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CN-121990373-A - Conveying device for glass processing

CN121990373ACN 121990373 ACN121990373 ACN 121990373ACN-121990373-A

Abstract

The invention provides a conveying device for glass processing, which belongs to the technical field of conveying devices and comprises a base and a bearing table, wherein a carrier is fixedly connected to the upper part of the bearing table. The invention solves the problems that when the existing conveying device for glass processing is used between glass processing factories, antifriction maintenance is not conveniently carried out on a base at the lower part of the device, and a maintainer is usually required to personally wipe antifriction medium on the base, so that the continuous operation efficiency of a conveying line is not facilitated to be improved, and the smoothness of glass conveying is easy to be reduced due to uneven coating of the antifriction medium.

Inventors

  • WANG SHOUJUN
  • WANG BIHAI

Assignees

  • 安徽和星玻璃有限公司

Dates

Publication Date
20260508
Application Date
20260402

Claims (10)

  1. 1. The utility model provides a conveyor for glass processing, includes base (100) and plummer (101), plummer (101) sliding connection in on base (100), its characterized in that, the upper portion rigid coupling of plummer (101) has carrier (104), reserve in plummer (101) first inner chamber (202), reserve on the lower wall of plummer (101) first wearing mouth (203), first wearing mouth (203) with first inner chamber (202) are linked together, rigid coupling has assembly case (102) on the limit wall of plummer (101), rigid coupling has holding case (103) on the limit wall of assembly case (102), transmission unit (200) are equipped with in assembly case (102), absorb unit (300) are equipped with in assembly case (102).
  2. 2. The glass processing conveying device according to claim 1, wherein the transfer unit (200) comprises a motor (206) assembled in an assembly box (102), a connecting bar (207) is rotationally connected to the assembly box (102), a disc (208) is fixedly connected to the outer wall surface of the connecting bar (207), and the connecting bar (207) is connected with the motor (206) through a transfer piece (209).
  3. 3. The conveying device for glass processing according to claim 2, wherein the suction unit (300) comprises an isolation cavity (302) fixedly connected in the assembly box (102), a joint block is fixedly connected between the isolation cavity (302) and the assembly box (102), a through groove (303) is reserved on the isolation cavity (302), an elastic sheet (304) is fixedly connected in the through groove (303), a first suction block (305) is fixedly connected on the disc (208), a second suction block (306) is fixedly connected on the elastic sheet (304), the first suction block (305) corresponds to the second suction block (306), the first suction block (305) and the second suction block (306) have the characteristics of sucking iron, cobalt and nickel, a pair of first channels (307) are connected on the isolation cavity (302), the first channels (307) of one pair are connected with the container box (103), and the other first channels (307) are connected with the first inner chamber (307) of the first channels (307), and the first channels (307) are connected with the first inner chamber (301).
  4. 4. The conveying device for glass processing according to claim 1, wherein a second inner chamber (204) is reserved in the bearing table (101), a second through hole (205) is reserved on the lower wall surface of the bearing table (101), the second through hole (205) is communicated with the second inner chamber (204), and a drainage unit (400) is assembled in the assembly box (102).
  5. 5. The glass processing conveying device according to claim 4, wherein the drainage unit (400) comprises an assembly box (403) fixedly connected in the assembly box (102), a plurality of through grooves (404) are reserved on the assembly box (403), a drainage piece (401) is fixedly connected on the outgoing end of the motor (206), the drainage piece (401) is located in the assembly box (403), a second channel (402) is communicated on the assembly box (403), and a part of the second channel (402) deviating from the assembly box (403) is communicated with the second inner chamber (204).
  6. 6. The conveying device for glass processing according to claim 1, wherein the two sides of the base (100) are respectively provided with a receiving unit (500), the receiving units (500) comprise right-angle blocks (502) fixedly connected to the side wall surfaces of the base (100), inner cavities are reserved in the right-angle blocks (502), a receiving port (503) is reserved on the right-angle blocks (502), a plurality of third through holes (504) are reserved on the receiving port (503), the third through holes (504) are communicated with the inner cavities of the right-angle blocks (502), third suction blocks (505) are slidingly connected on the receiving port (503), gaps are reserved between the two sides of the third suction blocks (505) and the receiving port (503), a plurality of fourth through holes (506) are reserved on the third suction blocks (505), an energy storage piece (501) is arranged on the right-angle blocks (502), and the other side of the energy storage piece (501) is connected with the third suction blocks (505).
  7. 7. The glass processing conveyor according to claim 6, wherein the right angle block (502) is equipped with a linkage unit (600).
  8. 8. The glass processing conveying device according to claim 7, wherein the linkage unit (600) comprises a sleeve (602) rotatably connected to the socket (503), a stud (603) is arranged on the sleeve (602), a cam (601) is fixedly connected to the sleeve (602), and the cam (601) corresponds to the third suction block (505).
  9. 9. The conveying device for glass processing according to claim 1, wherein a containing opening (105) is reserved on the lower wall surface of the bearing table (101), a rotating ball (106) is arranged in the containing opening (105), the rotating ball (106) stretches out of the containing opening (105), and the part of the rotating ball (106) stretching out of the containing opening (105) is contacted with the base (100).
  10. 10. A glass processing conveyor according to claim 2, characterized in that the outgoing end of the motor (206) extends into the holding tank (103), the outgoing end of the motor (206) being equipped with mixing paddles (201).

