CN220179466U - Electronic nameplate cutting machine - Google Patents

Abstract

The utility model discloses an electronic nameplate cutting machine which comprises a cutting machine table, a cutting machine, a cutter and an air cylinder, wherein the cutting machine is arranged at the upper part of the cutting machine table, a cutter rest is arranged at the lower part of the cutting machine table, the cutter is arranged in the cutter rest of a three-axis robot, the air cylinder is arranged on the cutter rest of the three-axis robot, a working plate which is convenient for collecting cutting fragments is arranged at the middle part of the cutting machine table, an anti-slip ring which is convenient for compacting materials with different shapes and sizes is slidably connected with the outer side of the cutter, an air cylinder piston rod is arranged at the lower part of the air cylinder, the air cylinder piston rod is fixedly connected with the anti-slip ring, a lug is pressed, and then a limiting block is moved leftwards and rightwards to adjust a required position, and then the lug is loosened, at the moment, the limiting block can be clamped at a required position on the anti-slip rod, the cutter can be assisted to compact materials, thereby being convenient for cutting by the cutter, and when the materials with irregular shapes need to be cut, the problem that a part of materials is tilted due to pressing, and small materials can only be pressed in a small place.

Description

Electronic nameplate cutting machine

Technical Field

The utility model relates to the field of cutting machines, in particular to an electronic nameplate cutting machine.

Background

The electronic nameplate cutting machine is used for cutting and cutting sheets in various industries, and does not need any die; the product is controlled by system software, then is directly cut, and corresponding instructions are transmitted to a cutting machine as long as corresponding parameters are set on an operation platform; the cutting machine carries out quick cutting according to the accepted design drawing, and the automation program is high; the operation is simple, and the cutting device is used in a plurality of industries.

The advantages are that: fast, the accuracy is high, exempts from the cutting die, and is effectual, and the performance is higher than the laser machine: the laser has the scorching phenomenon, has higher cutting precision, is environment-friendly, has no pollution, is suitable for dust-free workshops, and is fully-automatic for computer program control cutting;

the disadvantages are: the cutting machine cuts through the vibrations cutter, and vibrations cutter often can be because of frequent vibration when the work, consequently can be in the upper and lower frictional force that cuts the time with the material removal, can greatly influence the precision of cutting machine at the during operation like this, consequently need press to cut the material and place the removal when cutting.

The utility model provides an electronic nameplate cutting machine according to the above problems.

Disclosure of Invention

The utility model aims to solve the problems that the prior art often causes frequent vibration when cutting is carried out by a vibration cutter, so that materials can be moved by the cutting friction force when cutting up and down, the working precision of a cutting machine can be greatly influenced, the cutting materials need to be pressed and placed for movement when cutting,

the utility model therefore proposes, in accordance with the said problem, an electronic nameplate cutter;

in order to achieve the above purpose, the present utility model adopts the following technical scheme: the utility model provides an electron nameplate guillootine, including guillootine, cutter, cylinder, guillootine installs on the upper portion, and the guillootine lower part is provided with the knife rest, and the cutter is installed in triaxial robot's knife rest, and the cylinder is installed on triaxial robot knife rest, and the guillootine middle part is provided with the work board of being convenient for collect the piece of cutting, and cutter outside sliding connection has the anti-slip ring of being convenient for compress tightly various shape and size different materials, and the cylinder lower part is provided with the cylinder piston rod, and cylinder piston rod fixed connection is in anti-slip ring.

Preferably, the inside collecting vat that is provided with of cutting machine platform and is convenient for collect the cutting piece, collecting vat upper portion is connected with the working plate, working plate both sides fixedly connected with bull stick, the bull stick rotates to be installed in the inslot both sides of collecting vat, the working plate rotates to be connected in the collecting vat inside, working plate top plane is on a parallel with cutting machine platform surface, two sets of balancing weights around being used for balanced working plate are installed on working plate upper portion, two sets of balancing weights fixed connection are in the upper portion of cutting machine platform, balancing weight shape structure is n type, wherein the magnetic stone board has been placed in the middle part of balancing weight n type slip, magnetic stone board one side fixedly connected with handle, working plate upper surface fixed is provided with the magnetic path that has magnetism, the magnetic stone board lower surface sets up to the magnetic surface that attracts mutually with working plate upper surface magnetic path.

Preferably, a buffer sponge is arranged at the lower part of the collecting tank.

Preferably, the inside fixedly connected with in the antiskid ring is in the cutter, and three antiskid bars of antiskid ring outside fixedly connected with, antiskid bar lateral part installs branch, branch one side fixedly connected with stopper, stopper one side inside is provided with the spacing groove, and the spring has been placed to spacing inslot portion, and the lug has been placed on spring upper portion, and spacing inslot portion shape structure is the groove of the protruding form mutually supporting with the lug, and the lug is placed in spacing inslot portion, and the antiskid bar middle part is equipped with the groove of slip placement stopper, and this groove upper portion is provided with the recess of cooperation lug.

