CN120038853B

CN120038853B - Quartz stone plate cutting device

Info

Publication number: CN120038853B
Application number: CN202510539583.3A
Authority: CN
Inventors: 孔凡昌
Original assignee: Donghai County Aobo Quartz Products Co ltd
Current assignee: Donghai County Aobo Quartz Products Co ltd
Priority date: 2025-04-27
Filing date: 2025-04-27
Publication date: 2025-08-08
Anticipated expiration: 2045-04-27
Also published as: CN120038853A

Abstract

The present invention relates to the field of quartz stone slab processing, and discloses a quartz stone slab cutting device, comprising a processing platform, a slab body being placed on the processing platform, a slab pressing mechanism being provided on the processing platform for pressing the placed slab body, a mobile cutting mechanism for cutting the slab body, a circulating cooling mechanism for cooling the cutting disc during the cutting process, and an anti-jamming mechanism for detecting and preventing the cutting disc from being jammed during movement. Compared with the prior art, the present application provides an anti-jamming mechanism, and during the cutting process, when a strong jam occurs, dragging may occur between the mobile mechanism and the cutting disc. At this time, the angle deviation of the rotating support rod is used to warn and remind the staff of certain faults or problems. After the triggering conductive block triggers the three conductive blocks respectively, different degrees of protection effect on the cutting disc is achieved, thereby effectively avoiding damage to the cutting disc.

Description

Quartz stone plate cutting device

Technical Field

The invention relates to the field of quartz stone plate processing, in particular to a quartz stone plate cutting device.

Background

The quartz stone is a novel stone artificially synthesized by more than 90% of quartz crystals, resin and other microelements, has very wide application, can be used in the fields of building, home furnishing, decoration and the like, and needs to be cut in the processing process because the quartz stone plates are different in size and shape in different places.

In the cutting process of quartz plates, the cutting mode commonly used is to cut by using a saw blade, along with continuous cutting, the cutting speed is too high or the feeding amount is too large, friction between the saw blade and materials is possibly increased, heat is accumulated, so that the saw blade is blocked, or cooling is insufficient in the cutting process, for example, cooling water is insufficient or the lubricating effect of cooling liquid is poor, the saw blade is overheated and blocked, staff does not know after the saw blade is blocked, and a propelling device can continue to propel, so that the saw blade is broken and damaged, and a certain potential safety hazard is caused.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a quartz stone plate cutting device which has the advantages of detecting and preventing a cutter disc in the cutting process, changing the cutting propelling speed, increasing the conveying flow of cooling liquid, reducing the temperature of the cutter disc and the like, and solves the series of problems of overheat blocking and the like of the cutter disc in the cutting process.

In order to achieve the above purpose, the invention provides a quartz stone plate cutting device, comprising:

The processing platform is provided with a plate body and is used for compressing the placed plate body;

the moving mechanism comprises an equipment frame fixedly arranged on the processing platform, and a U-shaped screw rod sliding sleeve is arranged on the equipment frame;

The movable cutting mechanism is arranged on the U-shaped screw rod sliding sleeve and used for cutting the plate body, and comprises a rotating support rod rotatably arranged on the equipment frame, a cutter disc is rotatably arranged on the rotating support rod, a protective cover is arranged above the cutter disc, and the protective cover is arranged on the side part of the rotating support rod;

a recirculating cooling mechanism disposed above the working platform for cooling during cutting of the cutter disc;

Anti-chucking mechanism, anti-chucking mechanism sets up on U type lead screw sliding sleeve for detect prevention cutter disc at removal in-process chucking, anti-chucking mechanism is including fixedly cup jointing the extrusion cover on rotating support pole, and the side of extrusion cover is the arc structure setting, the equal fixed mounting in both sides of U type lead screw sliding sleeve has the side piece, and the lateral part fixed mounting of two side pieces has same installation piece, is connected with damping spring between installation piece and the extrusion cover, the lateral part slidable mounting of installation piece has two wedge extrusion pieces, and two wedge extrusion pieces all with extrusion cover looks adaptation, can detect prevention cutter disc card after the wedge extrusion piece receives the extrusion.

