CN112681634A

CN112681634A - Building integrated thermoelectric mixed roof system

Info

Publication number: CN112681634A
Application number: CN202110071072.5A
Authority: CN
Inventors: 丁宏遂
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-01-19
Filing date: 2021-01-19
Publication date: 2021-04-20

Abstract

The invention discloses a building integrated thermoelectric mixed roof system, and relates to the technical field of novel roof devices. The adjusting mechanism comprises a transverse driving adjusting base block, wherein one end of the transverse driving adjusting base block is fixedly connected with a first motor through a screw, and an output end of the first motor is fixedly connected with a first output screw rod. According to the invention, through the matching design of the transverse driving adjusting structure, the following self-adjusting driving structure and the electric heating temperature rising module, the device is convenient for driving the photovoltaic power generation board to adjust the multi-angle, the direction and the height along with sunlight displacement adjustment, so that the system has good light collection performance and continuous following performance when being carried on a flat roof, the electric energy generation performance of the flat roof is greatly improved, and through the design of the multi-section self-sterilization treatment heat storage structure, the device is convenient for finishing multi-type sterilization storage on heated water storage, and the device is convenient for ensuring the sterile degree of stored hot water.

Description

Building integrated thermoelectric mixed roof system

Technical Field

The invention relates to the technical field of novel roof devices, in particular to a building integrated thermoelectric mixed roof system.

Background

Roof refers to the surface of the roof of a building and also to the portion between the ridge and the eaves. This part occupies a large area of the roof, or the roof is a large area of the roof, and a new roof has been developed with the development of society, such as a building-integrated thermal-electric hybrid roof system disclosed in publication No. CN103328739B, which is mounted on a roof with an inclined surface, and the absorption of light and heat is formed only by the inclined surface of the roof, although solar energy is collected and converted into heat energy by a plurality of metal laths through the flow of liquid of an extraction heat exchanger, thereby generating domestic hot water, so that it is inconvenient to mount on a flat roof for electric heat recovery, and the location where the hot water is stored is lack of aseptic treatment, resulting in easy generation of bacteria from the accumulated hot water inside.

SUMMARY OF THE PATENT FOR INVENTION

The present invention is directed to a building integrated thermal electric hybrid roofing system to solve the existing problems: when the solar heat collector is carried on a roof with an inclined surface, the solar heat collector can form light and heat adsorption by utilizing the inclined surface of the roof, so that the solar heat collector is inconvenient to carry on a plane roof for electric heat recovery.

In order to achieve the purpose, the invention provides the following technical scheme: a building integrated thermoelectric mixed roof system comprises a transverse driving adjusting base block, wherein one end of the transverse driving adjusting base block is fixedly connected with a first motor through a screw, the output end of the first motor is fixedly connected with a first output screw rod, two guide polish rods are welded on the inner side of the transverse driving adjusting base block and are positioned on two sides of the first output screw rod, the outer side of the first output screw rod and the outer side of the guide polish rods are movably connected with a following self-adjusting driving structure, photovoltaic power generation plates are fixedly connected on two sides of the top end of the following self-adjusting driving structure, an electrothermal heating module is fixedly connected at the bottom end of the transverse driving adjusting base block, a circulating electrothermal through pipe is inserted between the two electrothermal heating modules, one end of one electrothermal heating module is connected with a guide pipe water pump through a guide pipe, and a guide pipe water pump is welded at one end of the overflow valve, the other end of the water pump guide pipe is welded with a multi-section self-sterilization heat storage structure.

Preferably, follow self-interacting and drive structure and include that synchronous drive displacement piece, fit the support column, second motor, lift stroke guide pillar, second output screw, two-way lift hold with moving piece and built-in piece of carrying on, the top welding of synchronous drive displacement piece has the support column of joining in marriage, the inside of joining in marriage the support column has the second motor through screw fixed connection, the top welding of joining in marriage the support column has the lift stroke guide pillar, the output end fixed connection of second motor has the second output screw, the top of second output screw is rotated with the top of lift stroke guide pillar inboard and is connected, the outside of second output screw has two-way lift hold with moving piece through threaded connection, the both sides welding of two-way lift hold with moving piece has built-in piece of carrying on.

Preferably, follow self-interacting and drive structure still includes third motor, first angle stirring board, photosensitive follow control block, fourth motor and second angle stirring board, the inboard of the built-in piece of carrying on is through screw fixedly connected with third motor, the first angle stirring board of output fixedly connected with of third motor, the top welding of first angle stirring board has photosensitive follow control block, one side on photosensitive follow control block top is through screw fixedly connected with fourth motor, the output end fixedly connected with second angle stirring board of fourth motor, the inboard fixedly connected with of second angle stirring board connects the fixed mounting board.

