CN117145111A - Four-side tongue-and-groove type spliced curtain wall plate and splicing method - Google Patents

Abstract

The invention discloses a four-side grooved and tongued spliced curtain wall plate and a splicing method. According to the solar energy storage device, the electric storage component is arranged, so that the electric storage component can convert sunlight into electric energy through the solar panel under the condition of sunlight illumination, the electric energy is transported to the storage battery for storage through the electric element, the electric storage component focuses the sunlight through the convex mirror formed by the plastic film and water, and the area of the solar panel is reduced.

Description

Four-side tongue-and-groove type spliced curtain wall plate and splicing method

Technical Field

The invention relates to the technical field of four-side grooved and tongued spliced curtain wall plates, in particular to a four-side grooved and tongued spliced curtain wall plate and a splicing method.

Background

The four-side grooved and tongued spliced curtain wall board is a building board, is mainly fixed by adopting hidden screws, has better waterproof performance, looks more attractive, can create a smooth and seamless outer wall surface, has large coefficient compared with a two-side grooved and tongued spliced curtain wall board, can bear larger load, is suitable for occasions such as high buildings, large spaces and heavy loads, and is suitable for the occasions such as high buildings, because the traditional device is not perfect enough, has no facility capable of conveniently absorbing solar energy, the solar panel on the curtain wall board occupies large space, and the four-side grooved and tongued spliced curtain wall board and the splicing method can provide convenience for workers.

The defects of the existing four-side tongue-and-groove spliced curtain wall plate are as follows:

1. KR102440382B1 discloses a multi-type curtain wall board with mutual adhesion and tight heat insulation, and the disclosed multi-type curtain wall board with mutual adhesion and tight heat insulation mainly considers how to achieve the purpose of mutual adhesion and tight heat insulation by forming an adhesion structure through mutual coupling characteristics and tight insulation characteristics, and does not consider the problem of being convenient for absorbing solar energy, and the solar panel on the curtain wall board occupies a large space.

2. JP1996023185B2 discloses curtain wall panels, and the above-mentioned disclosed curtain wall panels mainly consider how to avoid pin bearings or roller bearings of curtain wall panels to displace along with the layer, simplify the fixed problem of bearing section, do not consider the problem of cooling to the curtain wall panels, in hot environment, curtain wall panel temperature is high.

3. JP1996003231B2 discloses a prefabricated curtain wall panel mainly considering how to make the curtain wall panel light in weight, withstand high tension, and be less likely to crack due to strong wind, and the problem of reducing its weight by reducing the amount of reinforcing bars installed independently of reinforcing bar beams, and does not consider the problem of increasing the temperature in a building, which is low in a cold environment, and poor in an air environment.

4. CN102817429B discloses a curtain wall plate and curtain wall, and the above-mentioned disclosed curtain wall plate and curtain wall mainly consider how to have simple structure, installation stable and reliable, can the monolithic freely dismantle, the problem of advantage such as dismouting efficiency height, do not consider the problem of conveniently planting green planting, reduced pleasing to the eye.

Disclosure of Invention

The invention aims to provide a four-side grooved and tongued spliced curtain wall plate and a splicing method, which are used for solving the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the four-side tongue-and-groove spliced curtain wall board comprises a bottom board, wherein a core material is arranged on the front surface of the bottom board, a panel is arranged on the front surface of the core material, and an electric storage component is arranged on the front surface of the panel and used for converting solar energy into electric energy;

the electric power storage assembly comprises an alloy frame, a glass plate is arranged on the inner side of the alloy frame, a plurality of plastic films are arranged on the inner wall of the front surface of the glass plate, connecting pipes are arranged between the adjacent plastic films in a penetrating mode, a solar panel is arranged on the front surface of the panel, a storage battery is arranged in the core material, and a circuit between the storage battery and the solar panel is connected.

Preferably, a right side seal is installed on one side of the core material, a left side seal is installed on the other side of the core material, and a heat dissipation assembly is arranged on the inner side of the core material and used for dissipating heat of the core material and the panel.

Preferably, the remote control terminal is installed to one side of battery, and the screwed pipe is run through at the top of alloy frame, and the screw plug is installed to the inboard screw thread of screwed pipe, and hexagonal groove has been seted up at the top of screw plug, and the hose is installed to the bottom of screwed pipe, and the one end of hose runs through and installs at the top of one of them plastic film, and the hose is used for intercommunication plastic film and screwed pipe.

Preferably, the front of panel is installed the apron, and ventilation net has been run through in the front of apron, and the top and the bottom of apron run through and have been seted up the access & exit, install the guide block between panel and the apron, and the filler is installed to the inboard of apron, and the generator is installed in the front mosaic of panel, and the outside dress of generator output has the fan, and the fan is located the inboard of filler.

Preferably, the heat dissipation assembly comprises a movable groove, the movable groove is formed in the inner side of the core material, two L pipes are installed in the bottom of the movable groove in a penetrating mode, the L pipes are installed in the core material in a penetrating mode, one ends of the L pipes are installed in the alloy frame in a penetrating mode, a filter screen is installed in the inner side of the L pipes, an air outlet pipe is installed in the bottom of the alloy frame in a penetrating mode, the air outlet pipe is located at a position between the two L pipes, the inner side of the core material is provided with an L hole in a penetrating mode, one end of the L hole is communicated with the movable groove in a penetrating mode, the other end of the L hole is provided with an inner side of the panel in a penetrating mode, an air outlet valve is installed in the front of the panel, the air outlet valve is located at the top of the L hole, the air outlet valve is used for opening or closing the L hole, a telescopic rod is installed in the inner side of the bottom wall of the movable groove, one group of hinge ends of the telescopic rod are installed at the top of the telescopic rod, a pushing plate is installed at the top of the group of hinge ends, a piston sleeve is installed at the outer side of the pushing plate of the hinge ends, the supporting rod is contacted with the inner wall of the movable groove, the inner wall of the movable groove is located at the inner side of the movable groove, and the air outlet valve penetrates through the inner wall of the top of the movable groove, and the air hole is located at the top of the air inlet valve is opened.

Preferably, the back of bottom plate is provided with greenhouse subassembly and afforestation subassembly respectively, and greenhouse subassembly is used for regulating indoor temperature and air quality, and afforestation subassembly is used for planting perpendicular green planting, greenhouse subassembly is including T type valve, and the one end dress cover of T type valve is in the outside of play tuber pipe, driving motor is installed in the front of T type valve, the tubule is installed in the inboard penetration of the other end of T type valve, and the tubule runs through the inside of bottom plate, core material and panel, trapezoidal box is installed to the one end of tubule, and trapezoidal box installs the back at the bottom plate, the one end of tubule is located the position in the middle of the trapezoidal box, the heating collar is installed to the inboard of trapezoidal box, two trachea are installed in the back penetration of trapezoidal box, the protection network is installed to tracheal inboard, the heat insulating board is installed to the outside of trachea and trapezoidal box, the heat insulating board is used for insulating the temperature of trachea and trapezoidal box.

