CN115504095B - Substrate glass semi-manufactured goods can overturn rack - Google Patents

Abstract

The invention discloses a turnover placing rack for substrate glass semi-finished products, which comprises a substrate glass semi-finished product placing main rack assembly, wherein a plurality of groups of substrate glass semi-finished product placing bracket assemblies are arranged on the substrate glass semi-finished product placing main rack assembly, a supporting bracket structure for simultaneously placing a plurality of groups of substrate glass is formed among the substrate glass semi-finished product placing bracket assemblies, and a substrate glass semi-finished product sucking disc assembly is arranged at the end part of the substrate glass semi-finished product placing bracket assembly.

Description

Substrate glass semi-manufactured goods can overturn rack

Technical Field

The invention belongs to the technical field of liquid crystal substrate glass processing, and particularly relates to a substrate glass semi-finished product reversible rack.

Background

Substrate glass is an important material for panels, and its surface quality is extremely high. After the substrate glass is formed and cut, a part of products are stored as semi-finished products because the processing of the downstream grinding process is not continuous or the front and rear of the production line can not be completely butted.

The prior art has the following problems: the existing semi-finished glass substrate is stored on the A-shaped frame, the back plate of the semi-finished glass substrate is arranged to form a certain included angle with the plumb line, namely, glass is stored in an inclined mode, the mutual extrusion force of the semi-finished glass substrate stored in an inclined mode has a large influence on the surface quality of the glass, the pressure between the glass substrates is reduced as much as possible, the quality and the yield of the semi-finished glass substrate during secondary processing can be improved only by reducing the pressure, the storage time of the semi-finished glass substrate is prolonged, the existing A-shaped frame cannot meet the storage requirement, and therefore the substrate glass semi-finished glass substrate can be overturned to solve the problem.

Disclosure of Invention

To solve the problems set forth in the background art. The invention provides a turnover placing rack for a substrate glass semi-finished product, which has the characteristics of no extrusion force and adjustable placing inclination angle when the substrate glass semi-finished product is placed.

In order to achieve the above purpose, the present invention provides the following technical solutions: the turnover placing rack comprises a substrate glass semi-finished product placing main rack component, wherein a plurality of groups of substrate glass semi-finished product placing bracket components are arranged on the substrate glass semi-finished product placing main rack component, a plurality of groups of supporting bracket structures for simultaneously placing a plurality of pieces of substrate glass are formed among the substrate glass semi-finished product placing bracket components, substrate glass semi-finished product sucking disc components are arranged at the end parts of the substrate glass semi-finished product placing bracket components, and a structure for synchronously adjusting inclination is formed among the plurality of groups of substrate glass semi-finished product placing bracket components through the expansion and the contraction of the substrate glass semi-finished product placing main rack component;

the substrate glass semi-manufactured goods place the body frame subassembly including substrate glass places the body frame base platform, substrate glass places body frame base platform rear end and is provided with substrate glass and places body frame back of the body seat platform, the fixed rack bedplate and the U type body frame board of being provided with on the substrate glass places body frame back of the body seat platform, the inside rotation of U type body frame board is provided with first two-way screw thread screw rod, first two-way screw thread screw rod both ends all screw thread are provided with first internal thread seat platform, the fixed first driving motor that is provided with in U type body frame board top, two be provided with the main telescopic bracket arm between the first internal thread seat platform, be provided with a plurality of body bracket arm center journal arms on the main telescopic bracket arm.