Preferably, a plurality of mounting boxes are fixedly mounted on the side parts of the side blocks, first magnetic blocks are fixedly mounted on the inner walls of the mounting boxes, connecting rods are fixedly mounted on the side parts of the wedge-shaped extrusion blocks, one ends of the connecting rods extend into the mounting boxes, second magnetic blocks are fixedly mounted in the connecting rods, and the first magnetic blocks and the second magnetic blocks repel each other in the same polarity.

Preferably, the side part of the installation block is provided with a convex chute, the side part of the wedge-shaped extrusion block is fixedly provided with a convex sliding block, and the convex sliding block is slidably arranged in the convex chute.

Preferably, a movable block is fixedly arranged on the side part of one wedge-shaped extrusion block, a triggering conductive block is fixedly arranged on the side part of the movable block, a fixed block is fixedly arranged on the side part of the installation block, a first conductive block, a second conductive block and a third conductive block are fixedly arranged on the side part of the fixed block, the triggering conductive block is electrically connected with the first conductive block, the second conductive block and the third conductive block respectively, three warning lamps are arranged on the side part of the equipment frame and are electrically connected with the first conductive block, the second conductive block and the third conductive block respectively.

Preferably, a bracket is fixedly arranged on the side part of the side block, a slide rheostat is arranged on the bracket, a pushing block is fixedly arranged on one side of the moving block, a sliding sheet is arranged on one side of the pushing block, and the sliding sheet slides on the slide rheostat.

Preferably, a driving motor is fixedly arranged on the side part of the equipment frame, the output end of the driving motor is connected with a rotating screw rod, a U-shaped screw rod sliding sleeve is in threaded sleeve connection with the rotating screw rod, a side edge position baffle is fixedly arranged on the side part of the U-shaped screw rod sliding sleeve, and the side edge position baffle is blocked on the side part of the rotating support rod.

Preferably, the plate pressing mechanism comprises a U-shaped frame fixedly installed on the processing platform, a threaded column is installed on the U-shaped frame in a threaded manner, a pressing plate is installed at one end of the threaded column in a rotary manner, the pressing plate is pressed at the top of the plate body, a guide column is fixedly installed at the top of the pressing plate, and the top end of the guide column movably penetrates through the U-shaped frame.

Preferably, the circulating cooling mechanism comprises a cutting leak hole formed in a processing platform, a flowing box is arranged at the bottom of the processing platform, a collecting frame is arranged on one side of the processing platform, a filtering frame is arranged at the top of the collecting frame, and the filtering frame is located at one side of the flowing box.

Preferably, the collecting frame is internally provided with a water pump, the water pump is connected with a water pipe, one end of the water pipe is connected with a tapping pipe, two sides of the protective cover are respectively connected with a water spray connecting pipe and an atomization dust-falling connecting pipe, the tapping pipe is respectively communicated with the water spray connecting pipe and the atomization dust-falling connecting pipe, the water spray connecting pipe is connected with a plurality of spray heads, the atomization dust-falling connecting pipe is connected with a plurality of atomizing heads, and the spray heads and the atomizing heads are all arranged on the inner wall of the protective cover.

Compared with the prior art, the invention provides a quartz stone plate cutting device, which has the following beneficial effects:

1. This quartz plate cutting device through the setting of anti-chucking mechanism, produces stronger chucking back at the cutting in-process, can appear dragging the condition between mobile mechanism and the cutter disc, through the angle deviation who rotates branch this moment, early warning and warning staff have certain trouble or problem.

2. This quartz stone panel cutting device triggers the back with three conducting shoe respectively through triggering the conducting shoe, realizes the protection effect to the cutter disc different degree to effectively avoid the condition that the cutter disc damaged appears.

