CN215356774U

CN215356774U - Cabinet plate continuous cutting structure

Info

Publication number: CN215356774U
Application number: CN202121844681.1U
Authority: CN
Inventors: 谢海波; 赵小乐; 叶海珍; 谢欣露; 丁建军; 李海星; 张福裕
Original assignee: Nantong Kemai Electronic Technology Co ltd
Current assignee: Nantong Kemai Electronic Technology Co ltd
Priority date: 2021-08-09
Filing date: 2021-08-09
Publication date: 2021-12-31
Anticipated expiration: 2031-08-09

Abstract

The utility model discloses a cabinet plate continuous cutting structure which comprises a cutting machine, wherein a feeding support frame is arranged on one side of the cutting machine, a feeding assembly is arranged at the upper end of the feeding support frame, a fixing assembly is arranged in the feeding assembly, and the feeding assembly comprises two feeding frames. The utility model discloses a pay-off subassembly on the material loading support frame can be cut the inside that the cutting machine was sent into to the material that will be cut, can be under the effect through fixed subassembly when sending into the inside of cutting machine, fix the material that needs the cutting, it is better to be transported the fixed effect of in-process by the cutting material, the pay-off frame can slide the inner wall at the cutting machine, can carry the cutting material steadily and get into in the cutting machine, the sword bars can be at the in-process of carrying, play a fine support to being cut the material, the cutting material can be cut the work in a comparatively steady plane.

Description

Cabinet plate continuous cutting structure

Technical Field

The utility model belongs to the technical field of cutting, and particularly relates to a cabinet plate continuous cutting structure.

Background

The laser cutting machine is expensive, but does not need the processing cost of a cutter in the conventional processing process, the laser cutting is to irradiate a workpiece by utilizing a focused high-power-density laser beam, so that the irradiated material is quickly melted, vaporized and ablated or reaches a burning point, and simultaneously, the melted substance is blown off by virtue of high-speed airflow coaxial with the beam, thereby realizing the cutting of the workpiece.

Most of the laser cutting technology at the present stage is to place the material that needs to be cut on the sword fence, and the material that will wait to cut is sent into inside the cutting machine again, but is difficult to fixed the material when the material is sent into cutting device, and the in-process of propelling movement material probably makes the material take place the displacement along with the in-process that the device removed, and then has influenced the effect of cutting, consequently, technical staff in the field provides a cabinet board continuous cutting structure to the problem that proposes in the above-mentioned background art is solved.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to provide a cabinet plate continuous cutting structure which can fix materials when the materials to be cut are pushed into a cutting device, so that the materials to be cut cannot be displaced in the moving process, the cutting accuracy is effectively improved, and the cutting effect is improved.

In order to achieve the purpose, the utility model provides the following technical scheme:

a cabinet plate continuous cutting structure comprises a cutting machine, wherein a feeding support frame is arranged on one side of the cutting machine, a feeding assembly is arranged at the upper end of the feeding support frame, and a fixing assembly is arranged inside the feeding assembly;

the feeding assembly comprises two feeding frames, the two sides of each feeding frame are connected with the inner wall of the cutting machine in a sliding mode, and uniformly distributed sword fences are fixedly connected to the inner sides of the feeding frames;

through the technical scheme, the feeding assembly on the feeding support frame can cut the inside of the cutting machine which needs to be fed into the cut material, the inside of the cutting machine can be fed into the cutting machine and simultaneously the material which needs to be cut can be fixed under the action of the fixing assembly, the fixing effect of the cut material in the conveying process is better, the feeding frame can slide on the inner wall of the cutting machine, the cut material can be stably conveyed into the cutting machine, the sword fence can be in the conveying process, the cut material is well supported, and the cut material can be cut on a stable plane.

Furthermore, a gear is arranged between the feeding frame at the upper end and the feeding frame at the lower end, one side of the gear is rotatably connected with the inner wall of the cutting machine, racks are fixedly connected to the opposite sides of the two feeding frames, and the two racks are in transmission connection through the gear;

through the technical scheme, the racks are fixedly connected to one side of the two feeding frames, when the lower end feeding frame is fed into the interior of the cutting machine to prepare for cutting, the upper end feeding frame can be fed back under the action of the gears and the racks, the material to be cut can be continuously cut, and the operation time is greatly saved.

