CN111805621B

CN111805621B - European style cabinet body top line corner cutting equipment and use method thereof

Info

Publication number: CN111805621B
Application number: CN202010701314.XA
Authority: CN
Inventors: 不公告发明人
Original assignee: Jiangsu Jinsheng Silicon Based New Material Research Institute Co ltd
Current assignee: Jiangsu Jinsheng silicon based New Material Research Institute Co.,Ltd.
Priority date: 2020-07-20
Filing date: 2020-07-20
Publication date: 2021-12-14
Anticipated expiration: 2040-07-20
Also published as: CN111805621A

Abstract

The invention relates to the technical field of furniture production, in particular to European-style cabinet body top line corner cutting equipment and a use method thereof; the cutting machine comprises a frame component, two groups of cutting assemblies and two groups of clamping components; the two groups of cutting assemblies are symmetrically fixed at two ends of the front side of the frame assembly, and the two groups of clamping assemblies are respectively positioned at the inner sides of the cutting assemblies and are fixed at two ends of the front side of the frame assembly; compared with manual operation, the moving process is more stable, burrs are not formed at the corner cutting position, the product quality is improved, the phenomenon that operators are injured due to the fact that scraps generated when the cutting saw blade rotates at a high speed to drive cutting are splashed is reduced due to the arrangement of the protective cover, and the safety of the operators in the operation process is effectively protected; moreover, clamping component can press from both sides tightly fixedly with placing the terminal line on putting the work or material rest, avoids the terminal line that manual operation caused to place the offset, and the angle cutting that causes is inaccurate, improves the precision of product angle cutting, promotes the uniformity and the yield of product.

Description

European style cabinet body top line corner cutting equipment and use method thereof

Technical Field

The invention relates to the technical field of furniture production, in particular to European-style cabinet body top line corner cutting equipment and a using method thereof.

Background

Along with the improvement of living standard of people, the quality requirement on home furnishing is higher and higher. Various cabinets, wardrobes, book cabinets, wine cabinets, vestibule cabinets and the like with different styles are matched with different decoration style forms to enter the household life of people, and the requirements of people on various cabinets are not simply realized, and more are the requirements on the product quality and texture.

The typical European style cabinet is popular among people pursuing quality life. The top line of the European-style cabinet body has different cambered surfaces at the corner splicing position, so that the requirement on 45-degree angle cutting of the top line is strict, the angle has slight deviation, the top line has wrong stubbles when being opposite to each other, and the attractiveness of the product is influenced. And for convenient operation, the processing personnel basically adopt a portable saw of adjustable angle to carry out the corner cut processing, do not have accurate spacing and the tight frock of clamp that corresponds, only lean on the staff to hold up the top line and carry out the corner cut processing, lean on operating workman's proficiency completely to carry out the assurance of product quality, can't guarantee the cutting precision to the european style cabinet body, can't guarantee the quality of the european style cabinet body of production promptly and the uniformity of quality.

Therefore, the European-style cabinet body top line corner cutting equipment and the using method thereof are provided to solve the problems in the prior art.

Disclosure of Invention

Objects of the invention

Compared with a manual cutting process, the European-style cabinet body top line corner cutting equipment and the use method thereof provided by the invention not only can cut the European-style cabinet body with high precision, but also can ensure that the probability of burr generation is reduced when the European-style cabinet body is cut, and ensure the cutting precision and the consistency of the quality of the produced European-style cabinet body.

(II) technical scheme

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

a European style cabinet body top line corner cutting device comprises a frame component, two groups of cutting assemblies and two groups of clamping components; the two groups of cutting assemblies are symmetrically fixed at two ends of the front side of the frame assembly, and the two groups of clamping assemblies are respectively positioned at the inner sides of the cutting assemblies and are fixed at two ends of the front side of the frame assembly;

the frame component comprises a main upright post, a main cross brace, a rear brace, an installation transverse plate, a material placing brace, a material placing frame, a material placing connecting seat, an opposite sliding brace and an installation base; the four corners of the bottom of the frame assembly are provided with main upright posts perpendicular to the frame assembly, the front main upright post and the rear main upright post are fixedly connected through main cross braces, the rear main upright post is fixedly connected through a rear brace, the tops of the two main upright posts in the front are transversely provided with installation transverse plates with groove bodies at the tops, two groups of material placing braces are fixedly arranged between the rear brace and the installation transverse plates, the middle of the top of each material placing brace is fixedly provided with a material placing connecting seat, the top of each material placing connecting seat is fixedly provided with a material placing frame, the top of the rear brace in the front is provided with opposite sliding braces parallel to the rear brace, the opposite sliding braces penetrate through a square frame formed by the material placing frame and the material placing connecting seats and then are fixedly connected with the two main cross braces at the tops of the two side ends of the frame assembly, and the bottoms of the main upright posts are fixedly provided with installation bases;

