CN119427167A - Intelligent cutting equipment for glass mechanical manufacturing - Google Patents

Abstract

The invention relates to the field of cutting equipment, in particular to intelligent cutting equipment for glass machinery manufacture, which comprises a fixed seat, a cutting machine, a saw blade and the like, wherein a semicircular movable groove is formed in the fixed seat, the cutting machine is rotatably arranged on the fixed seat, a rotating shaft is arranged on the cutting machine, the circle center of the rotating shaft and the circle center of the semicircular movable groove are the same point, the saw blade is arranged on the cutting machine, the front side of the saw blade is provided with a frosting surface which is convenient for manually polishing a workpiece, the frosting surface is in an inward concave state, and the frosting surface and the cutting edge of the saw blade are not in the same plane. The invention realizes that the first fixed block, the second fixed block, the third fixed block and the bearing frame are mutually matched to drive the cutting surface of the workpiece to move up and down on the frosted surface on the saw blade, and the workpiece is polished, so that a grinder is not required to be additionally used for manually polishing the workpiece, the construction space is saved, the use convenience of equipment is improved, the construction efficiency is ensured, and the safety of a construction site is ensured.

Description

Intelligent cutting equipment for glass mechanical manufacturing

Technical Field

The invention relates to the field of cutting equipment, in particular to intelligent cutting equipment for glass mechanical manufacturing.

Background

In order to ensure that the sizes of door and window profiles and walls or other structures are accurately matched, workers can usually choose to transport the whole profile to a construction site to measure the actual size, assemble the whole profile after site cutting, and improve the overall construction efficiency, but in the existing construction site operation process, when long or short profiles are cut, the existing cutting equipment is difficult to manually fix and operate, meanwhile, the risk coefficient is high, the stability of the profiles is difficult to guarantee in the cutting process, and the cutting precision is poor.

Meanwhile, after the workpiece is cut, a grinding machine is generally required to grind the cutting surface of the workpiece so as to improve the surface quality of the workpiece, meanwhile, the cutting edge is prevented from scratching workers, safety is guaranteed, but the grinding machine is large in size and inconvenient to carry, and the grinding machine is used for grinding the workpiece on a narrow construction site so as to increase the operation difficulty and the dangerousness of the workers.

Disclosure of Invention

The invention provides intelligent cutting equipment for glass mechanical manufacturing, which aims to overcome the defects that in the existing construction site operation process, when long or short sectional materials are cut, the existing cutting equipment is difficult to manually fix and operate, meanwhile, the danger coefficient is high, the stability of the sectional materials is difficult to ensure in the cutting process, and the cutting precision is poor.

The intelligent cutting equipment for the glass mechanical manufacturing comprises a fixing seat, a cutting machine and a saw blade, wherein a semicircular movable groove is formed in the fixing seat, the cutting machine is rotatably arranged on the fixing seat, a rotating shaft is arranged on the cutting machine, the circle center of the rotating shaft and the circle center of the semicircular movable groove are the same point, the saw blade is arranged on the cutting machine, a frosted surface which is convenient for manually polishing a workpiece is arranged on the front side of the saw blade and is in an inward concave state and is not in the same plane with the cutting edge of the saw blade, the intelligent cutting equipment further comprises a supporting frame, a driving component, a first limiting block, a first fixed block, a lifting component, a second fixed block and a third fixed block, the supporting frame is connected with the supporting frame, the supporting frame is connected with the cutting machine in a sliding mode, a driving component is arranged on the supporting frame, a plurality of first limiting blocks are connected onto the driving component, a plurality of limiting grooves are formed in the fixing seat, a first fixed block is connected into each limiting groove in a damping sliding mode, a second fixed block used for fixing the workpiece is connected into each limiting groove in a sliding mode, and each limiting block is connected with the corresponding third fixed block in a sliding mode, and the first limiting block is connected with the corresponding damping block and the third fixed block is fixedly connected with the supporting frame.

The invention also comprises a protective cover and spray pipes, wherein a plurality of protective covers are fixedly connected to the bearing frame, the saw blade is positioned between the two adjacent protective covers, the saw blade is provided with a housing, a plurality of spray pipes for spraying cooling liquid are fixedly connected to the inside of the housing, and each spray pipe is connected with an external pump.