Preferably, a photosensitive sensor, a micro-processing chip and a controller are carried in the photosensitive following control block, the photosensitive sensor, the micro-processing chip and the controller are electrically connected, and the controller is electrically connected with a fourth motor, a second motor and a first motor.

Preferably, guide limit sliding grooves are formed in two sides of the lifting stroke guide pillar, matching extension plates are welded on two sides of the bidirectional lifting synchronous moving block, and the matching extension plates are in clearance fit with the guide limit sliding grooves.

Preferably, the electric heating module comprises a clamped foundation block, an inverter, an internally installed circulation pipe, an externally installed positioning pipe and an electric heating resistance wire pipe, wherein the bottom end of the clamped foundation block is fixedly connected with the inverter, the inside of the clamped foundation block is fixedly connected with the externally installed positioning pipe, the internally installed circulation pipe is welded on the inside of the externally installed positioning pipe, the inside of the externally installed positioning pipe is fixed with a plurality of electric heating resistance wire pipes, and the inverter is electrically connected with the electric heating resistance wire pipes.

Preferably, the multi-section self-sterilization heat storage water structure comprises a water inlet filtering cylinder body, a first drainage filtering cylinder body, a second drainage filtering cylinder body, a light medium sterilizing cylinder body, a derivation connecting column and a mixed flow light medium generating structure, wherein one end of the water inlet filtering cylinder body is fixedly connected with the first drainage filtering cylinder body through a screw, one end of the first drainage filtering cylinder body is fixedly connected with the second drainage filtering cylinder body through a screw, one end of the second drainage filtering cylinder body is fixedly connected with the light medium sterilizing cylinder body through a screw, the derivation connecting column is welded at the top end of the light medium sterilizing cylinder body, and one end of the light medium sterilizing cylinder body is fixedly connected with the mixed flow light medium generating structure through a screw.

Preferably, the mixed flow light medium generating structure comprises a fifth motor, a rotating matching guide disc, a conductive lamp holder, a waterproof reaction shell and a built-in ultraviolet irradiation lamp, the fifth motor is fixed at one end of the light medium sterilizing cylinder body through a screw, the output end of the fifth motor is fixedly connected with the rotating matching guide disc, one end of the rotating matching guide disc is fixed with a plurality of conductive lamp holders, one end of each conductive lamp holder is fixed with the waterproof reaction shell and the built-in ultraviolet irradiation lamp, the built-in ultraviolet irradiation lamp is located on the inner side of the waterproof reaction shell, the waterproof reaction shell is made of organic glass, and the inner side of the waterproof reaction shell is coated with nano titanium dioxide.

Preferably, a power through hole and two guiding limit through holes are formed in the synchronous driving displacement block, the guiding limit through holes are in clearance fit with the guiding polished rod, and the power through holes are in threaded connection with the first output screw rod.

Preferably, the inside of intaking filter cylinder body, first drainage filter cylinder body and second drainage filter cylinder body all is fixed with the contact filter block, the inside contact filter block material of intaking filter cylinder body is nanometer active carbon, the inside contact filter block material of first drainage filter cylinder body is nanometer silver, the inside contact filter block material of second drainage filter cylinder body is honeycomb active carbon.

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

1. according to the invention, through the matching design of the transverse driving adjusting structure, the following self-adjusting driving structure and the electric heating temperature rising module, the device is convenient for driving the photovoltaic power generation panel to adjust the multi-angle, the direction and the height along with the sunlight displacement adjustment, so that the system has good light collection performance and continuous following performance when being carried on a flat roof, and the electric energy generation performance of the flat roof is greatly improved;

2. through the design of the multi-section self-sterilization heat storage water storage structure, the device is convenient to finish multi-type sterilization storage of heated stored water, and the device is convenient to ensure the sterility degree of stored hot water.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention patent, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a side view of the present invention in its entirety;

FIG. 3 is a schematic view of a partial structure of the lateral driving adjustment structure according to the present invention;

FIG. 4 is a schematic view of a partial structure of the self-adjusting follower structure according to the present invention;

FIG. 5 is a partial structural view of the multi-stage self-sterilization heat storage structure of the present invention;

FIG. 6 is a schematic partial structure diagram of a mixed-flow optical medium generating structure according to the present invention;

FIG. 7 is a schematic view of a partial structure of an electrothermal heating module according to the present invention.

