CN114135067A - Photovoltaic power generation aluminum alloy glass railing - Google Patents

Abstract

The invention discloses a photovoltaic power generation aluminum alloy glass handrail, which comprises handrails, upright posts and photovoltaic glass: be provided with the plug connector on the handrail, the activity is provided with vertical compressing assembly on the stand, be provided with vertical sealed the pad on the vertical compressing assembly, vertical compressing assembly has on the activity stroke and dodges photovoltaic glass's mounted position and laminating are sealed photovoltaic glass's sealed position, the handrail inserts the stroke of stand impels the plug connector drive vertical compressing assembly is followed the mounted position moves to sealed position. According to the photovoltaic glass handrail, the vertical compressing assembly and the edge of the photovoltaic glass are compressed and sealed by pressing the handrail, so that the electric elements of a photovoltaic system are prevented from being polluted due to the fact that water stains and dust are remained in a gap at a connecting part, the edge of the photovoltaic glass can be compressed and fixed, the photovoltaic glass can be rapidly disassembled and assembled, and the energy-saving and environment-friendly use concept of the photovoltaic glass handrail is achieved.

Description

Photovoltaic power generation aluminum alloy glass railing

Technical Field

The invention relates to the technical field of photovoltaic power generation railings, in particular to a photovoltaic power generation aluminum alloy glass railing.

Background

In the construction decoration of present building, outdoor landscape guardrail all can use the glass railing usually, in present a modern city, the use of glass railing is especially extensive, in order to realize the energy-concerving and environment-protective, sustainable development's of modern society theory, can adopt photovoltaic power generation glass railing at the outdoor guardrail department of building, under the prerequisite of guaranteeing building outdoor safety, reaches photovoltaic power generation's energy-concerving and environment-protective effect simultaneously.

Chinese patent publication No.: CN106223560A discloses "a novel solar energy power generation balcony railing", including vertical railing, horizontal railing, base, bearing handrail, portable flowerpot and solar power system, vertical railing equidistance is arranged in the base top, horizontal railing welds in vertical railing middle part, the bearing handrail welds in vertical railing upper end, solar power system includes solar cell panel and battery, horizontal railing surface is located to solar cell panel, solar cell panel passes through the wire and connects the battery, be equipped with the spout on the bearing handrail, portable flowerpot includes fixed wall, fixed slot, fixing bolt and removal base, the removal base inlays in the spout, the fixed wall lower extreme is fixed in the fixed slot through fixing bolt.

Photovoltaic power generation railing among the prior art, photovoltaic glass's edge inlays on the handrail and the stand of railing, when the assembly, put into the holding tank that the stand was seted up with the realization location with glass's edge earlier, edge installation sealing member is sealed with the realization at stand and photovoltaic glass's edge afterwards, prevent that rainwater from getting into and bring negative effects to photovoltaic system's electrical element in the stand, prior art's weak point lies in, during the sealing member installation, the edge clearance of stand and photovoltaic glass is less, installation space is little, it is inconvenient to lead to the installation operation.

Disclosure of Invention

The invention aims to provide a photovoltaic power generation aluminum alloy glass railing to overcome the defects in the prior art.

In order to achieve the above purpose, the invention provides the following technical scheme: the utility model provides a photovoltaic power generation aluminum alloy glass railing, includes handrail, stand and photovoltaic glass, photovoltaic glass's edge inlay in on handrail and the stand:

the handrail is provided with a plug connector, the upright post is movably provided with a vertical pressing component, and the vertical pressing component is provided with a vertical sealing gasket;

the vertical compression assembly is provided with an installation position for avoiding the photovoltaic glass and a sealing position for jointing and sealing the photovoltaic glass on a moving stroke;

the travel of the armrest into the upright causes the socket connector to drive the vertical compression assembly from the installed position to the sealed position.

As a further description of the above technical solution:

the vertical subassembly that compresses tightly includes the lifter, the lifter rotates along its length direction and is connected with vertical transfer line, and vertical transfer line and the sealed rotation of filling up of vertical are connected, works as the plug connector oppression the lifter is followed when lower draw-in groove inner wall on the stand removed, vertical transfer line by the slope in the tilt state motion perpendicular to of lifter the vertical state of lifter, and make vertical sealed pad with photovoltaic glass's edge laminating is sealed, the plug connector is the depression bar that sets up at the handrail horizontal end.