According to the preferred technical scheme, each first fixing block is provided with a clamping part, each third fixing block is provided with a clamping groove, and each clamping part can be clamped in the adjacent clamping groove.

As a preferable technical scheme of the invention, each first limiting block is made of rubber.

The invention also provides a second limiting block, wherein the driving assembly is connected with the second limiting block for limiting the rotation of the first limiting block in a damping way, each second limiting block is provided with a plurality of first convex parts, and each second limiting block is provided with a plurality of second convex parts.

The invention also comprises a connecting plate and an extrusion block, wherein the second fixed block positioned in front is connected with the connecting plate in a damping sliding way, and each connecting plate is connected with the extrusion block for fixing a workpiece in a damping rotation way.

As a preferable technical scheme of the invention, a rubber layer is arranged on one side of each extrusion block facing the saw blade.

The invention also comprises a pulley, wherein two pulleys which are bilaterally symmetrical and used for adjusting the polishing angle of the workpiece are rotationally connected to the second fixed block positioned in front, the connecting plate is connected with the adjacent pulley, and the pulley positioned at the left is elastically connected with the second fixed block through a spring.

The invention also comprises a bearing plate, wherein the bearing frame is provided with a plurality of bearing plates at the front side, and all bearing plates are connected in a sliding way.

The invention also comprises a power piece, wherein the power piece is fixedly connected in each third fixed block, the power piece is an electric push rod, and the telescopic end of each power piece is fixedly connected with the adjacent second fixed block.

The invention has the beneficial effects that the cooling liquid is sprayed between the saw blade and the workpiece through the spray pipe, so that the temperature of a workpiece cutting area and the temperature of the saw blade are reduced, the thermal damage of the workpiece and the saw blade are reduced, and meanwhile, the sprayed cooling liquid can carry out dust fall treatment on generated dust, prevent the dust from overflowing outwards, obstruct the sight of workers and avoid influencing the cutting;

The first fixing block, the second fixing block, the third fixing block and the bearing frame are matched with each other to drive the cutting surface of the workpiece to move up and down on the frosted surface on the saw blade, so that the workpiece is polished, a grinder is not required to be additionally used for manually polishing the workpiece, the construction space is saved, the use convenience of equipment is improved, the construction efficiency is ensured, and the safety of a construction site is ensured;

The extrusion block is propped against the front end of the workpiece, so that the clamping and fixing of the two ends of the workpiece are facilitated, the workpiece with different lengths is limited and fixed by the equipment, the workpiece is not required to be manually held for polishing and cutting, the damage to the hands of a worker caused by vibration generated in the polishing process of the workpiece is effectively avoided, and the convenience of equipment use and the safety of polishing operation are further improved;

The extrusion block drives the workpiece to synchronously rotate through the swinging connecting plate to carry out angle fine adjustment, so that the polishing operation on the cutting surface of the workpiece is realized, the polishing is ensured to be complete, and compared with the existing hand-held workpiece polishing, the workpiece polishing device has better stability and safety, and the polishing efficiency and effect are effectively improved;

the leftmost bearing plate is pulled forward, so that the three bearing plates gradually move forward to be misplaced, and the lower side of the workpiece is supported, so that the stability of the workpiece in the cutting and polishing process is improved, and the cutting and polishing effects of the workpiece are ensured.

Drawings

FIG. 1 is a schematic perspective view of an intelligent cutting device for glass mechanical manufacturing;

FIG. 2 is a schematic perspective view showing the combination of the first fixing block, the second fixing block and the supporting plate according to the present invention;

FIG. 3 is a schematic perspective view of a saw blade, a support frame and a first stop block assembly according to the present invention;

FIG. 4 is a sectional view of a combination holder and support frame of the present invention;

FIG. 5 is a schematic perspective view showing the combination of a first fixing block, a second fixing block and a third fixing block according to the present invention;

FIG. 6 is a workpiece holding state diagram of the present invention;

FIG. 7 is a schematic view of the present invention schematic diagram of the section of the workpiece;

FIG. 8 is a schematic diagram illustrating a second limiting block according to the present invention;

FIG. 9 is a cross-sectional view of a first stop block and mounting block combination of the present invention;

FIG. 10 is a schematic perspective view of a combination of a web, an extrusion block and a pulley according to the present invention;

FIG. 11 is a view showing the expanded state of the support plate of the present invention;

fig. 12 is a schematic perspective view of a power member according to the present invention.