Preferably, the greening assembly comprises a water storage box, the water storage box is arranged on the back of the bottom plate, water pipes are installed on two sides of the water storage box in a penetrating mode, a plurality of square holes are formed in the top of the water storage box in a penetrating mode, a plurality of placing frames are installed at the top of the water storage box and located at the positions of the corresponding square holes, a vertical plate is installed at the top of the placing frames, triangular bars are installed on the back of the vertical plate, a top frame is placed at the top of the placing frames, through holes are formed in the top of the top frame in a penetrating mode, the through holes are located on the outer side of the vertical plate, the placing box is installed at the bottom of the top frame and located on the inner side of the water storage box, a plurality of holes are formed in the bottom of the placing box in a penetrating mode, and the holes are used for providing circulation channels for placing the box and the water storage box.

Preferably, a control module is arranged in the core material, the control module comprises an operation unit and an execution unit, the operation unit comprises a remote control terminal, and the execution unit comprises a telescopic rod, a driving motor and a heating ring;

the inner side of the core material is provided with an electric element required by the operation of a remote control terminal, the remote control terminal is connected with the storage battery, the telescopic rod, the driving motor and the heating ring through the electric element, the remote control terminal transmits a remote control signal to the remote control terminal, and the remote control terminal controls the storage battery to transmit electric energy to the telescopic rod, the driving motor or the heating ring through the electric element after receiving the remote control signal, so that the starting and the closing of the execution unit are controlled;

after a remote control signal for starting the telescopic rod is transmitted to the remote control terminal, the remote control terminal receives the remote control signal to control the storage battery to transmit electric energy to the telescopic rod through the electric element for starting, so that the telescopic rod intermittently stretches and contracts, and the telescopic rod drives the push plate to intermittently move up and down through the hinge end and the support rod;

after a remote control signal for starting the driving motor is transmitted to the remote control terminal, the remote control terminal receives the remote control signal to control the storage battery to transmit electric energy to the driving motor for starting through the electric element, so that the driving motor drives the T-shaped valve to operate, and the T-shaped valve controls the air outlet pipe to be closed, the L pipe to be opened, or the air outlet pipe to be opened and the L pipe to be closed;

After a remote control signal for starting the heating ring is transmitted to the remote control terminal, the remote control terminal receives the remote control signal to control the storage battery to transmit electric energy to the heating ring through the electric element for starting, so that the heating ring is heated through the resistor.

Preferably, the splicing method of the spliced curtain wall plate comprises the following steps:

s1, firstly, a worker firstly installs a bracket, wherein the bracket is used for supporting the installation of the curtain wall plate, and the bracket is usually made of aluminum alloy or steel, so that the horizontality and the verticality of the bracket are ensured, and the installation accuracy of the curtain wall plate is ensured;

s2, inserting a tool into the inner side of the hexagonal groove, driving the threaded plug to rotate through the hexagonal groove, detaching the threaded plug from the inner side of the threaded pipe, injecting external water into the inner side of the threaded pipe, enabling the water to pass through the threaded pipe and the hose to enter the inner side of the plastic film, transmitting the water to the inner side of the adjacent plastic film through the connecting pipe by the plastic film, filling the plastic film with water for expansion, and sealing the threaded pipe by using the threaded plug again;

s3, fixing one curtain wall plate on a bracket, connecting the curtain wall plates by using bolts or screws, ensuring that the positions and the intervals of the curtain wall plates are consistent with the design requirements, embedding and connecting the left side seal of the other curtain wall plate with the right side seal of the last curtain wall plate, and vice versa, and fixing the curtain wall plate on the bracket by penetrating the positions of the left side seal and the right side seal through the bolts or screws and using the bolts or screws again until the curtain wall plates are fully paved;

S4, sealing between curtain wall plates and joints to ensure waterproof performance, and filling gaps between the curtain wall plates and the building structure by using sealant;

s5, two adjacent water pipes are communicated, so that the water storage boxes on the back of one row of curtain wall boards are communicated through the water pipes, vertical green plants are planted on the inner sides of the placement boxes, the placement boxes provided with the vertical green plants are placed at square holes, the placement boxes are positioned on the inner sides of the water storage boxes, at the moment, triangular strips penetrate through the inner sides of the through holes to come to the top of the top frame, the placement boxes are fixed firmly, and the placement boxes are prevented from falling;

s6, connecting an external tap water pipe with a water pipe, injecting water into the inner side of the water pipe, injecting water into the inner sides of all the water storage boxes through the water pipe, injecting a proper amount of water into the inner sides of the water storage boxes, and allowing the water to enter the inner sides of the placement boxes through the openings to provide water for vertical green planting.

Preferably, in the step S5, the method further includes the following steps:

and S51, after the vertical green plants are installed, the vertical green plants are shielded at one end of the air pipe, and the vertical green plants at one end of the air pipe are cleaned to two sides, so that the back surface of the air pipe is ensured to be free from shielding, and the hot air exhausted by the air pipe is prevented from damaging the green plants.

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

1. According to the solar energy storage device, the electric storage component is arranged, so that the electric storage component can convert sunlight into electric energy through the solar panel under the condition of sunlight illumination, the electric energy is transported to the storage battery for storage through the electric element, the electric storage component focuses the sunlight through the convex mirror formed by the plastic film and water, and the area of the solar panel is reduced.

2. According to the invention, by installing the telescopic rod, a worker electrifies the telescopic rod through the storage battery, and starts the telescopic rod to extend, so that two ends of the telescopic rod drive the hinged ends at the top of the telescopic rod to move, and the two hinged ends drive the supporting rods to move, so that the telescopic rod drives the pushing plate to move downwards by utilizing the functions of the hinged ends and the supporting rods, and the pushing plate drives the rubber sleeve to move downwards, at the moment, the L hole is sealed by the air outlet valve, the air pressure above the L hole and the pushing plate at the inner side of the movable groove is reduced, negative pressure is presented, so that air below the pushing plate at the inner side of the movable groove moves into the space above the pushing plate through the air hole, after the telescopic rod extends to a limiting position, the pushing plate is contracted, so that the pushing plate moves upwards, the air above the pushing plate at the inner side of the movable groove enters the inner side of the L hole under the action of the pushing plate, and passes through the inner side of the L hole to move to the outside, so that the air at the inner side of the alloy frame passes through the air outlet pipe to discharge pipe, and the air at the front of the panel carries heat to be discharged, and a heat dissipation effect is provided for the panel.