the cutting assembly comprises a connecting bottom plate, a front side connecting plate, a rear side connecting plate, a cylinder bracket, a movable cylinder, a movable block, a movable connecting plate, a cutting motor base, a cutting motor, a rotary mounting seat, a saw blade mounting seat, a cutting saw blade and a saw blade clamping seat; the connecting bottom plate is of a square plate-shaped structure, a front side connecting plate is fixedly installed on the outer side of the bottom of the connecting bottom plate, a rear side connecting plate is fixedly installed on the inner side of the bottom of the connecting bottom plate, cylinder supports of an L-shaped supporting structure are fixedly arranged on two side edges of the connecting bottom plate, two groups of moving cylinders are installed in the cylinder supports and are distributed in parallel and are parallel to the outer edge of the connecting bottom plate, the front ends of the two groups of moving cylinders are consistent, moving blocks are commonly installed at the same side ends of the two groups of moving cylinders, two groups of moving connecting plates are fixedly arranged at symmetrical positions of the two groups of moving blocks, a cutting motor base is fixedly arranged at the tops of the moving blocks and the moving connecting plates, the cutting motor base is located right above the connecting bottom plate, a cutting motor is fixedly installed at the top of the cutting motor base, and the cutting motor base is vertically and fixedly installed on the outer wall of a rotary installation base, the cutting machine is characterized in that a round hole is formed in the coaxial position of the rotary mounting seat and the cutting motor, the rotary shaft of the cutting motor penetrates through the round hole, a plurality of mounting holes are uniformly formed in the circumferential direction of the outer side of the round hole, the cutting motor is mounted on the outer wall of the rotary mounting seat through the mounting holes, a saw blade mounting seat is arranged at the front end of the rotary shaft of the cutting motor, a cutting saw blade is mounted on the rotary shaft of the cutting motor, and a saw blade clamping seat is arranged at the rear part of the rotary shaft of the cutting motor;

the clamping assembly comprises opposite sliding seats, a main sliding seat, a sliding seat connecting block, a clamping block, a rotating gear, a rotating shaft, a rotating motor bracket, a rotating motor and a rack; the opposite sliding seats are positioned at the rear part of the integral clamping assembly and are in sliding fit with the opposite sliding supports, the main sliding seat is positioned at the front part of the integral clamping assembly and is in sliding fit with the installation transverse plate, the opposite sliding seats and the main sliding seat are fixedly connected through two sliding seat connecting blocks, the clamping blocks are vertically arranged at the rear parts of the tops of two side ends of the sliding seat connecting blocks and are used for completing the clamping work after the opposite vertex lines are placed, the rotating gear is arranged in the main sliding seat through a rotating shaft, the rotating motor bracket is fixedly arranged at the outer side of the main sliding seat, a round hole through hole is formed in the position where the rotating motor bracket is coaxial with the rotating shaft and is used for connecting the rotating shaft with the rotating shaft after the rotating shaft passes through, the rotating motor is vertically and fixedly arranged at the front end surface of the rotating motor bracket, and racks which are parallel to the rotating motor bracket are arranged below the two groups of main sliding seats, the rack is fixedly arranged in the middle of the front end face of the installation transverse plate, and the rotating gear is in transmission fit with the rack.

Further, the cutting blade is fixedly mounted on the rotating shaft of the cutting motor by means of a locking screw.

Furthermore, the material placing connecting seat is of an L-shaped structure and is used for leaning and limiting the placing of the top line.

Furthermore, the opposite sliding supports are arranged on the rear side of the installation transverse plate and are parallel to the installation transverse plate, so that the clamping assembly can slide.

Furthermore, the four corners of the edge of the mounting base are provided with round through holes for fixedly mounting the frame assembly on the ground, so that the stability of the whole device in use is ensured.

Furthermore, a round hole is formed in the front end face of the front side connecting plate and used for being locked with the mounting transverse plate through a screw when the front side connecting plate and the mounting transverse plate are mounted, the front side connecting plate and the rear side connecting plate are arranged in parallel, the size of an inner space formed by the front side connecting plate and the rear side connecting plate is consistent with the width of the mounting transverse plate, and the cutting assembly is mounted and clamped on the mounting transverse plate.

