzle through the first electromagnetic valve;

the punch rod is arranged on the punch body, one end of the connecting block is arranged on the top of the piston rod, the other end of the connecting block is connected to the top of the punch rod, and the driving device is used for driving the punch rod to rotate;

the punch is installed at the bottom of the punch rod and provided with a first channel, the waste absorbing seat body is installed on the bottom surface of the punch main body, the punch can protrude out of the bottom surface of the waste absorbing seat body, the waste absorbing seat body is provided with a second channel and a discharge nozzle, one end of the second channel is connected to the first channel, the other end of the second channel is communicated with the discharge nozzle, and the discharge nozzle is communicated with the air inlet nozzle through a second electromagnetic valve.

One technical scheme in the invention can have the following beneficial effects:

the material cutting device is provided with a clamping mechanism, a cutting mechanism and a discharging mechanism which are connected in sequence, and the material to be cut sequentially passes through the clamping mechanism, the cutting mechanism and the discharging mechanism through the conveyor belt assembly. The X-axis is along the direction of cutting material conveying, and the Y-axis is perpendicular to the horizontal direction of the cutting material conveying direction. The X-axis driving assembly adopts the structure, the X-axis rack is hidden at two sides of the cutting rack, and the problem that the X-axis rack is damaged due to collision is avoided. In addition, the rack can be hidden, so that the appearance of the equipment is more attractive.

Drawings

FIG. 1 is a schematic diagram of a configuration of one embodiment of a cut material cutting apparatus of the present invention;

FIG. 2 is a schematic diagram of the pinch mechanism in one embodiment of the present invention;

FIG. 3 is a schematic structural view of a discharge mechanism according to one embodiment of the present invention;

FIG. 4 is a schematic view showing the internal structure of the pinch mechanism in one embodiment of the present invention;

FIG. 5 is a schematic view of a first lift drive assembly according to one embodiment of the present invention;

FIG. 6 is a schematic diagram of the structure of an adsorption device in one embodiment of the present invention;

FIG. 7 is a bottom view of an adsorbent device in accordance with one embodiment of the present invention;

FIG. 8 is an enlarged view of a portion of an adsorption device in accordance with one embodiment of the present invention;

FIG. 9 is a schematic diagram of the construction of a vapor collection box according to one embodiment of the present invention;

FIG. 10 is a schematic diagram of the structure of the X-axis drive assembly in one embodiment of the present invention;

FIG. 11 is a schematic diagram of the structure of the Y-axis drive assembly in one embodiment of the present invention;

FIG. 12 is a schematic view of a punch according to one embodiment of the present invention;

FIG. 13 is a cross-sectional view of a punch according to one embodiment of the present invention;

FIG. 14 is a schematic view of a waste receptacle according to one embodiment of the present invention;

in the drawings: the device comprises a clamping and conveying mechanism 1, a cutting mechanism 2 and a discharging mechanism 3; the device comprises a pinch rack 11, a first pinch assembly 12 and a second pinch assembly 13; a cutting frame 21, a beam 23, a cutting machine head 24 and an adsorption plate 25; a discharging machine frame 31, a receiving box 32 and a brush frame 33; a conveyor belt 41, a first driving roller 42, a second driving roller 43, a first tension roller 44, a second tension roller 45; a punching synchronous wheel I61, a punching synchronous wheel II 62 and a punching synchronous belt 63; a second spring 71, a nut 72;

a first upper clamping bar 121, a fence frame 122, a first lower clamping bar 123 and a first lifting driving component 124; a second upper clamping bar 131, a second lower clamping bar 132, a second lifting driving assembly 133; a track groove 211, an X-axis rack 212; an X-axis driving motor 221, a driving lever 222, a first sliding plate 223, a second sliding plate 224, a driving gear 225, a driving timing belt 226; a Y-axis rack 231; a head base 241, a head base 242, a punch 243, a Y-axis driving motor 244, and a housing 245; an air pump 261, a gas collecting tank 262, a communicating air pipe 263, a platform air pipe 264, an air hood 265, a filter screen 266 and a silencer 267;

a first cylinder 1241, a first fixing frame 1242 and a first sliding chute 1243; a screw motor 1261, a pinch screw 1262, a slide block 1263, and a guide rail 1264; a gas block cylinder 2651, a gas block 2652; a mounting plate 2431, a punch body 2432, a bus plate 2433, a piston rod 2434, a punch 2435, a punch 2436, a waste suction seat body 2437, a connecting block 2438, a first solenoid valve 2439a, a second solenoid valve 2439b, and a driving device 2439c; an inlet nozzle 2433a, a first passage 2436a, a second passage 2437a, an outlet nozzle 2437b; a first nut d, a second nut f and a punch rolling bearing e.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used merely for convenience of description and for simplicity of description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention. Furthermore, features defined as "first" and "second" may explicitly or implicitly include one or more of the features for distinguishing between descriptive features, non-sequential, non-trivial and non-trivial.