Furthermore, the feeding assembly also comprises pressing strips which are uniformly distributed, one side of each pressing strip is fixedly connected with the inner wall of the cutting machine, one side of each pressing strip is rotatably connected with uniformly distributed rollers, and the upper end of the feeding frame is in transmission connection with the surfaces of the rollers;

through above-mentioned technical scheme, the layering can with the inner wall fixed connection of cutting machine, and can provide fine impetus with the gyro wheel of rotation connection simultaneously for the gyro wheel can not take place to warp the circumstances such as skew at the pivoted in-process, can be connected with the pay-off frame transmission well, and when the pay-off frame got into the cutting machine, the gyro wheel can be pushed down the inside of conveying into the cutting machine steadily with the upper end of pay-off frame.

Further, the fixing assembly comprises first homing grooves which are uniformly distributed, the first homing grooves are formed in the upper end of the feeding frame, and the inner walls of the first homing grooves are hinged with hinge strips;

through above-mentioned technical scheme, first groove of putting in order is seted up in the upper end of pay-off frame, and wherein articulated strip is articulated with the inner wall in first groove of putting in order, can get into the inside in first groove of putting in order when articulated strip in the atress motion, and then the upper end of pay-off frame can steady operation can not blocked by articulated strip, has kept transporting the in-process and can maintain steady state.

Furthermore, the other end of the hinge strip is fixedly connected with a spring, the other end of the spring is fixedly connected with the inner bottom wall of the first homing groove, and the lower end of the hinge strip is hinged with a sliding strip;

through the technical scheme, the spring can make, articulated strip can remain the state of lifting up all the time under the circumstances that does not receive external force, and then when articulated strip is pushing down, can be under the effect of spring, can be relatively gentle push down the inside that gets into first groove of putting in order, can reciprocate along with the state of pushing down of articulated strip at the lower extreme of articulated strip rather than articulated slide bar, and there is a rectangular channel in the articulated department of slide bar and articulated strip, can carry out lateral shifting in the rectangular channel inside when the slide bar reciprocates, the reciprocating that has kept the slide bar can go on perpendicularly.

Furthermore, the sliding strip penetrates through the feeding frame and is fixedly connected with a transverse connecting block, one side of the sliding strip is fixedly connected with a pressing block, and the upper end of the transverse connecting block is fixedly connected with an auxiliary ejector rod;

through above-mentioned technical scheme, the slip strip runs through the pay-off frame and then can move perpendicularly, and the transverse connection piece can also can move down along with the slip strip at the in-process that the slip strip reciprocated, can move down the briquetting drive and then push down the material of being cut at the in-process that the slip strip moved down, and supplementary ejector pin also can move down along with the transverse movement piece is synchronous.

Furthermore, one end of the transverse connecting block is fixedly connected with a piston, the surface of the piston is connected with a first suction pipe in a sliding mode, the surface of the first suction pipe is fixedly connected with the opposite surfaces of two adjacent fences, the upper end of the first suction pipe is communicated with a sucker, and the horizontal height of the auxiliary ejector rod is higher than that of the sucker;

through the technical scheme, when a cut material is placed above the sword fence, the lower end of the cut material is attached to the sucker, the transverse connecting block can drive the piston to move downwards while moving downwards, so that negative pressure is formed inside the first suction pipe, the sucker can tightly adsorb the cut material, the cut material is secondarily fixed, the upper end of the auxiliary ejector rod is higher than the highest position of the sucker, the spring rebounds to drive the piston to move upwards when the limit is removed, the internal air pressure and the external air pressure of the first suction pipe tend to be balanced, when the elasticity of the spring exceeds the normal bending trend, high pressure can be formed inside the sucker, the cut material can be adsorbed again after rebounding, the height of the auxiliary ejector rod is higher than the height of the sucker, so that when the spring rebounds, a gap is formed between the sucker and the cut material, and the internal air pressure of the sucker is always kept in a state of being balanced with the external air pressure, the cut material is convenient to take down.