Furthermore, the moving cylinder is a bidirectional moving cylinder, so that the installation size can be reduced, and the propelling length of the telescopic rod can be increased.

Furthermore, the moving block is in clearance fit with the connecting bottom plate and used for achieving smooth movement of the moving block.

Furthermore, an elongated slot with a rectangular structure is transversely formed in the middle of the main sliding seat in a penetrating manner, a round hole communicated with the elongated slot is formed in the middle of the outer end face of the main sliding seat, the round hole is used for mounting a rotating gear, and a square hole is formed in the end face of the outer step of the rotating shaft and is used for being fixedly connected with a rotating motor.

A use method of European style cabinet body top line corner cutting equipment comprises the following steps:

s1, firstly, placing one end of a top line to be cut on a corresponding material placing frame in a frame assembly, attaching the bottom surface of the top line to the main plane of the material placing frame, leveling the main front surface of the top line to the side surface of the material placing frame, then starting a rotating motor in a clamping assembly matched with the current cutting assembly, driving a rotating gear and a rack to form gear-rack matching transmission by the rotating motor, thereby driving clamping blocks on an opposite sliding seat and a main sliding seat to move towards the top line direction of the top line to be cut, and pressing the top line to be cut on the material placing frame through the clamping blocks;

s2, starting a cutting motor in the cutting assembly to drive a rotating shaft of the cutting motor to rotate, tightly pressing the cutting saw blade through a saw blade mounting seat, locking the cutting saw blade through a locking screw, starting the cutting motor to drive the cutting saw blade to rotate at a high speed, and pushing the cutting motor and the cutting saw blade which are connected with a base of the cutting motor through a moving block and a moving connecting plate to move at a constant speed to the vertex line direction of the angle to be cut through a moving cylinder in the cutting assembly to complete the angle cutting work of one end of the current vertex line;

s3, placing the other end of the vertex line of the to-be-cut angle on a material placing frame which is arranged symmetrically with the previous step in a frame assembly, attaching the bottom surface of the vertex line to the main plane of the current material placing frame, enabling the main front surface of the vertex line to be flat against the side surface of the current material placing frame, starting a rotating motor to drive a rotating gear to rotate, enabling the rotating gear and a rack to form gear-rack matching transmission, driving clamping blocks on an opposite sliding seat and a main sliding seat to move towards the vertex line of the to-be-cut angle, and pressing the vertex line of the to-be-cut angle on the current material placing frame through the clamping blocks;

s4, starting a cutting motor of the cutting assembly corresponding to the current time to drive a cutting saw blade to rotate at a high speed, and then starting a moving cylinder in the cutting assembly at the other side to push the cutting motor connected with a base of the cutting motor through a moving block and a moving connecting plate and the cutting saw blade to move at a constant speed towards the vertex line direction of the angle to be cut so as to complete the angle cutting work at the other end of the current vertex line; the double-end corner cut processing of the vertex line to be subjected to corner cut can be realized by only placing the vertex line to be subjected to corner cut on the corresponding material placing frame if the single-end corner cut processing is required to be carried out on the vertex line.

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

1. according to the invention, the cutting assemblies with two groups of symmetrical structures are respectively and fixedly arranged on the outer side of the front end of the frame component, so that synchronous processing of two top lines can be realized, and the processing production efficiency is improved. The cutting assembly adopts the removal cylinder that can two-way propulsion is withdrawed, realize the removal of cutting saw bit in the cutting process, compare with manual operation, the removal process is more steady, corner cut department can not form the burr, improve the product quality, the outside of cutting saw bit still is provided with rotatory mount pad, be equipped with the safety cover around the rotatory mount pad, the phenomenon of injury operating personnel that splashes because of the garrulous end that produces when the high-speed rotatory drive cutting of cutting saw bit has been reduced, operating personnel's safety in the protection operation process effectively.

