CN112209610A - Energy-saving and environment-friendly mechanical cutting circular glass equipment - Google Patents

Abstract

The invention discloses energy-saving and environment-friendly equipment for mechanically cutting round glass, which comprises a cutting bin, wherein a through groove is formed in the side surface of the cutting bin, a glass sheet to be cut is connected with the cutting bin in a sliding mode through the through groove, a supporting frame is fixedly connected to the top of the cutting bin, a through hole is formed in the upper surface of the supporting frame, a first rotating shaft is connected with the supporting frame in a limiting and rotating mode through the through hole, a rectangular hole is formed in the top of the first rotating shaft, a rectangular rod is connected with the first rotating shaft in a limiting and sliding mode through the rectangular hole, and the surface, close to the. According to the invention, through the matching use of the structures, the problems that in the actual use process, most workers use the glass cutter to cut manually in the traditional round glass processing process, time and labor are wasted, the production efficiency is low, certain potential safety hazards exist, the production cost is high, the cutting accuracy is low, and inconvenience is brought to use.

Description

Energy-saving and environment-friendly mechanical cutting circular glass equipment

Technical Field

The invention relates to the technical field of processing equipment, in particular to energy-saving and environment-friendly equipment for mechanically cutting circular glass.

Background

Glass is widely used as an industrial product, the types of glass are extremely various, particularly circular glass, the glass is frequently required to be cut in the processing process of manufacturing the circular glass, the existing technology is that workers use a glass cutter to cut the glass manually, the cutting mode is labor-consuming, the production efficiency is low, certain safety and hidden trouble exist, the production cost is high, and the cutting accuracy is low, so that a circular glass device is provided.

Disclosure of Invention

The invention aims to provide energy-saving and environment-friendly equipment for mechanically cutting round glass, which has the advantages of automatic feeding, cutting, waste treatment and the like and solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides an energy-concerving and environment-protective type circular glass equipment of mechanical cutting, includes the cutting storehouse, the side in cutting storehouse has been seted up and has been led to the groove and has been waited to cut the glass piece through leading to groove sliding connection, the top fixedly connected with support frame in cutting storehouse, the upper surface of support frame has been seted up the through-hole and has been connected with pivot one through the spacing rotation of through-hole, the rectangular hole has been seted up and has the rectangular pole through the spacing sliding connection in rectangular hole in the top of pivot one, the last sliding surface who waits to cut the glass piece has the cutting sleeve, the surface that is close to the bottom on the rectangular pole runs through the telescopic upper surface.

A first conical gear is fixedly connected to the surface of the first rotating shaft close to the top, a first pressure spring is sleeved on the surface of the rectangular rod, two ends of the first pressure spring are movably connected with the opposite surfaces of the first rotating shaft and the cutting sleeve, a second conical gear is meshed on the left side of the first conical gear, the inner wall of the second conical gear is fixedly connected with a second rotating shaft, the left side of the cutting bin is in up-down limit sliding connection with a crushing box, the lower surface of the crushing box is fixedly connected with a connecting arm, the bottom of the connecting arm is fixedly connected with a motor, the bottom of the second rotating shaft is fixedly connected with the top of an output shaft on the motor, the surface of the second rotating shaft penetrates through the bottom of the crushing box and is in limited rotary connection with the crushing box, the surface of the second rotating shaft is fixedly connected with a crushing roller, the cutting bin is internally provided with a receiving and discharging device, and the right side of the cutting bin is provided with a feeding device.

Preferably, accept discharging device and include drive arm and spacing gliding loading board from top to bottom in the cutting storehouse, the last fixed surface of loading board is connected with the foam-rubber cushion, the lower fixed surface of loading board is connected with pressure spring two, the side fixedly connected with electro-magnet that is close to the bottom on the cutting storehouse, the side fixedly connected with touch delay switch who is close to the bottom on the cutting storehouse, the bottom of pressure spring two and the bottom fixed connection of cutting storehouse inner wall, the logical groove of ejection of compact has been seted up on the right side that is close to the bottom on the cutting storehouse, the vertical section that leans on the right side on the drive arm runs through the lower surface in cutting storehouse and with the spacing sliding connection in cutting storehouse, keep away from the one end in cutting storehouse and the lower fixed surface who smashes the box on the drive.

