CN115057607A - Film photovoltaic vacuum laminated glass and preparation method thereof - Google Patents

Abstract

The invention discloses a film photovoltaic vacuum laminated glass and a preparation method thereof, relating to the technical field of glass preparation, wherein the method comprises the following steps: s1, uniformly mixing the raw materials for manufacturing the glass by using a mixing device according to the proportion; and S2, heating and melting the uniformly mixed raw materials to obtain molten glass, forming the molten glass, and putting the molten glass into an annealing furnace for heat treatment to obtain the glass. The mixing device comprises a base, a moving block and a vertical plate are respectively installed on two side portions of the base, two fixed rotating sleeves are installed on the side portion of the vertical plate, a moving column is installed between the two fixed rotating sleeves in a rotating mode, and L-shaped installation rods are installed at the top and the bottom of the moving column. In the invention, when mixing, a plurality of raw materials are put in through the feed inlet, then the motor is started, the output shaft of the motor rotates to drive the worm to rotate, the worm rotates to drive the mixing drum to rotate, and the mixing drum rotates to drive the raw materials in the mixing drum to roll, thereby mixing.

Description

Film photovoltaic vacuum laminated glass and preparation method thereof

Technical Field

The invention relates to the technical field of glass preparation, in particular to thin-film photovoltaic vacuum laminated glass and a preparation method thereof.

Background

The photovoltaic laminated glass component is manufactured by combining a photovoltaic technology and a curtain wall glass material in the field of buildings by utilizing the solar photoelectric conversion principle.

When the existing glass is manufactured, various raw materials need to be uniformly mixed, when the existing mixing device is used for mixing, the mixing is easy to be nonuniform, and after the glass is formed in the later period, the material distribution is nonuniform, so that the quality of the glass is influenced.

Disclosure of Invention

The application aims to provide film photovoltaic vacuum laminated glass and a preparation method thereof, and aims to solve the problems that when the existing glass provided in the background art is manufactured, various raw materials need to be uniformly mixed, when the existing mixing device is used for mixing, the mixing is easy to be nonuniform, and after the glass is formed, the material distribution is nonuniform, so that the quality of the glass is influenced.

In order to achieve the above purpose, the present application provides the following technical solutions:

a preparation method of thin film photovoltaic vacuum laminated glass comprises the following steps:

s1, uniformly mixing the raw materials for manufacturing the glass by using a mixing device according to the proportion;

and S2, heating and melting the uniformly mixed raw materials to obtain molten glass, forming the molten glass, and putting the molten glass into an annealing furnace for heat treatment to obtain the glass.

Preferably, the mixing device comprises a base, a moving block and a vertical plate are respectively installed on two side portions of the base, two fixed rotating sleeves are installed on the side portion of the vertical plate, a moving column is rotatably installed between the two fixed rotating sleeves, L-shaped installation rods are installed at the top and the bottom of the moving column, two rotating rings which are connected with each other are installed at one ends, far away from the vertical plate, of the two L-shaped installation rods, a mixing drum is rotatably installed in the two rotating rings, a discharge port and a feed port are installed on the side portion of the mixing drum, a rotating plate is fixedly installed on the side portion, far away from the L-shaped installation rod, of one rotating ring through an installation plate, a rotating mechanism for rotating the mixing drum is installed on the side portion of the rotating plate, a lifting mechanism is installed on the rotating mechanism, a pushing mechanism is slidably installed in the mixing drum, and an extruding mechanism is installed on the side portion of one of the fixed rotating sleeves, the extrusion mechanism is matched with the pushing mechanism.

Preferably, the rotating mechanism comprises a motor which is installed on the rotating plate and is far away from the side portion of the vertical plate, a rotating hole is formed in the side portion of the rotating plate, an output shaft of the motor penetrates through the rotating hole and is provided with a worm, the worm is fixedly connected with the center of the side portion of the mixing drum, and the worm is installed in a matched mode with the lifting mechanism.

Further, when mixing, put into multiple raw materials through the feed inlet, then the starter motor, the output shaft of motor rotates and drives the worm and rotate, and the worm rotates and drives the mixing drum and rotate, and the mixing drum rotates and drives and is located the raw materials roll in the mixing drum to mix.

