CN111559017B - Energy-conserving glass processing cutting device suitable for not unidimensional - Google Patents

Abstract

The invention discloses an energy-saving glass processing and cutting device suitable for different sizes, which comprises a work table, a cutting device positioned on the work table and a size limiting structure positioned on the work table, wherein the work table is provided with a plurality of cutting devices; the working table comprises a cutting table, wherein a glass push rod sliding groove is formed in the cutting table, embedded sliding grooves are formed in two sides of the glass push rod sliding groove in the middle of the cutting table, the distance between a sliding limiting block and a disc cutting knife is adjustable, the end part of glass leans against the sliding limiting block, the purpose of processing glass with different sizes is achieved, the glass with the same model is continuously processed, elastic potential energy is added to a tension spring when the disc cutting knife is fed through the arrangement of the disc cutting knife, the elastic potential energy finally provides power to enable the disc cutting knife to reset, meanwhile, the elastic potential energy provides power to enable a vertical bar to push out the glass to be processed into a glass inclined storage groove, the multi-polarization use of energy is achieved, and the problem brought forward in the background technology is solved.

Description

Energy-conserving glass processing cutting device suitable for not unidimensional

Technical Field

The invention relates to a glass processing device, in particular to an energy-saving glass processing and cutting device suitable for different sizes.

Background

The glass is formed by fusing silica and other chemical substances (the main production raw materials are soda ash, limestone and quartz). Forming a continuous network structure when melted, gradually increasing in viscosity during cooling and hardening the silicate-based non-metallic material which causes crystallization thereof. The main component is silicate double salt, which is amorphous solid with a random structure. The light-transmitting composite material is widely applied to buildings, is used for isolating wind and transmitting light, and belongs to a mixture. Colored glass in which an oxide or salt of a certain metal is mixed to develop a color, tempered glass produced by a physical or chemical method, and the like are also available. Some transparent plastics, such as polymethylmethacrylate, are sometimes also referred to as plexiglas. However, in the process of glass cutting, the pure mechanical semi-automatic glass processing and cutting device used in small-sized private enterprises measures glass manually and then cuts the glass in the using process, so that the labor force is greatly increased, and the working efficiency is low.

Disclosure of Invention

The invention aims to provide an energy-saving glass processing and cutting device suitable for different sizes so as to solve the problems in the background technology.

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

an energy-saving glass processing and cutting device suitable for different sizes comprises a work table, a cutting device positioned on the work table and a size limiting structure positioned on the work table;

the working table comprises a cutting table, a glass push rod chute is arranged on the cutting table, embedded chutes are arranged on two sides of the glass push rod chute in the middle of the cutting table, a slide block is arranged in the glass push rod chute, the slide block is connected with the glass push rod chute in a sliding manner, side slide blocks are fixedly arranged on two sides of the slide block, the embedded chutes are correspondingly arranged on the side slide blocks, a through hole slide block vertically penetrates through the interior of the slide block, a cutting groove is arranged on one side of the glass push rod chute, the cutting groove is parallel to the glass push rod chute, a first fixing lug is fixedly arranged at the bottom end of one side of the cutting table, four support legs which are arranged in a matrix manner are arranged at the bottom end of the cutting table, two support legs and the cutting groove are positioned on the same vertical plane, a connecting rod is connected between the two support legs positioned on the same vertical plane and the cutting groove, and a fixed block is fixedly arranged in the middle of the connecting rod, guide rod fixing blocks are fixedly arranged on the upper surfaces of the fixing blocks close to the two sides, and two horizontal and parallel guide rods are connected between the support legs and the guide rod fixing blocks which are positioned on the same side;