Preferably, the flexible block is fixedly connected to the lower portion of the supporting rod, the magnet is arranged in the flexible block, the magnetic block with magnetism is arranged on the upper surface of the working plate, and the lower surface of the magnet is arranged to be a magnetic surface which is repulsed with the magnetic block on the upper surface of the working plate.

Advantageous effects

1. Through starting the cylinder, then through the central control system who cuts the board and establish in, control cutter cuts, and the start-up of cylinder can drive the branch that antiskid ring and lower part set up and be used for compressing tightly the flexible quick decline of material, and flexible quick lower part is highly consistent with the cutter at last, can assist the cutter to compress tightly the material to make things convenient for the cutter to cut.

2. When the material needs to be cut, through pressing the lug, the lug will be downward, and install in the spring of lug lower part will shrink, the recess that originally cooperates in the lug at this moment will loosen, then just can be with the stopper about remove and adjust required position, loosen the lug after the regulation is accomplished, the spring will jack-up, let its recess that cooperates on the slide bar of preventing, the stopper will chucking in the required position on the slide bar of preventing this moment, because stopper one side fixedly connected with branch, the flexible piece that is used for compressing tightly the material of cutting is installed to branch lower part, through starting the cylinder, pneumatic drive, therefore this setting can effectually be solved, when the material of some size shape irregularities needs to cut, can compress tightly the material through the position of adjusting three branch and cut.

3. After cutting, pull the handle outwards, the working plate can lose magnetism this moment to inside the collecting vat was fallen to working plate one side, the material that has already cut this moment just can fall the collecting vat the inside, conveniently collected in the staff.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a partial cross-sectional view of the overall structure of the present utility model;

FIG. 3 is an enlarged view of a portion of the structure of the present utility model;

FIG. 4 is a schematic view of a scraper ring according to the present utility model;

FIG. 5 is a cross-sectional view of the scraper ring of the present utility model;

the reference numerals in fig. 1-5 are: cutting machine 1, collecting tank 101, working plate 102, bull stick 103, balancing piece 104, magnetite board 105, handle 106, buffering sponge 107, cutter 2, anti-slip ring 201, anti-slip rod 202, branch 203, stopper 204, spacing groove 205, spring 206, lug 207, recess 208, flexible piece 209, magnetite 210, triaxial robot 3, cylinder 4, cylinder piston rod 401.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-5, an electronic nameplate cutting machine comprises a cutting machine table 1, a triaxial robot 3, a cutter 2 and an air cylinder 4, wherein the triaxial robot 3 is installed at the upper part of the cutting machine table 1, a cutter rest is arranged at the lower part of the triaxial robot 3, the cutter 2 is installed in the cutter rest of the triaxial robot 3, the air cylinder 4 is installed on the cutter rest of the triaxial robot 3, the electronic nameplate cutting machine is characterized in that a working plate 102 convenient for collecting cutting fragments is arranged at the middle part of the cutting machine table 1, an anti-slip ring 201 convenient for compacting materials with different shapes and sizes is slidingly connected to the outer side of the cutter 2, an air cylinder piston rod 401 is arranged at the lower part of the air cylinder 4, the air cylinder piston rod 401 is fixedly connected to the anti-slip ring 201, an electric module is arranged in the cutting machine table 1, and a central control system is electrically controlled in the cutter, and the cutting machine table 1 is pneumatically controlled in the air cylinder 4.

Preferably, a collecting tank 101 for collecting cutting fragments is arranged in the cutting machine 1, a working plate 102 is connected to the upper part of the collecting tank 101, two sides of the working plate 102 are fixedly connected with a rotating rod 103, the rotating rod 103 is rotatably arranged on two sides of the collecting tank 101, the working plate 102 is rotatably connected to the inside of the collecting tank 101, the top plane of the working plate 102 is parallel to the table surface of the cutting machine 1, two groups of balance blocks for balancing the working plate 102 are arranged on the upper part of the working plate 102, one end of each of the two groups of balance blocks is fixedly connected to the upper part of the cutting machine 1, the other end of each of the balance blocks is arranged above the working plate 102, the bottom of the other end of each of the balance blocks is parallel to the upper surface of the cutting machine 1, the balance blocks are n-shaped, the middle part of each of the balance blocks n is slidably provided with a magnet plate 105, one side of the magnet plate 105 is fixedly connected with a handle 106, the length of the magnet plate 105 is smaller than the concave part of the balance blocks n, the upper surface of the working plate 102 is provided with magnetic blocks for balancing the lower surface of the magnet plate 105, and the upper surface of the magnet plate 102 is arranged to be in the same with the upper surface of the magnet plate 102

