CN114230165A - Cutting device is used in cavity glass production - Google Patents

Abstract

The application relates to a cutting device for hollow glass production, which belongs to the field of glass production equipment and comprises a frame, the cutting seat is arranged on the frame in a sliding way along the length direction of the frame, the cutting knife is arranged on the cutting seat in a sliding way along the length direction of the frame, a plurality of conveyor belts are distributed on the rack along the width direction of the rack, the length direction of the conveyor belts is consistent with the length direction of the rack, a placing seat for placing glass raw materials is arranged at one end part of the rack, a feeding mechanism for conveying the glass raw materials to the rack is rotatably arranged at one end of the rack close to the placing seat, the glass product discharging device is characterized in that a first accommodating groove for the feeding mechanism to penetrate is formed in the rack, a discharging mechanism for moving a glass finished product out of the rack is rotatably arranged at one end, far away from the placing seat, of the rack, and a second accommodating groove for the discharging mechanism to penetrate is formed in the rack. This application has the effect of being convenient for reduce artifical intensity of labour around the cutting process.

Description

Cutting device is used in cavity glass production

Technical Field

The application relates to the field of glass production equipment, in particular to a cutting device for producing hollow glass.

Background

The hollow glass is a new building material with good heat-insulating, sound-insulating, beautiful and applicable properties and capable of reducing the dead weight of buildings, and is made up by using two or three pieces of glass and high-strength high-air-tightness composite adhesive to make the glass pieces and aluminium alloy frame containing drying agent be adhered together so as to obtain the invented high-effective sound-insulating and heat-insulating glass. The hollow glass needs to be cut by a cutting device in the production process so as to be processed into required size.

The existing Chinese patent document with the application number of CN201710202178.8 discloses a cutting device for producing hollow glass, and the key points of the technical scheme are as follows: including the organism, the bottom of organism is provided with the supporting leg, the inside of organism is provided with fragment processing mechanism, be provided with the locating platform on the top surface of organism, be provided with the mobile workbench on the locating platform, the mobile workbench includes first cutting platform and second cutting platform, first cutting platform fixed connection is on the locating platform, second cutting platform moving connection is on first cutting platform, and first cutting platform and second cutting platform mutually perpendicular, the top moving connection of second cutting platform has the support platen, the top of mobile workbench is provided with cutting mechanism, cutting mechanism passes through the top of movable support connection at the organism.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: before cutting, the glass raw materials are lifted to the machine body manually by workers, after the cutting is completed, the finished glass products are lifted off from the machine body manually by the workers, and the labor intensity of the workers is high.

Disclosure of Invention

In order to reduce the artifical intensity of labour around the cutting process, this application provides a cutting device is used in cavity glass production.

The application provides a cutting device for hollow glass production adopts following technical scheme:

the utility model provides a cutting device is used in cavity glass production, includes the frame, it is provided with the cutting seat to slide along self length direction in the frame, it is provided with the cutting knife to slide along self length direction on the cutting seat, it has many conveyer belts to distribute along self width direction in the frame, the length direction of conveyer belt is unanimous with the length direction of frame, the one end tip of frame is provided with the seat of placing that is used for placing the glass raw materials, the frame is close to the one end rotation of placing the seat and is provided with the feed mechanism who is used for carrying the glass raw materials to the frame, set up the first holding tank that supplies feed mechanism to pass in the frame, the frame is kept away from the one end rotation of placing the seat and is provided with the shedding mechanism who is used for shifting out the glass finished product frame, set up the second holding tank that supplies shedding mechanism to pass in the frame.

Through adopting above-mentioned technical scheme, when needing to cut glass, carry the glass raw materials to the frame through feed mechanism on, then cut glass through the cutting knife, be the appointed size with glass cutting after, can take off the glass finished product from the frame through shedding mechanism, need not that the staff is manual to carry out the lifting to glass raw materials and glass finished product, reduced artifical intensity of labour.