the cutting device comprises a disc cutting knife positioned in a cutting groove, the disc cutting knife is positioned right above a fixed block, a ratchet hole is arranged in the middle of the disc cutting knife in a penetrating manner, a plurality of inclined tooth grooves which are arranged at equal intervals in the circumference are formed in the edge of the ratchet hole, a rotating shaft is arranged in the ratchet hole, a plurality of tooth clamping grooves which are arranged at equal intervals in the circumference wall of the rotating shaft are formed in the circumference wall of the rotating shaft, inclined spring block clamping grooves are formed in the clamping tooth grooves, rotating holes are formed in the side walls of the two ends of each clamping groove, fixed columns are respectively and fixedly arranged at the two ends of the rotating shaft, gear shafts are fixedly arranged at the end parts of the fixed columns, elastic plates are embedded in the spring block clamping grooves, rotating clamping plates are arranged in the clamping tooth grooves, clamping plate rotating shafts are respectively and fixedly arranged at the two ends of one side of the rotating clamping plates, the clamping plate rotating shafts are positioned in the rotating holes and rotatably connected with the rotating shafts, and the ratchet holes of the disc cutting knife are matched to form a ratchet structure, the rotating shaft can do anticlockwise rotation motion relative to the disc cutting knife, but the clockwise rotation of the rotating shaft drives the disc cutting knife to rotate, a fixed column at one side far away from the glass push rod chute is fixedly sleeved with a first driving wheel, two sides of the disc cutting knife are fixedly provided with guide rail parts, the guide rail parts are fixedly connected with the cutting table, one side of each guide rail part close to the other guide rail part is provided with a closed guide rail, the outer side wall of one part of each guide rail is fixedly provided with a meshing tooth, the meshing tooth is meshed with the gear teeth on the gear shaft, the upper end of the fixed block is provided with a motor, the output shaft of the motor is fixedly provided with a second driving wheel, two guide rods positioned at the same side are provided with loosening parts, the loosening parts are in sliding connection with the guide rods corresponding to the positions, each loosening part comprises an L-shaped sliding block, two sliding holes are arranged at the positions of the L-shaped sliding block close to the bottom end, and the two guide rods respectively pass through the sliding holes corresponding to the positions, the fixed two drive wheel fixed blocks that are equipped with in side on the top of elasticity piece, be equipped with the third drive wheel between two drive wheel fixed blocks, rotate between third drive wheel and the drive wheel fixed block and be connected, the cover is equipped with thrust spring on the guide arm between elasticity piece and the guide arm fixed block, be connected with the drive belt on first drive wheel and two third drive wheels and the second drive wheel, one side of pivot is equipped with automatic ejecting member, automatic ejecting member includes vertical strip, the top of vertical strip is located the through-hole slider and vertical guide block sliding connection, the bottom mounting of vertical strip is equipped with the removal cover, remove the ways and locate on the fixed column of keeping away from first drive wheel one side, the fixed ear that is equipped with of one side of removal cover, be connected with tension spring between the fixed ear of second and the first fixed ear.

As a further scheme of the cutting table, two mutually parallel limiting block sliding grooves are formed in the cutting table, a fixed limiting block is fixedly arranged on one side of each limiting block sliding groove and is parallel to the limiting block sliding groove, a strip-shaped groove is horizontally formed in the fixed limiting block, and a scale mark is arranged on the fixed limiting block below the strip-shaped groove, so that the size limiting structure is convenient to install.

As a further scheme of the invention, the glass push rod sliding groove is vertical to the limiting block sliding groove, so that the size limiting structure is convenient to mount.

As a further scheme of the invention, the cutting groove is positioned on one side of the glass push rod sliding groove far away from the limiting block sliding groove, so that the structure is convenient to adapt and mount.

As a further scheme of the invention, the size limiting structure comprises a sliding limiting block, sliding blocks are fixedly arranged at positions, close to two sides, of the bottom end of the sliding limiting block, the sliding blocks are located in a limiting block sliding groove, fixed stop blocks are fixedly arranged on two sides of the bottom end of the sliding block, the fixed stop blocks are located at the bottom end of a cutting table, the sliding limiting block can be conveniently slid, and the distance between the sliding limiting block and a disc cutting knife can be adjusted, so that glass with different sizes can be processed.

As a further scheme of the invention, one end of the sliding limiting block is fixedly provided with a compression fixing column, the compression fixing column penetrates out of the strip-shaped groove, the end part of the compression fixing column penetrating out of the strip-shaped groove is provided with a thread, a compression part is sleeved on the part of the compression fixing column penetrating out of the strip-shaped groove, the compression part comprises a grinding sleeve, one side of the grinding sleeve, which is close to the fixed limiting block, is fixedly provided with a compression disc, a through hole penetrates through the middle of the compression part, the compression fixing column, which is far away from one side of the sliding limiting block, of the compression part is sleeved with a spring, the end part of the compression fixing column is provided with a thread sleeve, and the thread sleeve is in threaded connection with the compression fixing column, so that the sliding limiting block can be fixed conveniently.

