CN220148472U - Computer assembly turning device - Google Patents

Abstract

The utility model discloses a computer component overturning device, which comprises a conveyor and a plurality of installation racks fixed on the conveyor, wherein each installation rack consists of two support plates and also comprises a clamping component which is arranged on the two support plates and is used for clamping a display screen, and an overturning component which is used for automatically overturning in the conveying process is arranged between the conveyor and the support plates; the clamping assembly comprises a first rotating shaft and a second rotating shaft which are respectively connected to the two supporting plates in a rotating mode, and one ends of the first rotating shaft and the second rotating shaft are respectively fixed with a first mounting plate and a second mounting plate. According to the computer component overturning device, the display screen is convenient to adapt to the processing requirements of different working procedures by clamping, conveying and overturning the display screen, and in the overturning process, operation control is not needed by means of multiple groups of electrical equipment and elements while manual overturning is not needed by mechanical transmission, so that the overturning operation of the display screen is convenient.

Description

Computer assembly turning device

Technical Field

The utility model belongs to the technical field of computer component processing, and particularly relates to a computer component overturning device.

Background

The display screen is used as the computer component, and in the course of production and processing, combines different technology demands, needs to overturn the display screen on the conveying line, and the upset mode of display screen mainly has manual upset and automatic upset, and manual upset inefficiency and increase the risk that the upset in-process display screen damaged, and automatic upset need operate control through the mutually supporting of multiunit electrical equipment and component, and equipment requirement cost is high, the upset operation of all being inconvenient for display screen processing transport.

The present utility model has been made in view of this.

Disclosure of Invention

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

the computer component overturning device comprises a conveyor and a plurality of installation racks fixed on the conveyor, wherein each installation rack consists of two support plates, and further comprises a clamping component which is arranged on the two support plates and is used for clamping a display screen, and an overturning component which is used for automatically overturning in the conveying process is arranged between the conveyor and the support plates;

the clamping assembly comprises a first rotating shaft and a second rotating shaft which are respectively connected to the two supporting plates in a rotating mode, one ends of the first rotating shaft and the second rotating shaft are respectively fixed with a first mounting plate and a second mounting plate, two V-shaped rubber blocks which are used for propping against the side of the display screen are fixed on one side, which is opposite to the first mounting plate and the second mounting plate, of the first mounting plate, a driving assembly used for driving the first mounting plate and the second mounting plate, and a guiding assembly used for guiding in the driving process are arranged between the first mounting plate and the second mounting plate, and a limiting assembly used for limiting after overturning is arranged on the supporting plates.

The overturning assembly comprises a gear fixed at one end of the second rotating shaft, and a rack used for meshed transmission with the gear is connected to the conveyor through an L-shaped frame.

The driving assembly comprises a first connecting plate and a second connecting plate which are respectively fixed on one side of the first mounting plate and one side of the second mounting plate, a threaded rod is connected to the first connecting plate in a rotating mode, a threaded pipe is connected to the threaded rod in a threaded engagement mode, one end of the threaded pipe is fixed to the second connecting plate, and a fixing pin is fixed to one end of the threaded rod.

The guide assembly comprises a third connecting plate and a fourth connecting plate which are respectively fixed on one side of the first mounting plate and one side of the second mounting plate, a first sliding rod is fixed on the third connecting plate, a first sleeve is connected onto the first sliding rod in a sliding mode, and one end of the first sleeve is fixed with the fourth connecting plate.

The limiting assembly comprises a circular plate fixed at one end of the first rotating shaft, a plurality of C-shaped limiting grooves are formed in the circular plate in an annular array mode, and one side of the supporting plate is connected with limiting plates which are mutually matched with the C-shaped limiting grooves through the pushing assembly.

The pushing assembly comprises a fixed plate fixed on one side of the supporting plate, a plurality of second sleeves are fixed on the fixed plate, second slide bars are connected to the second sleeves in a sliding mode, one ends of the second slide bars are fixed to the limiting plates, pushing springs are sleeved on the side walls of the second sleeves, and the limiting plates are limited by the first rotating shafts which abut against the C-shaped limiting grooves under the action of the elastic force of the pushing springs.

