CN216736479U - Automatic turnover machine for hollow toughened glass - Google Patents

Abstract

The utility model discloses an automatic turnover machine for hollow toughened glass, which comprises a rack, wherein a conveyor belt is arranged on the rack, and a conveying mechanism for conveying a glass support, an assembling mechanism for attaching the toughened glass to the glass support and a turnover mechanism for turning over the glass support are arranged on the rack; the turnover mechanism comprises an upper turnover plate and a lower turnover plate, the upper turnover plate and the lower turnover plate are both connected with a turnover cylinder for driving the upper turnover plate and the lower turnover plate to move in opposite directions, the upper turnover plate and the lower turnover plate are arranged in a sliding manner, and the middle of the sliding frame is connected with a turnover motor. The utility model has the following beneficial effects: the automatic turnover machine for the hollow toughened glass can turn over the glass support, so that the toughened glass can be automatically pasted on two sides, and the production efficiency is high.

Description

Automatic turnover machine for hollow toughened glass

Technical Field

The utility model relates to an automatic turnover machine for hollow toughened glass.

Background

The hollow toughened glass is formed by compounding two pieces of toughened glass and a glass bracket. The tempered glass needs to be cooled in the tempering process. The reason is that when the toughened glass is manufactured by physicochemical cooling, the toughened glass needs to be reduced to room temperature in a short time, so that the internal structure is structurally modified under rapid cooling, and the toughened glass with stable structure and high strength is manufactured.

The hollow toughened glass is adhered to the toughened glass on two sides of the glass support, and the drying agent is placed at the edge position to prevent water vapor from occurring between the toughened glass. When the existing toughened glass is assembled, one surface of toughened glass is generally installed firstly, and then the other surface of toughened glass is adhered after manual turnover, so that the production efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic turnover machine for hollow toughened glass. The automatic turnover machine for the hollow toughened glass can turn over the glass support, so that the toughened glass can be automatically pasted on two sides, and the production efficiency is high.

The utility model aims to be realized by the following technical scheme:

an automatic turnover machine for hollow toughened glass comprises a rack, wherein a conveyor belt is arranged on the rack, and a conveying mechanism for conveying a glass support, an assembling mechanism for attaching the toughened glass to the glass support and a turnover mechanism for turning over the glass support are arranged on the rack; the turnover mechanism comprises an upper turnover plate and a lower turnover plate, the upper turnover plate and the lower turnover plate are both connected with a turnover cylinder for driving the upper turnover plate and the lower turnover plate to move in opposite directions, the upper turnover plate and the lower turnover plate are arranged in a sliding manner, and the middle of the sliding frame is connected with a turnover motor.

The utility model is further configured to: one side of the turnover motor is provided with a fixing frame, and the fixing frame is connected with the rack.

The utility model is further configured to: the upper turnover plate comprises a rotating plate and a positioning plate, the rotating plate is hinged with the positioning plate, and the rotating plate is connected with a rotating motor.

The utility model is further configured to: the conveying mechanism comprises a conveying frame, a conveying belt is arranged on the conveying frame in a matched mode, and a conveying plate is arranged on the conveying belt.

The utility model is further configured to: the equipment mechanism includes the adsorption plate, and the adsorption plate bottom is provided with a plurality of sucking discs, and the adsorption plate top is connected with the adsorption cylinder, and the adsorption cylinder is connected with the slide bar, and the slide bar slides with the frame and is connected, and slide bar one end is connected with the swinging arms, and the other end of swinging arms is connected with the runner, and swinging arms and runner eccentric settings, runner are connected with drive arrangement and are used for driving the runner to rotate.

The utility model is further configured to: the runner is connected with the dwang, and the dwang cooperation is connected with bevel gear group, and bevel gear group connects with the axis of rotation, and axis of rotation connection has the equipment motor.

The utility model is further configured to: the equipment mechanism still includes the fixed plate, sets up the spout on the fixed plate, and the spout slides and sets up the actuating lever, and the actuating lever is connected with and drives actuating cylinder, and the actuating lever bottom is provided with the bin.