Preferably, the substrate glass semi-finished product placing bracket assembly comprises a U-shaped end seat table, a seat table back end gear is fixedly arranged at the rear end of the U-shaped end seat table, a U-shaped bracket plate is fixedly arranged at the front end of the U-shaped end seat table, a second bidirectional threaded screw rod is rotatably arranged in the U-shaped bracket plate, second internal thread seat tables are arranged at two ends of the second bidirectional threaded screw rod in a threaded manner, a second driving motor is fixedly arranged at the top of the U-shaped bracket plate, a bracket telescopic bracket arm is arranged between the two second internal thread seat tables, a front end central shaft arm and an end central shaft arm are arranged on the bracket telescopic bracket arm, and a guide column is rotatably arranged on an arm rod at the end central shaft arm;

the substrate glass semi-finished product sucker assembly comprises an installation transverse table, a transverse table back table and a transverse table sliding groove are arranged on the installation transverse table, an X-shaped frame arm is fixedly arranged at the front end of the installation transverse table, and substrate glass vacuum suckers are arranged at four corners of the X-shaped frame arm.

Preferably, the central table body of the U-shaped end seat table is rotationally connected with the arm body at the central shaft arm of the main frame arm through a shaft pin, the seat back end gear is arranged at the rear end of the central shaft arm of the main frame arm, the rack seat plate is also arranged at the rear end of the central shaft arm of the main frame arm, and the seat back end gear is meshed with the rack seat plate.

Preferably, the plurality of groups of the substrate glass semi-finished product placing bracket components are all arranged at the arm rods of the central shaft arms of the plurality of main frame arms on the main telescopic frame arms, the substrate glass semi-finished product is adsorbed and fixed on the substrate glass semi-finished product placing bracket components through the substrate glass semi-finished product sucking disc components, and a plurality of groups of the substrate glass semi-finished product placing bracket components form a placing structure which is independent of each other and not extruded by a plurality of substrate glasses.

Preferably, by extending the arm of the support telescopic rack, the arm support is independently telescopic when each group of semi-finished substrate glass products are placed on the glass substrate of the support component.

Preferably, the transverse bench back table is rotationally connected with the arm body at the front end central shaft arm through a shaft pin, and the guide post slides back and forth in the transverse bench sliding groove.

Preferably, the synchronous adjustment of the inclination of the plurality of groups of the substrate glass semi-finished product placing bracket components during use is realized through the extension of the main telescopic bracket arm and the meshing between the rack seat plate and the gear at the back end of the seat table.

Preferably, the substrate glass is adsorbed at the substrate glass vacuum chuck on the substrate glass semi-finished product chuck assembly, the second driving motor drives the second bidirectional threaded screw rod to bidirectionally rotate, at the moment, the two second internal threaded seat platforms are close to or far away from each other, the support telescopic bracket arm is in an open-close stretching structure, the first driving motor drives the first bidirectional threaded screw rod to bidirectionally rotate, at the moment, the two first internal threaded seat platforms are close to or far away from each other, and the main telescopic bracket arm is in an open-close stretching structure.

Compared with the prior art, the invention has the beneficial effects that: when the invention is used, the base plate glass semi-finished product placing main frame component is provided with a plurality of groups of base plate glass semi-finished product placing bracket components, the end part of the base plate glass semi-finished product placing bracket components is provided with a base plate glass semi-finished product sucker component, the base plate glass is adsorbed at the base plate glass vacuum sucker position on the base plate glass semi-finished product sucker component, the base plate glass semi-finished product is adsorbed and fixed on the base plate glass semi-finished product placing bracket components through the base plate glass semi-finished product sucker component, the plurality of groups of base plate glass semi-finished product placing bracket components are all arranged at the arm levers of a plurality of main frame arm central shaft arms on the main telescopic frame arm, a plurality of independent and mutually non-extruded base plate glass placing structures are formed among the plurality of groups of base plate glass semi-finished product placing bracket components, when in actual use, the plurality of base plate glass can be independently placed on the base plate glass semi-finished product sucker components at the end part of the base plate glass semi-finished product placing bracket components, by the extension of the bracket arm, the independent extension of the arm support is realized when the glass substrate of each group of substrate glass semi-finished product placing bracket assembly is placed, the interference between the plurality of groups of substrate glass semi-finished product placing bracket assemblies can be avoided when the glass substrate on each group of substrate glass semi-finished product placing bracket assembly is placed, when the glass substrate is not arranged on the front substrate glass semi-finished product placing bracket assembly in use, the substrate glass semi-finished product placing bracket assembly at the rear end can be contracted for storage, the substrate glass semi-finished product placing bracket assembly at the rear end is exposed, thus the use is convenient and the interference is avoided, meanwhile, the seat back end gear is arranged at the rear end of the central shaft arm of the main frame arm, the rack seat plate is also arranged at the rear end of the central shaft arm of the main frame arm, the seat back end gear is meshed with the rack seat plate, and the extension of the main telescopic frame arm is adopted, at this moment, the support component is placed to the base plate glass semi-manufactured goods moves back and forth on the base plate glass semi-manufactured goods places the body frame component, at this moment, through the cooperation of rack bedplate and seat back end gear, the synchronous regulation structure of the gradient that forms between the support component is placed to multiunit base plate glass semi-manufactured goods this moment, through this kind of inclination regulation, the gradient that support component and base plate glass semi-manufactured goods sucking disc subassembly were placed to base plate glass semi-manufactured goods is adjustable, through this kind of structure, make things convenient for the placing and taking of base plate glass semi-manufactured goods, simultaneously through this kind of structure, realize the synchronous regulation of gradient between the support component is placed to multiunit base plate glass semi-manufactured goods, it is convenient to use.

