CN113636344A

CN113636344A - Turnover device with negative pressure adsorption positioning structure for photoelectric glass production

Info

Publication number: CN113636344A
Application number: CN202111039794.9A
Authority: CN
Inventors: 王国强; 马健康; 杨旗风; 苏会利; 马小营; 李志伟; 杨科技
Original assignee: Cnbm Puyang Photoelectric Material Co ltd
Current assignee: Cnbm Puyang Photoelectric Material Co ltd
Priority date: 2021-09-06
Filing date: 2021-09-06
Publication date: 2021-11-12

Abstract

The invention discloses a turnover device with a negative pressure adsorption positioning structure for photoelectric glass production, which comprises an installation seat, a second installation plate and a controller, wherein the top of the installation seat is provided with a driving motor through a bolt, the inner side of the installation seat is provided with a first connection plate, one side of the first connection plate is provided with the second installation plate, one side of the second installation plate is provided with the controller, the inner side of the second installation plate is provided with a second connection shaft, one end of the second connection shaft is movably provided with a first fixing plate, the inner side of the first fixing plate is symmetrically provided with first sliding grooves, the bottom of the first fixing plate is provided with a positioning plate, and the bottom of the positioning plate is symmetrically provided with fixing rods. According to the invention, the moving rod is arranged at the bottom of the moving piston, so that when the photoelectric glass needs to be positioned, the photoelectric glass is placed on the negative pressure sucker and is sucked, the photoelectric glass is positioned and turned over, and the surface of the photoelectric glass cannot be damaged.

Description

Turnover device with negative pressure adsorption positioning structure for photoelectric glass production

Technical Field

The invention relates to the technical field of photoelectric glass production, in particular to a turnover device with a negative pressure adsorption positioning structure for photoelectric glass production.

Background

Along with the development of society and the progress of science and technology, more new emerging objects appear in the visual field of people, the photoelectric glass is quite common in society at present, the practical application of the photoelectric glass is quite wide, the photoelectric glass can be perfectly utilized on the outer glass curtain wall of a high-rise building, the mechanical strength and the high transparency of a building curtain wall are completely achieved, energy is saved, the environment is protected, the situation of the traditional display and brightening industry is subverted, the LED photoelectric glass enables the building to have dynamic visual effect and intelligent multimedia function interacting with audiences, the advertising propaganda does not have the original limitation, the advertising style is presented in the forms of glass curtain walls, indoor decoration, outdoor fences and the like, the fashion sense and the design sense of the building are enhanced on the premise of continuing the whole building, the photoelectric glass is a display material of glass LEDs, and the state of the glass is presented when the building is closed, when the device is started, the device can be dynamically displayed for media playing. Many people can regard LED photoelectric glass as ordinary glass curtain wall, also someone summarizes it into the display screen, but LED photoelectric glass is the perfect combination of three, with the perfect combination of building material and light illumination to realize the display mode of media propagation, photoelectric glass need overturn photoelectric glass through turning device when carrying out production, thereby makes photoelectric glass can better processing.

The existing turnover device for producing photoelectric glass has the following defects:

1. comparison document CN204453742U discloses a big board glass turning device, "the utility model belongs to the photoelectric technology field specifically discloses a big board glass turning device, include: the limiting buffer part is fixedly connected between the lower streams of the upper roller group and the lower roller group; the upper roller group is arranged between the overturning driving side and the overturning driven side; the lower roller group is arranged between the overturning driving side and the overturning driven side and is positioned right below the upper roller group; the overturning driving side is fixed on the rack, and the output end of the overturning driving side is connected with the upper roller group and the lower roller group; the turning driven side is fixed on the frame and connected with the upper roller group and the lower roller group; the output end of the motor speed reducer is meshed with the input end of the overturning driving side; in the large-plate glass turnover device, the turnover axis is arranged at the center of the whole turnover device, and the whole turnover device can be placed in the middle link of a production line, so that the use space is reduced, and the production efficiency is improved. The rollers of the upper and lower roller groups are uniformly distributed, so that a fulcrum supporting effect is achieved, the thin glass with large specification can be turned, and the phenomenon that the glass is fragile is avoided. The upper roller group and the lower roller group can adjust the gap by using adjusting bolts so as to ensure the production requirement. And a limiting buffer structure is arranged between the lower stream of the upper roller group and the lower roller group, so that the glass is prevented from sliding out. The turnover device for producing the traditional photoelectric glass improves the production reliability, and does not adopt a negative pressure positioning structure to perform positioning turnover, so that photoelectrons are easily damaged during turnover.