Optionally, be provided with in the frame and be used for driving feed mechanism and shedding mechanism simultaneous antiport's actuating mechanism, actuating mechanism includes driving motor, be provided with first drive sprocket and second drive sprocket on driving motor's the output shaft, the last first driven sprocket that is provided with of feed mechanism, be connected with first chain between first driven sprocket and the first drive sprocket, the frame is close to one side rotation of shedding mechanism and is provided with second driven sprocket, be connected with the second chain between second driven sprocket and the second drive sprocket, the coaxial line is provided with first gear on the second driven sprocket, be provided with the second gear with first gear engaged with on the shedding mechanism.

Through adopting above-mentioned technical scheme, start driving motor, driving motor drives first drive sprocket and the rotation takes place simultaneously of second drive sprocket, first drive sprocket drives first driven sprocket through first chain and takes place to rotate, second drive sprocket drives second driven sprocket through the second chain and takes place to rotate, second sprocket pivoted in-process drives second gear through first gear and takes place to rotate, thereby make feed mechanism and shedding mechanism take place the antiport simultaneously, in-process that feed mechanism snatchs the glass raw materials, shedding mechanism can take out the glass finished product from the frame promptly.

Optionally, the feeding mechanism includes material loading pivot and many material loading poles, the material loading pivot is rotated and is set up in the frame, the material loading pole is fixed to be set up in the material loading pivot, discharge mechanism is including the pivot of unloading and many discharge arms, the pivot of unloading rotates and sets up in the frame, the discharge arm is fixed to be set up in the pivot of unloading, all distribute a plurality of vacuum chuck along self length direction on material loading pole and the discharge arm, be provided with the vacuum generation subassembly that is used for sucking the vacuum chuck air in the frame.

By adopting the technical scheme, when the driving motor is started to drive the first driven sprocket to rotate, the feeding rotating shafts synchronously rotate, the plurality of feeding rods can synchronously rotate towards the direction close to the placing seat, when the vacuum chucks on the feeding rods touch the glass raw materials on the placing seat, the vacuum chucks are pumped into a negative pressure state through the vacuum generating assembly, the vacuum chucks can suck the glass tightly, and the glass raw materials can be driven to be placed on the top surface of the rack in the process of reverse rotation of the driving motor; meanwhile, the second driven sprocket is driven to rotate in the process that the second driving sprocket rotates, so that the discharging rotating shaft rotates simultaneously to drive the glass finished product to move to the outside of the rack, and the discharging process is convenient to carry out.

Optionally, the vacuum generation assembly comprises a vacuum suction pump, a suction end of the vacuum suction pump is connected with a suction main pipe, a plurality of suction branch pipes are arranged on the suction main pipe, one group of the plurality of suction branch pipes of the vacuum generation assembly are arranged in the feeding rod in a one-to-one correspondence manner and are communicated with vacuum suckers on the feeding rod, and the other group of the plurality of suction branch pipes of the vacuum generation assembly are arranged in the discharging rod in a one-to-one correspondence manner and are communicated with vacuum suckers on the discharging rod.

Through adopting above-mentioned technical scheme, start the vacuum suction pump, the vacuum suction pump is responsible for through the suction and breathes in to many suction branch pipes in step, and a plurality of vacuum chuck that are linked together with the suction branch pipe can become negative pressure state simultaneously to inhale firmly glass raw materials or glass finished product, in order to improve glass raw materials or glass finished product stability at the removal in-process.

Optionally, the feeding rod comprises a main rod and a branch rod, an insertion groove is formed in the main rod, the branch rod penetrates through the insertion groove in a sliding mode, and a driving cylinder used for driving the branch rod to move towards the inside of the insertion groove or the outside of the insertion groove is arranged on the main rod.

Through adopting above-mentioned technical scheme, after the vacuum sucking disc is inhaled glass raw materials firmly, start to drive actuating cylinder and make the piston rod that drives actuating cylinder move outward to the cylinder to drive branch and move one section distance outward to the inserting groove, make glass raw materials move along with branch synchronous emergence, so that make progress lifting one section distance with glass raw materials, thereby make things convenient for follow-up drive process to glass raw materials.