3. According to the invention, a greenhouse component is installed, a worker firstly supplies power to the heating ring to enable the heating ring to generate heat, the driving motor is started to enable one end of the bottom of the T-shaped valve to be closed, one end of the back surface of the T-shaped valve is opened, one end of the back surface of the T-shaped valve is communicated with one end of the bottom of the T-shaped valve, air inside the alloy frame flows to the inner side of the thin tube, air inside the thin tube enters the inner side of the trapezoid box through the thin tube, the air inside the trapezoid box becomes hot air under the action of the heating ring, the hot air enters the inner side of a building through the air tube, the temperature of the inner side of the building is provided, and meanwhile, the heat dissipation component and the greenhouse component are matched to transfer outside air to the inner side of the building, so that the air quality of the inner side of the building is improved.

4. According to the invention, after the curtain wall plates are assembled, a worker plants the vertical green plants on the inner side of the placement box, the placement box with the vertical green plants is placed on the inner side of the water storage box, the top frame and the placement box are fixed through the vertical plates and the triangular strips, and meanwhile, three vertical green plants are placed at intervals with two air pipes, so that the vertical green plants provide shielding for the trapezoid boxes, the heat insulation plates prevent the vertical green plants from being scalded, then the two adjacent water pipes are connected, tap water outside is poured into the inner side of the water storage box through the water pipes, the water pipes can ensure that the water quantity on the inner side of each water storage box is the same, a proper amount of water is poured into the inner side of the water storage box, the water on the inner side of the water storage box can enter the inner side of the placement box through the openings, water is provided for the vertical green plants, and meanwhile, the three vertical green plants and the two air pipes are placed at intervals, so that the vertical green plants provide shielding for the trapezoid boxes, the vertical green plants provide decoration effect for the inner side of a building, and the attractiveness is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic cross-sectional view of a plastic film according to the present invention;

FIG. 3 is a schematic cross-sectional view of a movable trough according to the present invention;

FIG. 4 is a schematic cross-sectional view of a core material according to the present invention;

FIG. 5 is a schematic view of an L-shaped hole cross-section structure of the present invention;

FIG. 6 is a schematic cross-sectional view of a water storage box according to the present invention;

FIG. 7 is a schematic view of the back structure of the base plate of the present invention;

FIG. 8 is a schematic diagram of a cover plate in a three-dimensional structure according to the present invention;

FIG. 9 is a schematic cross-sectional view of a fan according to the present invention;

FIG. 10 is a schematic diagram of a control module according to the present invention;

fig. 11 is a flow chart of the present invention.

In the figure: 1. a bottom plate; 2. a core material; 3. a panel; 4. a right side seal; 5. a left side seal; 6. an alloy frame; 7. a glass plate; 8. a threaded tube; 9. a threaded plug; 10. a hexagonal groove; 11. a hose; 12. a plastic film; 13. a connecting pipe; 14. a solar panel; 15. a storage battery; 16. a movable groove; 17. an L pipe; 18. a filter screen; 19. an air outlet pipe; 20. l holes; 21. an air outlet valve; 22. a telescopic rod; 23. a hinged end; 24. a support rod; 25. a push plate; 26. a piston sleeve; 27. air holes; 28. an intake valve; 29. a T-valve; 30. a driving motor; 31. a tubule; 32. a trapezoid box; 33. a heating ring; 34. an air pipe; 35. a protective net; 36. a heat insulating plate; 37. a water storage box; 38. a water pipe; 39. square holes; 40. placing a frame; 41. a vertical plate; 42. triangular bars; 43. a top frame; 44. a through hole; 45. placing a box; 46. opening holes; 47. a cover plate; 48. a ventilation screen; 49. an access opening; 50. a guide block; 51. filling blocks; 52. a generator; 53. a fan; 54. and (5) remotely controlling the terminal.

Detailed Description

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

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and are, for example, "connected," whether fixedly, detachably, or integrally; is a mechanical connection and also an electrical connection; is directly connected, also indirectly connected through an intermediate medium, and is the communication between the two components. The specific meaning of the above terms in the present invention is understood in detail by those of ordinary skill in the art.

Referring to fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, an embodiment of the present invention provides: the utility model provides a four sides tongue-and-groove concatenation curtain board and concatenation method, includes bottom plate 1, and core 2 is installed in the front of bottom plate 1, and panel 3 is installed in the front of core 2, and right side seal 4 is installed to one side of core 2, and left side seal 5 is installed to the opposite side of core 2, and bottom plate 1 can provide firm support for core 2, and core 2 is rock wool material, can play heat preservation, thermal-insulated and the effect of basic fire prevention, and right side seal 4 and left side seal 5 are all filled through polyurethane foaming, can effectively block heat conduction and rainwater seepage.

The staff installs external support earlier, and the support is used for supporting the installation of curtain wallboard, and the support is made by aluminum alloy or steel generally, later fixes a curtain board on the support, uses bolt or screw to connect, seals 5 on the left side of another curtain wallboard and the right side of last curtain wallboard seal 4 gomphosis and be connected, and vice versa is feasible, runs through the position of left side seal 5 and right side seal 4 gomphosis through bolt or screw, uses bolt or screw again and fixes the curtain board on the support to ensure that the installation of curtain wallboard is firm, until the curtain wallboard is covered.

Referring to fig. 1, 2, 3 and 5, an embodiment of the present invention is provided: the utility model provides a four sides tongue-and-groove concatenation curtain wallboard and concatenation method, including the electric power storage subassembly, the electric power storage subassembly is including alloy frame 6, glass board 7 is installed to the inboard of alloy frame 6, glass board 7 can be colored glass board 7, can select suitable colour as required, a plurality of plastic films 12 are installed to the front inner wall of glass board 7, connecting pipe 13 is run through each other to adjacent plastic films 12, connecting pipe 13 and plastic film 12 are plastic film, connecting pipe 13 provides the circulation passageway for the water of plastic film 12 inboard, solar panel 14 is installed to the front of panel 3, the internally mounted of core material 2 has battery 15, and line connection between battery 15 and the solar panel 14, remote control terminal 54 is installed to one side of battery 15, threaded pipe 8 is run through at the top of alloy frame 6, screw 9 is installed to the inboard screw thread of threaded pipe 8, hexagonal groove 10 has been seted up at the top of screw 9, alloy frame 6 can provide the run through space for threaded pipe 8, screw 9 can provide screw thread connection space for screw 9, screw 9 can provide the space for hexagonal groove 10, the bottom of threaded pipe 8 has 11 to run through at the plastic hose 11, one of them 12 is installed at the top of 12 hose 12, one end is used for the hose 11 is installed to the hose.