When the material to be cut on the work plate 102 is cut, after the material to be cut is cut, the handle 106 can be pulled outwards when the cut fragments are required to be collected, at this time, the handle 106 drives the magnet plate 105 to move outwards together, originally, because the magnet plates 106 are mutually attracted with the magnet blocks fixedly connected with the upper parts of the work plate 102, the magnet plate 106 and the work plate 102 are mutually contacted, and the two work plates 102 are parallel to the surface of the cutting machine table 1, as shown in fig. 1, the magnet plate 105 moves outwards, so that the magnet plate 105 and the work plate 102 are not directly contacted with each other, at this time, the work plate 102 loses the magnetic force of the magnet plate 105, then one side falls downwards, at this time, as shown in fig. 2, the cut fragments on the work plate 102 can slide into the collecting tank 101 of the cutting machine table 1, the cut fragments are conveniently collected by workers, the cut fragments can be effectively prevented from being not cleaned, or the cleaning is not ideal, the rest fragments are overlapped on the new material, the height is different, and the accuracy of the cut is affected.

Preferably, the lower part of the collecting tank 101 is provided with a buffer sponge 107,

the buffer sponge 107 can effectively prevent the working plate 102 from falling down and being easily beaten to the cutting machine 1 to be damaged when the cutting fragments need to be collected.

Preferably, the inner side of the anti-slip ring 201 is fixedly connected with the cutter 2, the outer side of the anti-slip ring 201 is fixedly connected with three anti-slip bars 202, a supporting rod 203 is arranged at the side part of the anti-slip bars 202, a limiting block 204 is fixedly connected with one side of the supporting rod 203, a limiting groove 205 is arranged in one side of the limiting block 204, a spring 206 is arranged in the limiting groove 205, a bump 207 is arranged at the upper part of the spring 206, the internal shape structure of the limiting groove 205 is a convex groove matched with the bump 207, the bump 207 is arranged in the limiting groove 205, a groove for sliding the limiting block 204 is arranged in the middle of the anti-slip bars 202, a groove 208 matched with the bump 207 is arranged at the upper part of the groove,

when the triaxial robot 3 is provided with the cutter 2 and needs to cut, the lug 207 is pressed down, the spring 206 arranged at the lower part of the lug 207 is contracted, the groove 208 originally matched with the lug 207 is loosened, the limiting block 204 can be moved leftwards and rightwards to adjust the required position, the lug 207 is loosened after the adjustment is completed, the spring 206 is jacked up to be matched with the groove 208 on the anti-skid rod 202, the limiting block 204 is clamped at the required position on the anti-skid rod 202, and the flexible block 209 for pressing the cut material is arranged at the lower part of the supporting rod 203 due to the fact that one side of the limiting block 204 is fixedly connected with the supporting rod 203.

Preferably, the lower part of the supporting rod 203 is fixedly connected with a flexible block 209, a magnet 210 is arranged in the flexible block 209, a magnetic block with magnetism is arranged on the upper surface of the working plate 102, the lower surface of the magnet 210 is arranged as a magnetic surface which is repulsed with the magnetic block on the upper surface of the working plate 102,

through the magnetic surfaces that both set to the repulsion, can effectually let work board 102 need take up after processing in magnetite 210, because the effect of magnetism repulsion, prevent because the flexible piece 209 that is used for compressing tightly, compress tightly in some material that take place deformation easily, can adhere to the flexible piece 209 condition.

Working principle:

step one, pushing the handle into the cutting machine 1, wherein the magnet plate 105 is close to the inside, and the magnet plate 105 brings the working plate 102 together, as shown in fig. 1;

since the magnet plate 105 approaches inwards, the magnet blocks on the upper part of the work plate 102 are attracted, so that the two work plates 102 are firmly fixed below the magnet plate 105 by the attraction of the magnet plate, and since one side of the work plate 102 is fixed inside the collecting tank 101 and the other side of the work plate 102 is at the same height as the cutting machine 1, the work plate 102 is parallel to the cutting machine 1 after the magnet plate 105 is attracted.