2. According to the automatic cutting device, the clamping assembly capable of moving automatically is arranged on the inner side of the cutting assembly, the rotating gear is driven to rotate by operating the rotating motor, the rotating gear is in transmission fit with the rack fixed in the mounting groove to drive the clamping block to move horizontally, and the top line placed on the material placing frame is clamped and fixed, so that the situation that the top line is placed and offset due to manual operation, the angle cutting is inaccurate can be avoided, the angle cutting precision of a product is improved, the error of the manual operation is reduced, and the consistency and the yield of the product are improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a perspective view of the frame assembly of the present invention;

FIG. 3 is a schematic perspective view of a cutting assembly according to the present invention;

FIG. 4 is a structural display view of a cutting assembly of the present invention;

FIG. 5 is a perspective view of the clamping assembly of the present invention;

FIG. 6 is an exploded view of the clamping assembly of the present invention;

fig. 7 is a partial structural view of the clamping assembly of the present invention.

In the figure: 1-a frame assembly; 2-a cutting assembly; 3-a clamping assembly; 101-a main upright post; 102-a main wale; 103-rear support; 104-a mounting groove; 105-placing a material support; 106-a material placing frame; 107-material placing connecting seat; 108-opposite sliding support; 109-mounting a base; 201-connecting the bottom plate; 202-a front side connection plate; 203-rear side connection plate; 204-a cylinder support; 205-a moving cylinder; 206-moving block; 207-moving the connection plate; 208-cutting the motor base; 209-cutting motor; 210-a rotating mount; 211-saw blade mount; 212-a cutting saw blade; 213-blade holder; 214-locking screws; 301-opposite direction sliding base; 302-a main slide; 303-a slide carriage connection block; 304-a clamping block; 305-a rotating gear; 306-the axis of rotation; 307-rotating electric machine support; 308-a rotating electrical machine; 309-toothed rack.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Please refer to fig. 1-7; a European style cabinet body top line corner cutting device comprises a frame component 1, two groups of cutting assemblies 2 and two groups of clamping components 3; the two groups of cutting assemblies 2 are symmetrically fixed at two ends of the front side of the frame assembly 1, and the two groups of clamping assemblies 3 are respectively positioned at the inner sides of the cutting assemblies 2 and fixed at two ends of the front side of the frame assembly 1;

the frame component 1 comprises a main upright post 101, a main cross brace 102, a rear brace 103, a mounting transverse plate 104, a material placing brace 105, a material placing frame 106, a material placing connecting seat 107, an opposite sliding brace 108 and a mounting base 109; the four corners of the bottom of the frame assembly 1 are provided with main uprights 101 perpendicular to the main uprights, the front main upright 101 and the rear main upright 101 are fixedly connected through main crossbars 102, the rear main uprights 101 are fixedly connected through back supports 103, mounting crossbars 104 with grooves at the tops are transversely erected at the tops of the front main uprights 101, two groups of material placing supports 105 are fixedly arranged between the back supports 103 and the mounting crossbars 104, a material placing connecting seat 107 is fixedly arranged in the middle of the top of the material placing supports 105, a material placing frame 106 is fixedly mounted at the top of the material placing connecting seat 107, opposite sliding supports 108 parallel to the front back supports 103 are arranged at the top of the front back supports 103, the opposite sliding supports 108 penetrate through a square frame formed by the material placing frame 106 and the material placing connecting seat 107 and then are fixedly connected with the two main crossbars 102 at the tops of the two side ends of the frame assembly 1, and mounting bases 109 are fixedly mounted at the bottoms of the main uprights 101;

the cutting assembly comprises a connecting bottom plate 201, a front side connecting plate 202, a rear side connecting plate 203, a cylinder bracket 204, a moving cylinder 205, a moving block 206, a moving connecting plate 207, a cutting motor base 208, a cutting motor 209, a rotating mounting seat 210, a saw blade mounting seat 211, a cutting saw blade 212 and a saw blade clamping seat 213; the connecting bottom plate 201 is of a square plate structure, a front side connecting plate 202 is fixedly installed on the outer side of the bottom of the connecting bottom plate 201, a rear side connecting plate 203 is fixedly installed on the inner side of the bottom of the connecting bottom plate 201, two side edges of the connecting bottom plate 201 are fixedly provided with an L-shaped cylinder support 204, two groups of moving cylinders 205 are installed in the cylinder support 204, the two groups of moving cylinders 205 are distributed in parallel and are parallel to the outer edge of the connecting bottom plate 201, the front ends of the two groups of moving cylinders 205 are consistent, moving blocks 206 are installed at the same side end of the two groups of moving cylinders 205 together, two groups of moving connecting plates 207 are fixedly installed at the symmetrical positions of the two groups of moving blocks 206, a cutting motor base 208 is fixedly installed at the tops of the moving blocks 206 and the moving connecting plates 207, the cutting motor base 208 is located right above the connecting bottom plate 201, a cutting motor 209 is fixedly installed at the top of the cutting motor base 208, and is vertically and fixedly installed on the outer wall of a rotary installation base 210, a circular hole is formed in the coaxial position of the rotary mounting seat 210 and the cutting motor 209, the rotary shaft of the cutting motor 209 penetrates through the circular hole, a plurality of mounting holes are uniformly formed in the circumferential direction of the outer side of the circular hole, the cutting motor 209 is mounted on the outer wall of the rotary mounting seat 210 through the mounting holes, a saw blade mounting seat 211 is arranged at the front end of the rotary shaft of the cutting motor 209, a cutting saw blade 212 is mounted on the rotary shaft of the cutting motor 209, and a saw blade clamping seat 213 is arranged at the rear part of the rotary shaft of the cutting motor 209;