As a further description of the above technical solution:

and when the third spring moves from a compressed state to a normal state, the vertical transmission rod moves from a vertical state perpendicular to the lifting rod to an inclined state inclined to the lifting rod.

As a further description of the above technical solution:

the device also comprises a transverse pressing component;

the horizontal pressing assembly comprises a bearing plate, linkage pieces are movably connected to the two ends of the bearing plate respectively, the linkage pieces are connected with horizontal transmission rods in a rotating mode along the length direction of the linkage pieces, horizontal sealing gaskets are connected to the horizontal transmission rods in a rotating mode, when the bearing plate is extruded by the photovoltaic glass and perpendicular to the bearing plate, the upper clamping grooves on the handrails move in the direction, the horizontal transmission rods are inclined to the inclined state of the bearing plate and move perpendicular to the bearing plate, and the horizontal sealing gaskets are made to be attached to and sealed with the edges of the photovoltaic glass.

As a further description of the above technical solution:

the bearing plate is provided with a first spring, the first spring is connected with the fixing plate, and when the first spring moves from a compressed state to a normal state, the transverse transmission rod moves from a vertical state perpendicular to the bearing plate to an inclined state inclined to the bearing plate.

As a further description of the above technical solution:

the linkage piece comprises an upper link rod, a stroke groove is formed in the upper link rod, a second spring elastically connected with the pressure bearing plate is arranged in the stroke groove, and when the second spring is extruded, the end portion of the pressure bearing plate moves along the inner wall of the stroke groove.

As a further description of the above technical solution:

the linkage piece further comprises a lower link rod, the lower link rod is rotatably connected with the upper link rod through a rotating shaft, and the outer side of the lower link rod is in contact with a butting pin penetrating through the handrail.

As a further description of the above technical solution:

also includes a seal;

the sealing member includes the sealed lid of U type, the parallel end of the sealed lid of U type is provided with inserts locating plate in the constant head tank on the stand, be equipped with the locking hole on the stand, and the downthehole locking round pin with the locating plate joint that is provided with of locking, the arc end of the sealed lid of U type is provided with the bellying, and the bellying with the depressed part adaptation on the handrail arc is served.

As a further description of the above technical solution:

the upright post is provided with a sliding hole, and a sliding block extending into the lower clamping groove is movably arranged in the sliding hole.

As a further description of the above technical solution:

the handrail is internally provided with transverse wiring holes distributed along the length direction of the handrail, and the upright post is internally provided with vertical wiring holes distributed along the length direction of the upright post.

In the technical scheme, the vertical compressing assembly is arranged on the stand column, so that when the photovoltaic glass is installed on the stand column and the handrail is pressed, the vertical compressing assembly and the edge of the photovoltaic glass are compressed and sealed, a gap at the joint of the photovoltaic glass and the stand column can be sealed, the electric elements of a photovoltaic system are prevented from being polluted due to the fact that water stains and dust are remained in the gap at the joint, meanwhile, the edge of the photovoltaic glass can be compressed and fixed, the photovoltaic glass, the handrail and the stand column form a complete stable structure, the photovoltaic glass is prevented from loosening, the photovoltaic glass, the handrail and the stand column can be rapidly disassembled and assembled, the disassembling and replacing efficiency of the photovoltaic glass is improved, and the stable structure of the photovoltaic glass handrail is realized, High-efficiency and safe power generation effect, and achieves the idea of energy conservation and environmental protection.

Drawings

In order to more clearly illustrate the embodiments of the present application or technical solutions in the prior art, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments described in the present invention, and other drawings can be obtained by those skilled in the art according to the drawings.