3. This quartz plate cutting device through the resistance change of sliding the change ware, adjusts the flow size of cutting knife dish transport coolant liquid to realize cooling's effect fast, the condition that the overheat blocked appears in the protection cutting knife dish.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic diagram of a moving mechanism according to the present invention;

FIG. 3 is a schematic view of a plate compressing mechanism according to the present invention;

FIG. 4 is a schematic view of a mobile cutting mechanism according to the present invention;

FIG. 5 is a schematic view of the circulation cooling mechanism of the present invention;

FIG. 6 is a schematic cross-sectional view of a shield of the present invention;

FIG. 7 is a schematic view of a perspective structure of an anti-chucking mechanism of the present invention;

FIG. 8 is a schematic view of a partial explosion of the anti-jamming mechanism of the present invention;

FIG. 9 is a schematic view of a partial perspective view of the present invention;

FIG. 10 is a schematic view of the portion A of FIG. 2 according to the present invention.

In the figure, 1, a processing platform; 2, a plate body; 3, a moving mechanism, 4, a device frame, 5, a driving motor, 6, a rotating screw rod, 7, a U-shaped screw rod sliding sleeve, 8, a moving cutting mechanism, 9, a rotating support rod, 10, a cutter disc, 11, a protective cover, 12, a side position baffle, 13, a plate pressing mechanism, 14, a U-shaped frame, 15, a threaded column, 16, a pressing plate, 17, a guide column, 18, a circulating cooling mechanism, 19, a cutting leak hole, 20, a flowing box, 21, a collecting frame, 22, a filtering frame, 23, a water pump, 24, a water pipe, 25, a tapping pipe, 26, a water spray connecting pipe, 27, an atomization dust fall connecting pipe, 28, a water spray head, 29, an atomization head, 30, an anti-clamping mechanism, 31, an extrusion sleeve, 32, a side block, 33, a mounting block, 34, a wedge-shaped extrusion block, 35, a convex sliding groove, 36, a convex sliding block, 37, a damping spring, 38, a mounting box, 39, a first magnetic block, 40, a connecting rod, 41, a second magnetic block, 42, a moving block, 43, a triggering conducting block, 44, a fixing block, 45, a first conducting block, a second conducting block, 46, a third conducting block, a sliding block, a supporting frame, a 48, a sliding block, a 50 and a warning lamp.

Detailed Description

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

As described in the background art, the application provides a quartz stone plate cutting device for solving the technical problems.

In an exemplary embodiment of the present application, as shown in fig. 1 and 3, a quartz stone plate cutting apparatus includes:

The processing platform 1, the last panel body 2 of having placed of processing platform 1, be provided with panel hold-down mechanism 13 on the processing platform 1, be used for compressing tightly panel body 2 of placing, panel hold-down mechanism 13 is including the U type frame 14 of fixed mounting on processing platform 1, install screw thread post 15 on the U type frame 14, the hold-down plate 16 is installed in the rotation of screw thread post 15's one end, the top at panel body 2 is pressed to hold-down plate 16, the top fixed mounting of hold-down plate 16 has guide post 17, the top activity of guide post 17 runs through U type frame 14, place the panel body 2 that needs the cutting on processing platform 1, then utilize panel hold-down mechanism 13 to compress tightly panel body 2 of placing, screw thread post 15 on the panel hold-down mechanism 13 rotates the back, can drive hold-down plate 16 and move down, thereby realize the effect of compressing tightly of panel body 2, guide post 17 of setting, can carry out the position spacing to the downshift of hold-down plate 16.