Drawings

FIG. 1 is a perspective view of the present invention;

FIG. 2 is a perspective view of another view of the present invention;

FIG. 3 is a perspective view of a portion of the structure of the present invention;

FIG. 4 is a perspective view of a substrate glass semi-finished placement master assembly of the present invention;

FIG. 5 is a perspective view of a substrate glass blank placement bracket assembly and a substrate glass blank chuck assembly of the present invention;

FIG. 6 is a perspective view of a substrate glass semi-finished placement bracket assembly of the present invention;

FIG. 7 is a perspective view of a substrate glass semi-finished chuck assembly of the present invention;

in the figure: 100. placing a main frame component on a substrate glass semi-finished product; 101. a main frame base table for placing the substrate glass; 102. a U-shaped main frame plate; 103. a first bidirectional threaded rod; 104. a first internally threaded seat; 105. a first driving motor; 106. placing the substrate glass on a main frame back seat table; 107. a main telescoping boom; 108. a rack seat plate; 109. a main frame arm center shaft arm; 200. placing a bracket component on a substrate glass semi-finished product; 201. a U-shaped end seat; 202. a seat back end gear; 203. a U-shaped support plate; 204. a second driving motor; 205. a second bidirectional threaded rod; 206. a second internal threaded seat; 207. a support telescoping boom; 208. a front center axle arm; 209. an end center axle arm; 210. a guide post; 300. a substrate glass semi-finished sucker assembly; 301. installing a transverse table; 302. a transverse platform chute; 303. a transverse bench back bench; 304. an X-shaped frame arm; 305. a substrate glass vacuum chuck.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-7, the present invention provides the following technical solutions: the substrate glass semi-finished product reversible rack comprises a substrate glass semi-finished product placing main rack assembly 100, wherein a plurality of groups of substrate glass semi-finished product placing bracket assemblies 200 are arranged on the substrate glass semi-finished product placing main rack assembly 100, a supporting bracket structure for simultaneously placing a plurality of pieces of substrate glass is formed among the plurality of groups of substrate glass semi-finished product placing bracket assemblies 200, a substrate glass semi-finished product sucking disc assembly 300 is arranged at the end part of the substrate glass semi-finished product placing bracket assembly 200, and a structure for synchronously adjusting inclination is formed among the plurality of groups of substrate glass semi-finished product placing bracket assemblies 200 through the expansion and the contraction of the substrate glass semi-finished product placing main rack assembly 100;