As a further scheme of the invention, one end of the cutting table, which is far away from the fixed limiting block, is provided with a glass inclined storage groove which is inclined downwards, so that the glass formed by processing can be stored conveniently.

As a further scheme of the invention, the bottom end of one side of the sliding limiting block, which is close to the cutting device, is provided with a plurality of rollers which are linearly arranged at equal intervals, and the bottom end of each roller is provided with a circular truncated cone structure, so that the friction between the glass and the cutting table is eliminated, and the glass which is processed and molded is conveniently pushed into the glass inclined storage groove by matching with the vertical strips.

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

according to the invention, the distance between the sliding limiting block and the disc cutting knife is adjustable, the end part of the glass is leaned against the sliding limiting block, the processing of the glass with different sizes is realized, the continuous processing of the glass with the same model is realized, the disc cutting knife is arranged, the elastic potential energy is added to the tension spring when the disc cutting knife feeds, the elastic potential energy finally provides power to loose the disc cutting knife and reset the disc cutting knife, meanwhile, the elastic potential energy provides power to enable the vertical bar to push the processed glass into the inclined glass storage groove, the multi-polarization use of energy is realized, and the technical problems provided in the technical background are solved.

Drawings

Fig. 1 is a schematic structural diagram of an energy-saving glass processing and cutting device suitable for different sizes.

Fig. 2 is a schematic structural diagram of a work table suitable for use in energy-saving glass processing and cutting devices of different sizes.

Fig. 3 is a schematic structural diagram of an energy-saving glass processing and cutting device suitable for different sizes, which is shown at a position A in fig. 2.

FIG. 4 is a schematic view of a glass push rod chute for use in energy-saving glass cutting devices of different sizes.

Fig. 5 is a schematic structural diagram of a size limiting structure in an energy-saving glass processing and cutting device suitable for different sizes.

Fig. 6 is a schematic structural diagram of a cutting device suitable for different sizes of energy-saving glass processing and cutting devices.

Fig. 7 is an exploded view of a cutting device suitable for use in energy-saving glass working cutting devices of different sizes.

Fig. 8 is a schematic structural diagram of a disc cutter in an energy-saving glass processing and cutting device suitable for different sizes.

Fig. 9 is a schematic diagram of a structure at B in fig. 8, which is suitable for energy-saving glass processing and cutting devices with different sizes.

Fig. 10 is a schematic structural diagram of a rotating shaft in an energy-saving glass processing and cutting device suitable for different sizes.

FIG. 11 is a cross-sectional view of a rotating shaft in an energy-saving glass working and cutting apparatus suitable for different sizes.

Fig. 12 is a schematic structural diagram of an automatic ejection member suitable for use in energy-saving glass processing and cutting apparatuses of different sizes.

Fig. 13 is a schematic structural diagram of a guide rail member suitable for different sizes of energy-saving glass processing and cutting devices.

Fig. 14 is a schematic view of a clamping member for use in an energy efficient glass-working cutting apparatus of various sizes.

In the figure: a work table 1; a cutting table 11; a stopper slide groove 111; a fixed stopper 112; a strip groove 113; scale lines 114; a glass push rod chute 115; a chute 1151 is embedded; a slider 1152; a vertical guide block 11520; side slides 11521; a through hole slider 11522; a cutting groove 116; a glass inclined storage tank 117; a first fixing lug 12; legs 13; a connecting rod 131; a fixed block 132; a guide rod fixing block 133; a guide rod 134;

a cutting device 2; a disc cutter 21, a ratchet hole 211; an inclined gullet 212; a rotating shaft 213; a latch groove 2131; spring block catch 21311; a swivel hole 21312; a fixing post 2132; gear shaft 21321; an elastic plate 2133; the snap-gauge 2134 is rotated; cardboard pivot 21341; a first drive wheel 2135; a rail member 22; a guide rail 221; the meshing teeth 222; a motor 23; a second transmission wheel 231; a tightening member 24; an L-shaped slider 241; a slide hole 242; a driving wheel fixing block 243; a third drive wheel 244; a thrust spring 245; a drive belt 246; an automatic ejector 25; a vertical bar 251; a moving sleeve 252; a second fixing lug 253; a tension spring 26;

