CN114227772B - PP cutting machine with raw material offset automatic stop function for copper-clad plate - Google Patents

Abstract

The application relates to the technical field of copper-clad plate production, in particular to a PP cutting machine with a raw material offset automatic stop function for a copper-clad plate, which comprises the following components: the device comprises a device body, a supporting device and a control device, wherein the device body comprises a supporting table, and supporting legs are arranged at one end of the supporting table; the number of the feeding frames is two, and the two feeding frames are respectively connected to the supporting table. The application is provided with the detection frame, the detection block, the infrared generator and the infrared receiver, so that the raw materials can shield the signals of the infrared generator when the raw materials are fed, and the auxiliary device automatically judges whether the raw materials are in an unbiased state after entering the cutting position, thereby ensuring that the device has better accuracy when cutting each time, avoiding the generation of unqualified products, ensuring that the device has more stability when in production, preventing the raw materials from being wasted, avoiding the increase of unnecessary production cost caused by enterprises by phase change, reducing the labor cost and further reducing the production cost of the enterprises.

Description

PP cutting machine with raw material offset automatic stop function for copper-clad plate

Technical Field

The application relates to the technical field of copper-clad plate production, in particular to a PP cutting machine with a raw material offset automatic stop function for a copper-clad plate.

Background

The copper-clad laminate is a plate-like material, called copper-clad plate for short, which is prepared by impregnating electronic glass fiber cloth or other reinforcing materials with resin, and coating copper foil on one or both sides and hot-pressing. Various printed circuit boards with different forms and different functions are manufactured by selectively performing working procedures such as processing, etching, drilling, copper plating and the like on a copper-clad plate. The circuit board is mainly used for conducting, insulating and supporting interconnection, and has great influence on the transmission speed, energy loss, characteristic impedance and the like of signals in a circuit.

The existing copper-clad plate is often required to be cut off the production raw materials by using a special PP cutting machine in the production and processing process, the production raw materials are convenient to process, meanwhile, the existing PP cutting machine is required to perform continuous intermittent cutting in order to meet the orders of factories or enterprises, in order to reduce the enterprise cost, less staff is often required to perform detection and maintenance work around the existing PP cutting machine, once the copper-clad plate raw materials are offset in the continuous feeding process in the processing environment, certain differences among the size, the shape and the template of the subsequent continuous cutting plate are caused, the subsequent processing is influenced, and if the offset of the copper-clad plate raw materials is too small in the offset process, the staff can hardly see the offset process by naked eyes, and the cutting work is completed by a section of raw materials until the offset can be observed, so that the production cost of the enterprises is increased, and therefore, the PP cutting machine with the raw material offset automatic stop function for the copper-clad plate is required to be designed.

Disclosure of Invention

The application aims to provide a PP cutting machine with a raw material offset automatic stop function for a copper-clad plate, which solves the problems that in the background art, few personnel are required, once the raw material of the copper-clad plate is offset in the continuous feeding process under the mechanical continuous processing environment, the size, the appearance and the template of a plate are different in the follow-up continuous cutting process, the follow-up processing is affected, if the offset of the raw material of the copper-clad plate is too small, a worker can hardly observe the offset process by naked eyes, and a section of raw material is cut when the offset can be observed, and the production cost of enterprises is increased.

In order to achieve the above purpose, the present application provides the following technical solutions: a PP cutting machine with a raw material offset automatic stop function for a copper-clad plate comprises:

the device comprises a device body, a supporting device and a control device, wherein the device body comprises a supporting table, and supporting legs are arranged at one end of the supporting table;

the feeding frames are two in number and are respectively connected to the supporting tables, the inner faces of the two feeding frames are connected with conveying belts, the front faces of the feeding frames are connected with control panels, and the number of the control panels is two;

the cutting mechanism comprises two cutting frames, the two cutting frames are respectively connected to the supporting table, the inner surfaces of the two cutting frames are fixedly provided with pneumatic cutters, and the supporting table at one end of each pneumatic cutter is connected with dislocation strips;

the detection frames are two in number and are respectively connected to the supporting tables at one side of the cutting frame, detection blocks are arranged on the inner surfaces of the two detection frames, infrared generators are connected to the two detection blocks, receiving grooves are formed in the supporting tables at one ends of the two infrared generators, and infrared receivers are connected to the two receiving grooves;

the dust removing mechanism is arranged at one end of the conveying belt;

the material storage mechanism is arranged on one side of the conveying belt.