Preferably, the lifting mechanism comprises an L-shaped rotating rod arranged on the side of the rotating plate, a worm wheel is sleeved on the L-shaped rotating rod in a rotating mode, the worm wheel is meshed with the worm, an eccentric column is arranged on the side of the worm wheel, two telescopic rods are arranged at the bottom of the L-shaped rotating rod, a moving frame is arranged at the bottom end of each telescopic rod, one end of each eccentric column extends into the moving frame, a push rod is arranged at the bottom of the moving frame, moving wheels are arranged on the two sides of each push rod in a rotating mode, and the moving wheels are in contact with the top of the moving block.

Further, the worm rotates and drives the worm wheel and rotate, the worm wheel rotates and drives the eccentric post and rotate, the eccentric post rotates the inner wall that the extrusion removed the frame, thereby make to remove the frame and reciprocate, it removes and drives the catch bar and removes, the catch bar removes and drives and removes the wheel and remove, when removing wheel rebound, remove the length reduction between wheel and the mounting panel, make mixing drum and motor rotate downwards under the gravity of mixing drum, when removing the wheel rebound, remove the distance increase between wheel and the mounting panel, thereby make mixing drum rebound, thereby mixing drum tilting makes the raw materials can reciprocate in the mixing drum, thereby prevent that various raw materials from piling up at fixed position.

Preferably, pushing mechanism is including offering in the hole that pushes away of mixing drum lateral part, it has the pole of making a round trip to push away downthehole slidable mounting, the spout has been seted up to the lateral wall of the pole of making a round trip, the one end slidable mounting of removal post in the spout, the both sides portion of the pole of making a round trip all installs and is located a plurality of horizontal poles in the mixing drum, a plurality of montants are installed to the bottom of horizontal pole, and is a plurality of horizontal pole and a plurality of the montant evenly sets up, two reset unit are installed to the lateral part of the pole of making a round trip, the pole of making a round trip is close to the lateral part of vertical board and installs the stripper bar, the stripper bar with the extrusion mechanism cooperation installation.

Preferably, the extrusion mechanism comprises a plurality of extrusion triangular blocks arranged on the side part of the fixed rotating sleeve, the extrusion triangular blocks are uniformly arranged, and the extrusion rod is in contact with the middle position of the inclined side part of one of the extrusion triangular blocks.

Preferably, the reset unit including install in the reset block of round trip arm lateral part, the reset hole has been seted up to the lateral part of reset block, slidable mounting has the reset lever in the reset hole, the one end of reset lever with the lateral part of L shape installation pole is connected, reset spring has been cup jointed on the reset lever, reset spring's both ends respectively with L shape installation pole the lateral part that the reset block is close to each other is connected.

Preferably, a plurality of fixed plates are installed on the inner wall of the mixing drum, and the fixed plates are uniformly arranged.

Preferably, a plurality of fixing columns are installed on the side portions, close to each other, of the two rotating rings, and the plurality of fixing columns are uniformly arranged.

The utility model provides a film photovoltaic vacuum doubling glass, includes glass and photovoltaic cell board, photovoltaic cell board with be provided with frame shape aluminium strip between the glass, the top and the bottom of frame shape aluminium strip all through sealed glue respectively with glass photovoltaic cell board is close to the lateral part each other and is connected, the printing opacity film is installed to photovoltaic cell board's bottom.

In conclusion, the technical effects and advantages of the invention are as follows:

in the invention, when mixing, a plurality of raw materials are put in through the feed inlet, then the motor is started, the output shaft of the motor rotates to drive the worm to rotate, the worm rotates to drive the mixing drum to rotate, and the mixing drum rotates to drive the raw materials in the mixing drum to roll, thereby mixing.

According to the invention, the worm rotates to drive the worm wheel to rotate, the worm wheel rotates to drive the eccentric column to rotate, the eccentric column rotates to extrude the inner wall of the movable frame, so that the movable frame moves up and down, the movable frame moves to drive the push rod to move, the push rod moves to drive the movable wheel to move, when the movable wheel moves upwards, the length between the movable wheel and the mounting plate is reduced, the mixing cylinder and the motor are enabled to rotate downwards under the gravity of the mixing cylinder, when the movable wheel moves downwards, the distance between the movable wheel and the mounting plate is increased, so that the mixing cylinder rotates upwards, and the mixing cylinder rotates upwards so that raw materials can move upwards and downwards in the mixing cylinder, thereby preventing various raw materials from being accumulated at a fixed position.

