CN213915824U

CN213915824U - Material distribution mechanism of display backboard die

Info

Publication number: CN213915824U
Application number: CN202022569817.4U
Authority: CN
Inventors: 何龙
Original assignee: Fuqing Jinao Electronics Co ltd
Current assignee: Fuqing Jinao Electronics Co ltd
Priority date: 2020-11-09
Filing date: 2020-11-09
Publication date: 2021-08-10
Anticipated expiration: 2030-11-09

Abstract

The utility model relates to the technical field of display backboard production equipment, in particular to a material distribution mechanism of a display backboard mould, which comprises two adsorption columns and a transmission part which are arranged in parallel, wherein the two adsorption columns comprise a first connecting rod and a vacuum chuck; the two adsorption columns are respectively a first adsorption column and a second adsorption column, the first adsorption column further comprises an air cylinder, the lower end of the first connecting rod is connected with the output end of the air cylinder, the transmission piece is arranged between the first adsorption column and the second adsorption column and connected with the first adsorption column and the second adsorption column, and the transmission piece drives the first adsorption column and the second adsorption column to move reversely; the utility model discloses simple structure can effectively realize the material area and display backplate quickly separating, avoids the display backplate to be extruded and produces the emergence of deformation risk simultaneously.

Description

Material distribution mechanism of display backboard die

Technical Field

The utility model relates to a display backplate production facility technical field, in particular to feed mechanism of display backplate mould.

Background

In prior art, the display backplate is mainly through hot stamping in proper order or cold stamping in order to accomplish the type of moulding to the display backplate to the material area, but the display backplate after the punching press is followed the material area and is removed, need follow-up separation through artifical or feed divider with display backplate and material area, manual operation is consuming time hard, influence production efficiency, to feed divider, mainly extrude once more through the display backplate to the material area, so that the display backplate breaks away from the material area, the mode can effectively accelerate production efficiency this moment, but owing to need extrude once more to the display backplate, make the display backplate produce the deformation easily, influence follow-up installation and product quality.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problems that: the utility model provides a material distribution mechanism of display backplate mould that adsorbs formula and divide material fast.

In order to solve the technical problem, the utility model discloses a technical scheme be: the distribution mechanism is arranged in an installation cavity in the lower die base, the installation cavity is arranged on one side, close to the discharge chute, of the lower die base, and the distribution mechanism comprises two adsorption columns and a transmission piece which are arranged in parallel;

the two adsorption columns respectively comprise a first connecting rod and a vacuum chuck, the first connecting rod is perpendicular to the bottom surface of the installation cavity, and the vacuum chucks are arranged at the upper end of the first connecting rod and protrude out of the installation cavity;

the two adsorption columns are respectively a first adsorption column and a second adsorption column, and the first adsorption column and the second adsorption column are sequentially arranged towards the discharge chute; the first adsorption column further comprises an air cylinder, and the lower end of the first connecting rod is connected with the output end of the air cylinder;

the transmission part is arranged between the first adsorption column and the second adsorption column and connected with the first adsorption column and the second adsorption column, and the transmission part drives the first adsorption column and the second adsorption column to move reversely.

The second adsorption column further comprises a fixing seat and a spring, the fixing seat is arranged on the bottom surface of the installation cavity, and the lower end of the first connecting rod is connected with the fixing seat through the spring.

The adsorption column further comprises a rack, and the rack is arranged on one side, facing the transmission piece, of the first connecting rod and is connected with the transmission piece.

The transmission part comprises a second connecting rod, a gear and a connecting piece;

the second connecting rod is arranged in parallel to the adsorption column, and the lower end of the second connecting rod is vertically connected with the bottom surface of the installation cavity;

the gear is arranged in the length direction of the second connecting rod and is connected with the second connecting rod through a connecting piece;

the gear is meshed with the rack.

The transmission part further comprises an adjusting knob, the adjusting knob is arranged at the upper end of the second connecting rod, and the adjusting end of the adjusting knob protrudes out of the mounting cavity.

The beneficial effects of the utility model reside in that: through the cooperation of two adsorption columns and driving medium in order to realize carrying out quick adsorption separation to the display backplate on the material area, make the display backplate be the inclined plane after the separation simultaneously and can get into the collection region of display backplate through the blown down tank, make things convenient for going on of follow-up operation.

Drawings

Fig. 1 is a schematic structural diagram of a material distributing mechanism in a specific embodiment of the present invention;

fig. 2 shows a partial side view of a transmission member according to an embodiment of the present invention.