In summary, the present invention has the following advantageous objects: the automatic turnover machine for the hollow toughened glass can turn over the glass support, so that the toughened glass can be automatically pasted on two sides, and the production efficiency is high.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment;

FIG. 2 is another structural view of the embodiment;

FIG. 3 is a schematic diagram of the right view direction structure of the embodiment;

fig. 4 is a schematic structural diagram of the turnover mechanism.

Reference numerals: 1. a frame; 2. a conveyor belt; 3. a first gear; 4. a second gear; 5. a transfer motor; 6. a conveying mechanism; 7. an assembly mechanism; 8. a turnover mechanism; 9. a carriage; 10. a conveyor belt; 11. a conveying plate; 12. assembling a motor; 13. a rotating shaft; 14. a bevel gear set; 15. rotating the rod; 16. a rotating wheel; 17. a swing lever; 18. a slide bar; 19. a sliding groove; 20. an adsorption cylinder; 21. an adsorption plate; 22. a fixing plate; 23. a chute; 24. a drive rod; 25. a fixed block; 26. a driving cylinder; 27. a storage tank; 28. a fixing groove; 29. a lower roll-over plate; 30. a sliding frame; 31. an upper flipping plate; 32. turning over the air cylinder; 33. turning over a motor; 34. a fixed mount; 35. a rotating plate; 36. positioning a plate; 37. a rotating electric machine; 38. and a limiting plate.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the automatic turnover machine for the hollow toughened glass comprises a machine frame 1, wherein a conveying belt 2 is arranged on the machine frame 1, and the conveying belt 2 is used for conveying a glass support to facilitate adhering the toughened glass. One side of the conveyor belt 2 is connected with a first gear 3, the first gear 3 is meshed with a second gear 4, and the second gear 4 is connected with a conveyor motor 5. The conveying motor 5 is used for driving the conveying belt 2 to work. The conveyor 2 is provided with a limiting plate 38 for the glass bracket to pass through for preventing the glass bracket from deviating from the conveyor 2. The limiting plates 38 are disposed on both sides of the conveyor belt 2.

In addition, the rack 1 is also provided with a conveying mechanism 6 for conveying the glass support, an assembling mechanism 7 for attaching toughened glass to the glass support, and a turnover mechanism 8 for turning over the glass support.

1. Conveying mechanism 6

As shown in fig. 2, the conveying mechanism 6 includes a carriage 9. The conveying frame 9 is provided with a conveying belt 10 in a matching way, and conveying plates 11 are arranged on the conveying belt 10 in an arranging way. Between each two conveying plates 11, an unassembled glass carrier is placed. A conveying motor (not shown in the figure) is arranged on one side of the conveying frame 9.

When the conveying motor works, the glass bracket between the two conveying plates 11 is driven to move until the glass bracket reaches the edge position of the conveying belt 2 and is driven to move by the conveying belt 2.

2. Assembling mechanism 7

As shown in fig. 2 and 3, the assembling mechanism 7 includes an assembling motor 12 disposed on one side of the frame 1. The assembled motor 12 is connected with a rotating shaft 13. The rotating shaft 13 is bearing-connected with the frame 1. Two bevel gear sets 14 are arranged on the rotating shaft 13. The bevel gear set 14 is connected with a rotating rod 15 in a matching way. One end of the rotating rod 15 is fixedly connected with a rotating wheel 16. The edge position of the rotating wheel 16 is connected with a swing rod 17, and one end of the swing rod 17 is connected with a sliding rod 18. A sliding groove 19 is arranged on the frame 1 corresponding to the sliding rod 18. One end of the sliding rod 18 is fixedly connected with an adsorption cylinder 20 which is used for driving the glass to move in the middle of the frame 1.