Preferably, the feeding device comprises a supporting frame fixedly connected with the frame, a toothed plate is connected to the inner wall of the supporting frame in a limiting and sliding manner, a pressure spring III is fixedly connected to the left side of the toothed plate, a pressure plate is fixedly connected to the left end of the pressure spring III, the front side of the pressure plate is fixedly connected with the inner wall of the supporting frame, teeth on the toothed plate are meshed with a non-complete gear, a rotating shaft III is fixedly connected to the inner wall of the non-complete gear, the surface of the rotating shaft III penetrates through the front side of the supporting frame and is rotatably connected with the supporting frame, a conical gear III is fixedly connected to the surface of the rotating shaft III, which is close to the front end, a power engagement device is meshed with the surface of the conical gear III, a telescopic sleeve is fixedly connected to the rear side of the toothed plate, a telescopic rod is slidably connected to the inner wall of the telescopic sleeve, a through, the bottom of the inner wall of the supporting frame is provided with a guide groove, the inner wall of the guide groove is in sliding connection with the bottom of the guide rod, and the rear end of the telescopic rod is fixedly connected with a fixing device.

Preferably, fixing device includes the piston barrel, the piston barrel is controlled spacing slip in the carriage, the inlet port has been seted up to the upper surface of piston barrel, the inner wall limit sliding connection of piston barrel has the piston, the through-hole has been seted up and has been connected with the air check valve through-hole fixed connection to the rear end of piston barrel, the through-hole has been seted up and has been passed through hole fixedly connected with air duct to the upper surface that is close to the rear end on the piston barrel, the fixed surface who keeps away from the one end of piston barrel on the air duct is connected with the rubber seal sleeve, the last one end of keeping away from the air duct of rubber seal sleeve with wait to cut the surperficial swing joint.

Preferably, power links up the device and includes conical gear four with the three meshing of conical gear, conical gear four's inner wall fixedly connected with pivot four, the surperficial fixedly connected with conical gear five that is close to the bottom in the pivot four, conical gear five's left side meshing has conical gear six, conical gear six's inner wall fixedly connected with pivot five, the lower fixed surface in cutting storehouse is connected with the mount, the surface of mount is run through by pivot four and pivot five and is connected with the five spacing rotations in pivot four and pivot, the surperficial fixedly connected with conical gear seven that is close to the left end in pivot five, the surperficial fixedly connected with conical gear eight that is close to the bottom in the pivot two.

Preferably, the bottom of the rectangular rod is fixedly connected with a limiting disc.

Preferably, the bottom of the inner wall of the crushing box is arranged in an inclined plane, and the right side is higher than the left side.

Preferably, a through hole is formed in the lower surface, close to the left side, of the crushing box, and a material guide pipe is fixedly connected with the through hole.

Compared with the prior art, the invention has the following beneficial effects: according to the glass cutting machine, the cutting bin is fixedly arranged on the machine frame, a glass sheet to be cut enters the cutting bin through the through groove on the side face of the cutting bin, and the cutting of circular glass on the glass sheet to be cut is completed in the cutting bin through the cutting sleeve which continuously rotates;

as shown in the figure, the motor is powered on, the output shaft on the motor drives the rotating shaft II to rotate, the conical gear II drives the conical gear I and the rotating shaft I to rotate in a limiting way on the supporting frame, because the rectangular hole on the first rotating shaft is matched with the rectangular rod, the first rotating shaft can drive the rectangular rod to synchronously rotate, the cutting sleeve is driven to rotate by the rectangular rod, the fixed shaft rotation is carried out on the upper surface of the glass sheet to be cut through the bottom of the cutting sleeve, the circular polishing is continuously carried out on the upper surface of the glass sheet to be cut, under the action of the elastic force of the first pressure spring, the cutting sleeve can continue to extend downwards in the process of continuous polishing, further deepening the polishing trace, and finally cutting the round glass on the glass sheet to be cut through the cutting sleeve along with the continuous deepening of the polishing trace, so that the cutting process of the round glass is completed; the rotating shaft II drives the crushing roller to rotate, so that the glass falling into the crushing box is crushed, meanwhile, the glass to be cut is continuously fed from right to left, leftover materials on the cut glass can be contacted and collided with the rotating crushing roller in the left moving process, and are crushed and fall into the crushing box, and then the crushing operation is carried out;

through the arrangement of the receiving and discharging device, the cut glass can be safely received and transferred, and meanwhile, a power source rotating on the cutting sleeve is cut off, so that the waste of electric power energy is reduced;

through the arrangement of the feeding device, the glass sheet to be cut can be fed from right to left after the cutting sleeve stops rotating;

through the cooperation use between the above-mentioned structure, solved in the in-service use, because in traditional circular glass course of working, mostly use the glass sword to cut by hand for the workman, take time hard and production efficiency is low, still has certain potential safety hazard, and manufacturing cost is than higher to and the accuracy of cutting is than lower, brings inconvenience for the use.