In the figure: 1. transversely driving the adjusting base block; 2. a following self-adjusting driving structure; 3. a photovoltaic power generation panel; 4. an electric heating temperature rising module; 5. circulating an electric heating through pipe; 6. an overflow valve; 7. a multi-stage self-sterilization heat storage structure; 8. a first motor; 9. a first output screw; 10. a guide polish rod; 11. synchronously driving the displacement block; 12. assembling a support column; 13. a second motor; 14. a lifting travel guide post; 15. a second output screw; 16. a bidirectional lifting synchronous moving block; 17. a carrying block is arranged in the bearing block; 18. a third motor; 19. a first angle toggle plate; 20. a photosensitive follower control block; 21. a fourth motor; 22. a second angle toggle plate; 23. connecting the fixing plate; 24. a water inlet filtering cylinder body; 25. a first drainage filtering cylinder body; 26. a second drainage filtering cylinder body; 27. a light medium sterilization cylinder body; 28. leading out a connecting column; 29. a mixed flow optical medium generating structure; 30. a fifth motor; 31. rotating the guide disc; 32. a conductive lamp holder; 33. a waterproof reaction shell; 34. an ultraviolet irradiation lamp is arranged inside; 35. clamping the foundation block; 36. an inverter; 37. a circulating pipe is arranged in the shell; 38. a positioning pipe is arranged outside; 39. an electric heating filament-resistance tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-7, a building integrated thermoelectric mixed roof system comprises a transverse driving adjusting base block 1, one end of the transverse driving adjusting base block 1 is fixedly connected with a first motor 8 through a screw, an output end of the first motor 8 is fixedly connected with a first output screw 9, two guide polish rods 10 are welded on the inner side of the transverse driving adjusting base block 1, the guide polish rods 10 are positioned on two sides of the first output screw 9, a following self-adjusting driving structure 2 is movably connected on the outer side of the first output screw 9 and the outer side of the guide polish rod 10, photovoltaic power generation plates 3 are fixedly connected on two sides of the top end of the following self-adjusting driving structure 2, an electrothermal heating module 4 is fixedly connected on the bottom end of the transverse driving adjusting base block 1, a circulating electrothermal through pipe 5 is inserted between the two electrothermal heating modules 4, one end of one electrothermal heating module 4 is connected with an overflow valve 6 through a conduit, a water pump guide pipe is welded at one end of the overflow valve 6, and a multi-section self-sterilization treatment heat storage structure 7 is welded at the other end of the water pump guide pipe;

the following self-adjusting driving structure 2 comprises a synchronous driving displacement block 11, an assembling support column 12, a second motor 13, a lifting stroke guide column 14, a second output screw rod 15, a two-way lifting synchronous driving block 16 and an internal assembling carrying block 17, the top end of the synchronous driving displacement block 11 is welded with the assembling support column 12, the inside of the assembling support column 12 is fixedly connected with the second motor 13 through a screw, the top end of the assembling support column 12 is welded with the lifting stroke guide column 14, the output end of the second motor 13 is fixedly connected with the second output screw rod 15, the top end of the second output screw rod 15 is rotatably connected with the top end of the inner side of the lifting stroke guide column 14, the outer side of the second output screw rod 15 is connected with the two-way lifting synchronous driving block 16 through a screw thread, the two sides of the two-way lifting synchronous driving block 16 are welded with the internal assembling carrying block 17, the following self, The photosensitive follow-up device comprises a photosensitive follow-up control block 20, a fourth motor 21 and a second angle stirring plate 22, wherein the inner side of an internally-installed carrying block 17 is fixedly connected with the third motor 18 through a screw, the output end of the third motor 18 is fixedly connected with a first angle stirring plate 19, the top end of the first angle stirring plate 19 is welded with the photosensitive follow-up control block 20, one side of the top end of the photosensitive follow-up control block 20 is fixedly connected with the fourth motor 21 through a screw, the output end of the fourth motor 21 is fixedly connected with the second angle stirring plate 22, and the inner side of the second angle stirring plate 22 is fixedly connected with a fixing plate 23;

a photosensitive sensor, a micro-processing chip and a controller are arranged in the photosensitive following control block 20, the photosensitive sensor, the micro-processing chip and the controller are electrically connected, the controller is electrically connected with a fourth motor 21, a second motor 13 and a first motor 8, guide limit sliding grooves are formed in two sides of the lifting stroke guide pillar 14, matching extension plates are welded on two sides of the bidirectional lifting synchronous moving block 16, and the matching extension plates are in clearance fit with the guide limit sliding grooves;