Optionally, the placing seat slides along the height direction of the rack and is arranged on the rack, a lifting assembly used for driving the placing seat to slide is arranged on the rack, the lifting assembly comprises a lifting motor, a screw rod and a lifting block, a mounting groove is formed in the rack, the screw rod is rotatably arranged in the mounting groove, the lifting motor is fixedly arranged at the bottom of the rack and is coaxially connected with the screw rod, the lifting block is slidably arranged in the mounting groove and is in threaded fit with the screw rod, and one end of the lifting block, facing the outside of the mounting groove, is fixedly connected with the placing seat.

By adopting the technical scheme, the lifting motor is started, the output shaft of the lifting motor drives the screw rod to rotate, so that the lifting block is driven to move upwards or downwards, and when glass raw materials need to be added to the placing seat, the lifting block is driven to the lowest position, so that the adding process is convenient to carry out; after the glass raw materials are added, the lifting block is driven to the highest position, so that the glass raw materials on the placing seat can be conveniently conveyed to the rack by the feeding mechanism.

Optionally, the top surface of the placing seat is inclined, one end, close to the rack, of the top surface of the placing seat is higher than one end, far away from the rack, of the top surface of the placing seat, and the lowest end of the top surface of the placing seat is vertically provided with the supporting plate.

Through adopting above-mentioned technical scheme, the top surface slope through will placing the seat sets up to set up the backup pad on placing the seat, so that improve the stability of glass raw materials on placing the seat, thereby avoid glass raw materials to take place to drop.

Optionally, a conveying mechanism for conveying finished materials is arranged on one side of the rack, the conveying mechanism comprises a conveying frame and a conveying belt, and a plurality of flexible cushion blocks are distributed on the conveying belt.

Through adopting above-mentioned technical scheme, after the glass finished product that discharge mechanism will cut the completion was taken off from the frame, conveying mechanism can carry the glass finished product to make things convenient for the collection process in later stage.

Optionally, both sides of the conveying frame are provided with a plurality of buffer strips, and the plurality of buffer strips are located above the conveying belt.

Through adopting above-mentioned technical scheme, through set up the buffering strip on the carriage, the glass finished product can obtain buffering many times at the in-process of whereabouts to speed when reducing the whereabouts has avoided the glass finished product to a certain extent to collide with conveyor belt and take place to damage.

Optionally, the number of teeth of the first gear is twice the number of teeth of the second gear.

Through adopting above-mentioned technical scheme, set up the number of teeth of first gear into the twice of second gear, the second gear can rotate 180 promptly when first gear rotates 90 to make feed mechanism rotate to laminating glass raw materials from the frame, discharge mechanism just in time rotates glass to conveying mechanism's position department from the frame.

In summary, the present application includes at least one of the following beneficial technical effects:

1. according to the glass cutting machine, the feeding mechanism is arranged to convey the glass raw materials to the rack, the discharging mechanism is arranged to move the cut glass finished products out of the rack, and workers do not need to manually lift the glass raw materials and the glass finished products before and after glass cutting, so that the labor intensity of workers is reduced;

2. according to the glass raw material grabbing device, the driving mechanism is arranged to drive the feeding mechanism and the discharging mechanism to rotate reversely at the same time, and when the feeding mechanism grabs the glass raw materials, the discharging mechanism can take out the glass finished products from the rack, so that the overall efficiency of the working process is improved;

3. this application slides through the direction of height that will place the seat along the frame and sets up in the frame to place the seat through the lifting subassembly drive and slide, so that need drive when adding glass raw materials to placing the seat and place the seat and move down, will place the seat drive to highest position after glass raw materials adds the completion.

Drawings

Fig. 1 is a schematic view of the overall structure of the present application.

Fig. 2 is a schematic structural diagram of a feeding mechanism, a discharging mechanism and a driving mechanism of the present application.

Fig. 3 is a schematic structural diagram of a feeding mechanism of the present application.

Fig. 4 is a schematic structural view of the discharging mechanism and the vacuum generating assembly of the present application.

Fig. 5 is a schematic structural view of the drive mechanism of the present application.

Figure 6 is a schematic view of the lift assembly and seat of the present application.