the clamping assembly 3 comprises an opposite sliding seat 301, a main sliding seat 302, a sliding seat connecting block 303, a clamping block 304, a rotating gear 305, a rotating shaft 306, a rotating motor bracket 307, a rotating motor 308 and a rack 309; the opposite sliding seat 301 is positioned at the rear part of the integral clamping component 3 and is in sliding fit with the opposite sliding support 108, the main sliding seat 302 is positioned at the front part of the integral clamping component 3 and is in sliding fit with the installation transverse plate 104, the opposite sliding seat 301 and the main sliding seat 302 are fixedly connected through two sliding seat connecting blocks 303, the clamping block 304 is vertically arranged at the rear part of the tops of two side ends of the sliding seat connecting blocks 303 and is used for completing the clamping work after the opposite vertex line is placed, the rotating gear 305 is arranged in the main sliding seat 302 through the rotating shaft 306, the rotating motor bracket 307 is fixedly arranged at the outer side of the main sliding seat 302, a round hole through hole is arranged at the position where the rotating motor bracket 307 and the rotating shaft 306 are coaxial, the rotating shaft of the rotating motor 308 passes through and is connected with the rotating shaft 306, the rotating motor 308 is vertically and fixedly arranged at the front end surface of the rotating motor bracket 307, and a rack 309 parallel to the two groups of main sliding seats 302 is arranged below the two groups, the rack 309 is fixedly arranged in the middle of the front end face of the mounting transverse plate 104, and the rotating gear 305 and the rack 309 form transmission fit.

Specifically, the cutting blade 212 is fixedly mounted to the rotating shaft of the cutting motor 209 by a locking screw 214. The material placing connecting seat 107 is of an L-shaped structure, and the material placing connecting seat 107 is used for leaning and limiting the top line placing. The opposite sliding brace 108 is mounted on the rear side of the mounting cross plate 104 and parallel thereto to enable sliding of the clamping assembly 3. Circular through holes are formed in the four corners of the edge of the mounting base 109 and are used for fixedly mounting the frame assembly 1 on the ground, and the stability of the whole device in use is guaranteed. The front end face of the front side connecting plate 202 is provided with a round hole for locking the mounting transverse plate 104 through screws when the mounting transverse plate is mounted, the front side connecting plate 202 and the rear side connecting plate 203 are arranged in parallel, and the size of an internal space formed by the front side connecting plate 202 and the rear side connecting plate 203 is consistent with the width of the mounting transverse plate 104, so that the cutting assembly 2 is mounted and clamped on the mounting transverse plate 104. The moving cylinder 205 is a bidirectional moving cylinder, and the propelling length of the telescopic rod can be increased while the installation size is reduced. The moving block 206 is in clearance fit with the connecting bottom plate 201, and is used for realizing smooth movement of the moving block 206. An elongated slot with a rectangular structure is transversely formed in the middle of the main sliding seat 302 in a penetrating manner, a round hole communicated with the elongated slot is formed in the middle of the outer end face of the main sliding seat 302, the round hole is used for mounting the rotating gear 305, and a square hole is formed in the end face of the outer step of the rotating shaft 306 and used for being fixedly connected with the rotating motor 308.