The staff uses the instrument to insert the inboard of hexagonal groove 10 earlier, drive screw 9 rotatory through hexagonal groove 10, make screw 9 rotate with oneself as the centre of a circle under the effect of external force, dismantle screw 9 with the screw effect of screw pipe 8, pour into the inboard of screw pipe 8 with external water, make water pass screw pipe 8 and hose 11 and enter into the inboard of plastic film 12, plastic film 12 passes through connecting pipe 13 with water transfer to adjacent plastic film 12 inboard, fill up the water expansion with plastic film 12, plastic film 12 utilizes self shape to retrain the water into the shape of convex lens, use screw 9 to seal screw pipe 8 again, after laying the curtain board, outside light passes glass board 7 and enters into the inboard of plastic film 12, make light focus under the effect of plastic film 12 and water, the front of solar panel 14 is shone to the light after the focus, make solar panel 14 absorb the conversion of light into electric energy, the electric energy passes through the inside storage battery 15, the illumination after focusing is less, can be effective practice thrift solar panel 14, the area is reduced to the manufacturing cost is improved, the solar panel is manufactured to the area.

Referring to fig. 1, 8 and 9, an embodiment of the present invention provides: the utility model provides a four sides tongue-and-groove type concatenation curtain wall board and concatenation method, including panel 3, the apron 47 is installed in the front of panel 3, the positive ventilation net 48 of installing is run through to the front of apron 47, the apron 47 can provide and run through for ventilation net 48 and offer the space, ventilation net 48 can provide the circulation passageway for the air, the top and the bottom of apron 47 run through and have offered access to the access & exit 49, install guide block 50 between panel 3 and the apron 47, the filler piece 51 is installed to the inboard of apron 47, the generator 52 is installed in the front mosaic of panel 3, the outside of generator 52 output is adorned and is overlapped fan 53, and fan 53 is located the inboard of filler piece 51, guide block 50 and filler piece 51 can provide the guide effect for the air current, panel 3 can provide the space of running through for generator 52.

When the external air flow passes through the top of the inlet and outlet 49 and enters the inner side of the cover plate 47, the air flow moves under the guiding action of the guide block 50, so that the air flow is in contact with the fan 53, the fan 53 moves under the action of the air flow, the fan 53 rotates around the center of a circle under the action of the external force, the fan 53 rotates to drive the output end of the generator 52 to rotate, the generator 52 works to convert mechanical energy into electric energy, the generator 52 transmits the electric energy to the storage battery 15 for storage through the electric elements, the fan 53 rotates to blow the air inside the cover plate 47 to the front, the air flow drives the heat on the front of the panel 3 to move, the air flow carries the heat to the outside through the ventilation net 48, and part of the air flow on the inner side of the cover plate 47 continues to move downwards along the side surface of the guide block 50, so that the air flow passes through the inner side of the cover plate 47 to the inner side of the cover plate 47 in the other curtain wall plate, the air flow is transmitted downwards, and the plurality of curtain wall plates are subjected to heat dissipation.

Referring to fig. 1, 3, 4 and 5, an embodiment of the present invention is provided: the four-side tongue-and-groove spliced curtain wall board comprises a heat radiating component, wherein the heat radiating component comprises a movable groove 16, the movable groove 16 is arranged on the inner side of a core material 2, two L pipes 17 are arranged at the bottom of the movable groove 16 in a penetrating way, the L pipes 17 are arranged in the core material 2 in a penetrating way, one ends of the L pipes 17 are arranged in an alloy frame 6 in a penetrating way, a filter screen 18 is arranged on the inner side of the L pipes 17, an air outlet pipe 19 is arranged at the bottom of the alloy frame 6 in a penetrating way, the air outlet pipe 19 is positioned between the two L pipes 17, an L hole 20 is arranged in the inner side of the core material 2 in a penetrating way, one end of the L hole 20 is communicated with the movable groove 16 in a penetrating way, the other end of the L hole 20 is arranged in a penetrating way in a panel 3, the core material 2 can provide a forming space for the movable groove 16, the core material 2 can provide a penetrating space for the L pipe 17, the core material 2 can provide a penetrating forming space for the L hole 20, the outside air can enter the inner side of the movable groove 16 for the L pipe 17 and move to the inner side of the alloy frame 6 from the L hole 20, the air outlet valve 21 is arranged on the front surface of the panel 3, the air outlet valve 21 is positioned at the top of the L hole 20, the air outlet valve 21 is used for opening or closing the L hole 20, the telescopic rod 22 is arranged on the inner side of the bottom wall of the movable groove 16, the telescopic rod 22 is a double-head telescopic rod 22, two ends of the telescopic rod 22 can be simultaneously stretched or contracted, a group of hinge ends 23 are arranged at the top of the telescopic rod 22, each group of two hinge ends 23 are respectively provided with a supporting rod 24, one end of the supporting rod 24 is provided with the other group of hinge ends 23, the top of the group of hinge ends 23 is provided with a push plate 25, the hinge ends 23 can provide connection support for the supporting rod 24, the hinge ends 23 can rotate along the same horizontal plane, the rotation of the supporting rod 24 is facilitated, the outer side of the push plate 25 is provided with a piston sleeve 26, and piston sleeve 26 and the contact of movable groove 16 inner wall, two gas pockets 27 have been run through to the inside of push pedal 25, and two admission valves 28 are installed at the top of push pedal 25, and two admission valves 28 are located the top of two gas pockets 27 respectively, and admission valve 28 is used for opening or closing gas pockets 27, and piston sleeve 26 can provide sealed effect for push pedal 25, and push pedal 25 can provide the space of seting up for gas pockets 27, and gas pockets 27 can provide the circulation passageway for the air.