Preferably, one end of each of the two detection blocks is connected with a guide block, one surface of each guide block is arc-shaped, and one surface of each guide block is connected with a reset mechanism.

Preferably, two one end of guide block is equipped with the screw rod cover, and the two faces of screw rod cover are connected respectively at two detection frames, the activity has cup jointed the double-threaded rod in the screw rod cover, and the screw thread at double-threaded rod both ends is opposite, the two faces of double-threaded rod all extend and pass the detection frame, and all are connected with the rotation handle on the double-threaded rod of two detection frame one sides, the screw sleeve has been cup jointed on the double-threaded rod, and the quantity of screw sleeve is two, and the screw sleeve is located inside the double-threaded rod, two the one end of screw sleeve is connected respectively on two detection blocks.

Preferably, the stabilizer groove has been seted up to the one end of screw rod cover, the screw rod in the stabilizer groove outside is sheathe in and is connected with the stabilizer, and the quantity of stabilizer is two, two the inner face of stabilizer is connected with the stabilizer bar, the activity has cup jointed the stabilizer block on the stabilizer bar, and the quantity of stabilizer block is two, two the stabilizer block extends and passes the stabilizer groove, and connects respectively on two screw sleeves.

Preferably, the reset mechanism comprises a reset block, the reset block is connected to the guide block, a first movable groove is formed in one face of the reset block, a second movable groove is formed in one end of the reset block, the second movable groove is communicated with the inside of the first movable groove, a gear cylinder is movably sleeved on the inner wall of the first movable groove, a first clamping tooth plate is inserted into the first movable groove at one end of the first movable groove, the first clamping tooth plate is meshed with the gear cylinder, a second tooth plate is inserted into the second movable groove, the second tooth plate is meshed with the gear cylinder, a plate moving groove is formed in the second tooth plate, the first clamping tooth plate is inserted into the plate moving groove, a second clamping tooth plate is connected to the first clamping tooth plate at one face of the plate moving groove, a first pressing plate is connected to one end of the second tooth plate, a first spring is connected to two sides of one end of the first pressing plate, and the other end of the first spring is connected to the reset block.

Preferably, limiting blocks are fixedly arranged on the reset blocks on the inner sides of the two first springs, one end of the first pressing plate is connected with a second spring, and one end of the second spring is connected with a second pressing plate.

Preferably, the dust removing mechanism comprises a dust cover, the dust cover is connected to the two feeding frames, a fan is embedded and installed on the dust cover, an observation window is embedded and installed on one face of the dust cover, a connecting strip is fixedly installed on one side of the dust cover, one end of the connecting strip is uniformly connected with a dust scraping strip, and one end of the dust scraping strip is tightly attached to the conveying belt.

Preferably, the stock mechanism comprises stock plates, the number of the stock plates is two, the stock plates are connected to the supporting table, the stock plates are provided with replacement grooves, replacement cylinders are inserted into the replacement grooves, stock rods are movably sleeved on the inner surfaces of the replacement cylinders through damping rotating shafts, the supporting table on one side of each stock plate is connected with a guide plate, guide rods are movably sleeved on the inner surfaces of the guide plates, and rubber sleeves are sleeved on the surfaces of the guide rods.

Compared with the prior art, the application has the beneficial effects that:

1. through being provided with detection frame, detection piece, infrared generator and infrared receiver, the raw materials can shelter from infrared generator's signal when utilizing the pan feeding like this, and auxiliary device judges by oneself whether the raw materials is in the unbiased state after entering into the position of cutting, and then guaranteed that this device all has better precision when cutting at every turn, avoid causing the production of disqualified product for this device has stability more during production, prevent to cause the raw materials extravagant, the phase change has avoided the enterprise to cause unnecessary manufacturing cost to increase, the cost of labor has also been reduced simultaneously, further reduced the manufacturing cost of enterprise.

2. Through being provided with dust removing mechanism, utilize the fan to begin the back like this to the inside effect of blowing of dust cover, the conveyer belt drives the raw materials and carries out the pan feeding in the cooperation to let scrape the one side of ash strip to the raw materials clear up, avoid making impurity and raw materials bond together at the pushing down effect of pneumatic cutter when cutting, and then avoid causing the copper-clad plate incision department to produce the condition of impurity stamp, further promoted the production quality of this device.