The working principle is as follows:

before the angle cutting device is used, one end of a vertex line to be cut is placed on a corresponding material placing frame 106 in a frame assembly 1, the bottom surface of the vertex line is attached to the main plane of the material placing frame 106, the main front surface of the vertex line is flat against the side surface of the material placing frame 106, then a rotating motor 308 in a clamping assembly 3 matched with a current cutting assembly 2 is started, the rotating motor 308 drives a rotating gear 305 connected through a rotating shaft 306 to rotate, the rotating gear 305 and a rack 309 form gear-rack matching transmission, a clamping block 304 on an opposite sliding seat 301 and a main sliding seat 302 is driven to move towards the vertex line direction of the angle to be cut, and the vertex line to be cut is tightly pressed on the material placing frame 306 through the clamping block 304.

Then start cutting motor 209 in the cutting assembly 2 and drive cutting motor rotation axis and rotate, be provided with rotatory mount pad 210 on the cutting motor rotation axis, cutting saw blade 212 grafting installation leans on with rotatory mount pad 210 with the cutting motor rotation axis to be flat, presses cutting saw blade 212 firmly back through saw blade mount pad 211, locks the cutting saw blade through locking screw 214, and locking screw 214 locking direction is unanimous with cutting motor 209 direction of rotation, guarantees that cutting saw blade 212 can not become flexible.

After the cutting motor 209 is started to drive the cutting saw blade 212 to rotate at a high speed, the cutting motor 209 and the cutting saw blade 212 which are connected with the cutting motor base 208 through the moving block 206 and the moving connecting plate 207 are pushed to move at a constant speed towards the vertex direction of the to-be-cut angle by starting the moving cylinder 205 in the cutting assembly 2, so that the corner cutting work at one end of the current vertex line is completed.

Then, the other end of the vertex line of the corner to be cut is placed on a material placing frame 106, which is arranged symmetrically with the previous step, in a frame assembly 1, the bottom surface of the vertex line is attached to the main plane of the current material placing frame 106, the main front surface of the vertex line is flush with the side surface of the current material placing frame 106, then a rotating motor 308 in a clamping assembly 3 matched with the current cutting assembly 2 is started, the rotating motor 308 drives a rotating gear 305 connected through a rotating shaft 306 to rotate, the rotating gear 305 and a rack 309 form gear-rack matching transmission, a clamping block 304 on an opposite sliding seat 301 and a main sliding seat 302 is driven to move towards the vertex line of the corner to be cut, and the vertex line of the corner to be cut is pressed on the current material placing frame 306 through the clamping block 304.

Then, after the cutting motor 209 of the cutting assembly 2 corresponding to the current position is started to drive the cutting saw blade 212 to rotate at a high speed, the cutting motor 209 and the cutting saw blade 212 connected with the cutting motor base 208 through the moving block 206 and the moving connecting plate 207 are pushed to move at a constant speed towards the vertex line direction of the corner to be cut by starting the moving cylinder 205 in the cutting assembly 2 on the other side at the current position, and the corner cutting work on the other end of the current vertex line is completed.

Through the steps, the double-end corner cut processing of the vertex line to be subjected to corner cut is realized, if the single-end corner cut processing is required to be carried out on the vertex line, the vertex line to be cut only needs to be placed on the corresponding material placing frame 106 for operation, and then the double-end corner cut processing can be realized.

The above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims

1. The utility model provides a european style cabinet body top line corner cut equipment which characterized in that: comprises a frame component (1), two groups of cutting assemblies (2) and two groups of clamping components (3); the two groups of cutting assemblies (2) are symmetrically fixed at two ends of the front side of the frame assembly (1), and the two groups of clamping assemblies (3) are respectively positioned at the inner sides of the cutting assemblies (2) and fixed at two ends of the front side of the frame assembly (1);

the frame component (1) comprises a main upright post (101), a main cross brace (102), a rear brace (103), an installation cross brace (104), a material placing brace (105), a material placing frame (106), a material placing connecting seat (107), an opposite sliding brace (108) and an installation base (109); the four corners position of frame subassembly (1) bottom all is equipped with relative vertically king-post (101) with it, and two king-posts (101) are through main stull (102) fixed connection around it, and two king-posts (101) at rear portion are through back support (103) fixed connection, and the top of two king-posts (101) that are located the front portion transversely erects and is equipped with installation diaphragm (104) that the cell body was seted up at the top, and fixed being equipped with two sets of material of putting between back support (103) and installation diaphragm (104) and propping (105), the middle part bilateral symmetry of putting the material and propping the top of (105) is fixed and is equipped with and puts material connecting seat (107), and the top fixed mounting of each material connecting seat (107) puts material (106), and wherein the top of the back support (103) that is located the front portion is equipped with parallel material frame (108) to the opposite direction slide and prop (108) and put the square frame that material frame subassembly (106) and material connecting seat (107) formed after and fix with two king-posts (102) that are located the two sides top of frame subassembly (1) and fix and connect Mounting bases (109) are fixedly mounted at the bottoms of the main columns (101);