a size limiting structure 3; a slide stopper 31; a slider 311; a fixed stop 312; the pressing fixing column 32; threads 321; a pressing member 33; a sanding cover 331; a pressing disk 332; raised embossments 3321; a through hole 333; a spring 34; a threaded sleeve 35; a roller 36; the circular truncated cone 361.

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.

Referring to fig. 1 to 14, in an embodiment of the present invention, an energy saving glass processing and cutting device suitable for different sizes includes a work table 1, a cutting device 2 located on the work table 1, and a size limiting structure 3 located on the work table 1;

the work table 1 comprises a cutting table 11, a glass push rod chute 115 is arranged on the cutting table 11, embedded chutes 1151 are respectively arranged on two sides of the glass push rod chute 115 in the middle of the cutting table 11, a slide block 1152 is arranged inside the glass push rod chute 115, the slide block 1152 is in sliding connection with the glass push rod chute 115, side slide blocks 11521 are respectively fixedly arranged on two sides of the slide block 1152, the embedded chutes 1151 are correspondingly arranged on the side slide blocks 11521, through hole slide blocks 11522 are vertically arranged inside the slide blocks 1152 in a penetrating manner, a cutting groove 116 is arranged on one side of the glass push rod chute 115, the cutting groove 116 is parallel to the glass push rod chute 115, a first fixing lug 12 is fixedly arranged at the bottom end of one side of the cutting table 11, four support legs 13 which are arranged in a matrix manner are arranged at the bottom end of the cutting table 11, wherein two support legs 13 are arranged on the same vertical plane with the cutting groove 116, and a connecting rod 131 is connected between the two support legs 13 which are arranged on the same vertical plane with the cutting groove 116, a fixed block 132 is fixedly arranged in the middle of the connecting rod 131, guide rod fixed blocks 133 are fixedly arranged on the upper surfaces of the fixed blocks 132 close to the two sides, and two horizontal and parallel guide rods 134 are connected between the support legs 13 on the same side and the guide rod fixed blocks 133;