In conclusion, the utility model has the following beneficial effects:

1. by arranging the feeding assembly, the feeding frames can slide on the inner wall of the cutting machine, cutting materials can be stably conveyed into the cutting machine, the sword fence can well support the cut materials in the conveying process, the two sides of the two feeding frames are fixedly connected with racks, when the lower feeding frame is conveyed into the cutting machine to prepare for cutting, the upper feeding frame can be returned out under the action of the gears and the racks, the materials to be cut can be continuously cut, the pressing strip can provide a good acting point with the rotatably connected roller, so that the roller cannot deform and deviate in the rotating process and can be well in transmission connection with the feeding frames, when the feeding frames enter the cutting machine, the upper end of the feeding frame can be stably pressed and conveyed into the cutting machine by the roller, the operation time is greatly saved.

2. By arranging the fixing component, the first homing groove is arranged at the upper end of the feeding frame, when the hinged strip moves under stress, the hinged strip can enter the inside of the first homing groove, so that the upper end of the feeding frame can stably run and can not be clamped by the hinged strip, the spring can ensure that the hinged strip can always keep a lifting state under the condition of not being subjected to external force, the transverse connecting block can also move downwards along with the sliding strip in the process of moving up and down, the pressing block can be driven to move downwards and further press a cut material in the process of moving down the sliding strip, the auxiliary ejector rod can also synchronously move downwards along with the transverse moving block, the lower end of the cut material is attached to the sucking disc, the transverse connecting block moves downwards to form negative pressure in the first suction pipe, so that the sucking disc tightly adsorbs the cut material, and the upper end of the auxiliary ejector rod is higher than the highest position of the sucking disc so that the spring rebounds, the sucking disc and the material that is cut form the clearance between, and then keep the inside atmospheric pressure of sucking disc all the time with the balanced state of outside atmospheric pressure, the material that the convenient cutting was accomplished takes off.

Drawings

FIG. 1 is a schematic structural view of the present embodiment;

FIG. 2 is a schematic view of the connection between the roller and the pressing bar according to the present embodiment;

FIG. 3 is a schematic view of the connection between the gear and the rack in the present embodiment;

fig. 4 is a schematic view of the connection between the first nesting groove and the hinge strip according to this embodiment.

Description of reference numerals: 1. a cutter; 2. a feeding support frame; 3. a feeding assembly; 301. a feeding frame; 302. a sword fence; 303. a gear; 304. a rack; 305. a roller; 306. layering; 4. a fixing assembly; 401. a first homing slot; 402. a hinge strip; 403. a spring; 404. a slide bar; 405. briquetting; 406. a transverse connecting block; 407. an auxiliary ejector rod; 408. a first suction tube; 409. a suction cup; 410. a piston.

Detailed Description

Example (b):

the utility model is described in further detail below with reference to figures 1-4.

A cabinet plate continuous cutting structure comprises a cutting machine 1, a feeding support frame 2 is arranged on one side of the cutting machine 1, a feeding component 3 is arranged at the upper end of the feeding support frame 2, a fixing component 4 is arranged inside the feeding component 3, the feeding component 3 on the feeding support frame 2 can feed materials to be cut into the cutting machine 1 for cutting, the materials to be cut can be fixed through the fixing component 4 while being fed into the cutting machine 1, the fixing effect of the materials to be cut in the conveying process is good, the feeding component 3 comprises two feeding frames 301, two sides of each feeding frame 301 are in sliding connection with the inner wall of the cutting machine 1, the feeding frames 301 can slide on the inner wall of the cutting machine 1, the cutting materials can be stably conveyed into the cutting machine 1, and fences 302 which are uniformly distributed are fixedly connected to the inner sides of the feeding frames 301, the sword fence 302 can well support the cut materials in the conveying process, so that the cut materials can be cut on a stable plane, a gear 303 is arranged between the upper end feeding frame 301 and the lower end feeding frame 301, one side of the gear 303 is rotatably connected with the inner wall of the cutting machine 1, racks 304 are fixedly connected to the opposite sides of the two feeding frames 301, the two racks 304 are in transmission connection through the gear 303, when the lower end feeding frame 301 is fed into the cutting machine 1 for cutting, the upper end feeding frame 301 can be returned out under the action of the gear 303 and the racks 304, the materials to be cut can be continuously cut, the operation time is greatly saved, the feeding assembly 3 further comprises pressing strips 306 which are uniformly distributed, one side of each pressing strip 306 is fixedly connected with the inner wall of the cutting machine 1, and the pressing strips 306 can be fixedly connected with the inner wall of the cutting machine 1, the roller 305 which can be connected with the roller in a rotating mode provides a good acting point, one side of the pressing strip 306 is connected with the roller 305 in a rotating mode, the roller 305 is evenly distributed, the upper end of the feeding frame 301 is in transmission connection with the surface of the roller 305, the roller 305 cannot deform and deviate in the rotating process, the roller can be well in transmission connection with the feeding frame 301, and when the feeding frame 301 enters the cutting machine 1, the roller 305 can press the upper end of the feeding frame 301 to convey the upper end of the feeding frame 301 into the cutting machine 1 stably;