According to the invention, the mixing drum rotates to enable the two L-shaped mounting rods and the moving column to rotate, so that the vertical rods can move back and forth to push materials in the mixing drum back and forth, the mixing effect is improved, meanwhile, the mixing drum rotates to drive the fixed plates to move, so that raw materials are driven to move upwards for a certain height and then fall down, and the mixing is convenient.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a first perspective view of a mixing device according to the present invention;

FIG. 2 is a perspective view of a second perspective of the mixing device of the present invention;

FIG. 3 is a perspective view of a mixing device according to the present invention;

FIG. 4 is a schematic view of a partially cut-away structure of the area A in FIG. 3;

FIG. 5 is a schematic sectional view of a mixing barrel of the mixing device;

FIG. 6 is a schematic structural diagram of a portion of FIG. 5;

fig. 7 is a schematic structural view of a thin film photovoltaic vacuum laminated glass.

In the figure: 1. a base; 2. a moving block; 3. a vertical plate; 4. fixing the rotary sleeve; 5. moving the column; 6. an L-shaped rotating rod; 7. extruding the triangular blocks; 8. a back and forth lever; 9. an extrusion stem; 10. a reset block; 11. a reset lever; 12. a return spring; 13. an L-shaped mounting bar; 14. a rotating ring; 15. fixing a column; 16. mounting a plate; 17. a rotating plate; 18. a motor; 19. a worm; 20. a push rod; 21. a worm gear; 22. an eccentric column; 23. a telescopic rod; 24. moving the frame; 25. a moving wheel; 26. a fixing plate; 27. a cross bar; 28. a vertical rod; 29. a mixing drum; 30. glass; 31. a photovoltaic cell panel; 32. a frame-shaped aluminum strip; 33. sealing glue; 34. a light-transmissive film.

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 obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example (b): referring to fig. 1-7, a method for preparing a thin film photovoltaic vacuum laminated glass comprises:

s1, uniformly mixing the raw materials for manufacturing the glass 30 by using a mixing device according to the proportion;

and S2, heating and melting the uniformly mixed raw materials to obtain molten glass, forming the molten glass, and putting the molten glass into an annealing furnace for heat treatment to obtain the glass 30.

The mixing device comprises a base 1, a moving block 2 and a vertical plate 3 are respectively installed on two side portions of the base 1, two fixed rotating sleeves 4 are installed on the side portion of the vertical plate 3, a moving column 5 is installed between the two fixed rotating sleeves 4 in a rotating mode, L-shaped installation rods 13 are installed at the top portion and the bottom portion of the moving column 5, two rotating rings 14 which are connected with each other are installed at one ends, far away from the vertical plate 3, of the two L-shaped installation rods 13, a mixing drum 29 is installed in the two rotating rings 14 in a rotating mode, a discharging port and a feeding port are installed on the side portion of the mixing drum 29, a rotating plate 17 is fixedly installed on the side portion, far away from one rotating ring 14 of the L-shaped installation rods 13, a rotating mechanism for rotating the mixing drum 29 is installed on the side portion of the rotating plate 17, a lifting mechanism is installed on the rotating mechanism, a pushing mechanism is installed in the mixing drum 29 in a sliding mode, and an extrusion mechanism is installed on the side portion of one fixed rotating sleeve 4, the extrusion mechanism is matched with the pushing mechanism.

The rotating mechanism comprises a motor 18 which is arranged on the rotating plate 17 and is far away from the side part of the vertical plate 3, a rotating hole is formed in the side part of the rotating plate 17, an output shaft of the motor 18 penetrates through the rotating hole and is provided with a worm 19, the worm 19 is fixedly connected with the center position of the side part of the mixing drum 29, and the worm 19 is installed in a matching way with the lifting mechanism. When mixing, a plurality of raw materials are put in through the feeding hole, then the motor 18 is started, the output shaft of the motor 18 rotates to drive the worm 19 to rotate, the worm 19 rotates to drive the mixing cylinder 29 to rotate, and the mixing cylinder 29 rotates to drive the raw materials in the mixing cylinder 29 to roll, so that mixing is carried out.