Drawings

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

FIG. 2 is a front cross-sectional view of the cutting cartridge of the present invention;

FIG. 3 is a top view of the support frame of the present invention;

FIG. 4 is a cross-sectional view of the piston cylinder of FIG. 3 taken along direction AA in accordance with the present invention;

FIG. 5 is a view of the piston of FIG. 4 after movement of the piston cylinder in accordance with the present invention;

FIG. 6 is a top view of a rectangular bar of the present invention;

fig. 7 is a left side view of the support frame of the present invention.

In the figure: 1. cutting the bin; 2. a glass sheet to be cut; 3. a support frame; 4. a first rotating shaft; 5. A rectangular bar; 6. cutting the sleeve; 7. a first conical gear; 8. a first pressure spring; 9. a second conical gear; 10. a second rotating shaft; 11. a crushing box; 12. a connecting arm; 13. a motor; 14. a crushing roller; 15. a receiving and discharging device; 16. a feeding device; 17. a carrier plate; 18. a sponge cushion; 19. A second pressure spring; 20. an electromagnet; 21. a touch delay switch; 22. a discharge through groove; 23. a drive arm; 24. a support frame; 25. a toothed plate; 26. a third pressure spring; 27. pressing a plate; 28. a non-full gear; 29. a rotating shaft III; 30. a third bevel gear; 31. a power engagement device; 32. a telescoping sleeve; 33. a telescopic rod; 34. a guide bar; 35. a guide groove; 36. a fixing device; 37. a piston cylinder; 38. an air inlet; 39. a piston; 40. an air check valve; 41. an air duct; 42. sealing the rubber sleeve; 43. a bevel gear four; 44. a rotating shaft IV; 45. a fifth bevel gear; 46. a bevel gear six; 47. a fifth rotating shaft; 48. a fixed mount; 49. a bevel gear seven; 50. a bevel gear eight; 51. a limiting disc; 52. a material guide pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all 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 7, the present invention provides a technical solution: the utility model provides an energy-concerving and environment-protective type machinery cutting circular glass equipment, includes cutting storehouse 1, and cutting storehouse 1 links firmly with the equipment frame, and the side of cutting storehouse 1 has been seted up and has been led to the groove and has waited to cut glass piece 2 through leading to groove sliding connection, sets firmly in the frame through cutting storehouse 1, waits to cut glass piece 2 and gets into to cutting storehouse 1 in through leading to the groove on the side of cutting storehouse 1, treats cutting glass piece 2 and goes up circular glass's cutting through continuous pivoted cutting sleeve 6 completion in cutting storehouse 1.

Cutting storehouse 1's top fixedly connected with support frame 3, the through-hole has been seted up to the upper surface of support frame 3 and has been connected with pivot 4 through the spacing rotation of through-hole, rectangular hole has been seted up and has rectangular pole 5 through the spacing sliding connection in rectangular hole to the top of pivot 4, the last sliding connection of surface who waits to cut glass piece 2 has cutting sleeve 6, cutting sleeve 6's bottom comprises the diamond, and the edge is sharp-pointed, rotate through the dead axle and can accomplish circular glass's cutting waiting to cut glass piece 2. The surface of the rectangular rod 5 close to the bottom penetrates through the upper surface of the cutting sleeve 6 and is fixedly connected with the cutting sleeve 6;

the surface of the rotating shaft I4 close to the top is fixedly connected with a bevel gear I7, the surface of the rectangular rod 5 is sleeved with a pressure spring I8, two ends of the pressure spring I8 are movably connected with the opposite surfaces of the rotating shaft I4 and the cutting sleeve 6, the rotating shaft I4 can drive the rectangular rod 5 to synchronously rotate due to the matching of a rectangular hole in the rotating shaft I4 and the rectangular rod 5, the cutting sleeve 6 is driven to rotate by the rectangular rod 5, the upper surface of the glass sheet 2 to be cut is subjected to fixed-axis rotation through the bottom of the cutting sleeve 6, circular polishing is continuously carried out on the upper surface of the glass sheet 2 to be cut, the cutting sleeve 6 can continuously extend downwards in the continuous polishing process under the action of the elastic force of the pressure spring I8, further polishing marks are deepened, and finally circular glass is cut on the glass sheet 2 to be cut through the cutting sleeve 6 along with the continuous deepening of the polishing marks, thereby completing the cutting process of the circular glass.