The drawing is marked as 1-fixed seat, 1001-semicircular movable groove, 1002-limit groove, 1003-chute, 2-cutting machine, 2001-rotating shaft, 3-saw blade, 3001-frosted surface, 3002-housing, 4-bearing frame, 5-first limiting block, 6-first fixed block, 6001-clamping part, 7-second fixed block, 101-first driving piece, 102-mounting block, 10201-rotating shaft, 201-first movable block, 202-second driving piece, 203-second movable block, 204-third driving piece, 205-fourth driving piece, 301-third fixed block, 30101-clamping groove, 302-protective cover, 303-nozzle, 401-second limiting block, 40101-first convex part, 40102-second convex part, 501-connecting plate, 502-extrusion block, 503-pulley, 601-bearing plate and 602-power piece.

Detailed Description

The invention will now be described in more detail with reference to the drawings and specific examples, which are not intended to limit the invention thereto.

Example 1

1-7, An intelligent cutting device for glass machinery manufacturing comprises a fixed seat 1, a cutting machine 2 and a saw blade 3, wherein a semicircular movable groove 1001 is formed in the fixed seat 1, the cutting machine 2 is rotatably arranged on the fixed seat 1, a rotating shaft 2001 is arranged on the cutting machine 2, the circle center of the rotating shaft 2001 and the circle center of the semicircular movable groove 1001 are the same, the saw blade 3 is arranged on the cutting machine 2, a frosted surface 3001 is arranged on the front side of the saw blade 3, the frosted surface 3001 is in an inward concave state and is not in the same plane with the cutting edge of the saw blade 3, and the frosted surface 3001 does not influence normal cutting of a section bar in the cutting process of the saw blade 3;

The device comprises a supporting frame 4, a driving assembly, a first limiting block 5, a first fixed block 6, a lifting assembly, a second fixed block 7 and a third fixed block 301, wherein the supporting frame 4 is connected in a sliding manner in a semicircular movable groove 1001 of a fixed seat 1, the supporting frame 4 is connected with a cutting machine 2, the cutting machine 2 drives the supporting frame 4 to slide in the semicircular movable groove 1001, the driving assembly is arranged on the supporting frame 4, the driving assembly is connected with four first limiting blocks 5 distributed in a rectangular manner, the driving assembly drives the first limiting blocks 5 to move towards a workpiece so as to clamp and fix the workpiece, two limit grooves 1002 which are symmetrical in front and back are arranged on the fixed seat 1, the first fixed block 6 is connected in a damping sliding manner in each limit groove 1002, the second fixed block 7 is connected in a sliding manner in each limit groove 1002, the third fixed block 301 is connected in a damping sliding manner in each limit groove 1002 of the fixed seat 1, each third fixed block 301 is connected with the adjacent second fixed block 7, the lifting assembly is arranged on the fixed seat 1, and the supporting frame 4, the first fixed block 6 and the third fixed block 301 are connected with the lifting assembly through the lifting assembly and the lifting assembly to the lifting assembly and the lifting assembly is connected with the first fixed block 301.

The driving assembly comprises a first driving piece 101 and mounting blocks 102, four first driving pieces 101 are fixedly connected to the bearing frame 4, the first driving pieces 101 are electric push rods, the mounting blocks 102 are fixedly connected to the telescopic ends of the first driving pieces 101, each first limiting block 5 is connected with the adjacent mounting block 102, and the adjacent mounting blocks 102 and the first limiting blocks 5 are driven to move towards a workpiece through the first driving pieces 101, so that the workpiece is clamped and fixed.

The lifting assembly comprises a first movable block 201, a second driving piece 202, a second movable block 203, a third driving piece 204 and a fourth driving piece 205, wherein a sliding groove 1003 is formed in the front side of a fixed seat 1, the first movable block 201 is connected to the sliding groove 1003 in a sliding mode, the second driving piece 202 is fixedly connected to the first movable block 201 and is an electric push rod, the telescopic end of the second driving piece 202 is fixedly connected with an adjacent first fixed block 6 through a round rod, the second movable block 203 is connected to the sliding groove 1003 in a sliding mode, the third driving piece 204 is fixedly connected to the second movable block 203 and is an electric push rod, the telescopic end of the third driving piece 204 is fixedly connected with an adjacent third fixed block 301 through a round rod, the third fixed block 301 and the second fixed block 7 are driven to move up and down through the third driving piece 204, two fourth driving pieces 205 which are bilaterally symmetrical are fixedly connected to the inside the fixed seat 1, the fourth driving piece 205 is an electric push rod, the telescopic end of the fourth driving piece 205 is fixedly connected with a supporting frame 4, the supporting frame 4 is in a sliding mode and is connected with a cutting machine 2, and all the first limiting blocks 101 and the first limiting blocks and the second limiting blocks 101 are driven to move up and down through the fourth driving pieces 4.