Fig. 1 is a schematic structural view of a photovoltaic power generation aluminum alloy glass balustrade provided by an embodiment of the present invention;

FIG. 2 is an exploded view of a connection between a handrail, a sealing member and a pillar according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an armrest according to an embodiment of the present invention;

fig. 4 is a schematic view of an inner side view of an armrest according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a connection between a lateral compression assembly and a lateral seal gasket according to an embodiment of the present invention;

FIG. 6 is a schematic structural diagram of a linkage member according to an embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a seal according to an embodiment of the present invention;

FIG. 8 is a schematic structural diagram of a pillar according to an embodiment of the present invention;

FIG. 9 is a schematic diagram illustrating an internal top view of a pillar according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of a joint between a vertical compression assembly and a vertical gasket according to an embodiment of the present invention.

Description of reference numerals:

1. a handrail; 11. a recessed portion; 12. transverse wiring holes; 13. an upper clamping groove; 14. a transverse compression assembly; 141. a fixing plate; 142. a first spring; 143. a pressure bearing plate; 144. a linkage member; 1441. an upper link; 1442. a stroke slot; 1443. a second spring; 1444. a rotating shaft; 1445. a lower link; 145. a transverse transmission rod; 15. a transverse gasket; 16. a pressure lever; 17. a support pin; 2. a seal member; 21. a U-shaped sealing cover; 22. positioning a plate; 23. a boss portion; 3. a column; 31. a lower clamping groove; 32. a locking hole; 33. a locking pin; 34. positioning a groove; 35. vertical wiring holes; 36. a vertical hold down assembly; 361. a lifting rod; 362. a vertical transmission rod; 363. a third spring; 37. a slider; 38. a slide hole; 39. a vertical seal gasket; 4. photovoltaic glass.

Detailed Description

In order to make the technical solutions of the present invention better understood, those skilled in the art will now describe the present invention in further detail with reference to the accompanying drawings.

As shown in fig. 1-10, a photovoltaic power generation aluminum alloy glass railing, includes handrail 1, stand 3 and photovoltaic glass 4, and the edge of photovoltaic glass 4 inlays on handrail 1 and stand 3: the handrail 1 is provided with plug connectors, the handrail 1 and the upright posts 3 are made of aluminum alloy materials, two upright posts 3, one handrail 1 and one photovoltaic glass 4 are combined to form a railing unit, and a plurality of railing units are connected one by one to form a complete photovoltaic power generation glass railing, the upright posts 3 are movably provided with vertical pressing components 36, the vertical pressing components 36 are provided with vertical sealing gaskets 39, the vertical sealing gaskets 39 are supported by flexible materials and can be made of materials with similar characteristics such as rubber and silica gel, the vertical pressing components 36 have installation positions avoiding the photovoltaic glass 4 and sealing positions attaching and sealing the photovoltaic glass 4 on the moving stroke, the stroke of the handrail 1 inserted into the upright posts 3 enables the plug connectors to drive the vertical pressing components 36 to move from the installation positions to the sealing positions, when the handrail 1 is not installed on the upright posts 3, the plug connectors cannot contact with the vertical pressing components 36, when the vertical pressing component 36 is located at the installation position on the moving stroke, the vertical sealing gasket 39 is not in contact with the photovoltaic glass 4, the photovoltaic glass 4 can be easily and freely moved on the stand column 3, the photovoltaic glass 4 is convenient to disassemble and assemble, the handrail 1 is installed on the stand column 3, the plug connector is in contact with the vertical pressing component 36 and is driven, the vertical pressing component 36 can be located at the sealing position, the vertical sealing gasket 39 can be tightly pressed with the edge of the photovoltaic glass 4, and the photovoltaic glass 4 can be stably installed on the stand column 3.