the cutting device 2 comprises a disc cutting knife 21 positioned in a cutting groove 116, the disc cutting knife 21 is positioned right above a fixed block 132, a ratchet hole 211 is arranged in the middle of the disc cutting knife 21 in a penetrating manner, a plurality of inclined tooth grooves 212 which are arranged at equal intervals in the circumference are arranged at the edge of the ratchet hole 211, a rotating shaft 213 is arranged in the ratchet hole 211, a plurality of tooth clamping grooves 2131 which are arranged at equal intervals in the circumference wall of the rotating shaft 213 are arranged on the circumference wall of the rotating shaft 213, inclined spring block clamping grooves 21311 are arranged in the tooth clamping grooves 2131, rotating holes 21312 are arranged on the side walls of the two ends of the tooth clamping grooves 2131, fixed columns 2132 are arranged at the two ends of the rotating shaft 213, a gear shaft 21321 is fixedly arranged at the end part of the fixed column 2132, an elastic plate 2133 is embedded in the spring block clamping grooves 21311, a rotating clamping plate 2134 is arranged in the tooth grooves 2131, a clamping plate rotating shaft 21341 is fixedly arranged at the two ends of one side of the rotating plate 2134, the clamping plate 21341 is positioned in the rotating hole 21312 and is connected with the rotating shaft 213213 in a rotating manner, it is worth to be noted that, the rotating shaft 213 cooperates with the ratchet hole 211 of the disc cutter 21 to form a ratchet structure, the rotating shaft 213 can rotate counterclockwise relative to the disc cutter 21, but the clockwise rotation of the rotating shaft 213 drives the disc cutter 21 to rotate, the fixing column 2132 at the side far away from the glass push rod chute 115 is fixedly sleeved with the first driving wheel 2135, both sides of the disc cutter 21 are fixedly provided with the guide rail member 22, the guide rail member 22 is fixedly connected with the cutting table 11, one side of the guide rail member 22 close to the other guide rail member 22 is provided with the closed guide rail 221, the outer side wall of a part of the guide rail 221 is fixedly provided with the engaging tooth 222, the engaging tooth 222 is engaged with the gear teeth on the gear shaft 21321, the upper end of the fixing block 132 is provided with the motor 23, the output shaft of the motor 23 is fixedly provided with the second driving wheel 231, the loosening members 24 are provided on the two guide rods 134 at the same side, the loosening members 24 are slidably connected with the guide rods 134 at corresponding positions, the tightening part 24 comprises an L-shaped slider 241, two sliding holes 242 are arranged at the position, close to the bottom end, of the L-shaped slider 241 in a penetrating manner, two guide rods 134 respectively penetrate through the sliding holes 242 corresponding to the positions, two driving wheel fixing blocks 243 are fixedly arranged at the side edge of the top end of the tightening part 24, a third driving wheel 244 is arranged between the two driving wheel fixing blocks 243, the third driving wheel 244 is rotatably connected with the driving wheel fixing blocks 243, a thrust spring 245 is sleeved on the guide rod 134 between the tightening part 24 and the guide rod fixing blocks 133, a first driving wheel 2135, the two third driving wheels 244 and the second driving wheel 231 are connected with a driving belt 246, an automatic pushing-out part 25 is arranged at one side of the rotating shaft 213, the automatic pushing-out part 25 comprises a vertical bar 251, the top end of the vertical bar 251 is positioned in a through hole 11522 and is slidably connected with a vertical guide block 11520, a moving sleeve 252 is fixedly arranged at the bottom end of the vertical bar 251, the moving sleeve 252 is sleeved on a fixed column 2132 at the side far away from the first driving wheel 2135, a second fixing lug 253 is fixedly arranged on one side of the moving sleeve 252, and a tension spring 26 is connected between the second fixing lug 253 and the first fixing lug 12.

It should be noted that, two ends of the guide rail 221 are semi-arc structures protruding outwards, and the engaging teeth 222 are distributed on the semi-arc structures on the outer wall of the guide rail 221 and at the bottom side of the outer wall of the guide rail 221, so as to facilitate the circular movement of the disc cutter 21.

In this embodiment, two mutually parallel stopper chutes 111 are provided on the cutting table 11, one side of the stopper chute 111 is fixedly provided with a fixed stopper 112, the fixed stopper 112 is parallel to the stopper chute 111, the upper level of the fixed stopper 112 is provided with a strip-shaped groove 113, and the fixed stopper 112 below the strip-shaped groove 113 is provided with a scale mark 114, so as to facilitate installation of the size limit structure 3.

Further, the glass push rod sliding groove 115 is perpendicular to the limiting block sliding groove 111, so that the size limiting structure 3 can be conveniently installed.

It is noted that the cutting groove 116 is located on a side of the glass push rod sliding groove 115 away from the stopper sliding groove 111, which facilitates the adaptive installation of the structure.

Besides, size limit structure 3 is including sliding stopper 31, and the position that sliding stopper 31 bottom is close to both sides all fixes and is equipped with slider 311, and slider 311 is located stopper spout 111, and the both sides of slider 311's bottom are all fixed and are equipped with fixed dog 312, and fixed dog 312 is located the bottom of cutting bed 11, and the sliding stopper 31 of being convenient for adjusts the distance between sliding stopper 31 and the disc cutting knife 21 to process out not unidimensional glass.

More deep, the fixed column 32 that is equipped with of slide stopper 31 one end, it wears out strip groove 113 to compress tightly fixed column 32, the tip that compresses tightly fixed column 32 and wears out strip groove 113 is equipped with screw thread 321, it is equipped with and compresses tightly piece 33 to compress tightly the partial cover that the fixed column 32 wore out strip groove 113, it includes dull polish cover 331 to compress tightly piece 33, dull polish cover 331 is close to one side of fixed stopper 112 and is fixed to be equipped with and compresses tightly dish 332, it runs through-hole 333 to compress tightly the piece 33 in the middle of, it is equipped with spring 34 to compress tightly the piece 33 and keep away from compressing tightly on the fixed column 32 that slide stopper 31 one side is overlapped, the tip that compresses tightly fixed column 32 is equipped with thread bush 35, thread bush 35 and compress tightly threaded connection between the fixed column 32, be convenient for fix slide stopper 31.