The staff supplies power to the telescopic rod 22 through the storage battery 15, the telescopic rod 22 is started to extend, two ends of the telescopic rod 22 drive the hinged ends 23 at the top of the telescopic rod 22 to move, the two hinged ends 23 drive the supporting rods 24 to move under the action of external force, the supporting rods 24 rotate by taking the hinged ends 23 as circle centers under the action of the hinged ends 23, the two supporting rods 24 rotate towards directions close to each other, the other ends of the two supporting rods 24 simultaneously rotate by taking the two hinged ends 23 at the bottom of the push plate 25 as circle centers, the telescopic rod 22 drives the push plate 25 to move downwards under the action of the hinged ends 23 and the supporting rods 24, the push plate 25 drives the piston sleeve 26 to move downwards under the action of the external force, at the moment, the air outlet valve 21 seals the L hole 20 in parallel with the panel 3 under the action of self gravity, the space pressure above the L hole 20 and the push plate 25 at the inner side of the movable groove 16 is reduced, negative pressure is shown, the space below the push plate 25 at the inner side of the movable groove 16 is standard atmospheric pressure, the air passes through the air hole 27 to move upwards, the air extrudes the air inlet valve 28 to move upwards, the air below the push plate 25 at the inner side of the movable groove 16 moves into the space above the push plate 25 through the air hole 27, when the telescopic rod 22 stretches to the limit position, the push plate 25 moves upwards under the action of external force, the air pressure of the space below the push plate 25 at the inner side of the movable groove 16 is smaller than the standard air pressure, the outside air enters the inner side of the movable groove 16 through the L pipe 17, the air pressure of the space above the push plate 25 at the inner side of the movable groove 16 is larger than the standard air pressure, the air inlet valve 28 seals the air hole 27 under the action of the air pressure and the gravity of the air inlet valve, the air outlet valve 21 is opened under the action of the air pressure, the air above the push plate 25 at the inner side of the movable groove 16 enters the inner side of the L hole 20 under the action of the push plate 25 and passes through the L hole 20 to enter the inner side of the alloy frame 6, the air inside the alloy frame 6 passes through the air outlet pipe 19 to move to the outside, so that the air on the front surface of the panel 3 is discharged with heat, and a heat dissipation effect is provided for the panel 3.

Referring to fig. 1, 5, 6 and 7, an embodiment of the present invention is provided: the utility model provides a four sides tongue-and-groove type concatenation curtain wallboard and concatenation method, including bottom plate 1, the back of bottom plate 1 is provided with greenhouse subassembly and afforestation subassembly respectively, greenhouse subassembly is used for adjusting indoor temperature and air quality, afforestation subassembly is used for planting perpendicular green planting, greenhouse subassembly is including T type valve 29, and the one end of T type valve 29 is installed in the outside of play tuber pipe 19, driving motor 30 is installed in the front of T type valve 29, driving motor 30 can control opening and closing of two exports of T type valve 29, tubule 31 is installed in the inboard running through of the other end of T type valve 29, and tubule 31 runs through the inside of bottom plate 1, core material 2 and panel 3, trapezoidal box 32 is installed to one end of tubule 31, and trapezoidal box 32 is installed at the back of bottom plate 1, the one end of tubule 31 is located the position in the middle of trapezoidal box 32, the heating collar 33 is installed to the inboard of trapezoidal box 32, the heating collar 33 is resistance wire material, the circular telegram utilizes the resistance to heat by self-heating, the shape is the screw thread form, increase and the area of the inboard air of trapezoidal box 32, two air pipes 34 are installed in the running through in the back of trapezoidal box 32, the inboard 35 can prevent that the air pipe 34 from getting into the inside protection network 35 can prevent that the biological protection network 35 from getting into the thermal insulation collar 33 and the outside the trapezoidal box 32, the thermal insulation board 32 is provided with the thermal insulation board 32, the outside is used for the thermal insulation board 32, the thermal insulation board is provided with the outside for the thermal insulation board 32.

When the heat radiation assembly works, the driving motor 30 is started to enable one end of the bottom of the T-shaped valve 29 to be opened, one end of the back surface of the T-shaped valve 29 is closed, one end of the top of the T-shaped valve 29 is communicated with one end of the bottom of the T-shaped valve 29 to enable air inside the alloy frame 6 to flow to the outside, when the greenhouse assembly works, the heating ring 33 is powered by the storage battery 15 to heat the heating ring 33, the driving motor 30 is started to enable one end of the bottom of the T-shaped valve 29 to be closed, one end of the back surface of the T-shaped valve 29 is opened, one end of the back surface of the T-shaped valve 29 is communicated with one end of the bottom of the T-shaped valve 29 to enable air inside the alloy frame 6 to flow to the inner side of the thin tube 31, air inside the thin tube 31 enters the inner side of the trapezoid box 32 through the thin tube 31, the air inside the trapezoid box 32 is enabled to be hot air under the action of the heating ring 33, the hot air enters the inner side of the building through the air tube 34 to provide the temperature inside the building, and the heat radiation assembly and the greenhouse assembly are matched to transfer the outside air to the inner side of the building to improve the air quality inside the building.

Referring to fig. 1, 5, 6 and 7, an embodiment of the present invention is provided: the utility model provides a four sides tongue-and-groove type concatenation curtain wallboard and concatenation method, including afforestation subassembly, afforestation subassembly includes water storage box 37, and water storage box 37 installs the back at bottom plate 1, water pipe 38 is installed in the both sides penetration of water storage box 37, a plurality of square holes 39 have been seted up in the top penetration of water storage box 37, a plurality of placing frame 40 are installed at the top of water storage box 37, and place the frame 40 and be located corresponding square hole 39 positions, riser 41 is installed at the top of placing frame 40, riser 41 is the elastic material, can bend, triangular strip 42 is installed to the back of riser 41, top frame 43 has been placed at the top of placing frame 40, the inside penetration of top frame 43 has been seted up through-hole 44, top frame 43 can provide the penetration space for through-hole 44, and through-hole 44 is located the outside of riser 41, place the box 45 is installed to the bottom of top frame 43, and place the inside of box 37, a plurality of trompil 46 have been seted up in the bottom penetration of placing box 45, trompil 46 is used for providing the circulation passageway of placing box 45 and water storage box 37.