The bottom of the adsorption cylinder 20 is connected with an adsorption plate 21. The suction plate 21 is provided with a plurality of suction pads (not shown). When the adsorption cylinder 20 works, the sucker is in contact with the glass, and the glass is sucked on the sucker by vacuumizing. And by the operation of the assembling motor 12, the assembling motor 12 drives the rotating shaft 13 to rotate, thereby driving the rotating rod 15 to rotate, and the rotating wheel 16 to rotate. The rotating wheel 16 rotates to drive the swinging rod 17 to swing, so that the sliding rod 18 moves up and down in the sliding groove 19, and finally the adsorption cylinder 20 is driven to move up and down to be assembled with the glass support.

It should be noted that the rotating wheel 16 is limited by the rotating rod 15, so that the angle of rotation of one end of the swinging rod 17 on the rotating wheel 16 around the center of the rotating wheel 16 does not exceed 360 degrees, and therefore, the adsorption cylinder 20 is driven to move up and down by a limited distance.

The assembly mechanism 7 further comprises a fixing plate 22 fixedly connected with the frame 1. The fixing plate 22 is provided with a slide groove 23. A driving rod 24 is slidably connected in the chute 23. The fixed cover in the middle part of actuating lever 24 is equipped with fixed block 25, and fixed block 25 one side is connected with and drives actuating cylinder 26. A storage box 27 for storing a plurality of pieces of glass is connected to the bottom of the driving rod 24.

The working process comprises the following steps: when the conveyer belt 10 drives a glass support to the conveyer belt 2 and moves to the lower part of the adsorption cylinder 20 under the action of the conveyer belt 2. The driving cylinder 26 is operated to move the fixed block 25, and thus the driving rod 24. The driving rod 24 moves the storage tank 27 to below the adsorption plate 21. At this time, the assembly motor 12 operates to stop the suction plate 21 when it is moved down to abut against the first piece of tempered glass in the storage tank 27. The adsorption cylinder 20 operates to make the adsorption plate 21 adsorb a piece of tempered glass. Then, the assembly motor 12 rotates reversely to drive the suction plate 21 to return to the original height, and the driving cylinder 26 drives the driving rod 24 to return to the original position.

The assembly motor 12 works again to drive the adsorption plate 21 with the toughened glass to move downwards to be matched and abutted with the glass bracket. The suction cylinder 20 blows air into the suction cup so that the suction plate 21 no longer sucks the tempered glass. The tempered glass on the adsorption plate 21 is adhered to the glass holder.

3. Turnover mechanism 8

As shown in fig. 4, the turning mechanism 8 includes a fixing groove 28 provided on the conveyor belt 2. A lower turnover plate 29 is arranged in the fixing groove 28 in a matching way. One side of the lower turnover plate 29 is connected with a sliding frame 30 in a sliding way. An upper turnover plate 31 matched with the lower turnover plate 29 slides on one side of the sliding frame 30. The lower turnover plate 29 and the upper turnover plate 31 are both connected with a turnover cylinder 32 for driving the lower turnover plate 29 and the upper turnover plate 31 to move in opposite directions until the lower turnover plate and the upper turnover plate abut against two surfaces of the glass bracket.

The middle part of the sliding frame 30 is connected with a turnover motor 33. When the turnover motor 33 rotates, the sliding frame 30 can be driven to rotate, so that the upper turnover plate 31 and the lower turnover plate 29 are turned over by 180 degrees for transposition. A fixing frame 34 is slidably arranged on one side of the overturning motor 33. The other end of the fixing frame 34 is fixedly connected with the frame 1. When the conveyor belt 2 moves, the lower turnover plate 29 in the fixing groove 28 moves along with the conveyor belt, so that the sliding frame 30 and the turnover motor 33 are driven to move. The turnover motor 33 slides on the fixed frame 34.

Preferably, the upper flipping plate 31 includes a rotating plate 35 and a positioning plate 36. The positioning plate 36 is connected with the overturning cylinder 32, the rotating plate 35 is hinged with the positioning plate 36, and the rotating plate 35 is connected with a rotating motor 37. The rotating motor 37 is fixedly connected with the positioning plate 36. When the rotating motor 37 works, the rotating plate 35 can be driven to rotate clockwise by 90 degrees.

