CN218024199U - Television toughened touch glass screen laminating mechanism - Google Patents

Abstract

The utility model discloses a television toughened touch glass screen laminating mechanism, which relates to the technical field of television automatic assembly equipment, and comprises a support frame, a limiting component for clamping and limiting a screen, a conveying component for conveying the screen, a material placing seat for placing an installation frame of a television and a laminating component for sucking and fixing the screen and laminating the screen into the installation frame, wherein the limiting component and the laminating component are close to each other and are arranged at the upper side of the support frame; the conveying assembly is positioned between the limiting assembly and the fitting assembly; the laminating assembly comprises a transverse driving device, a vertical driving device and a sucker for sucking and fixing the screen, wherein the vertical driving device is arranged at the output end of the transverse driving device; the screen is automatically limited, conveyed and attached by the aid of the limiting assembly, the conveying assembly and the attaching assembly, working efficiency is improved, and labor cost is reduced.

Description

Television toughened touch glass screen laminating mechanism

Technical Field

The utility model relates to an automatic equipment field technique of TV set especially indicates a TV set tempering touch glass screen laminating mechanism.

Background

With the development of society, the demand for televisions is increasing continuously, in the television assembling process, an outer screen touch toughened glass screen of the television needs to be attached to a television mounting frame, and in the attaching process, due to the heavy weight of toughened glass, a large amount of manpower and material resources are consumed by manual transportation; the laminating mechanism in the prior art has the technical problems of uneven downward pressure, poor laminating accuracy and high defective rate in the laminating process; therefore, in order to meet the current situation, a strengthened touch glass screen laminating mechanism for a television needs to be developed urgently to meet the actual use requirement.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model discloses to the disappearance that prior art exists, its main objective provides a TV set toughened touch glass screen laminating mechanism, and it is through adopting spacing subassembly, conveying subassembly and the automatic realization of laminating subassembly to spacing, conveying and the laminating of screen, has improved work efficiency, has reduced the cost of labor.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a television toughened touch glass screen laminating mechanism comprises a supporting frame, a limiting component, a conveying component, a discharging seat and a laminating component, wherein the limiting component is used for clamping and limiting a screen; the conveying assembly is positioned between the limiting assembly and the fitting assembly; the laminating assembly comprises a transverse driving device, a vertical driving device and a sucker for sucking and fixing the screen, wherein the transverse driving device is arranged on the upper side of the supporting frame, the vertical driving device is arranged at the output end of the transverse driving device, and the sucker is arranged at the output end of the vertical driving device; the sucking disc is movably positioned between the conveying assembly and the discharging seat; the limiting assembly comprises a first limiting device, a second limiting device, a third limiting device and a fourth limiting device, wherein the first limiting device, the second limiting device, the third limiting device and the fourth limiting device are sequentially distributed beside the four side edges of the screen; the conveying assembly is provided with a supporting plate for supporting and fixing the screen, and the supporting plate is movable and corresponds to the limiting assembly.

As a preferred scheme: the first limiting device comprises a transverse limiting driving motor, a first lead screw and a first limiting slide block, the third limiting device comprises a third lead screw and a third limiting slide block, the first lead screw and the third lead screw are opposite to each other and are arranged at the output end of the transverse limiting driving motor, the first limiting slide block is in running fit with the first lead screw, the third limiting slide block is in running fit with the third lead screw, and the transverse limiting driving motor drives the first limiting slide block and the third limiting slide block to be close to or far away from each other.

As a preferred embodiment: the second limiting device and the fourth limiting device respectively comprise a longitudinal limiting driving motor, a longitudinal screw rod and a longitudinal limiting sliding block, the longitudinal screw rod is installed at the shaft end of the longitudinal limiting driving motor, and the longitudinal limiting sliding block is in running fit with the longitudinal screw rod.

As a preferred embodiment: the limiting assembly further comprises a pressing device for pressing the upper surface of the screen, the pressing device comprises a pressing driving cylinder and an elastic pressure plate, the pressing driving cylinder is vertically installed on the upper side of the support frame, the elastic pressure plate is installed at the shaft end of the pressing driving cylinder, and the elastic pressure plate can be lifted and abutted to the upper surface of the screen.

As a preferred embodiment: the conveying assembly further comprises a transverse conveying driving device and a lifting driving device, the transverse conveying driving device is installed on the lower side of the supporting frame, and the lifting driving device is installed at the output end of the transverse conveying driving device.