The lifting mechanism comprises an L-shaped rotating rod 6 installed on the side portion of a rotating plate 17, a worm wheel 21 is sleeved on the L-shaped rotating rod 6 in a rotating mode, the worm wheel 21 is meshed with a worm 19, an eccentric column 22 is installed on the side portion of the worm wheel 21, two telescopic rods 23 are installed at the bottom of the L-shaped rotating rod 6, a moving frame 24 is installed at the bottom end of the two telescopic rods 23, one end of the eccentric column 22 extends into the moving frame 24, a push rod 20 is installed at the bottom of the moving frame 24, moving wheels 25 are installed on two side portions of the push rod 20 in a rotating mode, and the two moving wheels 25 are in contact with the top of a moving block 2. Worm 19 rotates and drives worm wheel 21 and rotate, worm wheel 21 rotates and drives eccentric post 22 and rotate, eccentric post 22 rotates the inner wall that the extrusion removed frame 24, thereby make and remove frame 24 and reciprocate, remove frame 24 and remove and drive catch bar 20 and remove, catch bar 20 removes and drives removal wheel 25 and remove, when removing wheel 25 and upwards removing, the length between removal wheel 25 and the mounting panel 16 reduces, make mixing drum 29 and motor 18 rotate downwards under mixing drum 29's gravity, when removing wheel 25 and downwards removing, the distance between removal wheel 25 and the mounting panel 16 increases, thereby make mixing drum 29 upwards rotate, thereby mixing drum 29 upper and lower rotation makes the raw materials can reciprocate in mixing drum 29, thereby prevent that various raw materials from piling up at fixed position.

Pushing mechanism is including offering in the hole that pushes away of mixing drum 29 lateral part, it has the pole 8 that makes a round trip to push away slidable mounting in the hole, the spout has been seted up to the lateral wall of the pole 8 that makes a round trip, the one end slidable mounting of removal post 5 is in the spout, a plurality of horizontal poles 27 that are located mixing drum 29 are all installed to the both sides portion of the pole 8 that makes a round trip, a plurality of montants 28 are installed to the bottom of a plurality of horizontal poles 27, a plurality of horizontal poles 27 and a plurality of montants 28 evenly set up, two reset unit are installed to the lateral part of the pole 8 that makes a round trip, the pole 8 that makes a round trip is close to the lateral part of vertical board 3 and installs the stripper bar 9, stripper bar 9 and the cooperation installation of extrusion mechanism. The vertical rods 28 move back and forth to push the material in the mixing drum 29 back and forth, so that the mixing effect is improved.

Extrusion mechanism is including installing in a plurality of extrusion triangle pieces 7 of fixed 4 lateral parts of rotating the cover, and a plurality of extrusion triangle pieces 7 evenly set up, and the extrusion pole 9 contacts with the slope lateral part intermediate position of one of them extrusion triangle piece 7. When the extrusion triangle 7 extrudes the extrusion rod 9, the extrusion rod 9 is extruded and moved, so that the back and forth rod 8 moves, the back and forth rod 8 moves reversely to drive the vertical rods 28 to move, materials in the mixing drum 29 are pushed back and forth, and the mixing effect is improved.

Reset unit is including installing in the reset block 10 of 8 lateral parts of round trip arm, and the reset hole has been seted up to the lateral part of reset block 10, and slidable mounting has reset arm 11 in the reset hole, and the one end of reset arm 11 is connected with the lateral part of L shape installation pole 13, has cup jointed reset spring 12 on the reset arm 11, and reset spring 12's both ends are connected with L shape installation pole 13, the lateral part that reset block 10 is close to each other respectively. Mixing drum 29 rotates and makes two L shape installation pole 13 and removal post 5 rotate, thereby make and install the pole 8 and the stripper bar 9 upper and lower rotation of making a round trip on removing post 5, when stripper bar 9 rotates and extrudes three hornblocks 7 separation, because reset spring 12 is in deformation state, thereby pulling reset block 10 removes, reset block 10 removes and drives pole 8 and remove that makes a round trip, make a round trip pole 8 remove and drive the lateral part that three hornblocks 7 were hugged closely to stripper bar 9, make a round trip pole 8 remove and drive a plurality of horizontal poles 27 and a plurality of montant 28 and remove.

A plurality of fixing plates 26 are installed on the inner wall of the mixing drum 29, and the plurality of fixing plates 26 are uniformly arranged. The mixing cylinder 29 rotates to drive the fixing plates 26 to move, so that the raw materials are driven to move upwards for a certain height and fall down, and mixing is facilitated.

A plurality of fixed columns 15 are installed on the side portions, close to each other, of the two rotating rings 14, and the fixed columns 15 are evenly arranged. Through the setting of a plurality of fixed columns 15, two swivel rings 14 of being convenient for stabilize fixedly.