The bottom fixedly connected with of rectangular pole 5 has spacing dish 51, through the setting of spacing dish 51 for rectangular pole 5 and cutting sleeve 6 move down the distance and obtain the restriction in 4 relative pivots, make to wait to cut glass piece 2 when carrying out the left side and move the pay-off, the transfer that can be smooth is to the bottom of cutting sleeve 6, carries out cutting operation afterwards.

A second bevel gear 9 is meshed with the left side of the first bevel gear 7, and the first bevel gear 7 and the first rotating shaft 4 are driven to rotate in a limiting manner on the support frame 3 through the second bevel gear 9; two inner wall fixedly connected with pivots 10 of two bevel gears 9, the spacing sliding connection has crushing box 11 about the left side of cutting storehouse 1, and the bottom of crushing box 11 inner wall is the inclined plane setting, and high left low in the right side, through the orientation setting of crushing box 11 inner wall for the glass crushed aggregates after smashing can concentrate on the position of leaning on left side department in crushing box 11.

The through hole is opened on the lower surface of crushing box 11 near the left side and the guide pipe 52 is fixedly connected through the through hole, and through the arrangement of the guide pipe 52, the crushed glass materials concentrated on the position near the left side in the crushing box 11 can be discharged, so that the accumulation of a large amount of glass scraps in the long-term use process is avoided.

The lower surface of the crushing box 11 is fixedly connected with a connecting arm 12, the bottom of the connecting arm 12 is fixedly connected with a motor 13, the bottom of the second rotating shaft 10 is fixedly connected with the top of an output shaft on the motor 13, so that the motor 13 is powered on, and the output shaft on the motor drives the second rotating shaft 10 to rotate; the surface of the second rotating shaft 10 penetrates through the bottom of the crushing box 11 and is connected with the crushing box 11 in a limiting and rotating mode, the crushing rollers 14 are fixedly connected to the surface of the second rotating shaft 10, the second rotating shaft 10 drives the crushing rollers 14 to rotate, the glass falling into the crushing box 11 is crushed, meanwhile, the glass sheets 2 to be cut are continuously fed from right to left, and leftover materials on the glass sheets 2 to be cut are crushed and fall into the crushing box 11 in a contact collision mode with the rotating crushing rollers 14 in the left moving process after being cut, and then the crushing operation is performed.

Be equipped with in the cutting storehouse 1 and accept discharging device 15, through the setting of accepting discharging device 15, can carry out safe accepting and shift to the glass after the cutting, cut off the last pivoted power supply of cutting sleeve 6 simultaneously, reduce the waste of the electric power energy.

Accept discharging device 15 and include drive arm 23 and the gliding loading board 17 of upper and lower spacing in cutting storehouse 1, the last fixed surface of loading board 17 is connected with foam-rubber cushion 18, the lower fixed surface of loading board 17 is connected with pressure spring two 19, the side fixed connection who is close to the bottom on cutting storehouse 1 has electro-magnet 20, the side fixedly connected with touch delay switch 21 that is close to the bottom on cutting storehouse 1, the bottom of pressure spring two 19 and the bottom fixed connection of cutting storehouse 1 inner wall, the logical groove 22 of ejection of compact has been seted up on the right side that is close to the bottom on cutting storehouse 1, the vertical section that leans on the right side on drive arm 23 runs through the lower surface of cutting storehouse 1 and with the spacing sliding connection in cutting storehouse 1, keep away from the one end in cutting storehouse 1 on drive arm 23 and the lower fixed surface of. The right side of the bearing plate 17 is provided with a skin-like material matched with the touch delay switch 21 for improving the sensitivity during touch.

When the cutting device is used, once the round glass is cut, the round glass falls on the upper surface of the sponge cushion 18, the bearing plate 17 slightly moves downwards after overcoming the elasticity of the second compression spring 19 due to the change of the weight on the bearing plate 17, the touch delay switch 21 on the inner wall of the cutting bin 1 is touched through the downward movement of the bearing plate 17, the electromagnet 20 is powered on, the electromagnet 20 generates downward attraction force on the bearing plate 17 made of ferrous metal after being powered on, the switch on the touch delay switch 21 has certain time delay after being powered on, the bearing plate 17 continuously moves downwards after overcoming the elasticity of the second compression spring 19, and when the rightmost part of the sponge cushion 18 descends to the vicinity of the discharge through groove 22, the round glass on the sponge cushion 18 can be transferred out of the cutting bin 1 along the inclined plane on the sponge cushion 18 through the discharge through groove 22, in the actual production process, a conveying belt can be arranged on the right side of the cutting bin 1, and the round glass which slides out is further transferred.