2. Traditional turning device for photoelectric glass production does not have the installation and puts the function that drops, does not have the guard action.

3. Traditional turning device for photoelectric glass production can not protect the glass of different thickness size to can cause the puzzlement to the staff, the influence is used for the device.

Disclosure of Invention

The invention aims to provide a turnover device with a negative pressure adsorption positioning structure for photoelectric glass production, which is used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a photoelectric glass production is with turning device who is equipped with negative pressure adsorption positioning structure, includes mount pad, second mounting panel and controller, its characterized in that: the top of the mounting seat is provided with a driving motor through a bolt, the inner side of the mounting seat is provided with a first connecting plate, one side of the first connecting plate is provided with a second mounting plate, one side of the second mounting plate is provided with a controller, the inner side of the second mounting plate is provided with a second connecting shaft, and one end of the second connecting shaft is movably provided with a first fixing plate;

the inner side of the first fixing plate is symmetrically provided with first sliding chutes;

the bottom of first fixed plate is installed the locating plate, the bottom symmetric distribution of locating plate installs the dead lever.

Preferably, a first mounting plate is installed at the top of the mounting seat, fixing shafts are symmetrically distributed on one side of the first mounting plate and penetrate through the inner wall of one side of the first mounting plate.

Preferably, the output end of the driving motor is provided with a first rotating wheel, the inner side of the first rotating wheel is arranged on the inner side of the fixed shaft through a connecting piece, the outer side of the first rotating wheel is sleeved with a belt, the inner side of the top of the belt is provided with a second rotating wheel, the inner side of the second rotating wheel is provided with a first connecting shaft, and one end of the first connecting shaft penetrates through the fixed shaft and is connected with one side of the first fixed plate.

Preferably, the bottom of the second mounting plate is provided with a bottom plate.

Preferably, a control button is installed on one side of the controller, a display screen is installed on one side of the controller, and the display screen is located above the control button.

Preferably, the front face of the first fixing plate is symmetrically provided with first fixing holes, one end of each first fixing hole penetrates through one side of the corresponding first sliding groove, and fixing pins are movably mounted on the inner sides of the first fixing holes.

Preferably, the inboard movable mounting of first spout has the sliding block, and the second fixed orifices has been seted up to one side of sliding block, and the inboard and the fixed pin looks gomphosis of second fixed orifices, and the limiting plate is installed to one side of sliding block.

Preferably, a plurality of installation cylinders are installed to the bottom symmetric distribution of locating plate, and the top of an installation cylinder runs through the top of locating plate, and the suction cup is installed at the top of an installation cylinder, and the air vent has been seted up at the top of an installation cylinder, and the top of air vent runs through the bottom inner wall of suction cup, and the internally mounted of an installation cylinder has the removal piston, and the carriage release lever is installed to the bottom of removal piston.

Preferably, the second spout is installed in the front of dead lever, and the second connecting plate is installed to one side of second spout, and the carriage release lever is installed at second connecting plate top, and the second fixed plate is installed to the bottom of dead lever, and the pneumatic cylinder is installed to the bottom of second fixed plate, and the output of pneumatic cylinder runs through the top of second fixed plate, and the pneumatic rod is installed to the output of pneumatic cylinder.

Compared with the prior art, the invention has the beneficial effects that:

1. the invention installs the installation cylinder at the bottom of the positioning plate, the top of the installation cylinder penetrates through the top of the positioning plate, the top of the installation cylinder is provided with the negative pressure sucker, the installation cylinder is internally provided with the movable piston, the bottom of the movable piston is provided with the movable rod, when the photoelectric glass needs to be positioned, photoelectric glass is placed on the negative pressure sucker, air pressure energy is converted into kinetic energy through the pneumatic cylinder, the second connecting plate can be driven to move, so that the moving rod pulls the piston to move, the moving piston moves downwards in the mounting cylinder, thereby generating negative pressure inside the negative pressure sucker, sucking the photoelectric glass, positioning and overturning the photoelectric glass, preventing the surface of the photoelectric glass from being damaged, playing the role of protecting the photoelectric glass, meanwhile, the negative pressure suckers are installed in a plurality of positions, so that the safety of the photoelectric glass during overturning can be further guaranteed.