The novel saw blade comprises a supporting frame 4, a supporting frame 302 and spray pipes 303, wherein the supporting frame 4 is fixedly connected with the two protective covers 302, a saw blade 3 is positioned between the two adjacent protective covers 302, the left side and the right side of the saw blade 3 are covered by the two protective covers 302 which are arranged left and right, so that scraps generated in the cutting process are collected, sputtering is reduced, the use safety of equipment is improved, a housing 3002 is arranged on the saw blade 3, a plurality of spray pipes 303 are fixedly connected inside the housing 3002, and each spray pipe 303 is connected with an external pump.

Each first fixing block 6 is provided with a clamping part 6001, each third fixing block 301 is provided with a clamping groove 30101, and each clamping part 6001 can be clamped in the adjacent clamping groove 30101, so that workpieces with different widths can be fixed and limited, and the convenience and adaptability of equipment use are improved.

Each first limiting block 5 is made of rubber, so that the first limiting blocks 5 are in flexible contact with the workpiece, and excessive extrusion on the surface of the workpiece is avoided when the first limiting blocks 5 fix the workpiece, so that the workpiece is deformed.

The working steps of the embodiment are as follows:

In the existing construction site operation process, when long or short sectional materials are cut, the existing cutting equipment is difficult to manually fix and operate, meanwhile, the danger coefficient is high, stability of the sectional materials in the cutting process is difficult to guarantee, and the cutting precision is poor.

Therefore, when cutting, the strip-shaped workpiece is horizontally placed on the supporting frame 4 according to the cutting requirement, the position to be cut of the workpiece is moved to the position right below the saw blade 3 according to the cutting length requirement, then all the first driving parts 101 are controlled to drive the adjacent first limiting blocks 5 to move to one side of the workpiece until the first limiting blocks 5 are tightly attached to the workpiece, further clamping and fixing are carried out on the left side and the right side of the workpiece, meanwhile, the first fixing blocks 6 positioned in front are manually pushed to move rightwards, so that the first fixing blocks 6 move towards the front end of the workpiece until the first fixing blocks 6 are attached to the left side surface of the front end of the workpiece, then the third fixing blocks 301 positioned in front are pushed to move leftwards until the left side surface of the third fixing blocks 301 are attached to the right side surface of the front end of the workpiece, and the lower side surface of the second fixing blocks 7 are attached to the upper side surface of the front end of the workpiece, as shown in fig. 6, and the first fixing blocks 6 and the third fixing blocks 301 positioned in front are mutually close to each other, and the first fixing blocks 6 and the third fixing blocks 301 are in front of damping connection with the limiting grooves 1002, and the first fixing blocks 6 and the first fixing blocks 7 and the first fixing blocks 7 are fixedly arranged.

After the workpiece is fixed, the cutting machine 2 is started, the saw blade 3 is rotated to cut the workpiece below until the workpiece is cut off by the saw blade 3, then the cutting machine 2 is lifted upwards manually, the saw blade 3 returns to the initial position, then the first driving piece 101 is controlled to drive the adjacent first limiting block 5 to move towards the side far away from the workpiece, the first limiting block 5 is not used for clamping and fixing the workpiece, the first fixing block 6 and the third fixing block 301 are moved, the first fixing block 6 and the third fixing block 301 are not used for fixing and limiting the workpiece, the steps are repeated, and the workpiece to be cut next is placed on the fixing seat 1, so that the workpiece is cut.