In the description of the present invention, "a plurality" means two or more unless otherwise specified.

Referring to fig. 1 to 14, the invention provides a cutting device for cut materials, which comprises a conveyor belt assembly, a pinch mechanism 1, a cutting mechanism 2 and a discharging mechanism 3, wherein the pinch mechanism 1, the cutting mechanism 2 and the discharging mechanism are sequentially connected;

the conveyor belt assembly is used for conveying the cut materials to the clamping and conveying mechanism 1, the cutting mechanism 2 and the discharging mechanism 3;

the cutting mechanism 2 comprises a cutting frame 21, an X-axis driving component (not shown in the drawing), a cross beam 23 and a cutting machine head 24; the left side and the right side of the cutting frame 21 are respectively provided with a track groove 211, and X-axis racks 212 are arranged in the track grooves 211; the X-axis driving assembly includes an X-axis driving motor 221, a driving lever 222, a first sliding plate 223 and a second sliding plate 224;

the X-axis driving motor 221 and the transmission rod 222 are arranged in the cross beam 23, and the output end of the X-axis driving motor 221 is in driving connection with the transmission rod 222; the first sliding plate 223 and the second sliding plate 224 are respectively disposed at both sides of the cross beam 23; the first sliding plate 223 and the second sliding plate 224 are respectively provided with a transmission gear 225 and a transmission timing belt 226, the transmission gear 225 is meshed with the X-axis rack 212 on the same side, and the transmission timing belt 226 is in driving connection with the transmission rod 222.

Cut material cutting equipment and set up pinch mechanism 1, cut mechanism 2 and discharge mechanism 3 that connect gradually, will cut the material through conveyer belt subassembly in proper order through pinch mechanism 1, cut mechanism 2 and discharge mechanism 3. The X-axis is along the direction of cutting material conveying, and the Y-axis is perpendicular to the horizontal direction of the cutting material conveying direction. The X-axis driving assembly adopts the structure, the X-axis rack 212 is hidden at two sides of the cutting frame 21, and the problem that the X-axis rack 212 is damaged due to collision is avoided. In addition, the rack can be hidden, so that the appearance of the equipment is more attractive. The cutting material comprises leather and cloth.

The X-axis driving motor 221 drives the transmission rod 222 to rotate, the proximal ends of the two ends of the transmission rod 222 are in transmission connection with the transmission timing belt 226, and the transmission rod 222 drives the transmission gear 225 on the first sliding plate 223 or the second sliding plate 224 through the transmission timing belt 226, so that the transmission gear 225 rotates along the X-axis rack 212, and the first sliding plate 223 or the second sliding plate 224 is driven to move along the X-axis direction. The transmission rod 222 drives the transmission timing belt 226 at both ends to rotate, so that the first sliding plate 223 and the second sliding plate 224 move synchronously, thereby driving the cross beam 23 to move in the X-axis direction.

Referring to fig. 2 and 3, specifically, the conveyor belt assembly includes a conveyor belt 41, a first driving roller 42, a second driving roller 43, a first tension roller 44 and a second tension roller 45;

the first driving roller 42 is arranged on the pinch mechanism 1, and the second driving roller 43, the first tensioning roller 44 and the second tensioning roller 45 are arranged on the discharging mechanism 3; the first tension roller 44 and the second tension roller 45 are both arranged on the front side of the second driving roller 43, the horizontal height of the second driving roller 43 is higher than that of the first tension roller 44, the conveying belt 41 is sleeved on the outer sides of the first driving roller 42, the second driving roller 43 and the first tension roller 44, and the second tension roller 45 is tightly abutted to the conveying belt 41.

The first driving roller 42 and the second driving roller 43 rotate synchronously to drive the conveying belt 41, so that the cutting materials are sequentially conveyed to the clamping and conveying mechanism 1, the cutting mechanism 2 and the discharging mechanism 3. The first tension roller 44 and the second tension roller 45 are used for tensioning the conveyor belt 41, and the conveyor belt 41 is prevented from being loosened to affect the conveying effect.

Referring to fig. 3, specifically, the discharging mechanism 3 includes a discharging frame 31, a material receiving box 32 and a brush holder 33;

the second driving roller 43, the first tensioning roller 44 and the second tensioning roller 45 are respectively arranged on the discharging rack 31, and the material collecting box 32 is arranged at the discharging end of the discharging rack 31; the brush holder 33 is disposed below the second driving roller 43, and a brush is disposed on the top of the brush holder 33 and tightly supported on the conveying belt 41.