2. According to the invention, the limiting plate is movably arranged on one side of the first fixing plate and is used for limiting the photoelectric glass, when the turnover device is turned over, the photoelectric glass is prevented from falling due to gravity, the photoelectric glass can be supported through the limiting plate, the photoelectric glass cannot fall on the ground and be damaged when falling, the photoelectric glass can be well protected, and unnecessary loss and production cost waste are avoided.

3. According to the invention, the first fixing hole is formed in one side of the first fixing plate, one end of the first fixing hole penetrates through the inner wall of one side of the first sliding chute, the limiting plate is arranged on one side of the sliding chute through the sliding block, the limiting plate can slide up and down, photoelectric glass with different thicknesses can be supported through the up-and-down sliding of the limiting plate, so that the using range of the limiting structure is wider, and when the limiting plate moves to a proper position, the limiting plate is fixed by inserting the fixing pin into the first fixing hole and the second fixing hole, and the limiting plate cannot slide again.

Drawings

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

FIG. 2 is a schematic view of the driving motor structure of the present invention;

FIG. 3 is a schematic diagram of the controller of the present invention;

FIG. 4 is a schematic diagram of a first fixing plate structure according to the present invention;

FIG. 5 is a schematic diagram of a limiting plate according to the present invention;

FIG. 6 is a schematic view of the mounting barrel of the present invention;

FIG. 7 is a schematic view of a positioning plate according to the present invention;

fig. 8 is a schematic view of the fixing rod structure of the present invention.

In the figure: 1. a mounting seat; 101. a first mounting plate; 102. a first connecting plate; 103. a fixed shaft; 2. a drive motor; 201. a first runner; 202. a belt; 203. a second runner; 204. a first connecting shaft; 3. a second mounting plate; 301. a base plate; 302. a second connecting shaft; 4. a controller; 401. a control button; 402. a display screen; 5. a first fixing plate; 501. a first fixing hole; 502. a fixing pin; 6. a first chute; 601. a slider; 602. a second fixing hole; 603. a limiting plate; 7. positioning a plate; 701. mounting the cylinder; 702. a negative pressure sucker; 703. a vent hole; 704. moving the piston; 705. a travel bar; 8. fixing the rod; 801. a second chute; 802. a second fixing plate; 803. a second connecting plate; 804. a pneumatic cylinder; 805. a pneumatic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-4, an embodiment of the present invention is shown: a turnover device with a negative pressure adsorption positioning structure for photoelectric glass production,