3. Through being provided with stock mechanism, utilize detachable stock pole and change the material loading and the unloading of a convenient raw materials reel of section of thick bamboo like this, utilize the supporting effect of stock board simultaneously for the raw materials reel can be more stable, and utilize guide bar and rubber sleeve can play certain guide effect to the raw materials when the pan feeding, promote the stability of pan feeding, and this mechanism simple structure, easy and simple to handle, the staff of being convenient for uses.

Drawings

FIG. 1 is a schematic perspective view of the left side of the structure of the present application;

FIG. 2 is a right side elevational schematic view of the structure of the present application;

FIG. 3 is a schematic exploded perspective view of the structure of the present application;

FIG. 4 is a schematic exploded perspective view of the cutting mechanism of the present application;

FIG. 5 is a schematic perspective view showing the structure of a reset mechanism according to the present application;

FIG. 6 is a schematic perspective view of the dust removing mechanism of the present application;

fig. 7 is a schematic perspective view of a material storing mechanism according to the present application.

In the figure: 1. a device body; 110. a support table; 111. a feeding frame; 112. a conveyor belt; 113. a control panel; 2. a cutting mechanism; 210. a cutting frame; 211. a pneumatic cutter; 212. dislocation strips; 213. a detection frame; 214. a detection block; 215. an infrared generator; 216. a receiving groove; 217. an infrared receiver; 218. a guide block; 219. a screw sleeve; 220. a double threaded rod; 221. a thread sleeve; 222. a stabilizing groove; 223. a stabilizing seat; 224. a stabilizer bar; 225. a stabilizing block; 3. a reset mechanism; 310. a reset block; 311. a first movable groove; 312. a second movable groove; 313. a gear cylinder; 314. a first tooth clamping plate; 315. a second tooth clamping plate; 316. a first platen; 317. a first spring; 318. a limiting block; 319. a second spring; 320. a second pressing plate; 321. a plate-moving groove; 322. a second toothed plate; 4. a dust removing mechanism; 410. a dust cover; 411. a fan; 412. an observation window; 413. a connecting strip; 414. scraping ash strips; 5. a stock mechanism; 510. a stock plate; 511. replacing the groove; 512. replacing the cylinder; 513. a stock rod; 514. a guide plate; 515. a guide rod.

Detailed Description

The following description of the embodiments of the present application 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 application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1-7, an embodiment of the present application is provided:

a PP cutting machine with a raw material offset automatic stop function for a copper-clad plate comprises:

the conveyor belt 112, the fan 411, the air knife 211, the control panel 113, the infrared generator 215 and the infrared receiver 217 used in the present application are commercially available products, and the principle and the connection manner are all well known to those skilled in the art, so they are not described herein;

the output end of the control panel 113 is electrically connected with the input ends of the conveyor belt 112, the fan 411, the infrared receiver 217 and the pneumatic cutter 211 through wires;

the device comprises a device body 1, wherein the device body 1 comprises a supporting table 110, and supporting legs are arranged at one end of the supporting table 110;

the feeding frames 111 are two in number, the two feeding frames 111 are respectively connected to the supporting table 110, the inner faces of the two feeding frames 111 are connected with the conveying belt 112, the front feeding frames 111 are connected with the control panels 113, and the number of the control panels 113 is two;

the cutting mechanism 2 comprises two cutting frames 210, the two cutting frames 210 are respectively connected to the supporting table 110, the inner surfaces of the two cutting frames 210 are fixedly provided with pneumatic cutters 211, and the supporting table 110 at one end of each pneumatic cutter 211 is connected with a dislocation strip 212;

the number of the detection frames 213 is two, the two detection frames 213 are respectively connected to the supporting table 110 at one side of the cutting frame 210, the inner surfaces of the two detection frames 213 are provided with detection blocks 214, the two detection blocks 214 are connected with infrared generators 215, the supporting tables 110 at one end of each infrared generator 215 are provided with receiving grooves 216, and the two receiving grooves 216 are connected with infrared receivers 217;

the dust removing mechanism 4, the dust removing mechanism 4 is arranged at one end of the conveying belt 112;

the stock mechanism 5, stock mechanism 5 sets up in one side of conveyer belt 112, and the raw materials can shelter from infrared generator 215's signal when utilizing the pan feeding like this, and auxiliary device judges by oneself whether the raw materials is in the unbiased state after entering into the position of cutting, and then guaranteed that this device all has better precision when cutting at every turn, avoid causing the production of disqualified article for this device has stability more during production, prevent to cause the raw materials extravagant, the phase change has avoided the enterprise to cause unnecessary manufacturing cost to increase, has also reduced the cost of labor simultaneously, has further reduced the manufacturing cost of enterprise.