When the photovoltaic power generation aluminum alloy glass handrail is used, firstly, two upright posts 3 are installed on a building balcony in parallel, at the moment, the vertical compression assemblies 36 on the two upright posts 3 are located at installation positions in formation, when the photovoltaic glass 4 needs to be installed, two sides of the photovoltaic glass 4 are embedded into the two upright posts 3, the position of the photovoltaic glass 4 can be preliminarily positioned, then, the handrail 1 is placed on the photovoltaic glass 4 in a direction perpendicular to the upright posts 3, the plug connectors are in contact with the tops of the vertical compression assemblies 36, when the handrail 1 is pressed downwards, the plug connectors can press the vertical compression assemblies 36 to move, the vertical compression assemblies 36 move towards the sealing positions, the vertical sealing gaskets 39 are enabled to be attached to the photovoltaic glass 4 and sealed, and when the plug connectors are completely inserted in place, the compression sealing effect of the vertical compression assemblies 36 and the photovoltaic glass 4 is realized, on the contrary, when photovoltaic glass 4 needs to be dismantled, at first upwards pull up handrail 1, the plug connector can leave vertical compressing assembly 36 gradually this moment for vertical compressing assembly 36 moves to the mounted position from sealed position, and vertical sealed pad 39 also can break away from contactless with photovoltaic glass 4, can easily convenient take off photovoltaic glass 4 from two stands 3, realize the dismouting change processing that photovoltaic glass 4 is free nimble.

This embodiment provides a photovoltaic power generation aluminum alloy glass railing, including handrail 1, stand 3 and photovoltaic glass 4, the edge of photovoltaic glass 4 inlays on handrail 1 and stand 3: the handrail 1 is provided with a plug connector, the handrail 1 and the upright post 3 are both made of aluminum alloy materials, the upright post 3 is movably provided with a vertical pressing component 36, the vertical pressing component 36 is provided with a vertical sealing gasket 39, the vertical pressing component 36 has an installation position avoiding the photovoltaic glass 4 and a sealing position attaching and sealing the photovoltaic glass 4 on the moving stroke, the stroke of the handrail 1 inserted into the upright post 3 causes the plug connector to drive the vertical pressing component 36 to move from the installation position to the sealing position, the vertical pressing component 36 is arranged on the upright post 3, when the photovoltaic glass 4 is installed on the upright post 3 and the handrail 1 is pressed, the vertical pressing component 36 and the edge of the photovoltaic glass 4 are pressed and sealed, the gap at the joint of the photovoltaic glass 4 and the upright post 3 can be sealed, and the water stain and dust are prevented from remaining in the gap at the joint and the electric elements of the photovoltaic system are prevented from being polluted, simultaneously also can play to compress tightly fixed effect to photovoltaic glass 4's edge for photovoltaic glass 4 forms complete stable structure with handrail 1 and stand 3, avoids photovoltaic glass 4 to take place not hard up phenomenon, and also be convenient for carry out quick dismouting operation with photovoltaic glass 4, handrail 1 and stand 3, has improved photovoltaic glass 4's dismantlement change efficiency, and then has realized that the photovoltaic glass railing is stable, high-efficient, safe power generation effect, has reached energy-concerving and environment-protective theory.

In another embodiment of the present invention, the vertical pressing component 36 includes a lifting rod 361, the lifting rod 361 is rotatably connected with a vertical transmission rod 362 along the length direction thereof, the vertical transmission rod 362 is rotatably connected with the vertical sealing pad 39, two lower slots 31 are provided on one upright 3, two vertical pressing components 36 are arranged in one lower slot 31, the number of the vertical transmission rods 362 of the vertical pressing components 36 is several, and the rotation amplitudes of the vertical transmission rods 362 are synchronous and consistent, when the inserting and connecting component presses the lifting rod 361 to move along the inner wall of the lower slot 31 on the upright 3, the two vertical transmission rods 362 on the same side move from the inclined state inclined to the lifting rod 361 to the vertical state perpendicular to the lifting rod 361, and the vertical sealing pad 39 and the edge of the photovoltaic glass 4 are caused to be attached and sealed, at this time, the two vertical sealing pads 39 on the same side approach each other in the lower slot 31, and with photovoltaic glass 4 laminating sealed, can play sealed effect to the junction of photovoltaic glass 4 and stand 3, further, the plug connector is the depression bar 16 that sets up at handrail 1 horizontal end, can be when pressing handrail 1 for the bottom of depression bar 16 contacts with the top of lifter 361, and drive lifter 361 removes.