in the first embodiment, the mounting seat comprises a mounting seat 1, a driving motor 2, a second mounting plate 3, a controller 4 and a first fixing plate 5, the driving motor 2 is mounted on the top of the mounting seat 1 through bolts, the first mounting plate 101 is mounted on the top of the mounting seat 1, fixing shafts 103 are symmetrically distributed on one side of the first mounting plate 101, the fixing shafts 103 penetrate through the inner wall of one side of the first mounting plate 101, a first connecting plate 102 is mounted on the inner side of the mounting seat 1, the mounting seat 1 provides mounting positions for the driving motor 2 and the first mounting plate 101 on the top so as to be mounted and also plays a role in connection, the driving motor 2 and the first mounting plate 101 can be connected, the first mounting plate 101 provides a mounting position for the fixing shaft 103 so as to be mounted, the fixing shaft 103 plays a role in fixing, and the connecting shafts inside can be mounted through the fixing shaft 103, the installation of the connecting shaft is more stable, the first connecting plate 102 plays a connecting role, the first mounting plate 101 and the second mounting plate 3 can be installed through the first connecting plate 102, so that the device is more stable and cannot be easily damaged or loosened, the output end of the driving motor 2 is provided with the first rotating wheel 201, the inner side of the first rotating wheel 201 is installed on the inner side of the fixed shaft 103 through the connecting piece, the outer side of the first rotating wheel 201 is sleeved with the belt 202, the inner side of the top of the belt 202 is provided with the second rotating wheel 203, the inner side of the second rotating wheel 203 is provided with the first connecting shaft 204, one end of the first connecting shaft 204 penetrates through the fixed shaft 103 to be connected with one side of the first fixing plate 5, the driving motor 2 can convert electric energy into kinetic energy after being electrified, the first rotating wheel 201 can be driven to rotate to provide rotating power for the first rotating wheel 201, the first rotating wheel 201 provides an installation position for the installation of the belt 202, the installation can be carried out, the belt 202 can also be driven to run, the belt 202 plays a role of connection, the first rotating wheel 201 and the second rotating wheel 203 can be connected, under the action of the belt 202, the first rotating wheel 201 can drive the second rotating wheel 203 to rotate, the inner side of the second rotating wheel 203 is connected to one side of the first fixing plate 5 through the first connecting shaft 204, so that the first fixing plate 5 is driven to rotate through the rotation of the second rotating wheel 203, the overturning effect is achieved, the second mounting plate 3 is installed on one side of the first connecting plate 102, the bottom plate 301 is installed at the bottom of the second mounting plate 3, the second mounting plate 3 provides an installation position for the installation of the controller 4, the controller 4 can be installed, the bottom plate 301 is installed at the bottom of the second mounting plate 3, the contact area of the remaining ground of the second mounting plate 3 can be increased through the bottom plate 301, and the second mounting plate 3 is more stable, the controller 4 is installed on one side of the second mounting plate 3, the control button 401 is installed on one side of the controller 4, the display screen 402 is located above the control button 401, the controller 4 plays a role in control, the operation of the device can be controlled through the controller 4, meanwhile, installation positions are provided for the display screen 402 and the control button 401 to enable the device to be installed, the display screen 402 is used for displaying operation values of the device to facilitate understanding and control of workers, the control button 401 provides a control position for the workers to facilitate the workers to control operation overturning of the device, the workers are more convenient to operate, the second connecting shaft 302 is installed on the inner side of the second mounting plate 3, the first fixing plate 5 is movably installed at one end of the second connecting shaft 302, and the first fixing holes 501 are symmetrically distributed on the front face of the first fixing plate 5, one end of the first fixing hole 501 penetrates through one side of the first sliding groove 6, a fixing pin 502 is movably mounted on the inner side of the first fixing hole 501, the second connecting shaft 302 plays a role in connection, so that the first fixing plate 5 can be connected and rotated and provides a role in turning over for the turning device, the first fixing plate 5 provides a mounting position for a limiting structure and an adjusting structure so that the first fixing plate can be mounted, meanwhile, the first fixing plate 5 can drive an internal positioning device to rotate through rotation of the first fixing plate 5 so that the first fixing plate can be turned over, the first fixing hole 501 provides a space for fixing the limiting device so that the positioning device can be fixed and also provides a space for inserting the fixing pin 502, the fixing pin 502 plays a role in fixing, the sliding block 601 can be fixed by inserting the fixing pin 502 into the fixing hole, and a role in fixing the sliding block 601;

referring to fig. 4 and 5, an embodiment of the present invention: a turnover device with a negative pressure adsorption positioning structure for photoelectric glass production,

the second embodiment comprises a first sliding chute 6, the inner side of the first fixing plate 5 is symmetrically provided with the first sliding chute 6, the inner side of the first sliding chute 6 is movably provided with a sliding block 601, one side of the sliding block 601 is provided with a second fixing hole 602, the inner side of the second fixing hole 602 is embedded with the fixing pin 502, one side of the sliding block 601 is provided with a limiting plate 603, the first sliding chute 6 provides a space for the sliding of the limiting plate 603, so that the limiting plate 603 can slide, and also provides a mounting position for the sliding block 601, the sliding block 601 can slide inside the first sliding chute 6, so that the limiting plate 603 can slide, so as to provide a function for the sliding of the limiting plate 603, the sliding block 601 provides a position for the opening of the second fixing hole 602, the second fixing hole 602 provides a space for the fixing of the sliding block 601, and the sliding block 601 can be fixed by inserting the fixing pin 502 into the second fixing hole 602, therefore, the limiting plate 603 is fixed, the limiting plate 603 has a limiting effect, the photoelectric glass can be limited through the limiting plate 603, the photoelectric glass cannot fall due to gravity when being turned over, a protective effect is achieved, the cost loss caused by falling of the photoelectric glass is avoided, and the safety of the photoelectric glass during turning over can be further ensured;