It is worth to be noted that the side surface of the pressing disc 332 close to the fixed stopper 112 is provided with a protruding embossing 3321, so as to increase the friction force between the pressing disc 332 and the fixed stopper 112, and facilitate the fixing of the sliding stopper 31.

In this example, one end of the cutting table 11 away from the fixed limiting block 112 is provided with a glass inclined storage slot 117 inclined downwards, so as to store the glass formed by machining.

It should be noted that a baffle is disposed on a side of the glass inclined storage slot 117 away from the cutting table 11 to prevent the formed glass from sliding off the glass inclined storage slot 117.

In this embodiment, the bottom end of the sliding limiting block 31 close to the cutting device 2 side is provided with a plurality of rollers 36 arranged at equal intervals, and the bottom end of the roller 36 is provided with a round platform 361 structure, so as to eliminate the friction between the glass and the cutting table 11, and facilitate the matching of the vertical bar 251 to push the glass formed by processing into the glass inclined storage groove 117.

The working principle of the invention is as follows: holding the pressing member 33 by hand, pulling the pressing member 33 in a direction away from the fixed stopper 112 to separate the pressing disc 332 from the extrusion with the fixed stopper 112, then moving the sliding stopper 31 along the stopper chute 111 in accordance with the scale mark 114, adjusting the distance between the sliding stopper 31 and the disc cutter 21, thereby realizing the processing of the glass with different sizes, then drawing one side of the unprocessed strip-shaped glass close to the fixed stopper 112, and the end of the unprocessed strip-shaped glass abuts against the sliding stopper 31. it should be noted that the end of the unprocessed strip-shaped glass is tilted and lapped on the circular truncated cone 361, at the beginning, the disc cutter 21 is located at the left side of the cutting groove 116, the gear shaft 21321 is located at the inner position of the upper end of the left side of the guide rail 221, then starting the motor 23, the output shaft of the motor 23 rotates clockwise, thereby driving the second driving wheel 231 to rotate, the second driving wheel 231 drives the first driving wheel 2135 to rotate through the driving belt 246, the rotation of the first driving wheel 2135 drives the rotating shaft 213 to rotate clockwise, the rotating snap plate 2134 rotates along the snap plate rotating shaft 21341 under the elastic force of the elastic plate 2133, so that the rotating snap plate 2134 is spread outwards, the rotating snap plate 2134 is clamped on the inclined tooth slot 212 of the ratchet hole 211, so that the rotating shaft 213 drives the disc cutter 21 to rotate, meanwhile, the gear shaft 21321 rotates clockwise along the rotating shaft 213, the gear shaft 21321 rotating clockwise is meshed with the meshing teeth 222, the gear shaft 21321 moves anticlockwise in the closed guide rail 221 along the direction of the meshing teeth 222, the disc cutter 21 moves to the right side to complete the cutting of the glass, when the gear shaft 21321 moves to the upper end of the right side of the guide rail 221, no meshing teeth 222 are meshed with the gear shaft 21321, at this time, the motor 23 stops working, and the first driving wheel 2135 stops rotating quickly under the connection resistance of each driving structure, the rotation shaft 213 and the gear shaft 21321 are stopped from rotating quickly, at this moment, under the action of the pulling force of the tension spring 26, the automatic ejector 25 drives the rotation shaft 213 and the first driving wheel 2135 to move to the left along the cutting groove 116, and the gear shaft 21321 moves to the inside of the upper end of the left side of the guide rail 221 along the direction of the guide rail 221;

meanwhile, while the first driving wheel 2135 moves following the disc cutter 21, the distance between the first driving wheel 2135 and the latch groove 2131 is constantly changed, and during this process, the driving belt 246 bypasses the first driving wheel 2135, the two third driving wheels 244 and the second driving wheel 231, as shown in fig. 1: under the pushing force of the pushing spring 245, the tightening element 24 is forced in both directions, so that the third driving wheel 244 tensions the driving belt 246, and the driving belt 246 always has a driving effect.