After the curtain wall plates are assembled by workers, vertical green plants are planted on the inner side of a placement box 45, the bottom of the placement box 45 planted with the vertical green plants is placed through a square hole 39, one side of a top frame 43 provided with a through hole 44 faces the back, the placement box 45 enters the inner side of a water storage box 37, the placement box 45 drives the top frame 43 to move, the top frame 43 drives the through hole 44 to contact with a triangular strip 42, the triangular strip 42 drives a vertical plate 41 to bend by the resisting action of the through hole 44, the top frame 43 drives the through hole 44 to pass through the triangular strip 42 to contact with the top of the placement box 40, the through hole 44 is positioned on the outer side of the vertical plate 41, the vertical plate 41 is restored to an initial state under the self elastic action, the top frame 43 and the placement box 45 are fixed through the vertical plate 41 and the triangular strips 42, meanwhile, three vertical green plants are placed at intervals with the two air pipes 34, the vertical green plants are used for shielding the trapezoid boxes 32, the heat insulation plates 36 prevent scalding of the vertical green plants, then two adjacent water pipes 38 are connected, tap water passing through the outside is poured into the inner sides of the water storage boxes 37 through the water pipes 38, the water pipes 38 can ensure that the water quantity of the inner sides of the water storage boxes 37 is the same, a proper amount of water is injected into the inner sides of the water storage boxes 37, the water of the inner sides of the water storage boxes 37 can enter the inner sides of the placement boxes 45 through the openings 46, water is provided for the vertical green plants, the vertical green plants provide decoration effect for the inner sides of buildings, and the attractiveness is improved.

Referring to fig. 1, 2, 3, 4, 5 and 6, an embodiment of the present invention is provided: the four-side tongue-and-groove spliced curtain wall board comprises a core material 2, wherein a control module is arranged in the core material 2, the control module comprises an operation unit and an execution unit, the operation unit comprises a remote control terminal 54, and the execution unit comprises a telescopic rod 22, a driving motor 30 and a heating ring 33;

the inner side of the core material 2 is provided with electrical elements required by the operation of a remote control terminal 54, the remote control terminal 54 is connected with the storage battery 15, the telescopic rod 22, the driving motor 30 and the heating ring 33 through the electrical elements, the remote control terminal 54 transmits a remote control signal to the remote control terminal 54, and the remote control terminal 54 controls the storage battery 15 to transmit electric energy to the telescopic rod 22, the driving motor 30 or the heating ring 33 through the electrical elements after receiving the remote control signal, so as to control the starting and closing of the execution unit;

after a remote control signal for starting the telescopic rod 22 is transmitted to the remote control terminal 54, the remote control terminal 54 receives the remote control signal to control the storage battery 15 to transmit electric energy to the telescopic rod 22 through an electric element for starting, so that the telescopic rod 22 intermittently stretches and contracts, and the telescopic rod 22 drives the push plate 25 to intermittently move up and down through the hinged end 23 and the support rod 24;

After a remote control signal for starting the driving motor 30 is transmitted to the remote control terminal 54, the remote control terminal 54 receives the remote control signal to control the storage battery 15 to transmit electric energy to the driving motor 30 for starting through an electric element, so that the driving motor 30 drives the T-shaped valve 29 to operate, and the T-shaped valve 29 controls the air outlet pipe 19 to be closed, the L-shaped pipe 17 to be opened, or the air outlet pipe 19 to be opened and the L-shaped pipe 17 to be closed;

after a remote control signal for starting and driving the heating ring 33 is transmitted to the remote control terminal 54, the remote control terminal 54 receives the remote control signal to control the storage battery 15 to transmit electric energy to the heating ring 33 through the electric element for starting, so that the heating ring 33 is heated through the resistor.

Further, the splicing method of the spliced curtain wall plate comprises the following steps:

s1, firstly, a worker firstly installs a bracket, wherein the bracket is used for supporting the installation of the curtain wall plate, and the bracket is usually made of aluminum alloy or steel, so that the horizontality and the verticality of the bracket are ensured, and the installation accuracy of the curtain wall plate is ensured;

s2, inserting a tool into the inner side of the hexagonal groove 10, driving the threaded plug 9 to rotate through the hexagonal groove 10, enabling the threaded plug 9 to rotate by taking the threaded plug 9 as a circle center under the action of external force, detaching the threaded plug 9 under the action of the external force and the threaded pipe 8, injecting external water into the inner side of the threaded pipe 8, enabling the water to pass through the threaded pipe 8 and the hose 11 and enter the inner side of the plastic film 12, transmitting the water to the inner side of the adjacent plastic film 12 through the connecting pipe 13 by the plastic film 12, filling the plastic film 12 with the water to expand, restricting the water into a convex lens shape by the plastic film 12 by utilizing the shape of the plastic film, sealing the threaded pipe 8 again by using the threaded plug 9, enabling external light to pass through the glass plate 7 and enter the inner side of the plastic film 12, enabling the light to be focused under the action of the plastic film 12 and the water, enabling the focused light to be irradiated to the front side of the solar plate 14 to absorb and convert the light into electric energy, and transmitting the electric energy to the inner side of the storage battery 15 through an electric element;

S3, fixing one curtain wall plate on a bracket, connecting the curtain wall plates by using bolts or screws, ensuring that the positions and the intervals of the curtain wall plates are in accordance with design requirements, jogging and connecting a left side seal 5 of the other curtain wall plate with a right side seal 4 of the last curtain wall plate, and vice versa, wherein the bolts or screws penetrate through the jogged positions of the left side seal 5 and the right side seal 4, and fixing the curtain wall plate on the bracket by using the bolts or screws again so as to ensure firm installation of the curtain wall plates until the curtain wall plates are fully paved;

s4, sealing between curtain wall plates and joints to ensure waterproof performance, and filling gaps between the curtain wall plates and the building structure by using sealant;

s5, planting vertical green plants on the inner side of a placement box 45, placing the bottom of the placement box 45 with the vertical green plants planted through a square hole 39, enabling one side of a top frame 43 provided with a through hole 44 to face to the back, enabling the placement box 45 to enter the inner side of a water storage box 37, enabling the placement box 45 to drive the top frame 43 to move, enabling the top frame 43 to drive the through hole 44 to contact with a triangular strip 42, enabling the triangular strip 42 to drive the vertical plate 41 to bend by the resisting effect of the through hole 44, enabling the top frame 43 to drive the through hole 44 to penetrate through the triangular strip 42 to contact with the top of the placement box 40, enabling the through hole 44 to be located on the outer side of the vertical plate 41, enabling the vertical plate 41 to recover to an initial state under the self elastic force, enabling the top frame 43 and the placement box 45 to be fixed through the vertical plate 41 and the triangular strip 42, enabling three vertical green plants to be placed at intervals with two air pipes 34, enabling the vertical green plants to provide shielding for a trapezoid box 32, and enabling the thermal insulation board 36 to prevent scalding vertical green plants;

S6, connecting two adjacent water pipes 38, filling tap water outside into the inner sides of the water storage boxes 37 through the water pipes 38, enabling the water pipes 38 to ensure that the water quantity of the inner sides of the water storage boxes 37 is the same, injecting a proper amount of water into the inner sides of the water storage boxes 37, enabling the water of the inner sides of the water storage boxes 37 to penetrate through the openings 46 and enter the inner sides of the placement boxes 45, and providing water for vertical green planting.