the substrate glass semi-finished product placing main frame assembly 100 comprises a substrate glass placing main frame base table 101, a substrate glass placing main frame back base table 106 is arranged at the rear end of the substrate glass placing main frame base table 101, a rack seat plate 108 and a U-shaped main frame plate 102 are fixedly arranged on the substrate glass placing main frame back base table 106, first bidirectional threaded screws 103 are rotatably arranged in the U-shaped main frame plate 102, first internal threaded base tables 104 are arranged at two ends of the first bidirectional threaded screws 103 in a threaded manner, a first driving motor 105 is fixedly arranged at the top of the U-shaped main frame plate 102, a main telescopic frame arm 107 is arranged between the two first internal threaded base tables 104, a plurality of main frame arm central shaft arms 109 are arranged on the main telescopic frame arm 107, and synchronous adjustment of inclination of the plurality of groups of substrate glass semi-finished product placing bracket assemblies 200 in use is realized through extension of the main telescopic frame arms 107 and meshing between seat table back end gears 202 and the rack seat plate 108;

the substrate glass semi-finished product placing bracket assembly 200 comprises a U-shaped end seat 201, a seat back end gear 202 is fixedly arranged at the rear end of the U-shaped end seat 201, a U-shaped bracket plate 203 is fixedly arranged at the front end of the U-shaped end seat 201, a second bidirectional threaded screw rod 205 is rotatably arranged in the U-shaped bracket plate 203, a second internal threaded seat 206 is arranged at both ends of the second bidirectional threaded screw rod 205 in a threaded manner, a second driving motor 204 is fixedly arranged at the top of the U-shaped bracket plate 203, a bracket arm 207 is arranged between the two second internal threaded seats 206, a front end central shaft arm 208 and an end central shaft arm 209 are arranged on the bracket arm 207, a guide post 210 is rotatably arranged on an arm rod at the end central shaft arm 209, a central platform body of the U-shaped end seat 201 is rotatably connected with an arm body at the main bracket arm central shaft arm 109 through a shaft pin, the seat back end gear 202 is arranged at the rear end of the main frame arm central shaft arm 109, the rack seat plate 108 is also arranged at the rear end of the main frame arm central shaft arm 109, the seat back end gear 202 is meshed with the rack seat plate 108, the plurality of groups of substrate glass semi-finished product placing bracket components 200 are all arranged at the arm rods of the plurality of main frame arm central shaft arms 109 on the main telescopic frame arm 107, the substrate glass semi-finished products are adsorbed and fixed on the substrate glass semi-finished product placing bracket components 200 through the substrate glass semi-finished product sucking disc components 300, a plurality of groups of substrate glass independent and mutually non-extruded placing structures are formed among the plurality of groups of substrate glass semi-finished product placing bracket components 200, and the independent telescopic operation of the arm frames is realized when the glass substrates of each group of substrate glass semi-finished product placing bracket components 200 are placed through the extension of the telescopic frame arms 207;

the substrate glass semi-finished sucker assembly 300 comprises a transverse mounting table 301, a transverse table back table 303 and a transverse table sliding groove 302 are arranged on the transverse mounting table 301, an X-shaped frame arm 304 is fixedly arranged at the front end of the transverse mounting table 301, substrate glass vacuum suckers 305 are arranged at four corners of the X-shaped frame arm 304, the transverse table back table 303 is rotationally connected with an arm body at the front end center shaft arm 208 through shaft pins, a guide column 210 slides back and forth in the transverse table sliding groove 302, substrate glass is adsorbed on the substrate glass vacuum suckers 305 on the substrate glass semi-finished sucker assembly 300, a second driving motor 204 drives a second bidirectional threaded screw 205 to rotate in a bidirectional mode, at the moment, two second internal threaded seat tables 206 are close to or far away from each other, a support telescopic frame arm 207 is in an open-close stretching structure, at the moment, two first internal threaded seat tables 104 are close to or far away from each other, and a main telescopic frame arm 107 is in an open-close stretching structure.