The brush frame 33 cleans the cloth scraps on the surface of the conveying belt 41 through the brush tightly abutting against the surface of the conveying belt 41, prevents the cloth scraps from falling into the cutting material cutting equipment, so that the problem that the cloth scraps are difficult to clean is caused, and the influence of the cloth scraps on the cutting material on the internal mechanism of the cutting equipment is avoided.

Referring to fig. 6 to 9, further, the cutting mechanism 2 is further provided with an adsorption device, and the adsorption device includes an adsorption plate 25 and a plurality of negative pressure adsorption units; a plurality of air holes are formed in the surface of the conveying belt 41;

the negative pressure adsorption unit is arranged in the cutting frame 21 and comprises an air pump 261, a gas collection box 262, a communicating air pipe 263, a plurality of platform air pipes 264 and a plurality of air hoods 265; the air hood 265 is arranged at the top of the cutting rack 21, and an opening of the air hood 265 faces upwards;

the adsorption plate 25 is erected on the cutting frame 21; the adsorption plate 25 is provided with a plurality of adsorption regions 251, and a plurality of adsorption holes are arranged on the adsorption regions 251; the gas hood 265 is tightly attached to the bottom surface of the adsorption region 251;

the gas collecting box 262 is arranged on one side of the cutting rack 21, the gas outlet end of the gas collecting box 262 is communicated with one end of the communicating gas pipe 263, and the other end of the communicating gas pipe 263 is communicated with the gas exhaust end of the gas pump 261; one end of each of the plurality of platform air pipes 264 is connected to the air inlet end of the air collecting box 262, and the other end of each of the plurality of platform air pipes 264 is communicated with the corresponding air hood 265;

a filter screen 266 is arranged at the communication part of the gas collection box 262 and the communication air pipe 263.

The adsorption plate 25 is provided with a plurality of adsorption areas 251, the adsorption areas 251 are provided with a plurality of adsorption holes, and the position of the gas hood 265 corresponds to that of the adsorption areas 251; extract gaseously through air pump 261, thereby at gas collecting tank 262, intercommunication trachea 263, form the negative pressure in platform trachea 264 and the gas hood 265, the gas of adsorption plate top gets into gas hood 265 through adsorbing the hole, thereby will cut the material and be adsorbed and be fixed in on the adsorption plate 25, prevent to cut the material and take place to remove when cutting, avoid cutting the material and appear the fold and make the phenomenon that cuts the local emergence displacement of material, it cuts the material to need not staff's flattening again, reduce staff's working strength, shorten and cut required time, the improvement cuts the efficiency that the material cut.

The gas collection box 262 is respectively communicated with the plurality of gas hoods 265 through the platform gas pipes 264, and gas extracted by different gas hoods 265 is converged into the gas collection box 262 through the corresponding platform gas pipes 264 and then enters the gas pump 261 through the communication gas pipes 263, so that the purpose of extracting gas is realized. The air pump 261 can be communicated with a plurality of air hoods 265 through the air collecting box 262, so that the limitation of the number of the air hoods 265 on the width and the length of the adsorption mechanism is reduced, and the production requirements of different cut materials are met; meanwhile, the number of the air pumps 261 is reduced, the production cost is reduced, and noise generated by the air pumps 261 is reduced.

Referring to fig. 9, a filter screen 266 is disposed at a communication position between the gas collection tank 262 and the communication air pipe 263 for filtering out cloth scraps and impurities in the gas, so as to avoid the problem that the air pump 261 is damaged due to the cloth scraps and the impurities entering the air pump 261. The gas collection box 262 further comprises a pressure relief assembly, wherein the pressure relief assembly comprises an air pressure sensor, a pressure relief fixing frame 2621, a pressure relief cylinder 2622 and a sealing element 2623; the air pressure sensor is arranged in the air collection box 262; the top of the gas collecting box 262 is provided with a pressure relief hole 2624, the pressure relief fixing frame 2621 is erected on the periphery of the pressure relief hole 2624, the pressure relief cylinder 2622 is fixed on the pressure relief fixing frame 2621, the output end of the pressure relief cylinder 2622 faces downwards, the pressure relief cylinder 2622 is connected with a sealing element 2623, and the sealing element 2623 is matched with the pressure relief hole 2624; the air pressure sensor is electrically connected with the pressure relief cylinder 2622.