Compared with the prior art, the utility model has the following beneficial effects:

according to the computer component overturning device, the display screen is convenient to adapt to the processing requirements of different working procedures by clamping, conveying and overturning the display screen, and in the overturning process, operation control is not needed by means of multiple groups of electrical equipment and elements while manual overturning is not needed by mechanical transmission, so that the overturning operation of the display screen is convenient.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

In the drawings:

FIG. 1 is a schematic diagram of the overall outline structure of the present utility model;

FIG. 2 is a schematic view of a limiting assembly and a pushing assembly according to the present utility model;

FIG. 3 is a schematic view of the structure of the clamping assembly, the driving assembly and the guiding assembly according to the present utility model;

FIG. 4 is a schematic diagram of a flip assembly according to the present utility model;

fig. 5 is an enlarged schematic view of the structure at a in fig. 2.

In the figure: 1-a conveyor; 2-supporting plates; 301-a first rotating shaft; 302-a first mounting plate; 303-a second spindle; 304-a second mounting plate; 305-V-shaped rubber blocks; 401-a first connection plate; 402-a second connection plate; 403-a threaded rod; 404-threaded pipe; 405-fixing pins; 501-a third connecting plate; 502-a fourth connection plate; 503-a first slide bar; 504-a first sleeve; 601-a gear; 602-a rack; 603-L-shaped rack; 701-a circular plate; 702-C type limit grooves; 703-limiting plates; 801-a fixed plate; 802-a second sleeve; 803-a second slide bar; 804-push spring.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and the following embodiments are used to illustrate the present utility model.

As shown in fig. 1 to 5, the computer component turning device comprises a conveyor 1, a plurality of mounting frames fixed on the conveyor 1, wherein each mounting frame consists of two support plates 2, and further comprises a clamping component arranged on the two support plates 2 and used for clamping a display screen, and a turning component used for automatically turning in the conveying process is arranged between the conveyor 1 and the support plates 2;

the clamping assembly comprises a first rotating shaft 301 and a second rotating shaft 303 which are respectively connected to the two support plates 2 in a rotating way, one ends of the first rotating shaft 301 and the second rotating shaft 303 are respectively fixed with a first mounting plate 302 and a second mounting plate 304, two V-shaped rubber blocks 305 which are used for propping against the side of the display screen are fixed on the opposite sides of the first mounting plate 302 and the second mounting plate 304, a driving assembly used for driving the first mounting plate 302 and the second mounting plate 304 and a guiding assembly used for guiding in the driving process are arranged between the first mounting plate 302 and the second mounting plate 304, and a limiting assembly used for limiting after overturning is arranged on the support plates 2; through the centre gripping, transport and upset to the display screen, the processing demand of the different processes of the adaptation of display screen of being convenient for, and at the in-process of upset, through mechanical transmission, need not carry out operation control with the help of multiunit electrical equipment and component when not needing manual upset, the upset operation of the display screen of being convenient for.

The turnover assembly comprises a gear 601 fixed at one end of the second rotating shaft 303, a rack 602 used for meshing with the gear 601 is connected to the conveyor 1 through an L-shaped frame 603, after the display screen is clamped on the mounting frame in a limiting mode, the display screen on the mounting frame is conveyed through the conveyor 1, in the conveying process, when the gear 601 on the second rotating shaft 303 is meshed with the rack 602 on the L-shaped frame 603, the second rotating shaft 303 is driven to rotate through the meshing transmission of the gear 601 and the rack 602, and the display screen clamped between the first mounting plate 302 and the second mounting plate 304 is driven to turn through the rotation of the second rotating shaft 303.