In another embodiment of the present invention, the bottom of the lifting rod 361 is provided with a third spring 363, the third spring 363 is elastically connected to the bottom of the lower locking groove 31, when the lifting rod 361 moves downward under the action of the pressing rod 16, the third spring 363 is compressed and deformed, and when the pressing rod 16 is disengaged from the lifting rod 361, and at this time, the third spring 363 moves from the compressed state to the normal state, and the vertical transmission rod 362 moves from the vertical state perpendicular to the lifting rod 361 to the inclined state inclined to the lifting rod 361, so that the vertical sealing pad 39 is disengaged from the photovoltaic glass 4, and the vertical pressing assembly 36 is reset from the sealing position to the mounting position, thereby facilitating the detachment operation of the photovoltaic glass 4 from the vertical column 3.

In yet another embodiment, the present invention further comprises a lateral compression assembly 14; the transverse pressing assembly 14 comprises a bearing plate 143, the bearing plate 143 is a T-shaped structure, when the handrail 1 is not installed, a bottom protruding structure of the bearing plate 143 extends into the upper clamping groove 13, both ends of the bearing plate 143 are movably connected with a linkage member 144, the linkage member 144 is rotatably connected with a transverse transmission rod 145 along the length direction thereof, and a transverse sealing gasket 15 is rotatably connected to the transverse transmission rod 145, when the photovoltaic glass 4 presses the bearing plate 143 to move in a direction perpendicular to the upper clamping groove 13 on the handrail 1, the transverse transmission rod 145 moves from an inclined state inclined to the bearing plate 143 to a perpendicular state perpendicular to the bearing plate 143, and urges the transverse sealing gasket 15 to be attached to the edge of the photovoltaic glass 4 for sealing, when the handrail 1 is installed on the horizontal end of the photovoltaic glass 4, the horizontal end of the photovoltaic glass 4 extends into the upper clamping groove 13 and presses the bearing plate 143 to move, at this time, the bearing plate 143 drives the linkage members 144 on both sides to move, and the linkage piece 144 drives the transverse transmission rod 145 to rotate, the transverse transmission rod 145 moves from the inclined state inclined to the bearing plate 143 to the vertical state perpendicular to the bearing plate 143, and pushes the two transverse gaskets 15 to enter the upper clamping groove 13, so that the connecting part of the photovoltaic glass 4 and the handrail 1 can be sealed and clamped, and dust and rainwater are prevented from entering a gap between the photovoltaic glass 4 and the handrail 1.

In another embodiment of the present invention, the bearing plate 143 is provided with a plurality of first springs 142, the number of the first springs 142 is several, and the first springs 142 are connected to the fixing plate 141, when the handrail 1 is pressed to the horizontal end of the photovoltaic glass 4, the bearing plate 143 drives the first springs 142 to move from the normal state to the compressed state, when the handrail 1 is removed, the bearing plate 143 exerts pressure on the handrail, the first springs 142 return to spring back, and the transverse transmission rod 145 is driven to move from the vertical state perpendicular to the bearing plate 143 to the inclined state inclined to the bearing plate 143, so that the transverse gasket 15 is separated from the photovoltaic glass 4, thereby facilitating the dismounting operation of the photovoltaic glass 4 and the handrail 1.

In another embodiment of the present invention, the link 144 includes an upper link 1441, the upper link 1441 is provided with a stroke groove 1442, the stroke groove 1442 is provided with a second spring 1443 elastically connected to the pressure-bearing plate 143, a pressure required for the second spring 1443 to deform is greater than a pressure required for the first spring 142 to deform, when the second spring 1443 is pressed, an end of the pressure-bearing plate 143 moves along an inner wall of the stroke groove 1442, after a long time use, a degree of wear of the vertical gasket 39 becomes greater, when the horizontal gasket 15 is in a sealing state and the vertical gasket 39 is not in a sealing state, the armrest 1 is pressed again, and since the horizontal gasket 15 is tightly pressed against the photovoltaic glass 4 and remains still, the pressure-bearing plate 143 moves in the stroke groove 1442 in the upper link 1441 and presses the second spring 1443 to deform in a compression manner, i.e. the insertion range of the compression bar 16 can be extended, the vertical sealing gasket 39 and the transverse sealing gasket 15 can be synchronously sealed and pressed on the photovoltaic glass 4.