The utility model provides a film photovoltaic vacuum doubling glass, includes glass 30 and photovoltaic cell board 31, is provided with frame shape aluminium strip 32 between photovoltaic cell board 31 and the glass 30, and the top and the bottom of frame shape aluminium strip 32 are all connected with the lateral part that glass 30, photovoltaic cell board 31 are close to each other respectively through sealed glue 33, and printing opacity film 34 is installed to the bottom of photovoltaic cell board 31. The frame-shaped aluminum strip 32 is sealed by a sealant 33 and then vacuum is formed therebetween.

The working principle of the invention is as follows:

when mixing, a plurality of raw materials are put in through the feeding hole, then the motor 18 is started, the output shaft of the motor 18 rotates to drive the worm 19 to rotate, the worm 19 rotates to drive the mixing cylinder 29 to rotate, and the mixing cylinder 29 rotates to drive the raw materials in the mixing cylinder 29 to roll, so that mixing is carried out;

meanwhile, the worm 19 rotates to drive the worm wheel 21 to rotate, the worm wheel 21 rotates to drive the eccentric column 22 to rotate, the eccentric column 22 rotates to extrude the inner wall of the moving frame 24, so that the moving frame 24 moves up and down, the moving frame 24 moves to drive the push rod 20 to move, the push rod 20 moves to drive the moving wheel 25 to move, when the moving wheel 25 moves upwards, the length between the moving wheel 25 and the mounting plate 16 is reduced, the mixing cylinder 29 and the motor 18 rotate downwards under the gravity of the mixing cylinder 29, when the moving wheel 25 moves downwards, the distance between the moving wheel 25 and the mounting plate 16 is increased, so that the mixing cylinder 29 rotates upwards, the mixing cylinder 29 rotates upwards and downwards, so that raw materials can move upwards and downwards in the mixing cylinder 29, and therefore various raw materials are prevented from being accumulated at fixed positions;

meanwhile, the mixing cylinder 29 rotates to enable the two L-shaped mounting rods 13 and the moving column 5 to rotate, so that the back-and-forth rod 8 and the extrusion rod 9 mounted on the moving column 5 rotate up and down, when the extrusion rod 9 rotates and is separated from the extrusion triangular block 7, the reset spring 12 is in a deformation state to pull the reset block 10 to move, the reset block 10 moves to drive the back-and-forth rod 8 to move, the back-and-forth rod 8 moves to drive the extrusion rod 9 to be attached to the side part of the extrusion triangular block 7, the back-and-forth rod 8 moves to drive the cross rods 27 and the vertical rods 28 to move, meanwhile, when the extrusion triangular block 7 extrudes the extrusion rod 9, the extrusion rod 9 is extruded to move, so that the back-and-forth rod 8 moves reversely, the back-and-forth rod 8 moves to drive the vertical rods 28 to move reversely, so that the vertical rods 28 can move back and forth, materials in the mixing cylinder 29 are pushed back and forth, the mixing effect is improved, and the mixing cylinder 29 rotates to drive the fixed plates 26 to move, thereby driving the raw materials to move upwards for a certain height and then fall down, and being convenient for mixing.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (10)

1. A preparation method of thin film photovoltaic vacuum laminated glass is characterized by comprising the following steps:

s1, uniformly mixing the raw materials for manufacturing the glass (30) by using a mixing device according to the proportion;

and S2, heating and melting the uniformly mixed raw materials to obtain molten glass, forming the molten glass, and putting the molten glass into an annealing furnace for heat treatment to obtain the glass (30).

2. The method for preparing the thin film photovoltaic vacuum laminated glass according to claim 1, wherein the method comprises the following steps: the mixing device comprises a base (1), a moving block (2) and a vertical plate (3) are respectively installed at two side parts of the base (1), two fixed rotating sleeves (4) are installed at the side part of the vertical plate (3), a moving column (5) is installed between the two fixed rotating sleeves (4) in a rotating mode, L-shaped installation rods (13) are installed at the top and the bottom of the moving column (5), two rotating rings (14) which are connected with each other are installed at one ends, far away from the vertical plate (3), of the two L-shaped installation rods (13), a mixing barrel (29) is installed in the two rotating rings (14) in a rotating mode, a discharge port and a feed port are installed at the side part of the mixing barrel (29), a rotating plate (17) is fixedly installed at the side part, far away from the L-shaped installation rods (13), of one rotating ring (14), through an installation plate (16), and a rotating mechanism for rotating the mixing barrel (29) is installed at the side part of the rotating plate (17), the rotating mechanism is provided with a lifting mechanism, the mixing drum (29) is internally provided with a pushing mechanism in a sliding manner, one of the pushing mechanism and the rotating mechanism is arranged on the side part of the fixed rotating sleeve (4) in a matching manner, and the pushing mechanism is arranged in a matching manner.