Further, in the step S5, the method further includes the following steps:

and S51, after the vertical green plants are installed, the vertical green plants are shielded at one end of the air pipe 34, and the vertical green plants at one end of the air pipe are cleaned to two sides, so that the back surface of the air pipe 34 is ensured to be free from shielding, and the hot air exhausted by the air pipe 34 is prevented from damaging the green plants.

Working principle: before using the four-sided grooved and tongued spliced curtain wall board, whether the four-sided grooved and tongued spliced curtain wall board has a problem that the use is affected or not is required to be checked, when a worker needs to use the four-sided grooved and tongued spliced curtain wall board, each curtain wall board is spliced and installed on a pre-built bracket, water is fully filled into the plastic film 12 through the threaded pipe 8, then the curtain wall board is fully paved, vertical green plants are planted on the inner side of the placement box 45, the placement box 45 is placed on the inner side of the water storage box 37, two adjacent water pipes 38 are connected, a proper amount of water is injected into the inner side of the water storage box 37 through the water pipes 38, the solar panel 14 converts light energy into electric energy to be stored in the storage battery 15, when the storage battery is in a hot environment, the driving motor 30 is started, the air outlet pipe 19 is communicated with one end of the top of the T-shaped valve 29, the telescopic rod 22 is started to suck external air into the inner side of the alloy frame 6, and the air is discharged through the air outlet pipe 19 to dissipate heat, when the storage battery 19 is in a cold environment, the driving motor 30 and the heating ring 33 is started, the air is communicated with one end of the back of the T-shaped valve 29, and the external air is heated and discharged into the inner side of a building.

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 characteristics 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. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Claims (10)

1. A four-sided tongue-and-groove spliced curtain wall board is characterized in that: the solar energy storage device comprises a bottom plate (1), wherein a core material (2) is arranged on the front surface of the bottom plate (1), a panel (3) is arranged on the front surface of the core material (2), and an electricity storage component is arranged on the front surface of the panel (3) and used for converting solar energy into electric energy;

the electric power storage assembly comprises an alloy frame (6), a glass plate (7) is arranged on the inner side of the alloy frame (6), a plurality of plastic films (12) are arranged on the inner wall of the front face of the glass plate (7), connecting pipes (13) are arranged between the adjacent plastic films (12) in a penetrating mode, a solar panel (14) is arranged on the front face of the panel (3), a storage battery (15) is arranged in the core material (2), and a circuit is connected between the storage battery (15) and the solar panel (14).

2. A four sided bezel type splice curtain wall panel as defined in claim 1, wherein: the novel heat dissipation device is characterized in that a right side seal (4) is arranged on one side of the core material (2), a left side seal (5) is arranged on the other side of the core material (2), and a heat dissipation assembly is arranged on the inner side of the core material (2) and used for dissipating heat of the core material (2) and the panel (3).

3. A four sided bezel type splice curtain wall panel as defined in claim 1, wherein: remote control terminal (54) is installed to one side of battery (15), and screwed pipe (8) are installed in the top penetration of alloy frame (6), and screwed plug (9) are installed to the inboard screw thread of screwed pipe (8), and hexagonal groove (10) have been seted up at the top of screwed plug (9), hose (11) are installed to the bottom of screwed pipe (8), and the one end penetration of hose (11) is installed at the top of one of them plastic film (12), and hose (11) are used for intercommunication plastic film (12) and screwed pipe (8).

4. A four sided bezel type splice curtain wall panel as defined in claim 1, wherein: cover board (47) are installed in the front of panel (3), and ventilation net (48) are installed in the front of cover board (47) run through, and access & exit (49) have been seted up in the top and the bottom of cover board (47) run through, install guide block (50) between panel (3) and cover board (47), and filling block (51) are installed to the inboard of cover board (47), and generator (52) are installed in the front mosaic of panel (3), and fan (53) are installed in the outside of generator (52) output, and fan (53) are located the inboard of filling block (51).

5. A four sided bezel type splice curtain wall panel as defined in claim 2, wherein: the heat dissipation assembly comprises a movable groove (16), the movable groove (16) is formed in the inner side of a core material (2), two L-shaped pipes (17) are installed at the bottom of the movable groove (16) in a penetrating mode, the L-shaped pipes (17) are installed in the core material (2) in a penetrating mode, one end of each L-shaped pipe (17) is installed in the alloy frame (6) in a penetrating mode, a filter screen (18) is installed in the inner side of each L-shaped pipe (17), an air outlet pipe (19) is installed in the bottom of the alloy frame (6) in a penetrating mode, the air outlet pipes (19) are located at positions between the two L-shaped pipes (17), the inner side of the core material (2) is provided with L-shaped holes (20) in a penetrating mode, one end of each L-shaped hole (20) penetrates through the top of the movable groove (16) to be communicated with the movable groove (16), the other end of each L-shaped hole (20) penetrates through the inner side of a panel (3), an air outlet valve (21) is installed in the front side of the panel (3), the air outlet valve (21) is located at the top of each L-shaped hole (20), the air outlet valve (21) is used for opening or closing the L-shaped holes (20), an air outlet pipe (22) is installed in the inner side of the bottom wall of the movable groove (6) in a penetrating mode, an air outlet pipe (22) is installed at the bottom wall, one end of each telescopic rod (22) is installed at the bottom end of the movable rod (23) is provided with a hinge end, and one end (23) is installed at one end of the telescopic rod is provided with a hinge end (23), the push plate (25) is installed at the top of this group hinge end (23), and piston sleeve (26) is installed in the outside of push plate (25), and piston sleeve (26) and movable groove (16) inner wall contact, two gas pockets (27) have been run through to the inside of push plate (25), and two admission valves (28) are installed at the top of push plate (25), and two admission valves (28) are located the top of two gas pockets (27) respectively, and admission valve (28) are used for opening or closed gas pocket (27).

6. A four sided bezel type splice curtain wall panel as defined in claim 1, wherein: the utility model provides a greenhouse subassembly and afforestation subassembly are provided with respectively on the back of bottom plate (1), and the greenhouse subassembly is used for adjusting indoor temperature and air quality, the afforestation subassembly is used for planting perpendicular green planting, the greenhouse subassembly is including T type valve (29), and the one end dress cover of T type valve (29) is in the outside of play tuber pipe (19), driving motor (30) are installed in the front of T type valve (29), tubule (31) are installed in the inboard penetration of the other end of T type valve (29), and tubule (31) penetrate the inside of bottom plate (1), core material (2) and panel (3), trapezoidal box (32) are installed to the one end of tubule (31), and trapezoidal box (32) are installed at the back of bottom plate (1), the one end of tubule (31) is located the position in the middle of trapezoidal box (32), heating collar (33) are installed to the inboard of trapezoidal box (32), two trachea (34) are installed in the back penetration of trapezoidal box (32), protection network (35) are installed to the inboard of trachea (34) and outside cover of trapezoidal box (32) has heat insulating board (36) and temperature of trapezoidal box (32).