As a preferred implementation manner in this embodiment, as shown in fig. 1, 2 and 4, the moving mechanism 3 includes a device frame 4 fixedly installed on the processing platform 1, a U-shaped screw sliding sleeve 7 is provided on the device frame 4, the moving cutting mechanism 8 is provided on the U-shaped screw sliding sleeve 7, and is used for cutting the sheet material body 2, the moving cutting mechanism 8 includes a rotating support rod 9 rotatably installed on the device frame 4, a cutter disc 10 is rotatably installed on the rotating support rod 9, a protective cover 11 is provided above the cutter disc 10, the protective cover 11 is installed on the side portion of the rotating support rod 9, a driving motor 5 is fixedly installed on the side portion of the device frame 4, an output end of the driving motor 5 is connected with a rotating screw 6, the U-shaped screw sliding sleeve 7 is in threaded connection with the rotating screw 6, a side position baffle 12 is fixedly installed on the side portion of the U-shaped screw sliding sleeve 7, the side position baffle 12 is blocked on the side portion of the rotating support rod 9, the cutter disc 10 on the moving cutting mechanism 8 is started to rotate, the cutting operation can be performed on the sheet material body 2 through the rotating cutter disc 10, and at the same time, the driving motor 5 on the moving mechanism 3 is started to operate, the driving motor 5 is rotated, and the driving motor 6 is driven to rotate, so that the U-shaped screw sliding sleeve 7 is driven to move horizontally, and the sheet material body 2 can move.

As a preferred implementation manner in this embodiment, as shown in fig. 1, 5 and 6, the circulating cooling mechanism 18 is disposed above the processing platform 1, for cooling during the cutting process of the cutter disc 10, the circulating cooling mechanism 18 includes a cutting leak hole 19 formed in the processing platform 1, a flow box 20 is disposed at the bottom of the processing platform 1, a collecting frame 21 is disposed at one side of the processing platform 1, a filtering frame 22 is disposed at the top of the collecting frame 21, the filtering frame 22 is disposed at one side of the flow box 20, a water pump 23 is disposed in the collecting frame 21, a water pipe 24 is connected to the water pump 23, one end of the water pipe 24 is connected with a tapping pipe 25, two sides of the protecting cover 11 are respectively connected with a water spraying connection pipe 26 and an atomization dust settling connection pipe 27, the tapping pipe 25 is respectively connected with the water spraying connection pipe 26 and the atomization dust settling connection pipe 27, a plurality of spray heads 28 are connected with the atomization dust settling connection pipe 27, and the spray heads 28 and the atomization heads 29 are all disposed on the inner wall of the protecting cover 11.

In the cutting process, the water pump 23 on the circulation cooling mechanism 18 operates to pump cooling liquid out and pass through the water pipe 24 and the branch pipe 25, finally, spray head 28 and atomizing head 29 blowout, spray head 28 sets up in the front end position that cutter head 10 got into protection casing 11, can spray water fast and cool down cutter head 10, atomizing head 29 sets up in the latter half position of protection casing 11, the rotation of spun vaporific water droplet follow the blade disc rotates to the below position, carry out the humidification to panel body 2, the dust that the while cutting produced also can play fine dust fall effect under the effect of water smoke, the water droplet after cooling and dust fall can follow the cutting leak hole 19 and leak down to in flowing box 20 to collecting frame 21, realize the cyclic utilization, the filter frame 22 of setting, the piece that produces in the cutting process blocks the filtration.

As a preferred embodiment in this embodiment, as shown in fig. 1, 7 and 8, the anti-chucking mechanism 30 is disposed on the U-shaped screw sliding sleeve 7, and is used for detecting chucking of the cutter disc 10 during moving, the anti-chucking mechanism 30 includes a pressing sleeve 31 fixedly sleeved on the rotating strut 9, the sides of the pressing sleeve 31 are arc-shaped, side blocks 32 are fixedly mounted on both sides of the U-shaped screw sliding sleeve 7, the same mounting block 33 is fixedly mounted on the sides of the two side blocks 32, a damping spring 37 is connected between the mounting block 33 and the pressing sleeve 31, two wedge-shaped pressing blocks 34 are slidably mounted on the sides of the mounting block 33, the two wedge-shaped pressing blocks 34 are matched with the pressing sleeve 31, the wedge-shaped pressing blocks 34 can detect the chucking of the cutter disc 10 after being pressed, a plurality of mounting boxes 38 are fixedly mounted on the sides of the side blocks 32, a first magnetic block 39 is fixedly mounted on the inner wall of the mounting box 38, a connecting rod 40 is fixedly mounted on the sides of the wedge-shaped pressing blocks 34, one end of the connecting rod 40 extends into the mounting box 38, a second magnetic block 41 is fixedly mounted on the side block 41, the first magnetic block 39 is slidably mounted on the side block 33, and the second magnetic block 39 is slidably mounted on the side block 33 and the side block 35 is slidably mounted on the side block 35.