Description

Conveying device for glass processing Technical Field The invention belongs to the technical field of conveying devices, and particularly relates to a conveying device for glass processing. Background Glass is an amorphous inorganic nonmetallic material, which is formed by solidifying a raw material such as fused silica after rapid cooling, has no fixed crystal structure, and is usually transported to a designated station by a conveyor during the mass processing stage. When the existing conveying device for glass processing is used between glass processing factories, antifriction maintenance is not convenient to carry out on a base at the lower part of the device, and maintenance staff is usually required to personally wipe antifriction media on the base, so that the continuous operation efficiency of a conveying line is not facilitated to be improved, and the smoothness of glass conveying is easily reduced due to uneven coating of the antifriction media. Disclosure of Invention The invention provides a conveying device for glass processing, which aims to solve the problems that when the conventional conveying device for glass processing is used among glass processing factories, antifriction maintenance is inconvenient to carry out on a base at the lower part of the device, a maintainer is usually required to smear antifriction media on the base in person, the continuous operation efficiency of a conveying line is not facilitated, and the stability of glass conveying is easily reduced due to uneven coating of the antifriction media. The embodiment of the invention provides a conveying device for glass processing, which comprises a base and a bearing table, wherein the bearing table is slidingly connected to the base, a carrier is fixedly connected to the upper part of the bearing table, a first inner chamber is reserved in the bearing table, a first through hole is reserved on the lower wall surface of the bearing table, the first through hole is communicated with the first inner chamber, an assembly box is fixedly connected to the side wall surface of the bearing table, a container is fixedly connected to the side wall surface of the assembly box, a transmission unit is assembled in the assembly box, and a suction unit is assembled in the assembly box. Further, the transmission unit comprises a motor assembled in an assembly box, a connecting bar is rotationally connected in the assembly box, a disc is fixedly connected to the outer wall surface of the connecting bar, and the connecting bar is connected with the motor through a transmission piece. Further, the suction unit comprises an isolation cavity fixedly connected in the assembly box, an engagement block is fixedly connected between the isolation cavity and the assembly box, a through groove is reserved in the isolation cavity, an elastic sheet is fixedly connected in the through groove, a first suction block is fixedly connected on the disc, a second suction block is fixedly connected on the elastic sheet, the first suction block corresponds to the second suction block, the first suction block and the second suction block have the characteristic of sucking iron, cobalt and nickel, a pair of first channels are communicated on the isolation cavity, one of the first channels is communicated with the containing box, the other first channel is communicated with the first inner chamber, and a check brake is arranged on the first channel. Further, a second inner chamber is reserved in the bearing table, a second through hole is reserved in the lower wall surface of the bearing table, the second through hole is communicated with the second inner chamber, and a drainage unit is assembled in the assembly box. Further, the drainage unit comprises an assembly box fixedly connected in the assembly box, a plurality of through grooves are reserved on the assembly box, a drainage piece is fixedly connected to the outgoing end of the motor, the drainage piece is positioned in the assembly box, a second channel is communicated with the assembly box, and the part, deviating from the assembly box, of the second channel is communicated with the second inner chamber. Further, the two sides of the base are all provided with receiving units, each receiving unit comprises a right-angle block fixedly connected to the side wall surface of the base, an inner cavity is reserved in each right-angle block, a socket is reserved on each right-angle block, a plurality of third through holes are reserved on each socket, each third through hole is communicated with the inner cavity of each right-angle block, each socket is connected with a third suction block in a sliding mode, gaps are reserved between two sides of each third suction block and each socket, a plurality of fourth through holes are reserved on each third suction block, energy storage pieces are arranged on the right-angle blocks, and the other sides of the energy storage pieces are connected with the third suction block