Fig. 7 is a schematic structural view of the conveying mechanism of the present application.

Description of reference numerals: 1. a frame; 11. a conveyor belt; 12. a first accommodating groove; 13. a second accommodating groove; 14. a lifting assembly; 141. a lifting motor; 142. a lead screw; 143. lifting the block; 2. a cutting seat; 21. a cutting knife; 3. a placing seat; 31. a support plate; 4. a feeding mechanism; 41. a feeding rotating shaft; 42. a feeding rod; 421. a main rod; 422. a strut; 423. a driving cylinder; 5. a discharge mechanism; 51. a discharging rotating shaft; 52. a discharge rod; 6. a drive mechanism; 61. a drive motor; 62. a first drive sprocket; 63. a second drive sprocket; 64. a first driven sprocket; 65. a first chain; 66. a second driven sprocket; 661. a rotating shaft; 67. a second chain; 68. a first gear; 69. a second gear; 7. a vacuum chuck; 71. a vacuum generating assembly; 711. a vacuum suction pump; 712. a suction main tube; 713. a suction manifold; 8. a conveying mechanism; 81. a carriage; 811. a buffer strip; 82. a conveyor belt; 83. and a flexible cushion block.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses cutting device is used in production of cavity glass, refers to fig. 1, including frame 1, slide along self length direction on the frame 1 and install cutting seat 2, slide along self length direction on the cutting seat 2 and install cutting knife 21, it has many conveyer belts 11 to distribute along self width direction on the frame 1, and the length direction of conveyer belt 11 is unanimous with the length direction of frame 1. After placing glass raw materials on frame 1, convey the glass raw materials to the assigned position through conveyer belt 11, then can cut glass raw materials through removing cutting seat 2 and cutting knife 21. The one end tip of frame 1 is installed and is used for placing the seat 3 of placing of glass raw materials, and frame 1 rotates near the one end of placing seat 3 and installs and be used for carrying the feed mechanism 4 to frame 1 on, sets up the first holding tank 12 that supplies feed mechanism 4 to pass in the frame 1, and frame 1 keeps away from the one end of placing seat 3 and rotates and install the shedding mechanism 5 that is used for shifting out the glass finished product frame 1, sets up the second holding tank 13 that supplies shedding mechanism 5 to pass on frame 1. The one end of the seat 3 is placed to keeping away from of frame 1 installs the conveying mechanism 8 that is used for carrying the finished product material, and after shedding mechanism 5 shifts out the glass finished product frame 1 and removes to conveying mechanism 8, conveying mechanism 8 can be carried the glass finished product to the assigned position and collect in order to make things convenient for the later stage.

Referring to fig. 2, the feeding mechanism 4 includes a feeding rotating shaft 41 and a plurality of feeding rods 42, the feeding rotating shaft 41 is rotatably installed on the rack 1, the feeding rods 42 are sleeved outside the feeding rotating shaft 41 and fixed on the feeding rotating shaft 41 in a welded manner, the discharging mechanism 5 includes a discharging rotating shaft 51 and a plurality of discharging rods 52, the discharging rotating shaft 51 is rotatably installed on the rack 1, the discharging rods 52 are welded on the discharging rotating shaft 51 and fixed on the discharging rotating shaft 51 in a welded manner, a plurality of vacuum chucks 7 are distributed on the feeding rods 42 and the discharging rods 52 along the length direction thereof, and the rack 1 is provided with a vacuum generating assembly 71 for sucking air of the vacuum chucks 7.

Referring to fig. 3 and 4, the feeding rod 42 includes a main rod 421 and a supporting rod 422, an insertion groove is formed on the main rod 421, the supporting rod 422 is slidably inserted into the insertion groove, and a driving cylinder 423 for driving the supporting rod 422 to move into the insertion groove or out of the insertion groove is disposed on the main rod 421. After the vacuum chuck 7 firmly absorbs the glass raw material, start to drive actuating cylinder 423 and make the piston rod that drives actuating cylinder 423 move outside the cylinder to drive branch 422 to move a section of distance outside the inserting groove, make the glass raw material move along with branch 422 takes place in step, so that make progress lifting a section of distance with the glass raw material, thereby make things convenient for the follow-up drive process to the glass raw material.