In another embodiment of the present invention, the link 144 further includes a lower link 1445, the lower link 1445 is rotatably connected to the upper link 1441 through a rotating shaft 1444, and an outer side of the lower link 1445 is in contact with a fastening pin 17 penetrating through the armrest 1, so that after a long period of use, the degree of wear of the transverse gasket 15 will increase, when the vertical gasket 39 is in a sealed state and the transverse gasket 15 is not in a sealed state, the fastening pin 17 is rotated to be in contact with the lower link 1445 and the lower link 1445 is pushed to rotate around the rotating shaft 1444, so as to drive the transverse gasket 15 to contact and seal with the photovoltaic glass 4, and thus the transverse gasket 15 and the vertical gasket 39 can be ensured to seal and press the photovoltaic glass 4 synchronously.

In yet another embodiment, the present invention further comprises a sealing member 2; the sealing element 2 comprises a U-shaped sealing cover 21, a positioning plate 22 inserted into a positioning groove 34 on the upright post 3 is arranged at the parallel end of the U-shaped sealing cover 21, a locking hole 32 is arranged on the upright post 3, a locking pin 33 clamped with the positioning plate 22 is arranged in the locking hole 32, a bulge 23 is arranged at the arc end of the U-shaped sealing cover 21, the bulge 23 is matched with a concave part 11 on the arc end of the handrail 1, when two adjacent handrails 1 are simultaneously arranged on the upright post 3, the horizontal end of the U-shaped sealing cover 21 faces downwards, the positioning plate 22 is inserted into the positioning groove 34 on the upright post 3, and the positioning plate 22 is inserted in place, the bulge 23 on the U-shaped sealing cover 21 can be clamped with the concave part 11 on the handrail 1, so that the joint of the two adjacent handrails 1 and the sealing element 2 is in a flat state, meanwhile, a locking function can be played between the two adjacent handrails 1 and the sealing element 2, and finally the locking pin 33 penetrates through the locking hole 32, the locking and fixing of the positions of the U-shaped sealing covers 21 can be realized by entering into locking grooves (not shown) on the positioning plate 22, so that the positions of two adjacent handrails 1 can be fixed, and the effect of locking and fixing the sealing positions of the photovoltaic glass 4 can also be realized.

In another embodiment provided by the present invention, a sliding hole 38 is disposed on the upright post 3, and a sliding block 37 extending into the lower slot 31 is movably disposed in the sliding hole 38, the sliding block 37 is pushed to move in the sliding hole 38 and contact with the photovoltaic glass 4, when the sliding block 37 is still pushed when contacting the photovoltaic glass 4, it can be shown that the sealing state between the photovoltaic glass 4 and the upright post 3 is not good, and a gap exists, and when the sliding block 37 is not pushed when contacting the photovoltaic glass 4, it can be shown that the sealing state between the photovoltaic glass 4 and the upright post 3 is good, and no gap exists, so that it can be quickly and accurately determined whether the sealing state between the upright post 3 and the photovoltaic glass 4 is reached.

In another embodiment provided by the invention, the handrail 1 is internally provided with the transverse wiring holes 12 distributed along the length direction, the upright post 3 is internally provided with the vertical wiring holes 35 distributed along the length direction, and the transverse wiring holes 12 and the vertical wiring holes 35 are internally provided with insulating materials for insulating and protecting the built-in wires, so that the connecting wires required by the photovoltaic glass 4 can be subjected to hidden wiring operation through the transverse wiring holes 12 and the vertical wiring holes 35, and the U-shaped sealing cover 21 can also have the effect of hiding and wrapping the connecting wire heads exposed between two adjacent handrails 1 after being installed.

While certain exemplary embodiments of the present invention have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that the described embodiments may be modified in various different ways without departing from the spirit and scope of the invention. Accordingly, the drawings and description are illustrative in nature and should not be construed as limiting the scope of the invention.

Claims (10)

1. The utility model provides a photovoltaic power generation aluminum alloy glass railing, includes handrail (1), stand (3) and photovoltaic glass (4), the edge of photovoltaic glass (4) inlay in on handrail (1) and stand (3), its characterized in that:

the handrail (1) is provided with a plug connector, the upright post (3) is movably provided with a vertical pressing component (36), and the vertical pressing component (36) is provided with a vertical sealing gasket (39);

the vertical pressing assembly (36) is provided with an installation position for avoiding the photovoltaic glass (4) and a sealing position for sealing the photovoltaic glass (4) in a fitting manner on a moving stroke;

the travel of the armrest (1) into the upright (3) causes the plug to drive the vertical compression assembly (36) from the installed position to the sealed position.