Cutter disc 10 installs on rotating support rod 9, rotating support rod 9 rotates and installs on U type lead screw sliding sleeve 7, the side position baffle 12 of setting can follow the position of one side realization rotating support rod 9 and block, rotating support rod 9 can be towards the deviation of opposite side realization certain angle, through the design of angle deviation, can deal with the problem that the cutter disc can not follow the moving mechanism 3 and remove after blocking, be provided with anti-chucking mechanism 30 on the U type lead screw sliding sleeve 7, damping spring 37 on the anti-chucking mechanism 30 can provide certain anti-rotation dynamics, the setting of multiunit first magnet 39 and second magnet 41 simultaneously, first magnet 39 and second magnet 41 are like-nature magnet, according to the principle of opposite polarity repulsion, also can provide very strong anti-rotation dynamics, through multiple anti-rotation dynamics, can keep rotating support rod 9's position, can satisfy the blocking dynamics that produces in the cutting process, rotating support rod 9 can not very easily just take place the pivoted condition.

As a preferred implementation manner in this embodiment, as shown in fig. 1, 9 and 10, a moving block 42 is fixedly installed on a side portion of one wedge-shaped extrusion block 34, a triggering conductive block 43 is fixedly installed on a side portion of the moving block 42, a fixed block 44 is fixedly installed on a side portion of the installation block 33, a first conductive block 45, a second conductive block 46 and a third conductive block 47 are fixedly installed on a side portion of the fixed block 44, the triggering conductive block 43 is electrically connected with the first conductive block 45, the second conductive block 46 and the third conductive block 47 respectively, three warning lamps 52 are electrically connected with the first conductive block 45, the second conductive block 46 and the third conductive block 47 respectively on a side portion of the equipment frame 4, a bracket 48 is fixedly installed on a side portion of the side block 32, a sliding rheostat 49 is arranged on the bracket 48, a pushing block 50 is fixedly installed on one side of the moving block 42, a sliding sheet 51 is arranged on one side of the pushing block 50, and the sliding sheet 51 slides on the sliding rheostat 49.

Once friction is increased and heat accumulation occurs in the cutter disc 10, when the situation of clamping occurs, the moving mechanism 3 still moves continuously, but when the cutter disc 10 is difficult to move, the rotating support rod 9 rotates to drive the extrusion sleeve 31 to move under the condition of clamping the dragging force, the extrusion sleeve 31 moves to extrude the wedge-shaped extrusion blocks 34 on two sides, the wedge-shaped extrusion blocks 34 move to drive the moving block 42 to move, the moving block 42 moves to drive the triggering conductive block 43 to move, the angle deviation of the rotating support rod 9 is larger and larger along with the enhancement of the dragging force, the triggering conductive block 43 is firstly contacted with the first conductive block 45, at the moment, a warning lamp 52 on the device frame 4 lights up a yellow lamp for warning the working personnel that the cutting machine is abnormal, meanwhile, the moving block 42 moves to drive the pushing block 50 to move to drive the sliding piece 51 to move, the sliding piece 51 moves on the sliding rheostat 49, the sliding piece 49 is electrically connected with the water pump 23, after the sliding piece 51 moves, the resistance can be changed, the current of the circulating water pump 23 can be increased, the water pump 23 moves to strengthen, the cooling liquid is conveyed, the temperature of the cutter disc 10 is prevented from being cooled down more rapidly, and the temperature of the cutter disc is prevented from being lowered.