The driving assembly comprises a first connecting plate 401 and a second connecting plate 402 which are respectively fixed on one side of the first mounting plate 302 and one side of the second mounting plate 304, a threaded rod 403 is rotatably connected to the first connecting plate 401, a threaded pipe 404 is connected to the threaded rod 403 in a threaded engagement manner, one end of the threaded pipe 404 is fixed with the second connecting plate 402, and a fixing pin 405 is fixed at one end of the threaded rod 403; the guide assembly comprises a third connecting plate 501 and a fourth connecting plate 502 which are respectively fixed on one side of the first mounting plate 302 and one side of the second mounting plate 304, a first sliding rod 503 is fixed on the third connecting plate 501, a first sleeve 504 is connected on the first sliding rod 503 in a sliding way, and one end of the first sleeve 504 is fixed with the fourth connecting plate 502;

the description here is: the threaded rod 403 is driven to rotate through the fixing pin 405, in the process of rotating the threaded rod 403, the first mounting plate 302 and the second mounting plate 304 are driven to move under the force through the mutual meshing transmission between the threaded rod 403 and the threaded pipe 404, and in the process of moving the first mounting plate 302 and the second mounting plate 304, the forced first mounting plate 302 and the forced second mounting plate 304 are enabled to move close to each other or away from each other through the guiding action of the first sliding rod 503 and the first sleeve 504.

The limiting assembly comprises a circular plate 701 fixed at one end of the first rotating shaft 301, a plurality of C-shaped limiting grooves 702 are formed in the circular plate 701 in an annular array manner, and one side of the supporting plate 2 is connected with a limiting plate 703 which is arranged in a matched manner with the C-shaped limiting grooves 702 through a pushing assembly;

the description here is: in the process of driving the display screen to turn, the first rotating shaft 301 and the circular plate 701 at one end of the first rotating shaft 301 are driven to rotate, in the process of rotating the circular plate 701, the limiting plate 703 is driven to shrink towards the fixed plate 801 by the pushing action of the C-shaped limiting groove 702 and the limiting plate 703, after the display screen is turned over, the limiting plate 703 is pushed by the elastic force of each pushing spring 804 on the pushing assembly, so that the limiting plate 703 is pushed against the C-shaped limiting groove 702, and the limiting plate 703 is pushed against the C-shaped limiting groove 702 by the pushing action of the limiting plate 703.

The pushing assembly comprises a fixed plate 801 fixed on one side of the supporting plate 2, a plurality of second sleeves 802 are fixed on the fixed plate 801, each second sleeve 802 is connected with a second sliding rod 803 in a sliding manner, one end of each second sliding rod 803 is fixed with a limiting plate 703, a pushing spring 804 is sleeved on the side wall of each second sleeve 802, and the limiting plate 703 abuts against the C-shaped limiting groove 702 to limit the rotated first rotating shaft 301 under the action of the elastic force of each pushing spring 804;

what needs to be explained here is: the motion of the forced limiting plate 703 is guided by each second sleeve 802 and the second slide bar 803, and the limiting plate 703 is pushed conveniently by each pushing spring 804.

In the process of conveying and overturning the display screen in the processing process, each display screen is sequentially placed between two support plates 2 of each mounting frame, after placement is completed, the first mounting plate 302 and the second mounting plate 304 are driven to move close to each other through the driving assembly and the guiding assembly, and in the process of moving the first mounting plate 302 and the second mounting plate 304 close to each other, two V-shaped rubber blocks 305 on two sides are respectively propped against two sides of the display screen, so that the display screen is limited and clamped;

after the display screen is limited and clamped on the mounting frame, the display screen on the mounting frame is conveyed through the conveyor 1, in the conveying process, when the gear 601 on the second rotating shaft 303 is meshed with the rack 602 on the L-shaped frame 603, the second rotating shaft 303 is driven to rotate through the meshed transmission of the gear 601 and the rack 602, the first mounting plate 302 and the second mounting plate 304 are driven to clamp and clamp the limited display screen to overturn through the rotation of the second rotating shaft 303, the display screen is convenient to adapt to the processing requirements of different working procedures through clamping, conveying and overturning the display screen, in the overturning process, through mechanical transmission, operation control is not needed by a plurality of groups of electrical equipment and elements while manual overturning is not needed, and overturning operation of the display screen is convenient;