In the process of cutting to the left at the disc cutting knife 21, the vertical strip 251 is below the upper surface of the cutting table 11 when being collected, when the disc cutting knife 21 moves back, the rotating shaft 213 moves to the upper end of the guide rail 221, so as to drive the vertical strip 251 to move upwards to extend out of the upper surface of the cutting table 11, and the glass formed by machining is pushed into the inclined glass storage groove 117.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. The utility model provides an energy-conserving glass processing cutting device suitable for not unidimensional, includes work table (1), is located cutting device (2) on work table (1) and is located size limit structure (3) on work table (1), its characterized in that:

the working table (1) comprises a cutting table (11), a glass push rod sliding groove (115) is formed in the cutting table (11), embedded sliding grooves (1151) are formed in two sides of the glass push rod sliding groove (115) in the middle of the cutting table (11), a sliding block (1152) is arranged inside the glass push rod sliding groove (115), the sliding block (1152) is in sliding connection with the glass push rod sliding groove (115), side sliding blocks (11521) are fixedly arranged on two sides of the sliding block (1152), the side sliding blocks (11521) are correspondingly located in the embedded sliding grooves (1151), through hole sliding blocks (11522) vertically penetrate through the inside of the sliding block (1152), a cutting groove (116) is formed in one side of the glass push rod sliding groove (115), the cutting groove (116) is parallel to the glass push rod sliding groove (115), a first fixing lug (12) is fixedly arranged at the bottom end of one side of the cutting table (11), four support legs (13) are arranged in a matrix manner are arranged at the bottom end of the cutting table (11), the two support legs (13) and the cutting groove (116) are positioned on the same vertical surface, a connecting rod (131) is connected between the two support legs (13) positioned on the same vertical surface and the cutting groove (116), a fixing block (132) is fixedly arranged in the middle of the connecting rod (131), guide rod fixing blocks (133) are fixedly arranged at positions, close to two sides, of the upper surface of the fixing block (132), and two horizontal and parallel guide rods (134) are connected between the support legs (13) positioned on the same side and the guide rod fixing blocks (133);

the cutting device (2) comprises a disc cutting knife (21) positioned in a cutting groove (116), the disc cutting knife (21) is positioned right above a fixed block (132), a ratchet hole (211) penetrates through the middle of the disc cutting knife (21), a plurality of inclined tooth grooves (212) which are arranged at equal intervals in the circumference are formed in the edge of the ratchet hole (211), a rotating shaft (213) is arranged in the ratchet hole (211), a plurality of clamping tooth grooves (2131) which are arranged at equal intervals in the circumference are formed in the circumferential wall of the rotating shaft (213), inclined spring block clamping grooves (21311) are formed in the clamping tooth grooves (2131), rotating holes (21312) are formed in the side walls of two ends of each clamping tooth groove (2131), fixing columns (2132) are fixedly arranged at two ends of the rotating shaft (213), gear shafts (21321) are fixedly arranged at the end parts of the fixing columns (2132), elastic plates (2133) are embedded in the spring block clamping tooth grooves (21311), and rotating clamping plates (2134) are arranged in the clamping tooth grooves (2131), the two ends of one side of a rotating clamping plate (2134) are fixedly provided with a clamping plate rotating shaft (21341), the clamping plate rotating shaft (21341) is positioned in a rotating hole (21312) and is rotationally connected with a rotating shaft (213), a first driving wheel (2135) is fixedly sleeved on a fixing column (2132) on one side far away from a glass push rod sliding chute (115), two sides of a disc cutting knife (21) are fixedly provided with guide rail parts (22), the guide rail parts (22) are fixedly connected with a cutting table (11), one side of each guide rail part (22) close to the other guide rail part (22) is provided with a closed guide rail (221), the outer side wall of one part of each guide rail (221) is fixedly provided with a meshing tooth (222), the meshing teeth (222) are meshed with the gear teeth on a gear shaft (21321), the upper end of a motor (23) is arranged at the upper end of the fixing block (132), a second driving wheel (231) is fixedly arranged on the output shaft of the motor (23), two guide rods (134) on the same side are provided with loosening parts (24), the loosening element (24) is in sliding connection with the guide rods (134) corresponding to the positions, the loosening element (24) comprises an L-shaped sliding block (241), two sliding holes (242) are formed in the positions, close to the bottom end, of the L-shaped sliding block (241) in a penetrating mode, the two guide rods (134) penetrate through the sliding holes (242) corresponding to the positions respectively, two driving wheel fixing blocks (243) are fixedly arranged on the side edge of the top end of the loosening element (24), a third driving wheel (244) is arranged between the two driving wheel fixing blocks (243), the third driving wheel (244) is in rotating connection with the driving wheel fixing blocks (243), a thrust spring (245) is sleeved on the guide rod (134) between the loosening element (24) and the guide rod fixing blocks (133), a first driving wheel (2135), the two third driving wheels (244) and a second driving wheel (231) are connected with a driving belt (246), an automatic pushing element (25) is arranged on one side of a rotating shaft (213), automatic ejecting piece (25) include vertical strip (251), the top of vertical strip (251) is located in through-hole slider (11522) and vertical guide block (11520) sliding connection, the bottom mounting of vertical strip (251) is equipped with and removes cover (252), remove cover (252) cover locate keep away from on first drive wheel (2135) one side fixed column (2132), one side of removing cover (252) is fixed to be equipped with fixed ear of second (253), be connected with tension spring (26) between fixed ear of second (253) and the fixed ear of first (12).