The working principle and the using flow of the invention are as follows: when the invention is used, the substrate glass semi-finished product placing main frame component 100 is provided with a plurality of groups of substrate glass semi-finished product placing bracket components 200, the end part of the substrate glass semi-finished product placing bracket components 200 is provided with a substrate glass semi-finished product sucking disc component 300, substrate glass is adsorbed on a substrate glass vacuum sucking disc 305 on the substrate glass semi-finished product sucking disc component 300, the substrate glass semi-finished product is adsorbed and fixed on the substrate glass semi-finished product placing bracket components 200 through the substrate glass semi-finished product sucking disc component 300, the plurality of groups of substrate glass semi-finished product placing bracket components 200 are respectively arranged at the arm rods of a plurality of main frame arm central shaft arms 109 on the main telescopic frame arm 107, a plurality of independent and mutually non-extruded substrate glass placing structures are formed among the groups of substrate glass semi-finished product placing bracket components 200, when in actual use, the plurality of substrate glass can be independently placed on the substrate glass semi-finished product sucking disc components 300 at the end part of the substrate glass semi-finished product placing bracket components 200, by means of the extension of the support extension arm 207, the arm support is individually extended and retracted when the glass substrate of each group of substrate glass semi-finished product placing support assembly 200 is placed, through the extension structure, interference among the plurality of groups of substrate glass semi-finished product placing support assemblies 200 can be avoided when the glass substrate on each group of substrate glass semi-finished product placing support assembly 200 is placed, when the glass substrate on the front end substrate glass semi-finished product placing support assembly 200 is not used, the substrate glass semi-finished product placing support assembly 200 at the rear end can be retracted for storage, the substrate glass semi-finished product placing support assembly 200 at the rear end is exposed, thus the use is convenient and interference is avoided, meanwhile, the seat back end gear 202 is arranged at the rear end of the main frame arm center shaft arm 109, the rack seat plate 108 is also arranged at the rear end of the main frame arm center shaft arm 109, the seat back end gear 202 and the rack seat plate 108 are meshed, through the extension of main expansion bracket arm 107, the substrate glass semi-manufactured goods place the support subassembly 200 and move back and forth on the substrate glass semi-manufactured goods place main frame subassembly 100 this moment, through rack bedplate 108 and the cooperation of seat back end gear 202, the synchronous regulation structure of the gradient that forms between the multiunit substrate glass semi-manufactured goods place the support subassembly 200 this moment, through this kind of inclination regulation for the substrate glass semi-manufactured goods place the support subassembly 200 and the gradient of substrate glass semi-manufactured goods sucking disc subassembly 300 is adjustable, through this kind of structure, make things convenient for the placing and taking of substrate glass semi-manufactured goods, simultaneously through this kind of structure, realize the synchronous regulation of the gradient between multiunit substrate glass semi-manufactured goods place the support subassembly 200, it is convenient to use.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a base plate glass semi-manufactured goods can overturn rack, includes base plate glass semi-manufactured goods and places main frame subassembly (100), its characterized in that: a plurality of groups of substrate glass semi-finished product placing bracket components (200) are arranged on the substrate glass semi-finished product placing main frame component (100), a plurality of groups of supporting bracket structures for simultaneously placing a plurality of pieces of substrate glass are formed among the substrate glass semi-finished product placing bracket components (200), substrate glass semi-finished product sucking disc components (300) are arranged at the end parts of the substrate glass semi-finished product placing bracket components (200), and a structure for synchronously adjusting inclination is formed among the plurality of groups of substrate glass semi-finished product placing bracket components (200) through the expansion and the contraction of the substrate glass semi-finished product placing main frame component (100);

the substrate glass semi-finished product placing main frame assembly (100) comprises a substrate glass placing main frame base table (101), a substrate glass placing main frame back base table (106) is arranged at the rear end of the substrate glass placing main frame base table (101), a rack seat plate (108) and a U-shaped main frame plate (102) are fixedly arranged on the substrate glass placing main frame back base table (106), a first bidirectional threaded screw (103) is rotatably arranged in the U-shaped main frame plate (102), first inner threaded base tables (104) are arranged at two ends of the first bidirectional threaded screw (103) in a threaded mode, a first driving motor (105) is fixedly arranged at the top of the U-shaped main frame plate (102), a main telescopic frame arm (107) is arranged between the two first inner threaded base tables (104), and a plurality of main frame arm center shaft arms (109) are arranged on the main telescopic frame arm (107);