When the adsorption holes are blocked by cloth scraps and impurities, the air pump 261 continues to pump air, which causes vacuum environment to be formed in the air hood 265, the platform air pipe 264 and the air collection tank 262, so that the air pump 261 generates heat, and the risk of damage to the air pump 261 is further caused. Atmospheric pressure in the gas collection box 262 can be detected to baroceptor, and after atmospheric pressure in the gas collection box 262 reached the threshold value, start pressure release cylinder 2622, make pressure release cylinder 2622's output retract back to drive sealing member 2623 rebound, make pressure release hole 2624 and external intercommunication, gaseous through pressure release hole 2624 entering gas collection box 262, avoid the problem that the air pump 261 generates heat because of the idle running to appear. In a preferred embodiment of the present invention, the adsorption device further comprises a silencer 267, and the exhaust end of the air pump 261 is communicated with the silencer 267. With the above configuration, noise generated during the operation of the air pump 261 can be reduced.

Referring to fig. 8, further, the air cap 265 is provided with a plurality of air plug assemblies, the air plug assemblies include an air plug cylinder 2651 and an air plug 2652, the air plug cylinder 2651 is disposed at the bottom of the air cap 265, and an output end of the air plug cylinder 2651 passes through the air cap 265 and is connected to the air plug 2652.

Drive air lock 2652 rebound through air lock cylinder 2651, make the clearance appear between air shroud 265 and the adsorption plate 25 to make in the air admission air shroud 265 of adsorption plate 25 below, avoid the gas of adsorption plate top to get into air shroud 265 through the adsorption hole, thereby reach the effect of cancellation adsorption plate 25 to the absorption of cutting the material.

Referring to fig. 2, 4 and 5, specifically, the pinch mechanism 1 includes a pinch frame 11 and a first pinch assembly 12;

the first clamping and conveying assembly 12 comprises a first upper clamping rod 121, a fence frame 122, a first lower clamping rod 123 and a horizontal driving assembly;

two ends of the first lower clamping rod 123 are respectively provided with a first lifting driving component 124, and two ends of the first upper clamping rod 121 are respectively connected with driving ends of the first lifting driving components 124 at two sides; the fence frame 122 is erected on the pinch machine frame 11, and the fence frame 122 is positioned between the first upper clamping rod 121 and the first lower clamping rod 123; the top of the first lower clamping rod 123 is provided with an avoidance gap matched with the fence frame 122; the horizontal driving assembly is arranged in the pinch frame 11, connected with the first lower clamping rod 123 and used for driving the first upper clamping rod 121 and the first lower clamping rod 123 to move horizontally;

the first driving roller 42 is connected to the pinch frame 11 in a rolling manner, and the conveying belt 41 is laid on the fence frame 122 and passes through a gap between the first upper clamping rod 121 and the first lower clamping rod 123.

By adopting the structure, the cutting material is laid on the conveying belt 41, the cutting material is clamped and clamped through the matching of the first clamping and conveying component 12 and the conveying belt 41, meanwhile, the first clamping and conveying component 12 can move along the conveying direction of the cutting material, and the purpose of clamping and conveying the cutting material can be realized through the matching of the conveying belt 41. Conveyer 41 send subassembly 12 and conveyer 41 to press from both sides tightly at first clamp and cut the material after, tear again and cut the material, the messenger cuts the material and gets into the guillootine, conveyer 41 is dragged to guillootine one side, it rotates to drive first drive roll 42, make conveyer 41 rotate around first drive roll 42, prevent too thickly because of cutting the material, the frictional force that leads to between cutting material and the belt is difficult to drive and cuts the material, arouse the problem of guillootine material feeding difficulty, make the great material that cuts of thickness can adapt to automation and cut production, and the production efficiency is improved.

In the embodiment of the present invention, the fence frame 122 includes a frame and fence bars, the fence bars are arranged along the conveying direction of the cut material, the top of the first lower clamping rod 123 is provided with an avoiding gap adapted to the fence frame 122, the fence bars are arranged in the avoiding gap, the horizontal driving assembly can drive the first upper clamping rod 121 and the first lower clamping rod 123 to move back and forth along the conveying direction of the cut material, and the avoiding gap can prevent the fence bars from interfering with the first lower clamping rod 123. The conveying belt 41 is arranged above the fence frame 122, and the fence frame 122 can support the conveying belt 41 to prevent the conveying belt 41 from being loosened due to the influence of gravity, so that the cutting material cannot be pressed and cannot be pulled. The first lifting driving assembly 124 can drive the first upper clamping rod 121 to move downwards, and the distance between the first upper clamping rod 121 and the first lower clamping rod 123 is shortened, so that the first upper clamping rod 121 can be matched with the first lower clamping rod 123 to clamp the conveying belt 41 and cut materials.