Meanwhile, the bearing plate 17 drives the transmission arm 23 to move downwards, the crushing box 11 synchronously drives the connecting arm 12, the motor 13, the rotating shaft II 10 and the bevel gear II 9 to move downwards through the transmission of the transmission arm 23, so that the bevel gear II 9 is in meshed contact with the bevel gear I7, the driving rotation of the bevel gear I7 by the bevel gear II 9 is released, the power of the cutting sleeve 6 disappears, and the rotation is gradually stopped.

The feeding device 16 is arranged on the right side of the cutting bin 1, and the feeding operation from right to left can be carried out on the glass sheet 2 to be cut after the cutting sleeve 6 stops rotating through the feeding device 16.

The feeding device 16 comprises a supporting frame 24 fixedly connected with a rack, a toothed plate 25 is connected to the inner wall of the supporting frame 24 in a limiting sliding manner, a pressure spring three 26 is fixedly connected to the left side of the toothed plate 25, a pressure plate 27 is fixedly connected to the left end of the pressure spring three 26, the front side of the pressure plate 27 is fixedly connected with the inner wall of the supporting frame 24, teeth on the toothed plate 25 are meshed with a non-complete gear 28, a rotating shaft three 29 is fixedly connected to the inner wall of the non-complete gear 28, the surface of the rotating shaft three 29 penetrates through the front side of the supporting frame 24 and is rotatably connected with the supporting frame 24, a conical gear three 30 is fixedly connected to the surface of the rotating shaft three 29 close to the front end, a power engagement device 31 is meshed to the surface of the conical gear three 30, a telescopic sleeve 32 is fixedly connected to the rear side of the toothed plate 25, a telescopic rod 33 is connected to the inner wall of the telescopic sleeve, the bottom of the inner wall of the supporting frame 24 is provided with a guide groove 35, the inner wall of the guide groove 35 is slidably connected with the bottom of the guide rod 34, and the rear end of the telescopic rod 33 is fixedly connected with a fixing device 36.

When the device is used, the fixed-shaft rotation of the bevel gear three 30, the rotating shaft three 29 and the incomplete gear 28 on the supporting frame 24 is realized through the power transmission of the power engagement device 31, when teeth on the incomplete gear 28 are meshed with teeth on the toothed plate 25, the toothed plate 25 can move leftwards after overcoming the elastic force of the compression spring three 26, when tooth surfaces on the incomplete gear 28 are separated from meshing contact with the toothed plate 25 along with the rotation, the toothed plate 25 can move rightwards and reset under the action of the elastic force of the compression spring three 26, and after the incomplete gear 28 rotates continuously, the toothed plate 25 can move leftwards and rightwards in the supporting frame 24 in a reciprocating manner;

the telescopic sleeve 32 can synchronously move left and right with the telescopic rod 33 through the transmission of the toothed plate 25, under the matching of the guide rod 34 and the guide groove 35, in the left moving process of the telescopic rod 33, the telescopic rod 33 can move forward relative to the telescopic sleeve 32 under the guide of the guide rod 34, and when the telescopic sleeve 32 drives the telescopic rod 33 to move right, the telescopic rod 33 can move backward relative to the telescopic sleeve 32. Therefore, when the telescopic sleeve 32 reciprocates left and right once along with the toothed plate 25, the telescopic rod 33 can move the glass sheet 2 to be cut left once under the cooperation of the fixing device 36, thereby realizing the feeding operation of the glass sheet 2 to be cut.

Fixing device 36 includes piston cylinder 37, piston cylinder 37 controls spacing slip in carriage 24, inlet port 38 has been seted up to piston cylinder 37's upper surface, the spacing sliding connection of inner wall of piston cylinder 37 has piston 39, the through-hole has been seted up to piston cylinder 37's rear end and has been connected with air check valve 40 through-hole fixed connection, the through-hole has been seted up and has been passed through-hole fixedly connected with air duct 41 to the upper surface that is close to the rear end on the piston cylinder 37, the fixed surface who keeps away from the one end of piston cylinder 37 on the air duct 41 is connected with sealed rubber sleeve 42, the one end of keeping away from air duct 41 on the sealed rubber sleeve 42 with the surperficial swing joint.