2. The energy-saving glass processing and cutting device suitable for different sizes according to claim 1, wherein two mutually parallel limiting block sliding grooves (111) are formed in the cutting table (11), a fixed limiting block (112) is fixedly arranged on one side of each limiting block sliding groove (111), the fixed limiting block (112) is parallel to the limiting block sliding grooves (111), a strip-shaped groove (113) is horizontally formed in the fixed limiting block (112), and scale lines (114) are arranged on the fixed limiting block (112) below the strip-shaped groove (113).

3. The energy-saving glass processing and cutting device applicable to different sizes according to claim 2, wherein the glass push rod sliding chute (115) and the limiting block sliding chute (111) are perpendicular to each other.

4. The energy-saving glass processing and cutting device suitable for different sizes according to claim 3, wherein the size limiting structure (3) comprises a sliding limiting block (31), sliding blocks (311) are fixedly arranged at positions, close to two sides, of the bottom end of the sliding limiting block (31), the sliding blocks (311) are located in a limiting block sliding groove (111), fixed stop blocks (312) are fixedly arranged on two sides of the bottom end of each sliding block (311), and the fixed stop blocks (312) are located at the bottom end of the cutting table (11).

5. The energy-saving glass processing and cutting device suitable for different sizes according to claim 4, wherein one end of the sliding limiting block (31) is fixedly provided with a pressing fixing column (32), the pressing fixing column (32) penetrates through the strip-shaped groove (113), the end part of the pressing fixing column (32) penetrating through the strip-shaped groove (113) is provided with a thread (321), the part of the pressing fixing column (32) penetrating through the strip-shaped groove (113) is sleeved with a pressing piece (33), the pressing piece (33) comprises a sanding sleeve (331), one side of the sanding sleeve (331) close to the fixing limiting block (112) is fixedly provided with a pressing disc (332), the middle of the pressing piece (33) is provided with a through hole (333) in a penetrating manner, the pressing fixing column (32) on one side of the pressing piece (33) far away from the sliding limiting block (31) is sleeved with a spring (34), and the end part of the pressing fixing column (32) is provided with a thread sleeve (35), the threaded sleeve (35) is in threaded connection with the pressing fixing column (32).

6. The energy-saving glass processing and cutting device applicable to different sizes as claimed in claim 1, wherein one end of the cutting table (11) far away from the fixed limiting block (112) is provided with a glass inclined storage groove (117) which is inclined downwards.

7. The energy-saving glass processing and cutting device suitable for different sizes according to claim 5, wherein the bottom end of the sliding limiting block (31) close to the cutting device (2) is provided with a plurality of rollers (36) which are arranged linearly and equidistantly, and the bottom end of each roller (36) is provided with a circular truncated cone (361) structure.

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