The horizontal driving assembly comprises a screw motor 1261, a pinch screw 1262, a sliding block 1263 and a guide rail 1264; the screw motor 1261 is fixed on the pinch frame 11, the pinch screw 1262 is arranged along the conveying direction of the cut material, the screw motor 1261 is in driving connection with the pinch screw 1262, and the pinch screw 1262 is assembled with the first lower clamping bar 123 pinch screw 1262; the guide rails 1264 are provided on both sides of the pinch screw 1262, the proximal ends of both ends of the first lower pinch bar 123 are respectively connected to the slide blocks 1263, and the slide blocks 1263 are respectively slidably connected to the corresponding guide rails 1264.

The screw motor 1261 is in driving connection with the clamping and feeding screw 1262 and drives the clamping and feeding screw 1262 to rotate; the bottom of the first lower clamping rod 123 is provided with a transmission nut, so that the first lower clamping rod 123 is assembled with the clamping and conveying screw 1262, and when the clamping and conveying screw 1262 rotates forwards, the first lower clamping rod 123, the first upper clamping rod 121 and the first lifting driving assembly 124 are driven to move along the conveying direction of the cut material; when the pinch screw 1262 rotates reversely, the first lower clamping bar 123, the first upper clamping bar 121 and the first lifting driving assembly 124 are driven to move along the reverse direction of cutting material conveying.

Guide rail 1264 sets up in the both sides of sending lead screw 1262 by fingers, and the both ends near-end of first lower clamping bar 123 is equipped with sliding block 1263 respectively, and guide rail 1264 and sliding block 1263 sliding connection cooperate with sliding block 1263 through guide rail 1264 for first clamping bar 123 is more steady at horizontal migration's in-process, thereby makes first lower clamping bar 123 and first last clamping bar 121 press from both sides tight conveyer 41 and cut the material the time atress even, prevents to send the material to cut the material deformation because of the atress is inhomogeneous at the clamp.

The first lifting driving assembly 124 comprises a first cylinder 1241 and a first fixing frame 1242; the first fixing frame 1242 is arranged at the top of the first cylinder 1241, a first sliding chute 1243 is arranged in the first fixing frame 1242, and the first lower clamping rod 123 is fixed at the bottom of the first sliding chute 1243; the output end of the first cylinder 1241 sequentially passes through the first sliding chute 1243 and the first lower clamping rod 123, and is connected with the first upper clamping rod 121.

Preferably, the pinch mechanism 1 further includes a second pinch assembly 13, the second pinch assembly 13 is located at the rear side of the first pinch assembly 12, and includes a second upper clamping rod 131, a second lower clamping rod 132 and a second lifting driving assembly 133, two ends of the second lower clamping rod 132 are respectively provided with the second lifting driving assembly 133, and the second lifting driving assembly 133 includes a second air cylinder 1331 and a second pressure relief fixing frame 1332; the second pressure relief fixing frame 1332 is arranged at the top of the second air cylinder 1331, a second sliding groove is arranged in the second pressure relief fixing frame 1332, and the second lower clamping rod 132 is fixed at the bottom of the second sliding groove; the output end of the second air cylinder 1331 sequentially passes through the second sliding groove and the second lower clamping rod 132, and is connected with the second upper clamping rod 131.

The second lifting driving component 133 has the same structure as the first lifting driving component 124, when the first clamping and conveying component 12 and the conveyor belt component clamp the cutting material and drive the conveyor belt component and the cutting material to move to one side of the cutting machine, the second clamping and conveying component 13 releases the cutting material, so that the cutting material moves to the cutting machine; subsequently, when the first clamping and conveying assembly 12 loosens the cutting material, the second clamping and conveying assembly 13 and the conveyor belt assembly clamp the cutting material, and the cutting material is conveyed through the cooperation of the second clamping and conveying assembly 13 and the first clamping and conveying assembly 12, so that the efficiency of conveying the cutting material is improved.

Referring to fig. 1, 10 and 11, in particular, the cutting head 24 includes a head seat 241, a head seat 242, a punch 243, a Y-axis driving motor 244 and a housing 245; the beam 23 is provided with a Y-axis rack 231, the Y-axis driving motor 244 is arranged in the headstock 241, and the headstock 242 and the punch 243 are both arranged on the front side or the rear side of the headstock 241; the output end of the Y-axis driving motor 244 passes through the tool bit seat 242 and is connected with a driving gear; the drive gear meshes with the Y-axis rack 231; the housing 245 covers the outside of the Y-axis driving motor 244.

The Y-axis driving motor 244 is configured to drive the headstock 241 to move along the Y-axis direction, so as to drive the headstock 242 and the punch 243 to move along the Y-axis direction, and the housing 245 covers an outer side of the Y-axis driving motor 244 to protect the Y-axis driving motor 244. The head base 242 is used to cut the cut material, and the punch 243 punches the cut material.