the fixing component 4 comprises first returning grooves 401 which are uniformly distributed, the first returning grooves 401 are arranged at the upper end of the feeding frame 301, the inner walls of the first returning grooves 401 are hinged with hinge strips 402, the first returning grooves 401 are arranged at the upper end of the feeding frame 301, the hinge strips 402 are hinged with the inner walls of the first returning grooves 401, when the hinge strips 402 are stressed to move, the hinge strips 402 can enter the first returning grooves 401, so that the upper end of the feeding frame 301 can stably run and cannot be clamped by the hinge strips 402, a stable state can be maintained in the conveying process, the other ends of the hinge strips 402 are fixedly connected with springs 403, the other ends of the springs 403 are fixedly connected with the inner bottom wall of the first returning grooves 401, the springs 403 can enable the hinge strips 402 to be always kept in a lifting state under the condition of not being subjected to external force, and further, when the hinge strips 402 are pressed downwards, under the action of the springs 403, the sliding strip can be pressed into the first homing groove 401 relatively gently, the lower end of the hinge strip 402 is hinged with the sliding strip 404, the sliding strip 404 hinged with the lower end of the hinge strip 402 can move up and down along with the pressing state of the hinge strip 402, a rectangular groove is formed in the hinged position of the sliding strip 404 and the hinge strip 402, the sliding strip 404 can move transversely in the rectangular groove while moving up and down, and the vertical movement of the sliding strip 404 is kept;

the sliding strip 404 penetrates through the feeding frame 301 and is fixedly connected with the transverse connecting block 406, one side of the sliding strip 404 is fixedly connected with the pressing block 405, the sliding strip 404 penetrates through the feeding frame 301 and can vertically run, the transverse connecting block 406 can move downwards along with the sliding strip 404 in the up-and-down moving process of the sliding strip 404, the pressing block 405 can be driven to move downwards and further press cut materials in the down-moving process of the sliding strip 404, the upper end of the transverse connecting block 406 is fixedly connected with the auxiliary ejector rod 407, further the auxiliary ejector rod 407 can synchronously move downwards along with the transverse connecting block 406, one end of the transverse connecting block 406 is fixedly connected with the piston 410, when the cut materials are placed above the sword fence 302, the lower end of the cut materials are attached to the suction cup 409, the transverse connecting block 406 can drive the piston 410 to move downwards while moving downwards, the surface of the piston 410 is slidably connected with the first suction pipe 408, the surface of the first suction pipe 408 is fixedly connected with the opposite surfaces of two adjacent fences 302, so that negative pressure is formed inside the first suction pipe 408, the upper end of the first suction pipe 408 is communicated with a suction cup 409, the suction cup 409 tightly adsorbs a cut material, the cut material is secondarily fixed, the horizontal height of the auxiliary ejector rod 407 is higher than that of the suction cup 409, the upper end of the auxiliary ejector rod 407 is higher than the highest position of the suction cup 409, the spring 403 rebounds to drive the piston 410 to move upwards when the limitation is removed, so that the internal air pressure and the external air pressure of the first suction pipe 408 tend to be balanced, when the elasticity of the spring 403 exceeds the normal bending trend before, high pressure is possibly formed inside the suction cup 409, the cut material is rebounded again, the height of the auxiliary ejector rod 407 is higher than that of the suction cup, and when the spring 403 rebounds, a gap is formed between the suction cup 409 and the cut material, further, the air pressure inside the suction cup 409 is always kept in a state of being balanced with the external air pressure, and the cut material is convenient to take down.