In the cutting process, many fragments and dust impurities can be generated, the sight of workers can be shielded, the cutting effect is affected, meanwhile, the fragments can be sputtered onto the bodies of workers, workers are scalded, part of door and window profiles are rubbed with the surfaces of the workpieces at high speed, a large amount of heat is generated, abrasion of the saw blade 3 is accelerated, in order to solve the problems, when the workpieces are cut, the left side and the right side of the saw blade 3 are protected through the protective cover 302, so that the fragments are prevented from being sputtered onto the bodies of the workers, the safety of equipment use is improved, meanwhile, an external pump is started in the cutting process, cooling liquid is introduced into the spray pipe 303, finally sprayed between the saw blade 3 and the workpieces by the spray pipe 303, thereby reducing the temperature of the workpiece cutting area and the temperature of the saw blade 3, reducing the thermal damage of the workpieces and the saw blade 3, simultaneously spraying cooling liquid is used for dust-reducing the generated dust, preventing the workers from overflowing outwards, preventing the sight from being influenced by cutting.

Considering that the widths of different door and window profiles are different, when the first fixing block 6 and the third fixing block 301 are manually pushed to enable the first fixing block 6, the third fixing block 301 and the second fixing block 7 to be close to each other to fix the front end of a workpiece, as shown in fig. 5, the clamping portion 6001 of the first fixing block 6 can be inserted into the clamping groove 30101 of the adjacent third fixing block 301, so that the door and window profiles with different widths are fixed and limited, and the convenience and the adaptation of equipment are improved.

Further, when the cutting surface of the workpiece is not a vertical surface, that is, when the cutting angle of the saw blade 3 needs to be adjusted as shown in fig. 7, the center of the rotation shaft 2001 and the center of the semicircular movable groove 1001 are the same point, so that the cutter 2 can be moved in the semicircular movable groove 1001 by manually swinging the cutter 2, and the angle of the saw blade 3 can be adjusted, so that the workpiece with different sections can be cut.

And after the work piece cutting is accomplished, need abrasive machine to polish its cutting surface to improve work piece surface quality, avoid cutting edge fish tail workman simultaneously, guarantee safety, but abrasive machine is bulky, carries inconveniently, and to narrow and small job site, use abrasive machine to polish the work piece will increase workman's the operation degree of difficulty and danger.

After the workpiece is cut into the required length, the cutting machine 2 is manually rotated, as shown in fig. 1, the saw blade 3 and the bearing frame 4 are parallel to the sliding groove 1003 of the fixing seat 1, then the cutting machine 2 is pressed downwards, so that the saw blade 3 is positioned in the bearing frame 4, as shown in fig. 6, then the cut workpiece is placed between the first limiting block 5, the first fixing block 6, the third fixing block 301 and the second fixing block 7 which are positioned in front, the fixing operation steps are repeated, the first limiting block 5, the first fixing block 6, the third fixing block 301 and the second fixing block 7 fix and limit the workpiece, at the moment, the cutting surface of the workpiece is attached to the abrasive surface 3001 of the saw blade 3, then the cutting machine 2 is started, the abrasive surface 3001 on the saw blade 3 is rotated, meanwhile, the second driving piece 202, the third driving piece 204 and the fourth driving piece 205 are controlled to respectively drive the adjacent first fixing block 6, the third fixing block 301, the second fixing block 7 and the frame 4 to move up and down slowly and in a short distance, namely, the workpiece is cut on the surface of the support frame 4 in a non-contact range, so that the abrasive surface of the saw blade 3 and the bearing frame 4 are ensured to move, the workpiece is not to be in contact with the abrasive surface, the construction efficiency is guaranteed, and the manual work is guaranteed, and the work efficiency is convenient to be carried out, and the work is guaranteed, and the work and the site work efficiency is guaranteed to be free from being and convenient.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 2 and 8-12, the device further comprises a second limiting block 401, each mounting block 102 is rotatably connected with a rotating shaft 10201, each first limiting block 5 is fixedly connected with an adjacent rotating shaft 10201, each rotating shaft 10201 is connected with the second limiting block 401 in a damping mode, two first protruding portions 40101 are arranged on each second limiting block 401 and are clamped with the adjacent mounting blocks 102, two second protruding portions 40102 are arranged on each second limiting block 401, and each second protruding portion 40102 is embedded with the adjacent rotating shaft 10201.

The device also comprises a connecting plate 501 and extrusion blocks 502, wherein the connecting plate 501 is connected to the second fixed block 7 positioned in front in a damping sliding manner, and the extrusion blocks 502 are connected to each connecting plate 501 in a damping rotation manner.