7. The four-sided bezel type tiled screen panel of claim 6, wherein: the greening assembly comprises a water storage box (37), the water storage box (37) is arranged on the back of a bottom plate (1), water pipes (38) are installed through two sides of the water storage box (37), a plurality of square holes (39) are formed through the top of the water storage box (37), a plurality of placing frames (40) are arranged on the top of the water storage box (37), the placing frames (40) are located at the corresponding square holes (39), a vertical plate (41) is arranged on the top of the placing frames (40), triangular strips (42) are arranged on the back of the vertical plate (41), a top frame (43) is arranged on the top of the placing frames (40), through holes (44) are formed through the inside of the top frame (43), the through holes (44) are located on the outer side of the vertical plate (41), placing boxes (45) are arranged on the bottom of the top frame (43), the placing boxes (45) are located on the inner sides of the water storage boxes (37), a plurality of open holes (46) are formed through the bottom of the placing boxes (45), and the open holes (46) are used for providing channels for placing the boxes (45) and the water storage boxes (37).

8. The four-sided bezel type tiled screen panel of claim 5, wherein: the control module is arranged in the core material (2), and comprises an operation unit and an execution unit, wherein the operation unit is arranged at a remote control terminal (54), and the execution unit comprises a telescopic rod (22), a driving motor (30) and a heating ring (33);

the inner side of the core material (2) is provided with electric elements required by the operation of a remote control terminal (54), the remote control terminal (54) is connected with a storage battery (15), a telescopic rod (22), a driving motor (30) and a heating ring (33) through the electric elements, the remote control terminal (54) is used for transmitting a remote control signal to the remote control terminal (54), and the storage battery (15) is controlled to transmit electric energy to the telescopic rod (22), the driving motor (30) or the heating ring (33) through the electric elements after receiving the remote control signal, so that the starting and the closing of an execution unit are controlled;

after a remote control signal for starting the telescopic rod (22) is transmitted to the remote control terminal (54), the remote control terminal (54) receives the remote control signal to control the storage battery (15) to transmit electric energy to the telescopic rod (22) through the electric element to start, so that the telescopic rod (22) intermittently stretches and contracts, and the telescopic rod (22) drives the push plate (25) to intermittently move up and down through the hinge end (23) and the support rod (24);

After a remote control signal for starting the driving motor (30) is transmitted to the remote control terminal (54), the remote control terminal (54) receives the remote control signal to control the storage battery (15) to transmit electric energy to the driving motor (30) through the electric element to start, so that the driving motor (30) drives the T-shaped valve (29) to operate, and the T-shaped valve (29) controls the air outlet pipe (19) to be closed, the L pipe (17) to be opened, or the air outlet pipe (19) to be opened and the L pipe (17) to be closed;

after a remote control signal for starting and driving the heating ring (33) is transmitted to the remote control terminal (54), the remote control terminal (54) receives the remote control signal to control the storage battery (15) to transmit electric energy to the heating ring (33) through the electric element for starting, so that the heating ring (33) is heated through the resistor.

9. A method of splicing four-sided bezel type spliced curtain wall panels as claimed in any one of claims 1 to 8, the method of splicing the spliced curtain wall panels comprising:

s1, firstly, a worker firstly installs a bracket, wherein the bracket is used for supporting the installation of the curtain wall plate, and the bracket is usually made of aluminum alloy or steel, so that the horizontality and the verticality of the bracket are ensured, and the installation accuracy of the curtain wall plate is ensured;

s2, inserting a tool into the inner side of the hexagonal groove (10), driving the threaded plug (9) to rotate through the hexagonal groove (10), detaching the threaded plug (9) from the inner side of the threaded pipe (8), injecting external water into the inner side of the threaded pipe (8), enabling the water to pass through the threaded pipe (8) and the hose (11) to enter the inner side of the plastic film (12), transmitting the water to the inner side of the adjacent plastic film (12) through the connecting pipe (13) by the plastic film (12), expanding the plastic film (12) with the water, and sealing the threaded pipe (8) by using the threaded plug (9);

S3, fixing one curtain wall plate on a bracket, connecting the curtain wall plates by using bolts or screws, ensuring that the positions and the intervals of the curtain wall plates are consistent with the design requirements, enabling the left side seal (5) of the other curtain wall plate to be in embedded connection with the right side seal (4) of the last curtain wall plate, and vice versa, penetrating the embedded positions of the left side seal (5) and the right side seal (4) by using the bolts or screws, and fixing the curtain wall plates on the bracket again by using the bolts or screws so as to ensure that the installation of the curtain wall plates is firm until the curtain wall plates are fully paved;

s4, sealing between curtain wall plates and joints to ensure waterproof performance, and filling gaps between the curtain wall plates and the building structure by using sealant;

s5, communicating two adjacent water pipes (38), enabling a water storage box (37) on the back of a row of curtain wall boards to be communicated through the water pipes (38), planting vertical green plants on the inner side of a placement box (45), placing the placement box (45) with the vertical green plants at a square hole (39), enabling the placement box (45) to be positioned on the inner side of the water storage box (37), enabling triangular bars (42) to penetrate through the inner side of a through hole (44) to come to the top of a top frame (43), fixing the placement box (45) firmly, and preventing the placement box (45) from falling;

s6, connecting an external tap water pipe with a water pipe (38), injecting water into the inner side of the water pipe (38), injecting the water into the inner sides of all the water storage boxes (37) through the water pipe (38), injecting a proper amount of water into the inner sides of the water storage boxes (37), and allowing the water to enter the inner sides of the placement boxes (45) through the holes (46) to provide water for vertical green planting.

10. The method for splicing four-sided bezel type spliced curtain wall panels as recited in claim 9, wherein: in the step S5, the method further includes the following steps:

and S51, after the vertical green plants are installed, the vertical green plants are shielded at one end of the air pipe (34), and the vertical green plants at one end of the air pipe are cleaned to two sides, so that the back surface of the air pipe (34) is ensured to be free from shielding, and the hot air exhausted by the air pipe (34) is prevented from damaging the green plants.