Specifically, as shown in fig. 3 and 4, when the telescopic sleeve 32 moves to the left, the telescopic rod 33 moves forward relative to the telescopic sleeve 32, and the piston cylinder 37 can only slide to the left and right in the support frame 24, so that the telescopic rod 33 can drive the piston 39 to move forward in the piston cylinder 37, in fig. 4, the telescopic rod 33 drives the piston 39 to move to the right, so that the left cavity of the piston cylinder 37 is in a negative pressure state, the negative pressure in the cavity of the piston cylinder 37 can be absorbed on the upper surface of the glass sheet 2 to be cut through the air duct 41 by the conduction of the air duct 41, the sealing performance of the connection between the air duct 41, the sealing rubber sleeve 42 and the glass sheet 2 to be cut is ensured through the sealing rubber sleeve 42, and after the absorption and fixation, the telescopic sleeve 32 continuously moves to the left in fig. 3, and passes through the telescopic rod 33, The piston 39, the gas guide tube 41 and the sealing rubber sleeve 42 are driven to synchronously move the glass sheet 2 to be cut leftwards in the figure 3, so that the feeding step is completed; as shown in fig. 5, when the piston 39 moves to the state shown in fig. 5, the negative pressure environment in the cavity of the piston cylinder 37 is released, the suction fixing of the sealing rubber sleeve 42 to the glass sheet 2 to be cut is released, and when the telescopic sleeve 32 carries the telescopic rod 33 and the piston cylinder 37 to move to the right as shown in fig. 3, the glass sheet 2 to be cut does not move to the right synchronously with the telescopic rod 33, so that the feeding operation is completely performed. In the process of moving right, the telescopic rod 33 can drive the piston 39 to move backwards in the piston cylinder 37, and under the matching of the air one-way valve 40, air in the cavity at the rear end of the piston cylinder 37 can be discharged, so that the construction of a subsequent negative pressure environment is facilitated.

The power connecting device 31 comprises a conical gear four 43 meshed with a conical gear three 30, the inner wall of the conical gear four 43 is fixedly connected with a rotating shaft four 44, the surface of the rotating shaft four 44, which is close to the bottom, is fixedly connected with a conical gear five 45, the left side of the conical gear five 45 is meshed with a conical gear six 46, the inner wall of the conical gear six 46 is fixedly connected with a rotating shaft five 47, the lower surface of the cutting bin 1 is fixedly connected with a fixing frame 48, the surface of the fixing frame 48 is penetrated by the rotating shaft four 44 and the rotating shaft five 47 and is in limited rotary connection with the rotating shaft four 44 and the rotating shaft five 47, the surface of the rotating shaft five 47, which is close to the left end, is fixedly connected with a conical gear seven 49, and the surface of.

When the device is used, along with the falling of the round glass on the glass sheet 2 to be cut after cutting, the bearing plate 17 drives the crushing box 11 to synchronously move downwards through the transmission arm 23, so that the conical gear eight 50 on the rotating shaft II 10 is in meshed contact with the conical gear seven 49 along with the downward movement, and is driven by the rotation of the conical gear eight 50 to carry out limiting rotation on the fixing frame 48 with the conical gear seven 49 and the rotating shaft five 47, and the conical gear four 43 smoothly drives the conical gear three 30 to continuously rotate through the transmission of the conical gear six 46, the conical gear five 45 and the rotating shaft four 44, so that the continuous rotation of the rotating shaft three 29 and the incomplete gear 28 in the supporting frame 24 is realized; in the actual use process, the on-off time of the circuit is prolonged after the touch delay switch 21 is turned on, so that the time duration just enables the incomplete gear 28 to rotate for a circle and the toothed plate 25 to reciprocate leftwards and rightwards once, the glass sheet 2 to be cut is moved leftwards once, and one feeding operation is completed. In fig. 1, the support frame 24 is not provided in a cross section for easy understanding, the support frame 24 is shown in a front view in fig. 1, and the cutting magazine 1 and the like located on the left side portion are shown in a front cross-sectional view.