Each extrusion block 502 is provided with a rubber layer towards one side of the saw blade 3, so that workpieces and the extrusion blocks 502 are tightly attached, friction between the workpieces and the extrusion blocks 502 is increased, and stability of the workpieces in the polishing process is further improved.

The pulley is characterized by further comprising a pulley 503, wherein two bilaterally symmetrical pulleys 503 are rotatably connected to the second fixed block 7 positioned in front, the connecting plate 501 is connected with the adjacent pulleys 503, and the pulley 503 positioned in the left is elastically connected with the second fixed block 7 through a spring.

The bearing frame comprises a bearing frame body 4, and is characterized by further comprising bearing plates 601, wherein three bearing plates 601 are arranged on the upper front side of the bearing frame body 4, and all bearing plates 601 are connected in a sliding mode.

The device further comprises power pieces 602, wherein each third fixing block 301 is fixedly connected with the power piece 602, the power pieces 602 are electric push rods, the telescopic end of each power piece 602 is fixedly connected with the adjacent second fixing block 7, and the power pieces 602 drive the adjacent second fixing blocks 7 to move up and down, so that workpieces with different heights are fixed, and the adaptability of the device is further improved.

The working procedure of this embodiment is:

When the workpiece is cut, part of the workpiece is different in length according to the design requirement, when the length of the workpiece is smaller than the distance between the supporting frame 4 and the first fixed block 6, namely, the first fixed block 6 and the third fixed block 301 which are positioned in front of the workpiece are not capable of fixing and limiting the front end of the workpiece, the front end of the workpiece is required to be manually held for cutting and polishing, but vibration generated in the cutting and polishing processes of the workpiece is required to cause different degrees of damage to the hands of a worker when the front end of the workpiece is manually held for cutting and polishing, safety risks exist, the workpiece cannot be stably limited and fixed, convenience and safety of equipment use are further improved, after the rear side of the workpiece is clamped and fixed through the first limiting block 5, the connecting plate 501 is manually pushed backwards, the extrusion block 502 is gradually close to the front end face of the workpiece until the front end face of the extrusion block 502 is attached to the front end of the workpiece, the extrusion block 502 is enabled to abut against the front end of the workpiece, and the front side of the connecting plate 501 is only required to be manually pressed, so that the workpiece is not required to be manually held and fixed for clamping the two ends of the workpiece, the workpiece is further convenient to limit and fix the workpieces of different lengths, the workpiece is manually held and the workpiece is not required to be manually held and fixed, the workpiece is effectively and the workpiece is cut and polished, the convenience and the vibration is prevented from being damaged.

When the workpiece is polished, in order to prevent the corner position of the cutting surface from scratching workers, the corner position of the cutting surface of the workpiece also needs to be polished together, and when the length of the workpiece is short, the manual holding of the workpiece is high in polishing danger coefficient and poor in stability, therefore, when the shorter workpiece is polished, after the rear side surface of the workpiece is attached to the frosted surface 3001, the first convex part 40101 is synchronously separated from the mounting block 102, the first limiting block 5 can smoothly rotate, then the front side of the connecting plate 501 is manually held, and the connecting plate 501 is swung by taking the top down as a reference, so that the connecting plate 501 rotates by taking the center position between the two pulleys 503 as a rotation point.

In order to further improve the stability of the workpiece in the cutting and polishing process, for the workpiece with shorter length, the leftmost supporting plate 601 is pulled forward, so that the three supporting plates 601 gradually move forward to be dislocated, as shown in fig. 11, the lower side of the workpiece is supported, the stability of the workpiece in the cutting and polishing process is improved, and the cutting and polishing effects of the workpiece are ensured.

It is to be understood that the above description is intended to be illustrative only and is not intended to be limiting. Those skilled in the art will appreciate variations of the present invention that are intended to be included within the scope of the claims herein.