referring to fig. 6-8, an embodiment of the present invention: a turnover device with a negative pressure adsorption positioning structure for photoelectric glass production,

in the third embodiment, the third embodiment comprises a positioning plate 7 and a fixing rod 8, the positioning plate 7 is installed at the bottom of the first fixing plate 5, a plurality of installation cylinders 701 are symmetrically distributed and installed at the bottom of the positioning plate 7, the top ends of the installation cylinders 701 penetrate through the top of the positioning plate 7, negative pressure chucks 702 are installed at the top of the installation cylinders 701, vent holes 703 are formed in the top of the installation cylinders 701, the top ends of the vent holes 703 penetrate through the inner wall of the bottom of the negative pressure chucks 702, movable pistons 704 are installed inside the installation cylinders 701, movable rods 705 are installed at the bottoms of the movable pistons 704, the positioning plate 7 provides installation positions for the negative pressure positioning structure, so that the negative pressure positioning structure can be installed, the installation cylinders 701 provide installation positions for the negative pressure chucks 702 at the top, the negative pressure chucks 702 can deform under the condition of negative pressure, the photoelectric glass can be adsorbed, so that the photoelectric glass can be subjected to negative pressure adsorption, and cannot be damaged during positioning, the safety of the photoelectric glass is ensured, the vent holes 703 play a role of ventilation, so that air in the negative pressure sucker 702 can be extracted to achieve a negative pressure condition, air pressure generated by the movement of the movable piston 704 can influence the negative pressure sucker 702 to deform the negative pressure sucker 702 for adsorption and positioning, the movable piston 704 can move in the mounting cylinder 701 under the movement of the movable rod 705, so as to generate a negative pressure, the mounting cylinder 701 provides a mounting position for the movable piston 704 to be mounted, the bottom end of the movable rod 705 is mounted at the top of the second connecting plate 803 for connection, so that the movable piston 704 can move, the fixing rods 8 are symmetrically distributed at the bottom of the positioning plate 7, the second chute 801 is mounted on the front surface of the fixing rods 8, the second connecting plate 803 is mounted on one side of the second chute 801, and the movable rod 705 is mounted at the top of the second connecting plate 803, a second fixing plate 802 is installed at the bottom end of the fixing rod 8, a pneumatic cylinder 804 is installed at the bottom of the second fixing plate 802, an output end of the pneumatic cylinder 804 penetrates through the top of the second fixing plate 802, a pneumatic rod 805 is installed at an output end of the pneumatic cylinder 804, the fixing rod 8 provides an installation position for the second fixing plate 802, the second fixing plate 802 can be installed, a moving distance can exist between the second fixing plate 802 and the positioning plate 7, the second connecting plate 803 plays a role in connection, the moving rods 705 can be connected, the moving rods 705 can be moved simultaneously, the negative pressure suckers 702 can be used, the second fixing plate 802 provides an installation position for the pneumatic cylinder 804, the pneumatic cylinder 804 can be installed, the installation is provided for the pneumatic cylinder 804, the pneumatic cylinder 804 can be installed more stably, the pneumatic cylinder 804 can convert electric energy into kinetic energy, and the pneumatic rod 805 can be moved, the top end of the air pressure bar 805 is arranged at the bottom of the second connecting plate 803, the second connecting plate 803 can be driven to move by the movement of the air pressure bar 805, the outer side of the second connecting plate 803 is movably arranged at the inner side of the fixing rod 8, the inner side of the fixing rod 8 is provided with a second sliding groove 801, a space is provided for the movement of the second connecting plate 803, the second connecting plate 803 can move conveniently, the movement of the second connecting plate 803 is more stable, and the inclination is avoided.