the substrate glass semi-finished product placing bracket assembly (200) comprises a U-shaped end seat table (201), a seat back end gear (202) is fixedly arranged at the rear end of the U-shaped end seat table (201), a U-shaped bracket plate (203) is fixedly arranged at the front end of the U-shaped end seat table (201), a second bidirectional threaded screw (205) is rotatably arranged in the U-shaped bracket plate (203), second internal thread seat tables (206) are arranged at two ends of the second bidirectional threaded screw (205) in a threaded manner, a second driving motor (204) is fixedly arranged at the top of the U-shaped bracket plate (203), a telescopic bracket arm (207) is arranged between the two second internal thread seat tables (206), a front end center shaft arm (208) and an end center shaft arm (209) are arranged on the telescopic bracket arm (207), and a guide post (210) is rotatably arranged on an arm rod at the end center shaft arm (209);

the substrate glass semi-finished sucker assembly (300) comprises a mounting transverse table (301), wherein a transverse table back table (303) and a transverse table sliding groove (302) are arranged on the mounting transverse table (301), an X-shaped frame arm (304) is fixedly arranged at the front end of the mounting transverse table (301), and substrate glass vacuum suckers (305) are arranged at four corners of the X-shaped frame arm (304);

the central platform body of the U-shaped end seat platform (201) is rotationally connected with the arm body at the central shaft arm (109) of the main frame arm through a shaft pin, a seat back end gear (202) is arranged at the rear end of the central shaft arm (109) of the main frame arm, a rack seat plate (108) is also arranged at the rear end of the central shaft arm (109) of the main frame arm, and the seat back end gear (202) is meshed with the rack seat plate (108).

2. The substrate glass semi-finished reversible rack of claim 1, wherein: the support subassembly (200) is placed to multiunit base plate glass semi-manufactured goods all sets up the armed lever department of a plurality of main frame arm center armshafts (109) on main flexible frame arm (107), and base plate glass semi-manufactured goods pass through base plate glass semi-manufactured goods sucking disc subassembly (300) are adsorbed and are fixed on base plate glass semi-manufactured goods places support subassembly (200), multiunit base plate glass semi-manufactured goods place and form the independent and not extruded each other of polylith base plate glass between support subassembly (200).

3. The substrate glass semi-finished reversible rack of claim 1, wherein: by stretching the support telescopic bracket arms (207), independent telescopic of the support arms is realized when each group of substrate glass semi-finished product placing support assemblies (200) are used for placing glass substrates.

4. The substrate glass semi-finished reversible rack of claim 1, wherein: the transverse bench back bench (303) is rotationally connected with an arm body at the front end central shaft arm (208) through a shaft pin, and the guide column (210) slides back and forth in the transverse bench sliding groove (302).

5. The substrate glass semi-finished reversible rack of claim 1, wherein: the synchronous adjustment of the inclination of a plurality of groups of substrate glass semi-finished product placing bracket components (200) during use is realized through the extension of the main telescopic bracket arms (107) and the meshing between the seat back end gear (202) and the rack seat plate (108).

6. The substrate glass semi-finished reversible rack of claim 1, wherein: the substrate glass is adsorbed in substrate glass vacuum chuck (305) department on substrate glass semi-manufactured goods sucking disc subassembly (300), through second driving motor (204) drives the two bidirectional screw thread screw rod (205) and two at this moment internal screw thread seat (206) are close to or keep away from, a flexible support arm (207) are in the extending structure of opening and shutting, drive first bidirectional screw thread screw rod (103) through first driving motor (105) are two at this moment internal screw thread seat (104) are close to or keep away from, main flexible support arm (107) are in the extending structure of opening and shutting.