Further, one end of each of the two detection blocks 214 is connected with a guide block 218, one surface of each guide block 218 is arc-shaped, and one surface of each guide block 218 is connected with a reset mechanism 3, so that the auxiliary guide function of the guide blocks 218 is utilized, and the copper-clad plate raw material cannot excessively deviate during feeding.

Further, one end of the two guiding blocks 218 is provided with a screw rod sleeve 219, two sides of the screw rod sleeve 219 are respectively connected to the two detecting frames 213, a double-threaded rod 220 is movably sleeved in the screw rod sleeve 219, threads at two ends of the double-threaded rod 220 are opposite, two sides of the double-threaded rod 220 extend through the detecting frames 213, the double-threaded rod 220 at one side of the two detecting frames 213 is connected with a rotating handle, threaded sleeves 221 are sleeved on the double-threaded rod 220, the number of the threaded sleeves 221 is two, the threaded sleeves 221 are located inside the double-threaded rod 220, one ends of the two threaded sleeves 221 are respectively connected to the two detecting blocks 214, and thus the two guiding blocks 218 and the infrared generator 215 can have an adjusting function by means of the mutual matching of the double-threaded rod 220, so that the applicability of the device is improved.

Further, the stabilizing groove 222 is formed in one end of the screw sleeve 219, the stabilizing seats 223 are connected to the screw sleeve 219 outside the stabilizing groove 222, the number of the stabilizing seats 223 is two, the stabilizing rods 224 are connected to the inner faces of the two stabilizing seats 223, the stabilizing blocks 225 are movably sleeved on the stabilizing rods 224, the number of the stabilizing blocks 225 is two, the two stabilizing blocks 225 extend through the stabilizing groove 222 and are respectively connected to the two thread sleeves 221, and therefore the limiting relationship between the stabilizing rods 224 and the two stabilizing blocks 225 is utilized, so that the thread sleeves 221 are more stable in movement.

Further, the reset mechanism 3 includes a reset block 310, the reset block 310 is connected to the guide block 218, a first movable slot 311 is provided on one surface of the reset block 310, a second movable slot 312 is provided on one end of the reset block 310, the second movable slot 312 is communicated with the inside of the first movable slot 311, a gear cylinder 313 is movably sleeved on the inner wall of the first movable slot 311, a first clamping tooth plate 314 is inserted into the first movable slot 311 at one end of the first movable slot 311, the first clamping tooth plate 314 is meshed with the gear cylinder 313, a second tooth plate 322 is inserted into the second movable slot 312, the second tooth plate 322 is meshed with the gear cylinder 313, a travelling plate slot 321 is provided on the second tooth plate 322, the first clamping tooth plate 314 is inserted into the travelling plate slot 321, a second clamping tooth plate 315 is connected to the first clamping tooth plate 314 on one surface of the travelling plate 321, two sides of one end of the first clamping tooth plate 316 are connected with a first spring 317, and the other end of the first spring 317 is connected to the first clamping tooth plate 314, and the second clamping tooth plate 314 is meshed with the second clamping tooth plate 314, so that the second clamping tooth plate 315 is driven by the second clamping tooth plate 315 to move by the reset tooth plate 315, and the first clamping tooth plate 315 is driven to move intermittently by the first clamping tooth plate 315.

Further, a limiting block 318 is fixedly installed on the reset block 310 inside the two first springs 317, one end of the first pressing plate 316 is connected with a second spring 319, one end of the second spring 319 is connected with a second pressing plate 320, so that excessive compression of the first springs 317 is avoided by using the blocking effect of the limiting block 318, and meanwhile, the second clamping toothed plate 315 does not extend continuously when the pneumatic cutter 211 is continuously pressed down by using deformation of the second springs 319.

Further, the dust removing mechanism 4 includes dust cover 410, dust cover 410 connects on two pan feeding framves 111, the embedding is installed on dust cover 410 and is installed fan 411, observation window 412 is installed to the one side embedding of dust cover 410, one side fixed mounting of dust cover 410 has connecting strip 413, the one end of connecting strip 413 evenly is connected with scrapes ash strip 414, and scrape the one end and the conveyer belt 112 of ash strip 414 closely laminate, utilize the fan 411 to begin the back to the inside blast effect of dust cover 410 like this, the conveyer belt 112 drives the raw materials and go into the material in the cooperation, thereby let scrape ash strip 414 clear up the one side of raw materials, avoid the pushing down effect of pneumatic cutter 211 when cutting and make impurity and raw materials bond together, and then avoid causing the circumstances that copper-clad plate incision department produced impurity stamp, further promoted the production quality of this device.