Step two, installing the cutter 2 of the three-axis robot 3, wherein the position of the limiting block 204 between the anti-skid rods 202 is adjusted by pressing the bump 207 according to the size of the material and then moving the limiting block 204, so that the materials with different sizes can be fixed by the supporting rods 203 fixed on one side of the limiting block 204;

through pressing lug 207, lug 207 will be downward, and install the spring 206 in lug 207 lower part and shrink, the recess 208 that originally cooperates in lug 207 at this moment will loosen, then just can move stopper 204 about and adjust required position, loosen lug 207 after the regulation is accomplished, spring 206 jack-up, let its recess 208 on the antiskid pole 202 of cooperation, stopper 204 will chucking in the required position on the antiskid pole 202 this moment, because stopper 204 one side fixedly connected with branch 203, the flexible piece 209 that is used for compressing tightly the cut material is installed to branch 203 lower part, therefore this setting can effectually solve, when some irregular materials need cut, can compress tightly the material through adjusting the position of adjusting three branch 203 and cut.

Step three, starting a cutter 2 and an air cylinder 4 which are arranged under the triaxial robot 3, then controlling the cutter 2 to cut through a central control system arranged in the cutting machine table 1,

the cutter 2 started up and down moves, the starting of the cylinder 4 drives the anti-slip ring 201, the supporting rod 203 arranged at the lower part and the flexible block 209 used for compacting materials to descend, and finally the lower part of the flexible block 209 is in high consistency with the cutter 2, so that the cutter 2 can be assisted to compact the materials, and the cutter 2 is convenient to cut.

Step four, after finishing cutting, pull the handle 106 outwards, will take the magnetite board 105 outwards to take out, because the magnetite board 105 outwards takes out, work board 102 can lose magnetism this moment to work board 102 one side whereabouts is inside collecting vat 101, and the material that has already cut this moment will fall inside collecting vat 101, is convenient for the staff to collect.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (5)

1. The utility model provides an electron nameplate guillootine, including guillootine (1), triaxial robot (3), cutter (2), cylinder (4), install triaxial robot (3) on guillootine (1) upper portion, triaxial robot (3) lower part is provided with the knife rest, cutter (2) are installed in the knife rest of triaxial robot (3), cylinder (4) are installed on triaxial robot (3) knife rest, characterized in that guillootine (1) middle part is provided with work plate (102) of being convenient for collect the cutting piece, cutter (2) outside sliding connection has antiskid ring (201) of being convenient for compress tightly various shape size materials, cylinder (4) lower part is provided with cylinder piston rod (401), cylinder piston rod (401) fixed connection is in antiskid ring (201);

the anti-skid device is characterized in that the inner side of the anti-skid ring (201) is fixedly connected with the cutter (2), the outer side of the anti-skid ring (201) is fixedly connected with three anti-skid rods (202), a supporting rod (203) is installed on the side portion of each anti-skid rod (202), a limiting block (204) is fixedly connected to one side of each supporting rod (203), a limiting groove (205) is formed in one side of each limiting block (204), a spring (206) is placed in each limiting groove (205), a bump (207) is placed on the upper portion of each spring (206), the internal shape structure of each limiting groove (205) is a convex groove matched with each bump (207), each bump (207) is placed in each limiting groove (205), a groove for slidably placing each limiting block (204) is formed in the middle of each anti-skid rod (202), and a groove (208) matched with each bump (207) is formed in the upper portion of each groove;

the lower part of the supporting rod (203) is fixedly connected with a flexible block (209), and a magnet (210) is arranged inside the flexible block (209).

2. The electronic nameplate cutting machine according to claim 1, wherein a collecting tank (101) for collecting cutting fragments is arranged inside the cutting machine table (1), a working plate (102) is connected to the upper portion of the collecting tank (101), rotating rods (103) are fixedly connected to two sides of the working plate (102), the rotating rods (103) are rotatably arranged on two sides of the groove of the collecting tank (101), the working plate (102) is rotatably connected inside the collecting tank (101), the top plane of the working plate (102) is parallel to the table surface of the cutting machine table (1), and front and rear sets of balance blocks (104) for balancing the working plate (102) are arranged on the upper portion of the working plate (102).

3. The electronic nameplate cutting machine according to claim 2, wherein two groups of the balance weights (104) are fixedly connected to the upper portion of the cutting machine table (1), the shape and structure of the balance weights (104) are n-shaped, a magnet plate (105) is slidably arranged in the middle of the n-shaped balance weights (104), and a handle (106) is fixedly connected to one side of the magnet plate (105).

4. The electronic nameplate cutter according to claim 2, wherein a buffer sponge (107) is provided at a lower portion of the collecting tank (101).

5. The electronic nameplate cutting machine according to claim 3, wherein the upper surface of the working plate (102) is provided with magnetic blocks with magnetism, the lower surface of the magnet (210) is provided with a magnetic surface which is repulsed from the magnetic blocks on the upper surface of the working plate (102), and the lower surface of the magnet plate (105) is provided with a magnetic surface which is repulsed from the magnetic blocks on the upper surface of the working plate (102).