Claims (10)

1. The intelligent cutting equipment for the glass mechanical manufacturing is characterized by comprising a fixed seat (1), a cutting machine (2) and a saw blade (3), wherein a semicircular movable groove (1001) is formed in the fixed seat (1), the cutting machine (2) is rotatably arranged on the fixed seat (1), a rotating shaft (2001) is arranged on the cutting machine (2), the circle center of the rotating shaft (2001) and the circle center of the semicircular movable groove (1001) are the same, the saw blade (3) is arranged on the cutting machine (2), the front side of the saw blade (3) is provided with a frosting surface (3001) which is convenient for manually polishing a workpiece, the frosting surface (3001) is in an inward concave state and is not in the same plane with the cutting edge of the saw blade (3), the intelligent cutting equipment further comprises a supporting frame (4), a driving component, a first limiting block (5), a lifting component, a second fixing block (7) and a third fixing block (301), a frame (4) which is used for supporting the workpiece and is in sliding connection in the semicircular movable groove (1001) of the fixed seat (1), the supporting frame (4) is connected with the cutting machine (2), the supporting frame (4) is in a mode, the supporting component (4) is provided with a plurality of limiting blocks which are connected with the driving components, the device comprises a first limiting block (5) driven by a driving assembly to move, a plurality of limiting grooves (1002) are formed in a fixed base (1), a first fixing block (6) is connected in each limiting groove (1002) in a damping sliding mode, a second fixing block (7) used for fixing a workpiece is connected in each limiting groove (1002) in a sliding mode, a third fixing block (301) is connected in each limiting groove (1002) of the fixed base (1) in a damping sliding mode, each third fixing block (301) is connected with the adjacent second fixing block (7), a lifting assembly is mounted on the fixed base (1), and a supporting frame (4), the first fixing block (6) and the third fixing block (301) are connected with the lifting assembly.

2. The intelligent cutting equipment for glass mechanical manufacturing according to claim 1 is characterized by further comprising a protective cover (302) and spray pipes (303), wherein a plurality of protective covers (302) are fixedly connected to the supporting frame (4), the saw blade (3) is located between two adjacent protective covers (302), a housing (3002) is arranged on the saw blade (3), a plurality of spray pipes (303) for spraying cooling liquid are fixedly connected to the interior of the housing (3002), and each spray pipe (303) is connected with an external pump.

3. The intelligent cutting device for glass mechanical manufacturing according to claim 1 is characterized in that clamping portions (6001) are arranged on each first fixing block (6), clamping grooves (30101) are formed in each third fixing block (301), and each clamping portion (6001) can be clamped in the adjacent clamping groove (30101).

4. The intelligent cutting device for glass mechanical manufacturing according to claim 1, wherein each first limiting block (5) is made of rubber.

5. The intelligent cutting equipment for glass mechanical manufacturing is characterized by further comprising second limiting blocks (401), wherein the second limiting blocks (401) used for limiting rotation of the first limiting blocks (5) are connected to the driving assembly in a damping mode, a plurality of first protruding portions (40101) are arranged on each second limiting block (401), and a plurality of second protruding portions (40102) are arranged on each second limiting block (401).

6. The intelligent cutting device for glass mechanical manufacturing according to claim 1, further comprising a connecting plate (501) and an extrusion block (502), wherein the connecting plate (501) is connected to the second fixed block (7) located in front in a damping sliding manner, and the extrusion block (502) used for fixing a workpiece is connected to each connecting plate (501) in a damping rotation manner.

7. The intelligent cutting device for glass mechanical manufacturing according to claim 6, wherein each extrusion block (502) is provided with a rubber layer towards the saw blade (3).

8. The intelligent cutting equipment for glass mechanical manufacturing according to claim 6 is characterized by further comprising a pulley (503), wherein two pulleys (503) which are bilaterally symmetrical and used for adjusting the polishing angle of a workpiece are rotatably connected to the second fixed block (7) positioned in front, the connecting plate (501) is connected with the adjacent pulleys (503), and the pulley (503) positioned in the left is elastically connected with the second fixed block (7) through a spring.

9. The intelligent cutting equipment for glass mechanical manufacturing according to claim 1 is characterized by further comprising bearing plates (601), wherein a plurality of bearing plates (601) are arranged on the upper front side of the bearing frame (4), and all the bearing plates (601) are in sliding connection.

10. The intelligent cutting equipment for glass mechanical manufacturing of claim 1, further comprising power pieces (602), wherein each third fixing block (301) is fixedly connected with the power piece (602), the power pieces (602) are electric push rods, and the telescopic end of each power piece (602) is fixedly connected with the adjacent second fixing block (7).