2. The photovoltaic power generation aluminum alloy glass railing of claim 1, characterized in that: vertical compress tightly subassembly (36) includes lifter (361), lifter (361) rotates along its length direction and is connected with vertical transfer line (362), and vertical transfer line (362) rotates with vertical sealed pad (39) and is connected, works as the plug connector oppression lifter (361) is followed during lower draw-in groove (31) inner wall on stand (3) removes, drives vertical sealed pad (39) with the edge laminating of photovoltaic glass (4) is sealed, the plug connector is depression bar (16) of setting at handrail (1) horizontal end.

3. The photovoltaic power generation aluminum alloy glass railing of claim 2, characterized in that: the bottom of the lifting rod (361) is provided with a third spring (363), the third spring (363) is elastically connected with the bottom of the lower clamping groove (31), and when the third spring (363) moves from a compressed state to a normal state, the vertical transmission rod (362) moves from a vertical state perpendicular to the lifting rod (361) to an inclined state inclined to the lifting rod (361).

4. The photovoltaic power generation aluminum alloy glass railing of claim 1, characterized in that: also comprises a transverse compacting component (14);

transversely compress tightly subassembly (14) and include bearing plate (143), the equal swing joint in both ends of bearing plate (143) has linkage piece (144), linkage piece (144) rotate along its length direction and are connected with horizontal transfer line (145), and rotate on horizontal transfer line (145) and be connected with horizontal sealed pad (15), work as photovoltaic glass (4) extrusion bearing plate (143) perpendicular to when last draw-in groove (13) direction on handrail (1) removed, drive horizontal sealed pad (15) with the edge laminating of photovoltaic glass (4) is sealed.

5. The photovoltaic power generation aluminum alloy glass railing of claim 4, characterized in that: the bearing plate (143) is provided with a first spring (142), the first spring (142) is connected with the fixing plate (141), and when the first spring (142) moves from a compressed state to a normal state, the transverse transmission rod (145) moves from a vertical state perpendicular to the bearing plate (143) to an inclined state inclined to the bearing plate (143).

6. The photovoltaic power generation aluminum alloy glass railing of claim 4, characterized in that: the linkage piece (144) comprises an upper link rod (1441), a stroke groove (1442) is formed in the upper link rod (1441), and a second spring (1443) elastically connected with the pressure bearing plate (143) is arranged in the stroke groove (1442).

7. The photovoltaic power generation aluminum alloy glass railing of claim 6, characterized in that: the linkage piece (144) further comprises a lower link rod (1445), the lower link rod (1445) is rotatably connected with the upper link rod (1441) through a rotating shaft (1444), and the outer side of the lower link rod (1445) is in contact with a thrust pin (17) penetrating through the armrest (1).

8. The photovoltaic power generation aluminum alloy glass railing of claim 1, characterized in that: further comprising a seal (2);

sealing member (2) are including the sealed lid of U type (21), the parallel end of the sealed lid of U type (21) is provided with inserts locating plate (22) in constant head tank (34) on stand (3), be equipped with locking hole (32) on stand (3), and be provided with in locking hole (32) with locating plate (22) joint lock round pin (33), the arc end of the sealed lid of U type (21) is provided with bellying (23), and bellying (23) with depressed part (11) looks adaptation on handrail (1) arc end.

9. The photovoltaic power generation aluminum alloy glass railing of claim 2, characterized in that: the upright post (3) is provided with a sliding hole (38), and a sliding block (37) extending into the lower clamping groove (31) is movably arranged in the sliding hole (38).

10. The photovoltaic power generation aluminum alloy glass railing of claim 1, characterized in that: the handrail (1) is internally provided with transverse wiring holes (12) distributed along the length direction of the handrail, and the upright post (3) is internally provided with vertical wiring holes (35) distributed along the length direction of the upright post.

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