the light sensor senses the emitting direction of light, a light sensing signal is transmitted to the micro processing chip, the processing chip is used for analyzing data, a control command is transmitted to the first motor 8, the second motor 13 and the third motor 18 through the controller, when the photovoltaic power generation panel 3 needs to be driven to carry out transverse derivation driving, the first motor 8 is controlled to drive the first output screw 9 to complete torque output, a power through hole and two guide limit through holes are formed in the synchronous driving displacement block 11, the guide limit through holes are in clearance fit with the guide polished rod 10, the power through holes are in threaded connection with the first output screw 9, the torque output by the first motor 8 is guided into the synchronous driving displacement block 11 through the first output screw 9, the guide limit of the synchronous driving displacement block 11 on the transverse driving adjustment base block 1 is matched to form a transverse driving force, and when the transverse driving force needs to be raised, the second output screw 15 is driven to complete rotation by controlling the output torque of the second motor 13, the two-way lifting synchronous moving block 16 and the lifting travel guide post 14 are utilized to guide the matching limit of the limit sliding chute, the torque transmitted by the second output screw 15 and received by the two-way lifting synchronous moving block 16 is limited to form lifting derivation power, so that the built-in carrying block 17 is pushed by the two-way lifting synchronous moving block 16 to complete lifting adjustment, when the photovoltaic power generation panel 3 needs to be transversely adjusted in angle, the first angle poking plate 19 is driven to rotate by controlling the third motor 18, stable angle driving is formed in the rotating process by utilizing the eccentric design of the first angle poking plate 19, when the longitudinal angle adjustment needs to be carried out, the connecting and fixing plate 23 is driven to complete rotation by controlling the fourth motor 21, and stable angle driving is completed by utilizing the same eccentric design of the second angle poking plate 22, the connecting and fixing plate 23 and the photovoltaic power generation plate 3 are driven to complete the same longitudinal angle adjustment;

the electric heating temperature rising module 4 comprises a clamping base block 35, an inverter 36, an internal circulation pipe 37, an external positioning pipe 38 and an electric heating resistance wire pipe 39, wherein the bottom end of the clamping base block 35 is fixedly connected with the inverter 36, the inner side of the clamping base block 35 is fixedly connected with the external positioning pipe 38, the internal circulation pipe 37 is welded on the inner side of the external positioning pipe 38, a plurality of electric heating resistance wire pipes 39 are fixed inside the external positioning pipe 38, the inverter 36 is electrically connected with the electric heating resistance wire pipe 39, so that when sunlight collected by the photovoltaic power generation plate 3 passes through the inverter 36 through a p-n junction in the inverter 36, a new cavity-electron pair is formed, the cavity flows from the n region to the p region under the action of a p-n junction electric field, the electrons flow from the p region to the n region, and form current after the circuit is switched on, the current flows to the electric heating resistance wire pipe 39, so that the electric heating resistance wire pipe 39 is electrified to form electric heating, so as to complete the heating of the interior of the internal circulation pipe 37, and thus the water flow is heated when reaching the interior of the electric heating temperature rising module 4 through the circulating electric heating through pipe 5;

the multi-section self-sterilization heat storage water structure 7 comprises a water inlet filtering cylinder body 24, a first drainage filtering cylinder body 25, a second drainage filtering cylinder body 26, a light medium sterilizing cylinder body 27, a lead-out connecting column 28 and a mixed flow light medium generating structure 29, wherein one end of the water inlet filtering cylinder body 24 is fixedly connected with the first drainage filtering cylinder body 25 through a screw, one end of the first drainage filtering cylinder body 25 is fixedly connected with the second drainage filtering cylinder body 26 through a screw, one end of the second drainage filtering cylinder body 26 is fixedly connected with the light medium sterilizing cylinder body 27 through a screw, the lead-out connecting column 28 is welded at the top end of the light medium sterilizing cylinder body 27, one end of the light medium sterilizing cylinder body 27 is fixedly connected with the mixed flow light medium generating structure 29 through a screw, contact filter blocks are fixed inside the water inlet filtering cylinder body 24, the first drainage filtering cylinder body 25 and the second drainage filtering cylinder body 26, and the contact filter blocks inside the water inlet filtering cylinder body 24, the contact filter block inside the first drainage filtering cylinder 25 is made of nano-silver, and the contact filter block inside the second drainage filtering cylinder 26 is made of honeycomb activated carbon, so that the contact filter block inside the water inlet filtering cylinder 24 and the small-hole adsorption characteristic of the contact filter block inside the second drainage filtering cylinder 26 are conveniently utilized to complete adsorption of small particles and impurities inside circularly derived hot water, the phenomenon that the impurities flushed out from the wall of the circulating electric heating through pipe 5 in the circulating process are precipitated inside the whole multi-section self-sterilization heat storage water structure 7 to affect use is avoided, and the contact purification characteristic of the contact filter block inside the first drainage filtering cylinder 25 is utilized to complete primary purification of the hot water;