Further, the stock mechanism 5 includes two stock plates 510, the number of the stock plates 510 is two, the two stock plates 510 are all connected to the supporting table 110, the two stock plates 510 are all provided with replacement grooves 511, the two replacement grooves 511 are all inserted with replacement cylinders 512, the inner faces of the two replacement cylinders 512 are movably sleeved with stock rods 513 through damping rotating shafts, the supporting table 110 on one side of the two stock plates 510 is connected with guide plates 514, the inner faces of the two guide plates 514 are movably sleeved with guide rods 515, the surfaces of the guide rods 515 are sleeved with rubber sleeves, and thus, the detachable stock rods 513 and the replacement cylinders 512 are utilized to facilitate the feeding and discharging of the raw material reels, and meanwhile, the supporting effect of the stock plates 510 is utilized to enable the raw material reels to be more stable, and the guide rods 515 and the rubber sleeves are utilized to play a certain guiding role in feeding the raw material, so that the mechanism is simple in structure, easy and convenient to operate, and is convenient for workers to use.

Working principle: when a worker uses the device, firstly, a raw material drum is fixed on a stock rod 513, then the stock rod 513 is moved to a replacement groove 511 for placement, then one end of the drum is pulled out to pass through the bottom end of a guide rod 515 and is applied on a conveying belt 112, the conveying belt 112 is started through a control panel 113, so that friction between the conveying belt 112 and raw materials drives the raw materials to advance to a pneumatic cutter 211, and the pneumatic cutter 211 is started through the control panel 113 for trial cutting.

After the trial cutting is completed, the double-threaded rod 220 is rotated, so that the two threaded sleeves 221 move on the double-threaded rod 220, and the two guide blocks 218 are driven to be close to each other to a proper position, but are not aligned and clamped, the raw material curling condition is avoided when the trial cutting is completed, then the fan 411 and the infrared receiver 217 are started through the control panel 113, then the infrared generator 215 is started again, the pneumatic cutter 211 and the conveyor belt 112 are enabled to perform intermittent motion, the raw material is driven to pass through the dislocation strip 212 when the conveyor belt 112 moves, the pneumatic cutter 211 starts to perform pushing motion when the conveyor belt 112 stops moving, meanwhile, the pressure plate is driven to squeeze the second pressure plate 320, the second spring 319 and the first spring 317 are enabled to perform elastic deformation when the second pressure plate 320 is retracted, and when the second spring 319 is elastically deformed to a certain extent, the pressure is greater than the force applied to the first spring 317, so that the first spring 317 is continuously deformed, at this time, the first pressing plate 316 is reduced along with the pressure and drives the gear drum 313 to rotate, the rotating gear drum 313 again enables the first tooth clamping plate 314 to drive the second tooth clamping plate 315 to move, so that the second tooth clamping plate 315 pushes the raw material to work, the limiting block 318 blocks the first pressing plate 316 after pushing, the raw material is cut along with the continuous downward movement of the pneumatic cutter 211, the second spring 319 is continuously deformed in the process, and when the pneumatic cutter 211 moves upwards, the first spring 317 and the second spring 319 are reset successively to facilitate the next positive pushing work.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a PP guillootine with raw materials skew self-stopping function for copper-clad plate which characterized in that includes:

the device comprises a device main body (1), wherein the device main body (1) comprises a supporting table (110), and supporting legs are arranged at one end of the supporting table (110);

the feeding frames (111), the number of the feeding frames (111) is two, the two feeding frames (111) are respectively connected to the supporting table (110), the inner faces of the two feeding frames (111) are connected with the conveying belt (112), the front feeding frames (111) are connected with the control panels (113), and the number of the control panels (113) is two;

the cutting mechanism (2), the cutting mechanism (2) comprises two cutting frames (210), the two cutting frames (210) are respectively connected to the supporting table (110), the inner surfaces of the two cutting frames (210) are fixedly provided with pneumatic cutters (211), and the supporting table (110) at one end of each pneumatic cutter (211) is connected with dislocation strips (212);