Referring to fig. 4, the vacuum generating assembly 71 includes a vacuum suction pump 711, a suction main pipe 712 is connected to a suction end of the vacuum suction pump 711, a plurality of suction branch pipes 713 are disposed on the suction main pipe 712, the plurality of suction branch pipes 713 of one group of vacuum generating assemblies 71 are disposed in the feeding bar 42 in a one-to-one correspondence manner and are communicated with the vacuum suction cups 7 on the feeding bar 42, and the plurality of suction branch pipes 713 of the other group of vacuum generating assemblies 71 are disposed in the discharging bar 52 in a one-to-one correspondence manner and are communicated with the vacuum suction cups 7 on the discharging bar 52. The vacuum suction pump 711 is started, the vacuum suction pump 711 sucks air to the plurality of suction branch pipes 713 synchronously through the suction main pipe 712, and the plurality of vacuum suction cups 7 communicated with the suction branch pipes 713 can be in a negative pressure state simultaneously, so that the glass raw materials or the glass finished products are firmly sucked, and the stability of the glass raw materials or the glass finished products in the moving process is improved.

The feeding rotating shafts 41 rotate, namely, the plurality of feeding rods 42 can synchronously rotate towards the direction close to the placing seat 3, when the vacuum suction cups 7 on the feeding rods 42 touch the glass raw materials on the placing seat 3, the vacuum suction cups 7 are sucked into a negative pressure state through the vacuum generating assembly 71, the vacuum suction cups 7 can tightly suck the glass, then the feeding rotating shafts 41 reversely rotate, and the glass raw materials can be driven to be placed on the top surface of the rack 1; the vacuum chuck 7 on the discharging rotating shaft 51 is tightly sucked on the finished glass product, and then the discharging rotating shaft 51 rotates and drives the finished glass product to move towards the outside of the frame 1, so that the discharging process is convenient to carry out.

With reference to figure 2 of the drawings, fig. 5, the driving mechanism 6 for driving the feeding rotating shaft 41 and the discharging rotating shaft 51 to rotate in opposite directions simultaneously is installed on the rack 1, the driving mechanism 6 includes a driving motor 61, a first driving sprocket 62 and a second driving sprocket 63 are coaxially connected to an output shaft of the driving motor 61, a first driven sprocket 64 is coaxially connected to the feeding rotating shaft 41, a first chain 65 is connected between the first driven sprocket 64 and the first driving sprocket 62, a second driven sprocket 66 is arranged on one side of the rack 1 close to the discharging mechanism 5, the second driven sprocket 66 is rotatably connected to the rack 1 through a rotating shaft 661, a second chain 67 is connected between the second driven sprocket 66 and the second driving sprocket 63, a first gear 68 is coaxially connected to the rotating shaft 661 of the second driven sprocket 66, and a second gear 69 meshed with the first gear 68 is coaxially connected to the discharging rotating shaft 51. Start driving motor 61, driving motor 61 drives first drive sprocket 62 and the rotation of second drive sprocket 63 emergence simultaneously, first drive sprocket 62 drives first driven sprocket 64 through first chain 65 and takes place to rotate, second drive sprocket 63 drives second driven sprocket 66 through second chain 67 and takes place to rotate, second sprocket pivoted in-process drives second gear 69 through first gear 68 and takes place to rotate, thereby make feed mechanism 4 and shedding mechanism 5 emergence antiport simultaneously, in-process that the glass raw materials was snatched when feed mechanism 4, shedding mechanism 5 can take out the glass finished product from frame 1 promptly.

Referring to fig. 5, the number of teeth of the first gear 68 is twice that of the second gear 69, the second gear 69 can rotate 180 ° when the first gear 68 rotates 90 °, when the feeding mechanism 4 rotates from the rack 1 to fit the glass raw material, the discharging mechanism 5 rotates the glass from the rack 1 to the position of the conveying mechanism 8, and when the feeding mechanism 4 drives the feeding mechanism 4 to drive the glass to the top surface of the rack 1, the discharging mechanism 5 also rotates from the top of the conveying mechanism 8 to the second accommodating groove 13 on the rack 1.