Referring to fig. 12 to 14, in particular, the punch 243 includes a mounting plate 2431, a punch body 2432, a bus plate 2433, a piston rod 2434, a punch 2435, a punch 2436, a suction seat 2437, a connecting block 2438, a first solenoid valve 2439a, a second solenoid valve 2439b, and a driving device 2439c;

the mounting plate 2431 is mounted to one side of the punch body 2432, one side of the bus bar 2433 is mounted to the other side of the punch body 2432, the first solenoid valve 2439a and the second solenoid valve 2439b are mounted to the other side of the bus bar 2433, and the bus bar 2433 is provided with an intake nozzle 2433a;

the piston rod 2434 is movably mounted to the punch body 2432, the piston rod 2434 communicating with the inlet nozzle 2433a through the first solenoid valve 2439 a;

the punch bar 2435 is mounted on the punch body 2432, one end of the connecting block 2438 is mounted on the top of the piston rod 2434, the other end of the connecting block 2438 is connected to the top of the punch bar 2435, and the driving device 2439c is used for driving the punch bar 2435 to rotate;

the punch 2436 is installed at the bottom of the punch bar 2435, the punch 2436 is provided with a first passage 2436a, the waste suction seat body 2437 is installed at the bottom surface of the punch main body 2432, the punch 2436 can protrude out of the bottom surface of the waste suction seat body 2437, the waste suction seat body 2437 is provided with a second passage 2437a and a discharge nozzle 2437b, one end of the second passage 2437a is connected to the first passage 2436a, the other end of the second passage 2437a is communicated with the discharge nozzle 2437b, and the discharge nozzle 2437b is communicated with the air inlet nozzle 2433a through the second solenoid valve 2439 b.

The punching machine main body 2432 and the confluence plate 2433 are internally provided with a plurality of air flow channels, the air inlet nozzle 2433a is communicated with the discharge nozzle 2437b through a second electromagnetic valve 2439b, the air inlet nozzle 2433a is communicated with the piston rod 2434 through a first electromagnetic valve 2439a, the first electromagnetic valve 2439a and the second electromagnetic valve 2439b are used for respectively controlling the on-off of the corresponding air flow channels, when the punching machine main body is in operation, the first electromagnetic valve 2439a controls the corresponding air flow channels to be opened, air is introduced to the confluence plate 2433 through the air inlet nozzle 2433a to move the piston rod 2434 downwards, the punching rod 2435 follows the piston rod 2434 to move downwards through a connecting block 2438, at the moment, a driving device 2439c drives the punching rod 2435 to rotate, so that the punching pin 2436 punches a workpiece, meanwhile, the second electromagnetic valve 2439b controls the corresponding air flow channels to be opened, air is discharged from the discharge nozzle 2437b, negative pressure is generated by the first channel 2436a and the second channel 2437a is used for sucking away waste chips, thus achieving the effect of conveying the waste chips to the discharge nozzle 2437b, and improving the machining precision, and further achieving the effect of improving the quality of punching machine.

In one embodiment of the invention, the punching device further comprises a first punching synchronous wheel 61, a second punching synchronous wheel 62 and a punching synchronous belt 63;

the driving device 2439c is mounted on the top surface of the punch main body 2432, the first punching synchronous wheel 61 is mounted at the output end of the driving device 2439c, the second punching synchronous wheel 62 is mounted on the punch bar 2435, one end of the punching synchronous belt 63 is mounted on the first punching synchronous wheel 61, and the other end of the punching synchronous belt 63 is mounted on the second punching synchronous wheel 62.

In this embodiment, the driving device 2439c is a motor, and during operation, the driving device 2439c drives the first punching synchronizing wheel 61 to rotate, and the first punching synchronizing wheel 61 drives the second punching synchronizing wheel 62 to rotate through the punching synchronizing belt 63, so that the plunger 2435 rotates, the transmission is stable, the transmission efficiency is high, and the rotation quality of the plunger 2435 is ensured.

In one embodiment of the present invention, a second spring 71 and a nut 72 are further included, the nut 72 being mounted on top of the plunger 2435;

the second spring 71 is mounted on the rod body of the punch 2435, one end of the second spring 71 abuts against the second punching synchronizing wheel 62, and the other end of the second spring 71 abuts against the bottom surface of the nut 72.

In this embodiment, during operation, the piston rod 2434 drives the plunger 2435 to move downward, and at this time, the second spring 71 is in a compressed state, and after the plunger 2436 is processed, the piston rod 2434 is in a resetting process, and the second spring 71 plays a role in assisting the piston rod 2434 to reset under the action of its own elastic force, so as to achieve an effect of improving the resetting efficiency of the piston rod 2434.