the detection frames (213), the number of the detection frames (213) is two, and the two detection frames (213) are respectively connected to the supporting table (110) at one side of the cutting frame (210), the inner faces of the two detection frames (213) are all provided with detection blocks (214), the two detection blocks (214) are all connected with infrared generators (215), the supporting table (110) at one end of each infrared generator (215) is provided with a receiving groove (216), the two receiving grooves (216) are all connected with infrared receivers (217), one ends of the two detection blocks (214) are all connected with guide blocks (218), one surface of each guide block (218) is of an arc-shaped design, one surface of each guide block (218) is connected with a reset mechanism (3), each reset mechanism (3) comprises a reset block (310), one surface of each reset block (310) is provided with a first movable groove (311), one end of each reset block (310) is provided with a second movable groove (311), one end of each first groove (312) is sleeved with a first groove (313) of the movable grooves (311), the first clamping toothed plate (314) is meshed with the gear cylinder (313), a second toothed plate (322) is inserted into the second movable groove (312), the second toothed plate (322) is meshed with the gear cylinder (313), a walking plate groove (321) is formed in the second toothed plate (322), the first clamping toothed plate (314) is inserted into the walking plate groove (321), a second clamping toothed plate (315) is connected to the first clamping toothed plate (314) on one surface of the walking plate groove (321), a first pressing plate (316) is connected to one end of the second toothed plate (322), a first spring (317) is connected to two sides of one end of the first pressing plate (316), and the other end of the first spring (317) is connected to the reset block (310);

the dust removing mechanism (4) is arranged at one end of the conveying belt (112);

the material storage mechanism (5), the material storage mechanism (5) is arranged on one side of the conveying belt (112).

2. The PP cutting machine with raw material offset automatic stop function for a copper-clad plate according to claim 1, wherein: two the one end of leading position piece (218) is equipped with screw rod cover (219), and the two faces of screw rod cover (219) are connected respectively on two detection frame (213), movable sleeve has cup jointed double-threaded rod (220) in screw rod cover (219), and the screw thread at double-threaded rod (220) both ends is opposite, all extend and pass detection frame (213) on the two faces of double-threaded rod (220), and all be connected with the rotation handle on double-threaded rod (220) of two detection frame (213) one sides, threaded sleeve (221) have been cup jointed on double-threaded rod (220), and the quantity of threaded sleeve (221) is two, and threaded sleeve (221) are located inside double-threaded rod (220), and the one end of two threaded sleeve (221) is connected respectively on two detection pieces (214).

3. The PP cutting machine with raw material offset automatic stop function for a copper-clad plate according to claim 2, wherein: the screw rod cover (219) one end has seted up stable groove (222), be connected with on the screw rod cover (219) in stable groove (222) outside stable seat (223), and the quantity of stable seat (223) is two, two the inner face of stable seat (223) is connected with stabilizer bar (224), stabilizer bar (224) go up the activity and cup jointed stabilizer block (225), and the quantity of stabilizer block (225) is two, two stabilizer block (225) extend and pass stable groove (222), and connect respectively on two screw sleeve (221).

4. The PP cutting machine with raw material offset automatic stop function for a copper-clad plate according to claim 1, wherein: limiting blocks (318) are fixedly mounted on the reset blocks (310) on the inner sides of the two first springs (317), one end of the first pressing plate (316) is connected with a second spring (319), and one end of the second spring (319) is connected with a second pressing plate (320).

5. The PP cutting machine with raw material offset automatic stop function for a copper-clad plate according to claim 1, wherein: the dust removing mechanism (4) comprises a dust cover (410), the dust cover (410) is connected to two feeding frames (111), a fan (411) is embedded and installed on the dust cover (410), an observation window (412) is embedded and installed on one face of the dust cover (410), a connecting strip (413) is fixedly installed on one side of the dust cover (410), one end of the connecting strip (413) is uniformly connected with a dust scraping strip (414), and one end of the dust scraping strip (414) is tightly attached to a conveying belt (112).

6. The PP cutting machine with raw material offset automatic stop function for a copper-clad plate according to claim 1, wherein: the material storing mechanism (5) comprises two material storing plates (510), the number of the material storing plates (510) is two, the two material storing plates (510) are connected to the supporting table (110), the two material storing plates (510) are provided with replacement grooves (511), the two replacement grooves (511) are internally provided with replacement cylinders (512) in an inserted mode, the inner faces of the replacement cylinders (512) are movably sleeved with material storing rods (513) through damping rotating shafts, the supporting tables (110) on one side of the material storing plates (510) are connected with guide plates (514), and the inner faces of the guide plates (514) are movably sleeved with guide rods (515), and the surfaces of the guide rods (515) are sleeved with rubber sleeves.