As a preferred scheme: the transverse transmission driving device and the transverse driving device respectively comprise a transverse driving motor, a front screw rod, a front gear, a front rack, a front guide rail, a rear screw rod, a rear gear, a rear rack, a rear guide rail and a transverse sliding seat, the front screw rod and the rear screw rod are oppositely arranged at the shaft end of the transverse driving motor, the front gear is arranged at the end part of the front screw rod, the front gear is meshed with the front rack, and the front guide rail is arranged along the direction of the front rack; the rear gear is arranged at the end part of the rear screw rod, the rear gear is meshed with the rear rack, and the rear guide rail is arranged along the direction of the rear rack; the two sides of the transverse sliding seat are in sliding fit with the front guide rail and the rear guide rail.

As a preferred embodiment: the lifting driving device comprises an electric cylinder and the supporting plate, the electric cylinder is arranged on the lower side of the supporting frame, and the supporting plate is arranged at the shaft end of the electric cylinder.

As a preferred embodiment: the vertical driving device comprises a vertical driving motor, a vertical lead screw and a vertical sliding seat, the vertical driving motor is installed on the upper side of the supporting frame, the vertical lead screw is installed at the shaft end of the vertical driving motor, the vertical sliding seat is in running fit with the vertical lead screw, and the sucker is installed on the vertical sliding seat.

Compared with the prior art, the utility model has obvious advantages and beneficial effects, and particularly, according to the technical scheme, the screen is automatically limited, conveyed and laminated by adopting the limiting component, the conveying component and the laminating component, so that the working efficiency is improved, and the labor cost is reduced; the laminating accuracy is high, and the defective rate is reduced; the screen is further limited by the aid of the pressing and fixing device, so that the screen is prevented from being shifted, and the attaching accuracy is improved; the screen is prevented from being damaged in the pressing process by the elastic pressing plate, and the defective rate is reduced.

To illustrate the structural features and functions of the present invention more clearly, the following detailed description is given with reference to the accompanying drawings and specific embodiments.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of a glass touch screen laminating mechanism for a television set of the present invention;

FIG. 2 is a schematic perspective view of the limiting assembly of the present invention;

FIG. 3 is a schematic perspective view of the transfer module and the bonding module of the present invention;

fig. 4 is a schematic perspective view of the lifting driving device of the present invention.

The attached drawings indicate the following:

in the figure: 10. a support frame; 20. a limiting component; 21. a first limiting device; 211. a transverse limit driving motor; 212. a first lead screw; 213. a first limit slide block; 22. a second limiting device; 221. a longitudinal limit driving motor; 222. a longitudinal screw rod; 223. a longitudinal limiting slide block; 23. a third limiting device; 231. a third screw rod; 232. a third limiting slide block; 24. a fourth limiting device; 25. a pressing device; 251. pressing and fixing the driving cylinder; 252. an elastic pressure plate; 30. a transfer assembly; 31. a lateral transfer drive device; 32. a lift drive device; 321. an electric cylinder; 322. a support plate; 40. a discharge seat; 50. fitting the assembly; 51. a lateral drive device; 510. a transverse driving motor; 511. a front screw rod; 512. a front gear; 513. a front rack; 514. a front guide rail; 515. a rear screw rod; 516. a rear gear; 517. a rear rack; 518. a rear guide rail; 519. a transverse slide carriage; 52. a vertical drive device; 521. a vertical drive motor; 522. a vertical slide carriage; 523. and (4) sucking discs.

Detailed Description

The utility model discloses as shown in fig. 1 to fig. 4, a TV set toughened touch glass screen laminating mechanism, including support frame 10, be used for the clamping screen and to the spacing subassembly 20 of screen spacing, the conveying subassembly 30 that is used for conveying the screen, be used for placing the blowing seat 40 of the installing frame of TV set and be used for inhaling solid screen and laminate the screen to the laminating subassembly 50 in the installing frame, wherein:

the limiting component 20 and the jointing component 50 are arranged on the upper side of the support frame 10 close to each other; the transmission assembly 30 is positioned between the limiting assembly 20 and the attaching assembly 50; the attaching assembly 50 includes a horizontal driving device 51, a vertical driving device 52 and a suction cup 523 for sucking and fixing the screen, the horizontal driving device 51 is installed on the upper side of the supporting frame 10, the vertical driving device 52 is installed at the output end of the horizontal driving device 51, and the suction cup 523 is installed at the output end of the vertical driving device 52; the sucking disc 523 is movably positioned between the conveying assembly 30 and the discharging seat 40; the limiting assembly 20 comprises a first limiting device 21, a second limiting device 22, a third limiting device 23 and a fourth limiting device 24, wherein the first limiting device 21, the second limiting device 22, the third limiting device 23 and the fourth limiting device 24 are sequentially distributed beside the four side edges of the screen; the conveying assembly 30 has a supporting plate 322 for supporting the screen, and the supporting plate 322 is movably corresponding to the position limiting assembly 20.

The first limiting device 21, the second limiting device 22, the third limiting device 23 and the fourth limiting device 24 of the limiting component 20 limit the screen in four directions, the position of the screen corresponds to the conveying component 30, the supporting plate 322 of the conveying component 30 moves to the lower part of the screen, the limiting component 20 loosens the limited screen, the supporting plate 322 of the conveying component 30 conveys the limited screen to the lower part of the attaching component 50, the sucking disc 523 of the attaching component 50 sucks and fixes the screen, the transverse driving device 51 of the attaching component 50 drives the sucking disc 523 to transversely move to the upper part of the material placing seat 40, the vertical driving device 52 of the attaching component 50 drives the sucking disc 523 to descend to place the screen in the mounting frame of the material placing seat 40, and the sucking disc 523 continues to descend to fasten and attach the screen in the mounting frame.

The screen is limited, conveyed and attached automatically by adopting the limiting assembly 20, the conveying assembly 30 and the attaching assembly 50, so that the working efficiency is improved, and the labor cost is reduced; the laminating precision is high, has reduced the defective percentage.

The first limiting device 21 comprises a transverse limiting driving motor 211, a first lead screw 212 and a first limiting slide block 213, the third limiting device 23 comprises a third lead screw 231 and a third limiting slide block 232, the first lead screw 212 and the third lead screw 231 are opposite to each other and are arranged at the output end of the transverse limiting driving motor 211, the first limiting slide block 213 is in running fit with the first lead screw 212, the third limiting slide block 232 is in running fit with the third lead screw 231, and the transverse limiting driving motor 211 drives the first limiting slide block 213 and the third limiting slide block 232 to be close to or far away from each other.

The first limiting slide block 213 and the third limiting slide block 232 are driven to approach or separate from each other by the transverse limiting driving motor 211, so that the position movement synchronism is high, resources are fully utilized, the production cost is reduced, the whole structure is compact, and the occupied area is small; first stop device 21 and third stop device 23 relative movement each other, it is spacing with the relative both sides fastening of screen, the accurate location of the follow-up laminating of being convenient for has improved the precision of laminating.

The second limiting device 22 and the fourth limiting device 24 both comprise a longitudinal limiting driving motor 221, a longitudinal screw 222 and a longitudinal limiting slider 223, the longitudinal screw 222 is mounted at the shaft end of the longitudinal limiting driving motor 221, and the longitudinal limiting slider 223 is in running fit with the longitudinal screw 222.

The longitudinal limit driving motor 221 and the longitudinal lead screw 222 are adopted to provide driving force for the position movement of the longitudinal limit sliding block 223, so that the position movement accuracy and stability are improved; the screen is fastened by the first limiting slide block 213, the second limiting slide block, the third limiting slide block 232 and the fourth limiting slide block, four side positions of the screen are limited by the limiting assembly 20, the screen is prevented from position deviation in the subsequent laminating process, and the defective rate is reduced.

The limiting assembly 20 further comprises a pressing device 25 for pressing the upper surface of the screen, the pressing device 25 comprises a pressing driving cylinder 251 and an elastic pressure plate 252, the pressing driving cylinder 251 is vertically mounted on the upper side of the support frame 10, the elastic pressure plate 252 is mounted at the shaft end of the pressing driving cylinder 251, and the elastic pressure plate 252 can be lifted and abutted to the upper surface of the screen.

The pressing and fixing driving cylinder 251 drives the elastic pressure plate 252 to press down the upper surface of the screen, and the pressing and fixing device 25 further has a limiting effect on the screen, so that the position deviation of the screen is prevented, and the attaching accuracy is improved; the damage to the screen during the pressing process is prevented by the elastic pressure plate 252, and the defective rate is reduced.