Initially, the bottom of the glass rack abuts the lower roll-over plate 29 as the conveyor 10 transports the glass rack to the edge of the conveyor 2. At this time, the rotating plate 35 rotates 90 degrees under the operation of the rotating motor 37, preventing the sticking process of the tempered glass from being hindered.

After the glass support is pasted on the glass support, the conveying motor 5 drives the glass support to return to the edge of the conveying belt 2, at the moment, the overturning air cylinder 32 drives the upper overturning plate 31 and the lower overturning plate 29 to move oppositely until the glass support is suspended and clamped between the upper overturning plate 31 and the lower overturning plate 29. The turning motor 33 is operated to rotate the sliding frame 30 by 180 degrees, thereby turning the glass support. The process of pasting the other side of the glass bracket is the same as the process.

After the toughened glass is pasted on the two surfaces of the glass support, the conveyor belt 2 moves the finished hollow toughened glass to the other end of the conveyor belt 2 to receive the toughened glass. Then, the conveying motor 5 rotates reversely to enable the conveying belt 2 to return to the original position, at the moment, the lower turnover plate 29 is located at the edge position of the conveying belt 2, and the process of adhering the toughened glass to the two sides of the next glass support is ready to be carried out.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (7)

1. The utility model provides a cavity toughened glass's automatic turn-over machine, includes frame (1), be provided with conveyer belt (2), characterized by on frame (1): the rack (1) is provided with a conveying mechanism (6) for conveying the glass support, an assembling mechanism (7) for attaching toughened glass to the glass support and a turnover mechanism (8) for turning over the glass support;

the turnover mechanism (8) comprises an upper turnover plate (31) and a lower turnover plate (29), the upper turnover plate (31) and the lower turnover plate (29) are both connected with a turnover cylinder (32) for driving the upper turnover plate (31) and the lower turnover plate (29) to move oppositely, a sliding frame (30) is arranged on the upper turnover plate (31) and the lower turnover plate (29) in a sliding manner, and a turnover motor (33) is connected to the middle of the sliding frame (30).

2. The automatic turn-over machine for hollow toughened glass according to claim 1, wherein: a fixing frame (34) is arranged on one side of the overturning motor (33), and the fixing frame (34) is connected with the rack (1).

3. The automatic turn-over machine for hollow tempered glass as claimed in claim 2, wherein: go up flip board (31) including rotor plate (35) and locating plate (36), rotor plate (35) are articulated with locating plate (36) and rotor plate (35) are connected with rotating electrical machines (37).

4. The automatic turn-over machine for hollow toughened glass according to claim 1, wherein: the conveying mechanism (6) comprises a conveying frame (9), a conveying belt (10) is arranged on the conveying frame (9) in a matched mode, and a conveying plate (11) is arranged on the conveying belt (10).

5. The automatic turn-over machine for hollow toughened glass according to claim 1, wherein: equipment mechanism (7) are including adsorption plate (21), and adsorption plate (21) bottom is provided with a plurality of sucking discs, and adsorption plate (21) top is connected with adsorption cylinder (20), adsorption cylinder (20) are connected with slide bar (18), slide bar (18) slide with frame (1) and be connected, slide bar (18) one end is connected with swinging arms (17), the other end of swinging arms (17) is connected with runner (16), swinging arms (17) and runner (16) eccentric settings, runner (16) are connected with drive arrangement and are used for driving runner (16) to rotate.

6. The automatic turn-over machine for hollow tempered glass as claimed in claim 5, wherein: runner (16) are connected with dwang (15), dwang (15) cooperation is connected with bevel gear group (14), bevel gear group (14) are connected with axis of rotation (13), axis of rotation (13) are connected with equipment motor (12).

7. The automatic turn-over machine for hollow tempered glass as claimed in claim 5, wherein: equipment mechanism (7) still includes fixed plate (22), set up spout (23) on fixed plate (22), spout (23) slide and set up actuating lever (24), actuating lever (24) are connected with and drive actuating cylinder (26), actuating lever (24) bottom is provided with bin (27).

Images