3. The method for preparing the thin film photovoltaic vacuum laminated glass according to claim 2, wherein the method comprises the following steps: the rotating mechanism comprises a motor (18) which is installed on the rotating plate (17) and is far away from the side portion of the vertical plate (3), a rotating hole is formed in the side portion of the rotating plate (17), an output shaft of the motor (18) penetrates through the rotating hole and is provided with a worm (19), the worm (19) is fixedly connected with the center of the side portion of the mixing drum (29), and the worm (19) is installed in a matched mode with the lifting mechanism.

4. The method for preparing the thin film photovoltaic vacuum laminated glass according to claim 3, wherein the method comprises the following steps: the lifting mechanism comprises an L-shaped rotating rod (6) installed on the side portion of the rotating plate (17), a worm wheel (21) is sleeved on the L-shaped rotating rod (6) in a rotating mode, the worm wheel (21) is meshed with the worm (19), an eccentric column (22) is installed on the side portion of the worm wheel (21), two telescopic rods (23) are installed at the bottom of the L-shaped rotating rod (6), a moving frame (24) is installed at the bottom end of each telescopic rod (23), one end of each eccentric column (22) extends into the corresponding moving frame (24), a push rod (20) is installed at the bottom of the corresponding moving frame (24), moving wheels (25) are installed on the two side portions of each push rod (20) in a rotating mode, and the moving wheels (25) are in contact with the top portions of the moving blocks (2).

5. The method for preparing the thin film photovoltaic vacuum laminated glass according to claim 2, wherein the method comprises the following steps: pushing mechanism is including offering in the hole that pushes away of mixing drum (29) lateral part, it has round trip pole (8) to push away downthehole slidable mounting, the spout has been seted up to the lateral wall of round trip pole (8), the one end slidable mounting that removes post (5) in the spout, the both sides portion of round trip pole (8) is all installed and is located a plurality of horizontal poles (27) in mixing drum (29), it is a plurality of montant (28) are installed to the bottom of horizontal pole (27), and is a plurality of horizontal pole (27) and a plurality of montant (28) evenly set up, two reset unit are installed to the lateral part of round trip pole (8), round trip pole (8) are close to the lateral part of vertical board (3) and install extrusion stem (9), extrusion stem (9) with the cooperation installation of extrusion mechanism.

6. The method for preparing the thin-film photovoltaic vacuum laminated glass according to claim 5, wherein the method comprises the following steps: the extrusion mechanism comprises a plurality of extrusion triangular blocks (7) which are arranged on the side part of the fixed rotating sleeve (4), the extrusion triangular blocks (7) are uniformly arranged, and an extrusion rod (9) is in contact with the middle position of the inclined side part of one of the extrusion triangular blocks (7).

7. The method for preparing the thin-film photovoltaic vacuum laminated glass according to claim 6, characterized in that: the resetting unit is including installing in reset block (10) of pole (8) lateral part makes a round trip, the reset hole has been seted up to the lateral part of reset block (10), slidable mounting has release link (11) in the reset hole, the one end of release link (11) with the lateral part of L shape installation pole (13) is connected, reset spring (12) have been cup jointed on release link (11), the both ends of reset spring (12) respectively with L shape installation pole (13) the lateral part that reset block (10) are close to each other is connected.

8. The method for preparing the thin film photovoltaic vacuum laminated glass according to claim 7, wherein the method comprises the following steps: a plurality of fixing plates (26) are installed on the inner wall of the mixing drum (29), and the fixing plates (26) are uniformly arranged.

9. The method for preparing the thin film photovoltaic vacuum laminated glass according to claim 7, wherein the method comprises the following steps: a plurality of fixing columns (15) are installed on the side portions, close to each other, of the two rotating rings (14), and the plurality of fixing columns (15) are evenly arranged.

10. A thin film photovoltaic vacuum laminated glass according to any one of claims 1 to 9, wherein: including glass (30) and photovoltaic cell board (31), photovoltaic cell board (31) with be provided with frame shape aluminium strip (32) between glass (30), the top and the bottom of frame shape aluminium strip (32) all through sealed glue (33) respectively with glass (30) the lateral part that photovoltaic cell board (31) are close to each other is connected, printing opacity film (34) are installed to the bottom of photovoltaic cell board (31).

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