In one embodiment of the present invention, the piston rod further includes a first nut d and a second nut f, the first nut d and the second nut f are respectively installed on the top of the piston rod 2434, the end of the connecting block 2438 is movably installed on the top of the piston rod 2434, the top surface of the end of the first nut d is attached to the bottom surface of the end of the connecting block 2438, and the top surface of the end of the connecting block 2438 is attached to the bottom surface of the second nut f.

In this embodiment, because the end of the connecting block 2438 can move up and down on the rod body of the piston rod 2434, the height position of the plunger 2435 can be adjusted by adjusting the height position of the connecting block 2438, specifically, the second nut f is loosened first, then the first nut d is twisted, so that the first nut d moves up and down on the rod body of the piston rod 2434, thereby adjusting the height position of the connecting block 2438, and after the position is adjusted, the second nut f is used for locking, which is convenient and fast, and the effect of improving the adjusting efficiency of the connecting block 2438 is achieved.

In one embodiment of the invention, the outer circumference of the plunger 2435 is fitted with a plunger rolling bearing e. In this embodiment, the punch rolling bearing e is mounted on the punch main body 2432, the punch 2435 is mounted inside the punch rolling bearing e, and the punch rolling bearing e is provided, which is beneficial to improving the rotation fluency of the punch 2435.

In one embodiment of the present invention, the number of the piston rods 2434 and the number of the plungers 2435 are two, and two second passages 2437a are formed inside the waste suction housing body 2437. In this embodiment, the two piston rods 2434 and the two punch rods 2435 are both mounted on the same punch body 2432, and two second passages 2437a are formed inside the waste suction seat body 2437, so that the two punches 2436 can work simultaneously, and the effect of improving the working efficiency of the punch is achieved.

The technical principle of the present invention is described above in connection with specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Other embodiments of the invention will occur to those skilled in the art without the exercise of inventive faculty based on the explanations herein, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined in the appended claims.

Claims (7)

1. A cutting device for cutting materials is characterized by comprising a conveyor belt component, a pinch mechanism, a cutting mechanism and a discharging mechanism which are connected in sequence;

the conveying belt assembly is used for conveying the cut materials to the clamping and conveying mechanism, the cutting mechanism and the discharging mechanism;

the cutting mechanism comprises a cutting rack, an X-axis driving assembly, a cross beam and a cutting machine head; the left side and the right side of the cutting rack are respectively provided with a track groove, and X-axis racks are arranged in the track grooves; the X-axis driving assembly comprises an X-axis driving motor, a transmission rod, a first sliding plate and a second sliding plate;

the X-axis driving motor and the transmission rod are arranged in the cross beam, and the output end of the X-axis driving motor is in driving connection with the transmission rod; the first sliding plate and the second sliding plate are respectively arranged on two sides of the cross beam; the first sliding plate and the second sliding plate are both provided with a transmission gear and a transmission synchronous belt, the transmission gear is meshed with the X-axis rack on the same side, and the transmission synchronous belt is in driving connection with a transmission rod;

the conveying belt component comprises a conveying belt, a first driving roller, a second driving roller, a first tensioning roller and a second tensioning roller;

the first transmission roller is arranged on the pinch mechanism, and the second transmission roller, the first tensioning roller and the second tensioning roller are arranged on the discharging mechanism; the first tensioning roller and the second tensioning roller are arranged on the front side of the second driving roller, the horizontal height of the second driving roller is higher than that of the first tensioning roller, the conveying belt is sleeved on the outer sides of the first driving roller, the second driving roller and the first tensioning roller, and the second tensioning roller is tightly abutted to the conveying belt;

the cutting mechanism is also provided with an adsorption device, and the adsorption device comprises an adsorption plate and a plurality of negative pressure adsorption units; a plurality of air holes are formed in the surface of the conveying belt;

the negative pressure adsorption unit is arranged in the cutting rack and comprises an air pump, an air collection box, a communication air pipe, a plurality of platform air pipes and a plurality of air hoods; the air hood is arranged at the top of the cutting machine frame, and an opening of the air hood is upward;

the adsorption plate is erected on the cutting frame; the adsorption plate is provided with a plurality of adsorption areas, and a plurality of adsorption holes are formed in the adsorption areas; the gas hood is tightly attached to the bottom surface of the adsorption area;

the air collecting box is arranged on one side of the cutting rack, an air outlet end of the air collecting box is communicated with one end of the communicating air pipe, and the other end of the communicating air pipe is communicated with an air exhaust end of the air pump; one end of each of the platform air pipes is connected with the air inlet end of the air collection box, and the other end of each of the platform air pipes is communicated with the corresponding air hood;

a filter screen is arranged at the communication part of the gas collection box and the communication gas pipe;

the gas collection box also comprises a pressure relief assembly, and the pressure relief assembly comprises an air pressure sensor, a pressure relief fixing frame, a pressure relief air cylinder and a sealing piece; the air pressure sensor is arranged in the air collection box; the top of the gas collection box is provided with a pressure relief hole, the pressure relief fixing frame is erected on the periphery of the pressure relief hole, the pressure relief air cylinder is fixed on the pressure relief fixing frame, the output end of the pressure relief air cylinder faces downwards, the pressure relief air cylinder is connected with a sealing element, and the sealing element is matched with the pressure relief hole; the air pressure sensor is electrically connected with the pressure relief cylinder.