The working principle is as follows: when the energy-saving and environment-friendly mechanical circular glass cutting equipment is used, the cutting bin 1 is fixedly arranged on a machine frame, a glass sheet 2 to be cut enters the cutting bin 1 through a through groove on the side surface of the cutting bin 1, and the cutting of circular glass on the glass sheet 2 to be cut is finished in the cutting bin 1 through a cutting sleeve 6 which rotates continuously; as shown in fig. 1, a motor 13 is powered on, an output shaft thereon drives a rotating shaft two 10 to rotate, a bevel gear two 9 drives a bevel gear one 7 and a rotating shaft one 4 to rotate on a support frame 3 in a limiting manner, due to the matching of a rectangular hole on the rotating shaft one 4 and a rectangular rod 5, the rotating shaft one 4 can drive the rectangular rod 5 to rotate synchronously, a cutting sleeve 6 is driven to rotate by the rectangular rod 5, the upper surface of a glass sheet 2 to be cut is subjected to fixed-axis rotation by the bottom of the cutting sleeve 6, circular polishing is continuously performed on the upper surface of the glass sheet 2 to be cut, the cutting sleeve 6 can continuously extend downwards in the continuous polishing process under the action of the elastic force of a pressure spring one 8, further polishing marks are deepened, and finally circular glass is cut on the glass sheet 2 to be cut by the cutting sleeve 6 along with the continuous deepening of the polishing marks, thereby completing the cutting process of the round glass; the second rotating shaft 10 drives the crushing roller 14 to rotate, so that the glass falling into the crushing box 11 is crushed, meanwhile, the glass sheet 2 to be cut is continuously fed from right to left, and after being cut, leftover materials on the glass sheet 2 to be cut can be in contact with and collide with the rotating crushing roller 14 in the left moving process, are crushed and fall into the crushing box 11, and then are crushed; by the arrangement of the receiving and discharging device 15, the cut glass can be safely received and transferred, and meanwhile, a power source rotating on the cutting sleeve 6 is cut off, so that the waste of electric power energy is reduced; through the setting of feed arrangement 16, can treat to cut glass piece 2 after cutting sleeve 6 stall and carry out the pay-off operation from the right side left, use through the cooperation between the above-mentioned structure, solved in the in-service use, because in traditional circular glass course of working, mostly the workman uses the glass sword to cut by hand, waste time and energy and production efficiency low, still have certain potential safety hazard, manufacturing cost is than higher, and the accuracy of cutting is lower, the problem of inconvenience is brought for the use.

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

Claims (8)

1. The utility model provides an energy-concerving and environment-protective type mechanical cutting circular glass equipment which characterized in that: the glass sheet cutting device comprises a cutting bin (1), wherein a through groove is formed in the side face of the cutting bin (1) and is connected with a glass sheet (2) to be cut in a sliding mode through the through groove, a supporting frame (3) is fixedly connected to the top of the cutting bin (1), a through hole is formed in the upper surface of the supporting frame (3) and is connected with a first rotating shaft (4) in a limiting and rotating mode through the through hole, a rectangular hole is formed in the top of the first rotating shaft (4) and is connected with a rectangular rod (5) in a limiting and sliding mode through the rectangular hole, a cutting sleeve (6) is connected to the upper surface of the glass sheet (2) to be cut in a sliding mode, and the surface, close to the bottom, of the rectangular rod;

the utility model discloses a grinding machine, including pivot one (4), rectangle pole (5), both ends of pressure spring one (8), pivot one (4), the fixed surface that is close to the top be connected with bevel gear (7), the surface cover of rectangle pole (5) has pressure spring one (8), the opposite face swing joint of both ends and pivot one (4) and cutting sleeve (6) of pressure spring one (8), the left side meshing of bevel gear one (7) has bevel gear two (9), the inner wall fixed connection of bevel gear two (9) has pivot two (10), the spacing sliding connection has crushing box (11) about the left side of cutting storehouse (1), the lower fixed surface that smashes box (11) is connected with linking arm (12), the bottom fixed connection of linking arm (12) has motor (13), the top fixed connection of output shaft on the bottom of pivot two (10) and motor (13), the surface of pivot two (10) runs through the bottom of smashing box (11) and is connected with crushing box (11) spacing rotation, the surface of the second rotating shaft (10) is fixedly connected with a crushing roller (14), a receiving and discharging device (15) is arranged in the cutting bin (1), and a feeding device (16) is arranged on the right side of the cutting bin (1).