The conveying assembly 30 further comprises a transverse conveying driving device 31 and a lifting driving device 32, wherein the transverse conveying driving device 31 is installed at the lower side of the support frame 10, and the lifting driving device 32 is installed at the output end of the transverse conveying driving device 31.

The requirement of the screen for position movement in the transverse direction is met by adopting the transverse conveying driving device 31; the lifting driving device 32 satisfies the corresponding position relationship between the screen and the limiting component 20.

The transverse transmission driving device 31 and the transverse driving device 51 each comprise a transverse driving motor 510, a front screw rod 511, a front gear 512, a front rack 513, a front guide rail 514, a rear screw rod 515, a rear gear 516, a rear rack 517, a rear guide rail 518 and a transverse sliding seat 519, the front screw rod 511 and the rear screw rod 515 are oppositely arranged at the shaft end of the transverse driving motor 510, the front gear 512 is arranged at the end part of the front screw rod 511, the front gear 512 is meshed with the front rack 513, and the front guide rail 514 is arranged along the direction of the front rack 513; the rear gear 516 is mounted at the end of the rear screw 515, the rear gear 516 is engaged with the rear rack 517, and the rear guide rail 518 is arranged along the direction of the rear rack 517; the lateral slide 519 is slidably engaged on both sides with the front rail 514 and the rear rail 518.

The two sides of the transverse sliding seat 519 are driven to slide on the front guide rail 514 and the rear guide rail 518 through a transverse driving motor 510, so that the balance and the stability are improved; the transverse driving motor 510 drives the front screw 511 and the rear screw 515 to rotate synchronously, the front gear 512 rotates relative to the front rack 513, the rear gear 516 rotates relative to the rear rack 517 synchronously, and the position movement consistency is high.

The lifting driving device 32 comprises an electric cylinder 321 and the supporting plate 322, wherein the electric cylinder 321 is arranged at the lower side of the supporting frame 10, and the supporting plate 322 is arranged at the shaft end of the electric cylinder 321; the electric cylinder 321 drives the supporting plate 322 to lift, and the supporting plate 322 lifts the screen, so that the precision of lifting movement is improved.

The vertical driving device 52 comprises a vertical driving motor 521, a vertical lead screw and a vertical sliding seat 522, wherein the vertical driving motor 521 is installed at the upper side of the support frame 10, the vertical lead screw is installed at the shaft end of the vertical driving motor 521, the vertical sliding seat 522 is in running fit with the vertical lead screw, and the sucker 523 is installed on the vertical sliding seat 522; the vertical driving motor 521 drives the vertical screw rod to rotate, the vertical screw rod rotates to drive the vertical sliding seat 522 to lift, the sucker 523 lifts along with the lifting of the vertical sliding seat 522, the sucker 523 sucks and fixes the screen, and the requirement for moving the position of the screen in the vertical direction is met.

The using method and the principle of the television toughened touch glass screen laminating mechanism are as follows:

the first limiting device, the second limiting device, the third limiting device and the fourth limiting device of the limiting assembly limit the screen in four directions, the position of the screen corresponds to the conveying assembly, the supporting plate of the conveying assembly moves to the lower side of the screen, the limiting assembly loosens the limited screen, the supporting plate of the conveying assembly conveys the limited screen to the lower side of the laminating assembly, the sucking disc of the laminating assembly sucks and fixes the screen, the transverse driving device of the laminating assembly drives the sucking disc to transversely move to the upper side of the discharging seat, the vertical driving device of the laminating assembly drives the sucking disc to descend to place the screen in the mounting frame of the discharging seat, and the sucking disc continues to descend to fasten and laminate the screen in the mounting frame.

The utility model has the design key points that the screen is automatically limited, conveyed and laminated by adopting the limiting component, the conveying component and the laminating component, the working efficiency is improved, and the labor cost is reduced; the laminating accuracy is high, and the defective rate is reduced; the pressing and fixing device is adopted to further limit the screen, so that the screen is prevented from position deviation, and the fitting accuracy is improved; the screen is prevented from being damaged in the pressing process by the elastic pressing plate, and the defective rate is reduced.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the technical scope of the present invention, so that any slight modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments are all within the scope of the technical solution of the present invention.