2. The cut material cutting apparatus of claim 1, wherein the discharge mechanism includes a discharge frame, a collection box, and a brush holder;

the second driving roller, the first tensioning roller and the second tensioning roller are respectively arranged on the discharging rack, and the material receiving box is arranged at the discharging end of the discharging rack; the brush frame is arranged below the second transmission roller, a brush is arranged at the top of the brush frame, and the brush tightly supports against the conveying belt.

3. The cutting material cutting apparatus of claim 1 wherein said air cap is provided with a plurality of air lock assemblies, said air lock assemblies including an air lock cylinder and an air lock, said air lock cylinder being disposed at the bottom of said air cap, the output of said air lock cylinder passing through said air cap and being connected to said air lock.

4. The cut material cutting apparatus of claim 1 wherein said pinch mechanism includes a pinch frame and a first pinch assembly;

the first clamping and conveying assembly comprises a first upper clamping rod, a fence frame, a first lower clamping rod and a horizontal driving assembly;

two ends of the first lower clamping rod are respectively provided with a first lifting driving assembly, and two ends of the first upper clamping rod are respectively connected with the driving ends of the first lifting driving assemblies at two sides; the fence frame is arranged on the clamping and conveying rack and is positioned between the first upper clamping rod and the first lower clamping rod; the top of the first lower clamping rod is provided with an avoidance notch matched with the fence frame; the horizontal driving assembly is arranged in the pinch machine frame, is connected with the first lower clamping rod and is used for driving the first upper clamping rod and the first lower clamping rod to horizontally move;

the first transmission roller is connected to the pinch machine frame in a rolling mode, and the transmission belt is laid on the fence frame and penetrates through a gap between the first upper clamping rod and the first lower clamping rod.

5. The cutting material cutting device of claim 4, wherein the clamping mechanism further comprises a second clamping component, the second clamping component is positioned at the rear side of the first clamping component and comprises a second upper clamping rod, a second lower clamping rod and a second lifting driving component, the two ends of the second lower clamping rod are respectively provided with the second lifting driving component, and the second lifting driving component comprises a second air cylinder and a second pressure relief fixing frame; the second pressure relief fixing frame is arranged at the top of the second cylinder, a second sliding groove is formed in the second pressure relief fixing frame, and the second lower clamping rod is fixed at the bottom of the second sliding groove; the output end of the second air cylinder sequentially penetrates through the second sliding groove and the second lower clamping rod and is connected with the second upper clamping rod.

6. The cut material cutting apparatus of claim 1 wherein said cutter head includes a head mount, a punch, a Y-axis drive motor and a housing; the cross beam is provided with a Y-axis rack, the Y-axis driving motor is arranged in the headstock, and the headstock and the puncher are both arranged on the front side or the rear side of the headstock; the output end of the Y-axis driving motor penetrates through the tool bit seat and is connected with a driving gear; the driving gear is meshed with the Y-axis rack; the shell cover is arranged on the outer side of the Y-axis driving motor.

7. The cutting material cutting device according to claim 6, wherein the punch comprises a mounting plate, a punch body, a bus plate, a piston rod, a punch, a waste suction seat body, a connecting block, a first electromagnetic valve, a second electromagnetic valve and a driving device;

the mounting plate is mounted on one side of the puncher main body, one side of the confluence plate is mounted on the other side of the puncher main body, the first electromagnetic valve and the second electromagnetic valve are mounted on the other side of the confluence plate, and the confluence plate is provided with an air inlet nozzle;

the piston rod is movably arranged on the punch body and is communicated with the air inlet nozzle through the first electromagnetic valve;

the punch rod is arranged on the punch body, one end of the connecting block is arranged on the top of the piston rod, the other end of the connecting block is connected to the top of the punch rod, and the driving device is used for driving the punch rod to rotate;

the punch is installed at the bottom of the punch rod and provided with a first channel, the waste suction seat body is installed on the bottom surface of the punch main body, the punch protrudes out of the bottom surface of the waste suction seat body, the waste suction seat body is provided with a second channel and a discharge nozzle, one end of the second channel is connected to the first channel, the other end of the second channel is communicated with the discharge nozzle, and the discharge nozzle is communicated with the air inlet nozzle through a second electromagnetic valve.

Images