the mixed flow light medium generating structure 29 comprises a fifth motor 30, a rotating matching guide disc 31, conductive lamp holders 32, a waterproof reaction shell 33 and a built-in ultraviolet radiation lamp 34, wherein the fifth motor 30 is fixed at one end of the light medium sterilizing cylinder 27 through screws, the output end of the fifth motor 30 is fixedly connected with the rotating matching guide disc 31, one end of the rotating matching guide disc 31 is fixed with a plurality of conductive lamp holders 32, one end of each conductive lamp holder 32 is fixed with the waterproof reaction shell 33 and the built-in ultraviolet radiation lamp 34, the built-in ultraviolet radiation lamp 34 is positioned at the inner side of the waterproof reaction shell 33, the waterproof reaction shell 33 is made of organic glass, the inner side of the waterproof reaction shell 33 is coated with nano titanium dioxide, the fifth motor 30 is used for finishing torque output to drive the rotating matching guide disc 31 to finish rotation, the rotating matching guide disc 31 is used for driving the waterproof reaction shell 33 and the built-in ultraviolet radiation lamp, the hot water is fully contacted with the waterproof reaction shell 33, the built-in ultraviolet radiation lamp 34 is used for radiation at the moment, the ultraviolet light of the built-in ultraviolet radiation lamp 34 is radiated into the water through the waterproof reaction shell 33, the contact catalytic reaction of the ultraviolet light and the nano titanium dioxide is used for finishing the secondary sterilization treatment of the water, and the service condition of the water is maintained.

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

Claims

1. A building integrated thermal electric hybrid roofing system comprising a laterally driven conditioning block (1), characterized in that: one end of the transverse driving adjusting base block (1) is fixedly connected with a first motor (8) through a screw, the output end of the first motor (8) is fixedly connected with a first output screw rod (9), the inner side of the transverse driving adjusting base block (1) is welded with two guide polished rods (10), the guide polished rods (10) are positioned at two sides of the first output screw rod (9), the outer side of the first output screw rod (9) and the outer side of the guide polished rods (10) are movably connected with a following self-adjusting driving structure (2), two sides of the top end of the following self-adjusting driving structure (2) are fixedly connected with photovoltaic power generation plates (3), the bottom end of the transverse driving adjusting base block (1) is fixedly connected with an electric heating module (4), a circulating electric heating through pipe (5) is inserted between the two electric heating modules (4), one end of one electric heating module (4) is connected with an overflow valve (6) through a guide pipe, and a water pump guide pipe is welded at one end of the overflow valve (6), and a multi-section self-sterilization heat storage structure (7) is welded at the other end of the water pump guide pipe.

2. A building integrated thermal electric hybrid roofing system according to claim 1 wherein: the following self-adjusting driving structure (2) comprises a synchronous driving displacement block (11), a matched supporting column (12), a second motor (13), a lifting stroke guide post (14), a second output screw (15), a bidirectional lifting synchronous moving block (16) and an internally-installed carrying block (17), the matched supporting column (12) is welded at the top end of the synchronous driving displacement block (11), the second motor (13) is fixedly connected inside the matched supporting column (12) through a screw, the lifting stroke guide post (14) is welded at the top end of the matched supporting column (12), the second output screw (15) is fixedly connected at the output end of the second motor (13), the top end of the second output screw (15) is rotatably connected with the top end of the inner side of the lifting stroke guide post (14), and the bidirectional lifting synchronous moving block (16) is connected at the outer side of the second output screw (15) through threads, built-in carrying blocks (17) are welded on two sides of the bidirectional lifting synchronous moving block (16).