Further, in the above-described embodiment, as the cutting continues, the temperature of the cutter disc 10 continues to rise, at which time the trigger conductive pad 43 will contact the second conductive pad 46, at which time the second warning light 52 will illuminate orange, and the controller, which is a PLC controller, is provided inside the apparatus to control the drive motor 5 to slow down, thereby reducing the speed of movement of the moving mechanism 3, avoiding damage to the cutter disc 10 due to rapid advancement, while the slide vane 51 also continues to move, the resistance on the slide rheostat 49 continues to decrease, the power of the water pump 23 continues to increase, and the delivered cooling fluid also increases, thereby cooling the cutter disc 10 more rapidly, avoiding seizing.

Further, in the above-described embodiment, after the cutter disc 10 has been cooled without significant effect, the movable block 42 continues to move, and when the trigger conductive block 43 will contact the third conductive block 47, the third warning light 52 will illuminate the red light, and at this time the internal controller will control the overall shutdown of the drive motor 5, cutter disc 10, etc., waiting for the operator to check, to maximally protect the cutter disc 10 from unnecessary safety hazards.

When the cutting machine is used, a plate body 2 to be cut is placed on a processing platform 1, the placed plate body 2 is compressed by utilizing a plate compressing mechanism 13, cooling liquid is added into a collecting frame 21, a movable cutting mechanism 8 is started, the plate body 2 can be cut through a rotary cutter disc 10, a driving motor 5 on the moving mechanism 3 is started to run, the cutter disc 10 moves horizontally, the cutting operation of the plate body 2 is realized, a water pump 23 on a circulating cooling mechanism 18 runs in the cutting process, water solution sprayed by a water spray head 28 can quickly cool the cutter disc 10, mist water drops sprayed by an atomizing head 29 rotate to the lower position along with the rotation of the cutter disc, the plate body 2 is humidified, and dust generated by cutting can play a good dust reducing role under the action of water mist;

during cutting, when friction is aggravated and heat accumulation occurs on the cutter disc 10 and clamping occurs, the rotating support rod 9 is subjected to angle deflection under the condition of dragging force, the extrusion sleeve 31 moves to extrude the wedge-shaped extrusion blocks 34 on two sides and drive the triggering conductive blocks 43 to move, the triggering conductive blocks 43 are contacted with the first conductive blocks 45 along with the enhancement of the dragging force, at the moment, one warning lamp 52 on the equipment frame 4 lights up a yellow lamp and is used for warning workers that a cutting machine is abnormal, meanwhile, the resistance value of the sliding rheostat 49 is small, the water pump 23 operates to strengthen, the cutter disc 10 is subjected to water spraying and cooling more quickly, the generation of overhigh temperature is avoided, the cutter disc is prevented from being clamped by reducing the temperature of the cutter disc, the driving motor 5 is controlled to reduce the speed, the advancing speed of the cutter disc is changed, the damage of the cutter disc 10 caused by rapid advancing is avoided, the cooling liquid conveyed by the water pump 23 is continuously enhanced, and when the triggering conductive blocks 43 are contacted with the third conductive blocks 47, the third warning lamp 52 is prevented from being brought into contact with the third conductive blocks 47, and all the cutter disc is prevented from being stopped by the integral navigation protection measures, and the necessary protection measures are avoided.