Referring to fig. 1 and 6, placing seat 3 and installing in frame 1 along the direction of height of frame 1 slides, install in frame 1 and be used for the drive to place the gliding lifting subassembly 14 of seat 3, lifting subassembly 14 includes lifting motor 141, lead screw 142 and lifting piece 143, the mounting groove has been seted up in frame 1, lead screw 142 rotates to be connected in the mounting groove, lifting motor 141 fixed mounting is in the bottom of frame 1 and is connected with lead screw 142 coaxial line, lifting piece 143 sliding connection in the mounting groove and with lead screw 142 screw thread fit, lifting piece 143 towards the outer one end of mounting groove with place seat 3 fixed connection. Starting the lifting motor 141, wherein an output shaft of the lifting motor 141 drives the screw 142 to rotate, so as to drive the lifting block 143 to move upwards or downwards, and when glass raw materials need to be added to the placing base 3, the lifting block 143 is driven to the lowest position, so that the adding process is facilitated; after the addition is completed, the lifting block 143 is driven to the highest position, so that the glass raw materials on the placing seat 3 can be conveniently conveyed to the rack 1 by the feeding mechanism 4.

Referring to fig. 6, the top surface of the placing seat 3 is inclined, one end of the top surface of the placing seat 3, which is close to the rack 1, is higher than one end of the top surface of the placing seat 3, which is far away from the rack 1, and the supporting plate 31 is vertically welded at the lowest end of the top surface of the placing seat 3. So as to improve the stability of the glass raw materials on the placing seat 3 and avoid the glass raw materials from falling.

Referring to fig. 7, the conveying mechanism 8 includes a conveying frame 81 and a conveying belt 82, a plurality of flexible cushion blocks 83 are distributed on the conveying belt 82, a plurality of buffer strips 811 are arranged on two sides of the conveying frame 81, and the plurality of buffer strips 811 are located above the conveying belt 82. The finished glass product can be buffered for multiple times in the falling process, so that the falling speed is reduced, and the finished glass product is prevented from colliding with the conveying belt 82 to a certain extent to be damaged.

The implementation principle of the cutting device for hollow glass production in the embodiment of the application is as follows: when needing to cut glass, carry glass raw materials to frame 1 through feed mechanism 4 on, then cut glass through cutting knife 21, after being appointed size with glass cutting, can take off glass finished product from frame 1 through shedding mechanism 5, need not that the staff is manual to carry out the lifting to glass raw materials and glass finished product, reduced artifical intensity of labour.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a cutting device is used in production of cavity glass, includes frame (1), it is provided with cutting seat (2) to slide along self length direction on frame (1), it is provided with cutting knife (21) to slide along self length direction on cutting seat (2), it has many conveyer belts (11) to distribute along self width direction on frame (1), the length direction of conveyer belt (11) is unanimous with the length direction of frame (1), its characterized in that: the glass material conveying device is characterized in that a placing seat (3) used for placing glass raw materials is arranged at the end portion of one end of the rack (1), the rack (1) is provided with a feeding mechanism (4) used for conveying the glass raw materials onto the rack (1) in a rotating mode close to the placing seat (3), a first accommodating groove (12) used for allowing the feeding mechanism (4) to pass is formed in the rack (1), one end, far away from the placing seat (3), of the rack (1) is provided with a discharging mechanism (5) used for moving the glass finished products out of the rack (1) in a rotating mode, and a second accommodating groove (13) used for allowing the discharging mechanism (5) to pass is formed in the rack (1).