in the process of driving the display screen to turn, the first rotating shaft 301 and the circular plate 701 at one end of the first rotating shaft 301 are driven to rotate, in the process of rotating the circular plate 701, the limiting plate 703 is driven to shrink towards the fixed plate 801 through the pushing action of the C-shaped limiting groove 702 and the pushing action of the limiting plate 703, after the display screen is turned over, the limiting plate 703 is pushed by the elastic force of each pushing spring 804 on the pushing assembly, the limiting plate 703 is pushed against the C-shaped limiting groove 702, and the first rotating shaft 301 after switching and the display screen after turning over are limited through the pushing action of the limiting plate 703 and the C-shaped limiting groove 702, so that the state of the display screen after turning over is kept, and the stable use of the display screen is facilitated.

Claims (6)

1. A computer assembly turning device comprising:

the device comprises a conveyor (1) and a plurality of mounting frames fixed on the conveyor (1), wherein each mounting frame consists of two supporting plates (2);

characterized by further comprising:

the clamping assemblies are arranged on the two support plates (2) and used for clamping the display screen, and a turnover assembly used for automatically turning over in the conveying process is arranged between the conveyor (1) and the support plates (2);

the clamping assembly comprises a first rotating shaft (301) and a second rotating shaft (303) which are respectively connected to two supporting plates (2) in a rotating mode, one ends of the first rotating shaft (301) and the second rotating shaft (303) are respectively fixed with a first mounting plate (302) and a second mounting plate (304), two V-shaped rubber blocks (305) which are used for propping against the side of a display screen are fixed on one sides of the first mounting plate (302) opposite to the second mounting plate (304), and a driving assembly for driving the first mounting plate (302) and the second mounting plate (304) and a guiding assembly for guiding in the driving process are arranged between the first mounting plate (302) and the second mounting plate (304), and a limiting assembly for limiting after overturning is arranged on the supporting plates (2).

2. The turnover device of the computer assembly according to claim 1, wherein the turnover assembly comprises a gear (601) fixed at one end of the second rotating shaft (303), and a rack (602) for meshing transmission with the gear (601) is connected to the conveyor (1) through an L-shaped frame (603).

3. The turnover device of the computer assembly according to claim 1, wherein the driving assembly comprises a first connecting plate (401) and a second connecting plate (402) which are respectively fixed on one side of the first mounting plate (302) and one side of the second mounting plate (304), a threaded rod (403) is rotatably connected to the first connecting plate (401), a threaded pipe (404) is connected to the threaded rod (403) in a threaded engagement manner, one end of the threaded pipe (404) is fixed with the second connecting plate (402), and a fixing pin (405) is fixed to one end of the threaded rod (403).

4. A computer component turning device according to claim 3, wherein the guiding component comprises a third connecting plate (501) and a fourth connecting plate (502) which are respectively fixed on one side of the first mounting plate (302) and one side of the second mounting plate (304), a first sliding rod (503) is fixed on the third connecting plate (501), a first sleeve (504) is slidingly connected on the first sliding rod (503), and one end of the first sleeve (504) is fixed with the fourth connecting plate (502).

5. The computer component overturning device according to claim 1, wherein the limiting component comprises a circular plate (701) fixed at one end of the first rotating shaft (301), a plurality of C-shaped limiting grooves (702) are formed in the circular plate (701) in an annular array mode, and a limiting plate (703) which is arranged in a matched mode with the C-shaped limiting grooves (702) is connected to one side of the supporting plate (2) through a pushing component.

6. The turnover device of the computer component according to claim 5, wherein the pushing component comprises a fixing plate (801) fixed on one side of the supporting plate (2), a plurality of second sleeves (802) are fixed on the fixing plate (801), second slide bars (803) are connected to the second sleeves (802) in a sliding manner, one ends of the second slide bars (803) are fixed with a limiting plate (703), pushing springs (804) are sleeved on the side walls of the second sleeves (802), and the limiting plate (703) is limited by the elastic force of the pushing springs (804) and abuts against the C-shaped limiting grooves (702) to rotate the first rotating shaft (301).