It should be noted that:

The driving motor 5, the cutter disc 10, the damping spring 37, the first magnetic block 39, the second magnetic block 41 and the sliding rheostat 49 are all of the prior art, and the specific structure, function and usage thereof are not described herein.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The quartz stone plate cutting device is characterized by comprising:

The anti-clamping mechanism is arranged on the U-shaped screw rod sliding sleeve and used for detecting and preventing the cutter disc from being clamped in the moving process, the anti-clamping mechanism comprises an extrusion sleeve fixedly sleeved on the rotating supporting rod, the side edges of the extrusion sleeve are arc-shaped, side edge blocks are fixedly arranged on two sides of the U-shaped screw rod sliding sleeve, the same mounting block is fixedly arranged on the side parts of the two side edge blocks, a damping spring is connected between the mounting block and the extrusion sleeve, two wedge-shaped extrusion blocks are slidably arranged on the side parts of the mounting block and are matched with the extrusion sleeve, and the two wedge-shaped extrusion blocks can detect and prevent the cutter disc from being clamped after being extruded;

The side part of the wedge-shaped extrusion block is fixedly provided with a movable block, the side part of the movable block is fixedly provided with a triggering conductive block, the side part of the installation block is fixedly provided with a fixed block, the side part of the fixed block is fixedly provided with a first conductive block, a second conductive block and a third conductive block, the triggering conductive block is respectively and electrically connected with the first conductive block, the second conductive block and the third conductive block, the side part of the equipment frame is provided with three warning lamps, the three warning lamps are respectively and electrically connected with the first conductive block, the second conductive block and the third conductive block, the side part of the side block is fixedly provided with a bracket, the bracket is provided with a slide rheostat, one side of the movable block is fixedly provided with a pushing block, one side of the pushing block is provided with a sliding sheet, and the sliding sheet slides on the slide rheostat;

The circulating cooling mechanism comprises a cutting leak hole formed in a processing platform, a flowing box is arranged at the bottom of the processing platform, a collecting frame is arranged on one side of the processing platform, a filtering frame is placed at the top of the collecting frame, the filtering frame is located at one side of the flowing box, a water pump is arranged in the collecting frame, a water pipe is connected to the water pump, one end of the water pipe is connected with a tapping pipe, two sides of the protective cover are respectively connected with a water spray connecting pipe and an atomization dust settling connecting pipe, the tapping pipe is respectively communicated with the water spray connecting pipe and the atomization dust settling connecting pipe, a plurality of spray heads are connected to the water spray connecting pipe, and the spray heads and the atomization heads are all arranged on the inner wall of the protective cover;

the slide rheostat is electrically connected with the water pump.

2. The quartz stone plate cutting device according to claim 1, wherein a plurality of mounting boxes are fixedly arranged on the side parts of the side blocks, first magnetic blocks are fixedly arranged on the inner walls of the mounting boxes, connecting rods are fixedly arranged on the side parts of the wedge-shaped extrusion blocks, one ends of the connecting rods extend into the mounting boxes and are fixedly provided with second magnetic blocks, and the first magnetic blocks and the second magnetic blocks repel each other in the same polarity.

3. The quartz plate cutting device of claim 1, wherein the side of the mounting block is provided with a convex chute, the side of the wedge-shaped extrusion block is fixedly provided with a convex slide block, and the convex slide block is slidably arranged in the convex chute.

4. The quartz plate cutting device of claim 1, wherein a driving motor is fixedly arranged on the side part of the equipment frame, the output end of the driving motor is connected with a rotating screw rod, a U-shaped screw rod sliding sleeve is in threaded sleeve connection with the rotating screw rod, a side edge position baffle is fixedly arranged on the side part of the U-shaped screw rod sliding sleeve, and the side edge position baffle is blocked on the side part of the rotating support rod.

5. The quartz stone plate cutting device of claim 1, wherein the plate pressing mechanism comprises a U-shaped frame fixedly arranged on the processing platform, a threaded column is arranged on the U-shaped frame in a threaded manner, a pressing plate is rotatably arranged at one end of the threaded column and pressed on the top of the plate body, a guide column is fixedly arranged at the top of the pressing plate, and the top end of the guide column movably penetrates through the U-shaped frame.