Description of reference numerals: 1. a lower die holder; 11. a mounting cavity; 12. a discharge chute; 2. a material belt; 21. a display backplane; 3. a material distributing mechanism; 31. a first adsorption column; 311. a vacuum chuck; 312. a first link; 313. a cylinder; 314. a rack; 32. a second adsorption column; 321. a spring; 322. a fixed seat; 33. a transmission member; 331. adjusting a knob; 332. a gear; 333. a second link; 334. a connecting member.

Detailed Description

In order to explain the technical content, the objects and the effects of the present invention in detail, the following description is made with reference to the accompanying drawings in combination with the embodiments.

The utility model discloses the most crucial design lies in: through the cooperation of two adsorption columns and driving medium in order to realize carrying out quick adsorption and separation to the display backplate on the material area.

Referring to fig. 1 and 2, the utility model relates to a material distribution mechanism 3 of a display back plate 21 mold, wherein the material distribution mechanism 3 is arranged in an installation cavity 11 in a lower die holder 1, the installation cavity 11 is arranged on one side of the lower die holder 1 close to a discharge chute 12, and comprises two adsorption columns and a transmission part 33 which are arranged in parallel; the two adsorption columns respectively comprise a first connecting rod 312 and a vacuum chuck 311, the first connecting rod 312 is perpendicular to the bottom surface of the installation cavity 11, and the vacuum chuck 311 is arranged at the upper end of the first connecting rod 312 and protrudes out of the installation cavity 11; the two adsorption columns are respectively a first adsorption column 31 and a second adsorption column 32, and the first adsorption column 31 and the second adsorption column 32 are sequentially arranged towards the discharge chute 12; the first adsorption column 31 further comprises an air cylinder 313, and the lower end of the first connecting rod 312 is connected with the output end of the air cylinder 313; the transmission member 33 is disposed between the first adsorption column 31 and the second adsorption column 32 and connected to the first adsorption column 31 and the second adsorption column 32, and the transmission member 33 drives the first adsorption column 31 and the second adsorption column 32 to move in opposite directions.

Specifically, the working principle of the present invention is that when the display back plate 21 on the material belt 2 moves to above the material distributing mechanism 3, the air cylinder 313 starts to work, the first adsorption column 31 moves downwards, and the second adsorption column 32 moves upwards through the transmission of the transmission member 33 to the upper end of the vacuum chuck 311 to adsorb one end of the display back plate 21; after the second adsorption column 32 adsorbs one end of the display back plate 21, the air cylinder 313 works at the moment, the first adsorption column 31 is moved upwards, so that the vacuum suction cup 311 at the upper end of the first adsorption column 31 adsorbs the other end of the display back plate 21, and meanwhile, the second adsorption column 32 moves downwards under the action of the transmission piece 33, and the display back plate 21 is separated from the material belt 2; after the display back plate 21 is completely separated from the material belt 2, the vacuum chuck 311 stops working, at the moment, the display back plate 21 is at a certain inclination, slides out of the lower die holder 1 along the discharge chute 12 under the action of self gravity, and enters the collecting assembly, so that the material distribution treatment of the display back plate 21 and the material belt 2 is completed.

Preferably, the lower die holder 1 is further provided with an air blowing device, the air blowing device is arranged on one side of the material distribution mechanism 3, which is far away from the discharge chute 12, and an air outlet end of the air blowing device is arranged towards the direction of the discharge chute 12; specifically, when the display back plate 21 is completely separated from the material tape 2, the air outlet device blows air to the display back plate 21, so that the display back plate 21 can better slide out of the lower die holder 1 from the discharging chute 12.

As can be seen from the above description, the lower end of the display back plate 21 is sucked by the first and second adsorption columns 31 and 32 and the vacuum chuck 311 disposed at the upper end thereof to realize the rapid separation of the display back plate 21 from the material tape 2, and meanwhile, the lower end of the display back plate 21 is sucked by the vacuum chuck 311 to avoid the occurrence of the deformation of the display back plate 21 caused by the separation of the display back plate 21 from the material tape 2 by other squeezing devices.

Further, the second adsorption column 32 further includes a fixing seat 322 and a spring 321, the fixing seat 322 is disposed on the bottom surface of the installation cavity 11, and the lower end of the first connection rod 312 is connected to the fixing seat 322 through the spring 321.

Further, the suction column further includes a rack 314, and the rack 314 is disposed on a side of the first link 312 facing the transmission member 33 and connected to the transmission member 33.

Further, the transmission member 33 includes a second link 333, a gear 332, and a connecting member 334;

the second connecting rod 333 is arranged in parallel with the adsorption column, and the lower end of the second connecting rod 333 is vertically connected with the bottom surface of the installation cavity 11; the gear 332 is disposed in the length direction of the second link 333 and connected to the second link 333 via a connecting member 334; the gear 332 is engaged with the rack 314.