the cutting assembly comprises a connecting bottom plate (201), a front side connecting plate (202), a rear side connecting plate (203), a cylinder bracket (204), a moving cylinder (205), a moving block (206), a moving connecting plate (207), a cutting motor base (208), a cutting motor (209), a rotary mounting seat (210), a saw blade mounting seat (211), a cutting saw blade (212) and a saw blade clamping seat (213); the connecting bottom plate (201) is of a square plate-shaped structure, a front side connecting plate (202) is fixedly installed on the outer side of the bottom of the connecting bottom plate (201), a rear side connecting plate (203) is fixedly installed on the inner side of the bottom of the connecting bottom plate (201), air cylinder supports (204) of an L-shaped supporting structure are fixedly arranged on two side edges of the connecting bottom plate (201), two groups of moving air cylinders (205) are installed in the air cylinder supports (204), the two groups of moving air cylinders (205) are distributed in parallel and are parallel to the outer edge of the connecting bottom plate (201), the front ends of the two groups of moving air cylinders (205) are consistent, moving blocks (206) are jointly installed at the same side ends of the two groups of moving air cylinders (205), two groups of moving connecting plates (207) are fixedly arranged at symmetrical positions of the two groups of moving blocks (206), and cutting motor bases (208) are fixedly arranged at the tops of the moving blocks (206) and the connecting plates (207), the cutting motor base (208) is positioned right above the connecting bottom plate (201), the cutting motor (209) is fixedly installed at the top of the cutting motor base (208), the cutting motor base (208) is vertically and fixedly installed on the outer wall of the rotary installation seat (210), a round hole is arranged at the coaxial position of the rotary mounting seat (210) and the cutting motor (209), the rotary shaft of the cutting motor (209) penetrates through the round hole, and a plurality of mounting holes are uniformly arranged on the outer side of the round hole in the circumferential direction, the cutting motor (209) is arranged on the outer wall of the rotary mounting seat (210) through the mounting holes, a saw blade mounting seat (211) is arranged at the front end part of the rotating shaft of the cutting motor (209), a cutting saw blade (212) is arranged on the rotating shaft of the cutting motor (209), a saw blade clamping seat (213) is arranged at the rear part of the rotating shaft of the cutting motor (209);

the clamping assembly (3) comprises an opposite sliding seat (301), a main sliding seat (302), a sliding seat connecting block (303), a clamping block (304), a rotating gear (305), a rotating shaft (306), a rotating motor bracket (307), a rotating motor (308) and a rack (309); the opposite sliding seat (301) is positioned at the rear part of the integral clamping component (3) and is in sliding fit with the opposite sliding support (108), the main sliding seat (302) is positioned at the front part of the integral clamping component (3) and is in sliding fit with the installation transverse plate (104), the opposite sliding seat (301) is fixedly connected with the main sliding seat (302) through two sliding seat connecting blocks (303), the clamping block (304) is vertically arranged at the rear part of the tops of the two side ends of the sliding seat connecting blocks (303) and is used for completing the clamping work after the opposite vertex line is placed, the rotating gear (305) is arranged in the main sliding seat (302) through the rotating shaft (306), the rotating motor support (307) is fixedly arranged at the outer side of the main sliding seat (302), and the coaxial position of the rotating motor support (307) and the rotating shaft (306) is provided with a round hole through hole for connecting the rotating shaft (308) with the rotating shaft (306) after passing through the rotating shaft, the rotary motor (308) is vertically and fixedly arranged on the front end face of the rotary motor support (307), racks (309) parallel to the two main sliding seats (302) are arranged below the two main sliding seats, the racks (309) are fixedly arranged in the middle of the front end face of the installation transverse plate (104), and the rotary gear (305) and the racks (309) form transmission fit.

2. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: the cutting saw blade (212) is fixedly arranged on a rotating shaft of the cutting motor (209) through a locking screw (214).

3. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: the material placing connecting seat (107) is of an L-shaped structure, and the material placing connecting seat (107) is used for leaning and limiting the top line placing.

4. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: the opposite sliding support (108) is arranged on the rear side of the mounting transverse plate (104) and is parallel to the mounting transverse plate, so that the clamping component (3) can slide.

5. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: circular through holes are formed in the four corners of the edge of the mounting base (109) and are used for fixedly mounting the frame assembly (1) on the ground, and the stability of the whole device in use is guaranteed.

6. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: the cutting assembly is characterized in that a round hole is formed in the front end face of the front side connecting plate (202) and used for being locked with the mounting transverse plate (104) through a screw when the cutting assembly is mounted, the front side connecting plate (202) and the rear side connecting plate (203) are arranged in parallel, the size of an inner space formed by the front side connecting plate (202) and the rear side connecting plate (203) is consistent with the width of the mounting transverse plate (104), and the cutting assembly (2) is mounted and clamped on the mounting transverse plate (104).

7. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: the moving cylinder (205) is a bidirectional moving cylinder, so that the installation size can be reduced, and the propelling length of the telescopic rod can be increased.

8. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: the moving block (206) is in clearance fit with the connecting bottom plate (201) and used for realizing smooth movement of the moving block (206).

9. The top line corner cut device of the euro-style cabinet as claimed in claim 1, wherein: an elongated slot with a rectangular structure is transversely formed in the middle of the main sliding seat (302) in a penetrating mode, a round hole communicated with the elongated slot is formed in the middle of the outer end face of the main sliding seat (302), the round hole is used for installing a rotating gear (305), and a square hole is formed in the end face of an outer step of the rotating shaft (306) and is used for being fixedly connected with a rotating motor (308).

10. The use method of the European style cabinet body top line corner cutting equipment according to claim 2, characterized by comprising the following steps:

s1, firstly, one end of a vertex line to be cut is placed on a corresponding material placing frame (106) in a frame assembly (1), the bottom surface of the vertex line is attached to the main plane of the material placing frame (106), the main front surface of the vertex line is flat against the side surface of the material placing frame (106), then a rotating motor (308) in a clamping assembly (3) matched with a current cutting assembly (2) is started, the rotating motor (308) drives a rotating gear (305) and a rack (309) to form gear and rack matching transmission, so that clamping blocks (304) on an opposite sliding seat (301) and a main sliding seat (302) are driven to move towards the vertex line to be cut, and the vertex line to be cut is tightly pressed on the material placing frame (106) through the clamping blocks (304);

s2, starting a cutting motor (209) in the cutting assembly (2) to drive a cutting motor rotating shaft to rotate, pressing a cutting saw blade (212) firmly through a saw blade mounting seat (211), locking the cutting saw blade through a locking screw (214), starting the cutting motor (209) to drive the cutting saw blade (212) to rotate at a high speed, and pushing the cutting motor (209) and the cutting saw blade (212) which are connected with a cutting motor base (208) through a moving block (206) and a moving connecting plate (207) to move at a constant speed towards the vertex line direction of the to-be-cut angle through a moving cylinder (205) in the cutting assembly (2), so as to complete the corner cutting work of one end of the current vertex line;

s3, placing the other end of the vertex line of the corner to be cut on a material placing frame (106) arranged symmetrically with the previous step in a frame assembly (1), attaching the bottom surface of the vertex line to the main plane of the current material placing frame (106), enabling the main front surface of the vertex line to be flat against the side surface of the current material placing frame (106), starting a rotating motor (308) to drive the rotating gear (305) to rotate, enabling the rotating gear (305) and a rack (309) to form gear and rack matching transmission, driving clamping blocks (304) on an opposite sliding seat (301) and a main sliding seat (302) to move towards the vertex line direction of the corner to be cut, and pressing the vertex line of the corner to be cut on the current material placing frame (106) through the clamping blocks (304);

s4, starting a cutting motor (209) of the cutting assembly (2) corresponding to the current position to drive a cutting saw blade (212) to rotate at a high speed, and then starting a moving cylinder (205) in the cutting assembly (2) on the other side to push the cutting motor (209) and the cutting saw blade (212) which are connected with a cutting motor base (208) through a moving block (206) and a moving connecting plate (207) to move at a constant speed towards the vertex direction of the to-be-cut vertex line so as to complete the corner cutting work of the other end of the current vertex line; the double-end corner cut processing of the vertex line to be subjected to corner cut is achieved, if the single-end corner cut processing needs to be carried out on the vertex line, the vertex line to be subjected to corner cut only needs to be placed on a corresponding material placing frame (106) to operate, and then the double-end corner cut processing can be achieved.