2. The cutting device for hollow glass production according to claim 1, characterized in that: a driving mechanism (6) for driving the feeding mechanism (4) and the discharging mechanism (5) to rotate reversely at the same time is arranged on the frame (1), the driving mechanism (6) comprises a driving motor (61), a first driving chain wheel (62) and a second driving chain wheel (63) are arranged on an output shaft of the driving motor (61), a first driven chain wheel (64) is arranged on the feeding mechanism (4), a first chain (65) is connected between the first driven chain wheel (64) and the first driving chain wheel (62), a second driven chain wheel (66) is rotatably arranged on one side of the frame (1) close to the discharging mechanism (5), a second chain (67) is connected between the second driven chain wheel (66) and the second driving chain wheel (63), a first gear (68) is coaxially arranged on the second driven chain wheel (66), and a second gear (69) meshed with the first gear (68) is arranged on the discharging mechanism (5).

3. The cutting device for hollow glass production according to claim 1, characterized in that: the feeding mechanism (4) comprises a feeding rotating shaft (41) and a plurality of feeding rods (42), the feeding rotating shaft (41) is rotatably arranged on the rack (1), the feeding rods (42) are fixedly arranged on the feeding rotating shaft (41), the discharging mechanism (5) comprises a discharging rotating shaft (51) and a plurality of discharging rods (52), the discharging rotating shaft (51) is rotatably arranged on the rack (1), the discharging rods (52) are fixedly arranged on the discharging rotating shaft (51), a plurality of vacuum suckers (7) are distributed on the feeding rod (42) and the discharging rods (52) along the length direction of the vacuum suckers (7), and a vacuum generation assembly (71) for sucking air of the vacuum suckers (7) is arranged on the rack (1).

4. The cutting device for hollow glass production according to claim 3, characterized in that: the vacuum generation assembly (71) comprises a vacuum suction pump (711), the suction end of the vacuum suction pump (711) is connected with a suction main pipe (712), the suction main pipe (712) is provided with a plurality of suction branch pipes (713), one group of the plurality of suction branch pipes (713) of the vacuum generation assembly (71) are correspondingly arranged in the feeding rod (42) and communicated with the vacuum suckers (7) on the feeding rod (42), and the plurality of suction branch pipes (713) of the other group of the vacuum generation assembly (71) are correspondingly arranged in the discharging rod (52) and communicated with the vacuum suckers (7) on the discharging rod (52).

5. The cutting device for hollow glass production according to claim 3, characterized in that: the feeding rod (42) comprises a main rod (421) and a branch rod (422), an insertion groove is formed in the main rod (421), the branch rod (422) penetrates through the insertion groove in a sliding mode, and a driving cylinder (423) used for driving the branch rod (422) to move towards the inside of the insertion groove or the outside of the insertion groove is arranged on the main rod (421).

6. The cutting device for hollow glass production according to claim 1, characterized in that: place seat (3) and slide along the direction of height of frame (1) and set up in frame (1), be provided with on frame (1) and be used for the drive to place seat (3) gliding lifting subassembly (14), lifting subassembly (14) are including lifting motor (141), lead screw (142) and lifting piece (143), the mounting groove has been seted up on frame (1), lead screw (142) rotate and set up in the mounting groove, lifting motor (141) are fixed to be set up in the bottom of frame (1) and are connected with lead screw (142) coaxial line, lifting piece (143) slide set up in the mounting groove and with lead screw (142) screw-thread fit, lifting piece (143) towards the outer one end of mounting groove with place seat (3) fixed connection.

7. The cutting device for hollow glass production according to claim 6, characterized in that: the top surface of the placing seat (3) is obliquely arranged, one end, close to the rack (1), of the top surface of the placing seat (3) is higher than one end, far away from the rack (1), of the top surface of the placing seat (3), and a supporting plate (31) is vertically arranged at the lowest end of the top surface of the placing seat (3).

8. The cutting device for hollow glass production according to claim 2, characterized in that: one side of frame (1) is provided with conveying mechanism (8) that are used for carrying the finished product material, conveying mechanism (8) are including carriage (81) and conveyor belt (82), it has a plurality of flexible cushion (83) to distribute on conveyor belt (82).

9. The cutting device for hollow glass production according to claim 8, characterized in that: both sides of carriage (81) all are provided with many buffering strip (811), many buffering strip (811) all are located the top of conveyor belt (82).

10. The cutting device for hollow glass production according to claim 8, characterized in that: the number of teeth of the first gear (68) is twice the number of teeth of the second gear (69).

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