The working principle is as follows: when the cutting machine 1 needs to be fed, only one feeding frame 301 needs to be pushed into the cutting machine 1, when one feeding frame 301 enters the cutting machine 1, the other feeding frame 301 is sent out under the action of the gear 303 and the rack 304, when one feeding frame 301 enters the cutting machine 1, the roller 305 rolls along with the feeding frame 301 at the upper end of the feeding frame 301, at the moment, the fixing component 4 is pressed down by the roller 305 when meeting the roller 305, so that the roller 305 which is the multiple of the hinged strip 402 is pressed into the first returning groove 401, when the hinged strip 402 is pressed down, the sliding strip 404 is driven to move down, so that the pressing block 405 presses the cut material, and when the sliding strip 404 moves down, the piston 410 is driven to move down through the transverse connecting block 406, so that the first suction pipe 408 can form negative pressure inside the first suction pipe 408 when the cut material blocks the suction cup 409, the cut material is then held in place by the suction cup 409 so that it does not move during the pushing movement.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. The utility model provides a cabinet board cuts structure in succession, includes cutting machine (1), its characterized in that: a feeding support frame (2) is arranged on one side of the cutting machine (1), a feeding component (3) is arranged at the upper end of the feeding support frame (2), and a fixing component (4) is arranged inside the feeding component (3);

the feeding assembly (3) comprises two feeding frames (301), two sides of each feeding frame (301) are connected with the inner wall of the cutting machine (1) in a sliding mode, and the inner sides of the feeding frames (301) are fixedly connected with uniformly distributed sword fences (302).

2. The cabinet board continuous cutting structure of claim 1, wherein: a gear (303) is arranged between the feeding frame (301) at the upper end and the feeding frame (301) at the lower end, one side of the gear (303) is rotatably connected with the inner wall of the cutting machine (1), racks (304) are fixedly connected to the opposite sides of the two feeding frames (301), and the two racks (304) are in transmission connection through the gear (303).

3. The cabinet board continuous cutting structure of claim 1, wherein: the feeding assembly (3) further comprises pressing strips (306) which are uniformly distributed, one side of each pressing strip (306) is fixedly connected with the inner wall of the cutting machine (1), one side of each pressing strip (306) is rotatably connected with a uniformly distributed roller (305), and the upper end of the feeding frame (301) is in transmission connection with the surface of each roller (305).

4. The cabinet board continuous cutting structure of claim 1, wherein: the fixing assembly (4) comprises first returning grooves (401) which are uniformly distributed, the first returning grooves (401) are formed in the upper end of the feeding frame (301), and the inner walls of the first returning grooves (401) are hinged to hinge strips (402).

5. A cabinet panel continuous cutting structure according to claim 4, wherein: the other end of the hinge strip (402) is fixedly connected with a spring (403), the other end of the spring (403) is fixedly connected with the inner bottom wall of the first returning groove (401), and the lower end of the hinge strip (402) is hinged with a sliding strip (404).

6. A cabinet panel continuous cutting structure according to claim 5, wherein: the feeding device is characterized in that the sliding strip (404) penetrates through the feeding frame (301) and is fixedly connected with a transverse connecting block (406), one side of the sliding strip (404) is fixedly connected with a pressing block (405), and the upper end of the transverse connecting block (406) is fixedly connected with an auxiliary ejector rod (407).

7. A cabinet panel continuous cutting structure according to claim 6, wherein: one end of the transverse connecting block (406) is fixedly connected with a piston (410), the surface of the piston (410) is connected with a first suction pipe (408) in a sliding mode, the surface of the first suction pipe (408) is fixedly connected with the opposite surfaces of two adjacent fences (302), the upper end of the first suction pipe (408) is communicated with a suction cup (409), and the horizontal height of the auxiliary ejector rod (407) is higher than that of the suction cup (409).