The working principle is as follows: before using the turning device with the negative pressure adsorption positioning structure, whether the turning device with the negative pressure adsorption positioning structure affects the use is checked, firstly, the turning device with the negative pressure adsorption positioning structure is placed at a position to be used, the photoelectric glass to be positioned is placed on the negative pressure sucker 702, the pneumatic cylinder 804 converts electric energy into kinetic energy to drive the pneumatic rod 805 to move, the moving rod 705 drives the moving piston 704 to move through the second connecting plate 803, the moving piston 704 moves inside the mounting cylinder 701 to generate negative pressure, the negative pressure sucker 702 deforms to adsorb the photoelectric glass in a hollow manner, the driving motor 2 can convert the electric energy into the kinetic energy after being electrified, the positioning structure is turned through the transmission device to turn the photoelectric glass on the positioning structure over, install stop device simultaneously, limiting plate 603 is used for carrying on spacingly to photoelectric glass, when turning device overturns, prevents that photoelectric glass from dropping because of the reason of gravity, can support photoelectric glass through limiting plate 603, can not drop when making photoelectric glass fall and appear damaging on the ground, can be fine protect photoelectric glass, can not cause unnecessary loss, and manufacturing cost's waste.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein, and any reference signs in the claims are not intended to be construed as limiting the claim concerned.

Claims

1. The utility model provides a photoelectric glass production is with turning device who is equipped with negative pressure adsorption positioning structure, includes mount pad (1), second mounting panel (3) and controller (4), its characterized in that: the top of the mounting seat (1) is provided with a driving motor (2) through a bolt, the inner side of the mounting seat (1) is provided with a first connecting plate (102), one side of the first connecting plate (102) is provided with a second mounting plate (3), one side of the second mounting plate (3) is provided with a controller (4), the inner side of the second mounting plate (3) is provided with a second connecting shaft (302), and one end of the second connecting shaft (302) is movably provided with a first fixing plate (5);

a first sliding chute (6) is symmetrically formed in the inner side of the first fixing plate (5);

locating plate (7) are installed to the bottom of first fixed plate (5), dead lever (8) are installed to the bottom symmetric distribution of locating plate (7).

2. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: first mounting panel (101) are installed at the top of mount pad (1), and fixed axle (103) are installed to one side symmetric distribution of first mounting panel (101), and fixed axle (103) run through the one side inner wall of first mounting panel (101).

3. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: first runner (201) is installed to the output of driving motor (2), and the inboard of first runner (201) is installed in the inboard of fixed axle (103) through the connecting piece, and the outside cover of first runner (201) has belt (202), and second runner (203) are installed to the top inboard of belt (202), and first connecting axle (204) are installed to the inboard of second runner (203), and the one end of first connecting axle (204) runs through fixed axle (103) and is connected with one side of first fixed plate (5).

4. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: and a bottom plate (301) is arranged at the bottom of the second mounting plate (3).

5. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: control button (401) is installed to one side of controller (4), and display screen (402) are located the top of control button (401).

6. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: first fixed orifices (501) have been seted up to the front symmetric distribution of first fixed plate (5), and the one end of first fixed orifices (501) runs through one side of first spout (6), and the inboard movable mounting of first fixed orifices (501) has fixed pin (502).

7. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: the inboard movable mounting of first spout (6) has sliding block (601), and second fixed orifices (602) have been seted up to one side of sliding block (601), and the inboard and fixed pin (502) looks gomphosis of second fixed orifices (602), and limiting plate (603) are installed to one side of sliding block (601).

8. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: a plurality of installation cylinders (701) are symmetrically distributed and installed at the bottom of the positioning plate (7), the top end of each installation cylinder (701) penetrates through the top of the positioning plate (7), a negative pressure sucker (702) is installed at the top of each installation cylinder (701), a vent hole (703) is formed in the top of each installation cylinder (701), the top end of each vent hole (703) penetrates through the inner wall of the bottom of each negative pressure sucker (702), a movable piston (704) is installed inside each installation cylinder (701), and a movable rod (705) is installed at the bottom of each movable piston (704).

9. The turnover device provided with the negative pressure adsorption positioning structure and used for photoelectric glass production according to claim 1, wherein the turnover device comprises: second spout (801) are installed in the front of dead lever (8), second connecting plate (803) are installed to one side of second spout (801), and carriage release lever (705) are installed at second connecting plate (803) top, second fixed plate (802) are installed to the bottom of dead lever (8), pneumatic cylinder (804) are installed to the bottom of second fixed plate (802), and the top of second fixed plate (802) is run through to the output of pneumatic cylinder (804), pneumatic cylinder (805) are installed to the output of pneumatic cylinder (804).