Claims (8)

1. The utility model provides a TV set toughened touch glass screen laminating mechanism which characterized in that: the television screen fixing device comprises a support frame, a limiting component, a conveying component, a material placing seat and a laminating component, wherein the limiting component is used for clamping and fixing a screen and limiting the screen, the conveying component is used for conveying the screen, the material placing seat is used for placing an installation frame of a television, the laminating component is used for sucking and fixing the screen and laminating the screen into the installation frame, and the limiting component and the laminating component are arranged on the upper side of the support frame in a mutually close mode; the conveying assembly is positioned between the limiting assembly and the fitting assembly; the laminating assembly comprises a transverse driving device, a vertical driving device and a sucker for sucking and fixing the screen, wherein the transverse driving device is arranged on the upper side of the supporting frame, the vertical driving device is arranged at the output end of the transverse driving device, and the sucker is arranged at the output end of the vertical driving device; the sucking disc is movably positioned between the conveying assembly and the discharging seat; the limiting assembly comprises a first limiting device, a second limiting device, a third limiting device and a fourth limiting device, wherein the first limiting device, the second limiting device, the third limiting device and the fourth limiting device are sequentially distributed beside four side edges of the screen; the conveying assembly is provided with a supporting plate for supporting and fixing the screen, and the supporting plate is movable and corresponds to the limiting assembly.

2. The television toughened touch glass screen laminating mechanism of claim 1, wherein; the first limiting device comprises a transverse limiting driving motor, a first screw rod and a first limiting slide block, the third limiting device comprises a third screw rod and a third limiting slide block, the first screw rod and the third screw rod are opposite to each other and are arranged at the output end of the transverse limiting driving motor, the first limiting slide block is in running fit with the first screw rod, the third limiting slide block is in running fit with the third screw rod, and the transverse limiting driving motor drives the first limiting slide block and the third limiting slide block to be close to or away from each other.

3. The television toughened touch glass screen laminating mechanism of claim 1, wherein; the second limiting device and the fourth limiting device respectively comprise a longitudinal limiting driving motor, a longitudinal screw rod and a longitudinal limiting sliding block, the longitudinal screw rod is installed at the shaft end of the longitudinal limiting driving motor, and the longitudinal limiting sliding block is in running fit with the longitudinal screw rod.

4. The television toughened touch glass screen laminating mechanism of claim 1, wherein; the limiting assembly further comprises a pressing device for pressing the upper surface of the screen, the pressing device comprises a pressing driving cylinder and an elastic pressure plate, the pressing driving cylinder is vertically installed on the upper side of the support frame, the elastic pressure plate is installed at the shaft end of the pressing driving cylinder, and the elastic pressure plate can be in lifting type and abutted against the upper surface of the screen.

5. The television toughened touch glass screen laminating mechanism of claim 1, wherein; the conveying assembly further comprises a transverse conveying driving device and a lifting driving device, the transverse conveying driving device is installed on the lower side of the supporting frame, and the lifting driving device is installed at the output end of the transverse conveying driving device.

6. The television toughened touch glass screen laminating mechanism of claim 5, wherein; the transverse transmission driving device and the transverse driving device respectively comprise a transverse driving motor, a front screw rod, a front gear, a front rack, a front guide rail, a rear screw rod, a rear gear, a rear rack, a rear guide rail and a transverse sliding seat, the front screw rod and the rear screw rod are oppositely arranged at the shaft end of the transverse driving motor, the front gear is arranged at the end part of the front screw rod, the front gear is meshed with the front rack, and the front guide rail is arranged along the direction of the front rack; the rear gear is arranged at the end part of the rear screw rod, the rear gear is meshed with the rear rack, and the rear guide rail is arranged along the direction of the rear rack; the two sides of the transverse sliding seat are in sliding fit with the front guide rail and the rear guide rail.

7. The television toughened touch glass screen laminating mechanism of claim 5, wherein; the lifting driving device comprises an electric cylinder and the supporting plate, the electric cylinder is arranged on the lower side of the supporting frame, and the supporting plate is arranged at the shaft end of the electric cylinder.

8. The television toughened touch glass screen laminating mechanism of claim 1, wherein; the vertical driving device comprises a vertical driving motor, a vertical lead screw and a vertical sliding seat, the vertical driving motor is installed on the upper side of the supporting frame, the vertical lead screw is installed at the shaft end of the vertical driving motor, the vertical sliding seat is in running fit with the vertical lead screw, and the sucker is installed on the vertical sliding seat.

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