3. A building integrated thermal electric hybrid roofing system according to claim 2 wherein: follow self-interacting and drive structure (2) and still include third motor (18), first angle stirring board (19), photosensitive follow control block (20), fourth motor (21) and second angle stirring board (22), screw fixedly connected with third motor (18) are passed through to the inboard of built-in carrier block (17), the first angle stirring board (19) of output fixedly connected with of third motor (18), the top welding of first angle stirring board (19) has photosensitive follow control block (20), one side on photosensitive follow control block (20) top is through screw fixedly connected with fourth motor (21), the output fixedly connected with second angle stirring board (22) of fourth motor (21), inboard fixedly connected with of second angle stirring board (22) connects fixed mounting board (23).

4. A building integrated thermal electric hybrid roofing system according to claim 3 wherein: the photosensitive follow control block (20) is internally provided with a photosensitive sensor, a micro processing chip and a controller, the photosensitive sensor, the micro processing chip and the controller are electrically connected, and the controller is electrically connected with a fourth motor (21), a second motor (13) and a first motor (8).

5. A building integrated thermal electric hybrid roofing system according to claim 2 wherein: guide limit sliding grooves are formed in two sides of the lifting stroke guide pillar (14), matched extension plates are welded on two sides of the bidirectional lifting synchronous moving block (16), and the matched extension plates are in clearance fit with the guide limit sliding grooves.

6. A building integrated thermal electric hybrid roofing system according to claim 1 wherein: electric heat intensification module (4) is including clamping basic piece (35), inverter (36), built-in runner pipe (37), adorn positioning tube (38) and electric heat resistance wire pipe (39) outward, bottom fixedly connected with inverter (36) of clamping basic piece (35), the inboard fixedly connected with that clamps basic piece (35) adorns positioning tube (38) outward, the inboard welding of adorning positioning tube (38) has built-in runner pipe (37), the inside of adorning positioning tube (38) outward is fixed with a plurality of electric heat resistance wire pipes (39), inverter (36) and electric heat resistance wire pipe (39) electric connection.

7. A building integrated thermal electric hybrid roofing system according to claim 1 wherein: the multi-section self-sterilization heat storage water structure (7) comprises a water inlet filtering cylinder body (24), a first drainage filtering cylinder body (25), a second drainage filtering cylinder body (26), a light medium sterilizing cylinder body (27), a guide connecting column (28) and a mixed flow light medium generating structure (29), one end of the water inlet filtering cylinder body (24) is fixedly connected with a first drainage filtering cylinder body (25) through a screw, one end of the first drainage filtering cylinder body (25) is fixedly connected with a second drainage filtering cylinder body (26) through a screw, one end of the second drainage filtering cylinder body (26) is fixedly connected with a light medium sterilizing cylinder body (27) through a screw, the top end of the optical medium sterilizing cylinder body (27) is welded with a leading-out connecting column (28), one end of the light medium sterilizing cylinder (27) is fixedly connected with a mixed flow light medium generating structure (29) through a screw.

8. A building integrated thermal electric hybrid roofing system according to claim 7 wherein: mix a class light medium and take place structure (29) and include that fifth motor (30), rotation join in marriage guide plate (31), electrically conductive lamp stand (32), waterproof reaction shell (33) and built-in ultraviolet irradiation lamp (34), fifth motor (30) pass through the one end of fix with screw in light medium degerming cylinder body (27), the output end fixedly connected with of fifth motor (30) rotates and joins in marriage guide plate (31), the one end of rotating to join in marriage guide plate (31) is fixed with a plurality of electrically conductive lamp stands (32), the one end of electrically conductive lamp stand (32) is fixed with waterproof reaction shell (33) and built-in ultraviolet irradiation lamp (34), built-in ultraviolet irradiation lamp (34) are located the inboard of waterproof reaction shell (33), the material of waterproof reaction shell (33) is organic glass, the inboard coating of waterproof reaction shell (33) has nanometer titanium dioxide.

9. A building integrated thermal electric hybrid roofing system according to claim 2 wherein: the synchronous driving displacement block (11) is internally provided with a power through hole and two guiding limit through holes, the guiding limit through holes are in clearance fit with the guiding polished rod (10), and the power through holes are in threaded connection with the first output screw (9).

10. A building integrated thermal electric hybrid roofing system according to claim 7 wherein: the inside of intaking filter cylinder body (24), first drainage filter cylinder body (25) and second drainage filter cylinder body (26) all is fixed with the contact filter block, the inside contact filter block material of intaking filter cylinder body (24) is nanometer active carbon, the inside contact filter block material of first drainage filter cylinder body (25) is nanometer silver, the inside contact filter block material of second drainage filter cylinder body (26) is honeycomb active carbon.