2. The energy-saving and environment-friendly mechanical circular glass cutting equipment as claimed in claim 1, wherein: the receiving and discharging device (15) comprises a transmission arm (23) and a bearing plate (17) which is limited and slides up and down in the cutting bin (1), a sponge cushion (18) is fixedly connected to the upper surface of the bearing plate (17), a second pressure spring (19) is fixedly connected to the lower surface of the bearing plate (17), an electromagnet (20) is fixedly connected to the side surface of the cutting bin (1) close to the bottom, a touch delay switch (21) is fixedly connected to the side surface of the cutting bin (1) close to the bottom, the bottom of the second pressure spring (19) is fixedly connected with the bottom of the inner wall of the cutting bin (1), a discharging through groove (22) is arranged on the right side of the cutting bin (1) close to the bottom, the vertical section near the right side of the transmission arm (23) penetrates through the lower surface of the cutting bin (1) and is in limit sliding connection with the cutting bin (1), one end of the transmission arm (23) far away from the cutting bin (1) is fixedly connected with the lower surface of the crushing box (11).

3. The energy-saving and environment-friendly mechanical circular glass cutting equipment as claimed in claim 1, wherein: the feeding device (16) comprises a supporting frame (24) fixedly connected with a rack, a toothed plate (25) is connected to the inner wall of the supporting frame (24) in a limiting sliding mode, a pressure spring three (26) is fixedly connected to the left side of the toothed plate (25), a pressing plate (27) is fixedly connected to the left end of the pressure spring three (26), the front side of the pressing plate (27) is fixedly connected with the inner wall of the supporting frame (24), a non-complete gear (28) is meshed with teeth on the toothed plate (25), a rotating shaft three (29) is fixedly connected to the inner wall of the non-complete gear (28), the surface of the rotating shaft three (29) penetrates through the front side of the supporting frame (24) and is rotatably connected with the supporting frame (24), a conical gear three (30) is fixedly connected to the surface, close to the front end, a power device (31) is meshed with the surface of the conical gear three (30), and a telescopic sleeve (32) is fixedly connected to the rear side of the toothed plate (25), the inner wall sliding connection of telescope tube (32) has telescopic link (33), the through-hole has been seted up and has been passed through-hole fixedly connected with guide bar (34) to the upper surface of telescopic link (33), guide way (35) have been seted up to the bottom of carriage (24) inner wall, the inner wall of guide way (35) and the bottom sliding connection of guide bar (34), the rear end fixedly connected with fixing device (36) of telescopic link (33).

4. The energy-saving and environment-friendly mechanical circular glass cutting equipment as claimed in claim 3, wherein: fixing device (36) include piston cylinder (37), piston cylinder (37) control spacing slip in carriage (24), inlet port (38) have been seted up to the upper surface of piston cylinder (37), the spacing sliding connection of inner wall of piston cylinder (37) has piston (39), the through-hole has been seted up and through-hole fixedly connected with air check valve (40) to the rear end of piston cylinder (37), be close to the upper surface of rear end on piston cylinder (37) and seted up the through-hole and through-hole fixedly connected with air duct (41), the fixed surface who keeps away from the one end of piston cylinder (37) on air duct (41) is connected with sealed rubber sleeve (42), the one end of keeping away from air duct (41) on sealed rubber sleeve (42) and the surface swing joint who treats cutting glass piece (2).

5. The energy-saving and environment-friendly mechanical circular glass cutting equipment as claimed in claim 3, wherein: the power engaging device (31) comprises a bevel gear four (43) meshed with a bevel gear three (30), the inner wall of the conical gear IV (43) is fixedly connected with a rotating shaft IV (44), the surface of the rotating shaft IV (44) close to the bottom is fixedly connected with a conical gear V (45), a cone gear six (46) is meshed on the left side of the cone gear five (45), the inner wall of the cone gear six (46) is fixedly connected with a rotating shaft five (47), the lower surface of the cutting bin (1) is fixedly connected with a fixed frame (48), the surface of the fixed frame (48) is penetrated by a rotating shaft four (44) and a rotating shaft five (47) and is in limited rotary connection with the rotating shaft four (44) and the rotating shaft five (47), a conical gear seven (49) is fixedly connected to the surface of the rotating shaft five (47) close to the left end, and the surface of the second rotating shaft (10) close to the bottom is fixedly connected with an eight (50) bevel gear.

6. The energy-saving and environment-friendly mechanical circular glass cutting equipment as claimed in claim 1, wherein: the bottom of the rectangular rod (5) is fixedly connected with a limiting disc (51).

7. The energy-saving and environment-friendly mechanical circular glass cutting equipment as claimed in claim 1, wherein: the bottom of the inner wall of the crushing box (11) is arranged in an inclined plane, and the right side is higher than the left side.

8. The energy-saving and environment-friendly mechanical circular glass cutting equipment as claimed in claim 1, wherein: the lower surface of the crushing box (11) close to the left side is provided with a through hole and is fixedly connected with a material guide pipe (52) through the through hole.

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