As can be seen from the above description, during the upward movement of the first adsorption column 31 under the action of the air cylinder 313, the rack 314 is engaged with the gear 332 to realize transmission to the second adsorption column 32 and drive the second adsorption column 32 to move downward, and at the same time, the gear 332 is fixed on the second connecting rod 333 through the connecting member 334.

It should be noted that the connecting member 334 is engaged with the second link 333.

Further, the transmission member 33 further includes an adjusting knob 331, the adjusting knob 331 is disposed at an upper end of the second connecting rod 333, and an adjusting end of the adjusting knob 331 protrudes from the mounting cavity 11.

As can be seen from the above description, the transmission member 33 can be adjusted by manually rotating the adjusting knob 331 to move the connecting member 334 and the gear 332 on the second link 333.

Referring to fig. 1 and 2, the first embodiment of the present invention is:

the material distribution mechanism 3 of the display back plate 21 die is characterized in that the material distribution mechanism 3 is arranged in an installation cavity 11 in a lower die holder 1, the installation cavity 11 is arranged on one side of the lower die holder 1 close to a discharge chute 12, and comprises two adsorption columns and a transmission piece 33 which are arranged in parallel;

the two adsorption columns respectively comprise a first connecting rod 312 and a vacuum chuck 311, the first connecting rod 312 is perpendicular to the bottom surface of the installation cavity 11, and the vacuum chuck 311 is arranged at the upper end of the first connecting rod 312 and protrudes out of the installation cavity 11;

the two adsorption columns are respectively a first adsorption column 31 and a second adsorption column 32, and the first adsorption column 31 and the second adsorption column 32 are sequentially arranged towards the discharge chute 12;

the first adsorption column 31 further comprises an air cylinder 313, and the lower end of the first connecting rod 312 is connected with the output end of the air cylinder 313;

the transmission member 33 is arranged between the first adsorption column 31 and the second adsorption column 32 and connected with the first adsorption column 31 and the second adsorption column 32, and the transmission member 33 drives the first adsorption column 31 and the second adsorption column 32 to move in opposite directions;

the second adsorption column 32 further includes a fixing seat 322 and a spring 321, the fixing seat 322 is disposed on the bottom surface of the installation cavity 11, and the lower end of the first connection rod 312 is connected to the fixing seat 322 through the spring 321;

the adsorption column further comprises a rack 314, and the rack 314 is arranged on one side of the first connecting rod 312 facing the transmission member 33 and connected with the transmission member 33;

wherein the transmission member 33 includes a second link 333, a gear 332, and a connecting member 334;

the second connecting rod 333 is arranged in parallel with the adsorption column, and the lower end of the second connecting rod 333 is vertically connected with the bottom surface of the installation cavity 11;

the gear 332 is disposed in the length direction of the second link 333 and connected to the second link 333 via a connecting member 334;

the gear 332 is meshed with the rack 314;

the transmission member 33 further includes an adjusting knob 331, the adjusting knob 331 is disposed at an upper end of the second connecting rod 333, and an adjusting end of the adjusting knob 331 protrudes from the mounting cavity 11.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims

1. The distribution mechanism is arranged in an installation cavity in the lower die base, and the installation cavity is arranged on one side, close to the discharge chute, of the lower die base, and is characterized by comprising two adsorption columns and a transmission part which are arranged in parallel;

the two adsorption columns are respectively a first adsorption column and a second adsorption column, and the first adsorption column and the second adsorption column are sequentially arranged towards the discharge chute;

the first adsorption column further comprises an air cylinder, and the lower end of the first connecting rod is connected with the output end of the air cylinder;

2. The material distribution mechanism of the display back plate mold according to claim 1, wherein the second adsorption column further comprises a fixing seat and a spring, the fixing seat is disposed on the bottom surface of the mounting cavity, and the lower end of the first connecting rod is connected with the fixing seat through the spring.

3. The separating mechanism for display backplane mold according to claim 2, wherein the absorbing column further comprises a rack, and the rack is disposed on a side of the first connecting rod facing the driving member and connected to the driving member.

4. The material distribution mechanism of the display back plate mold according to claim 3, wherein the transmission member comprises a second connecting rod, a gear and a connecting member;

the gear is meshed with the rack.

5. The material distribution mechanism of the display back plate mold according to claim 4, wherein the transmission member further comprises an adjusting knob, the adjusting knob is disposed at the upper end of the second connecting rod, and the adjusting end of the adjusting knob protrudes out of the mounting cavity.