CN117366651A - Building heating device utilizing solar energy - Google Patents

Abstract

The utility model relates to a building heating's field especially relates to a building heating system who utilizes solar energy, it includes the room body, two heat supply mouths have been seted up on one of them lateral wall of the room body, the room body is equipped with the lateral wall outside of heat supply mouths and is provided with the heat accumulator, wear to be equipped with a plurality of heat transfer pipes in the heat accumulator, all rotate on every heat transfer pipe and be connected with solar collector, be provided with glass curtain wall on the outer wall that the room body was equipped with the heat accumulator, glass curtain wall covers and locates on heat accumulator and the solar collector, be provided with cleaning element on the glass curtain wall, glass curtain wall's top surface, the bottom surface and just form the cambered surface of a U-shaped to the side of heat accumulator, cleaning element includes two slide rails, the slide rail sets up along glass curtain wall's cambered surface, equal sliding connection has the supporting shoe on every slide rail, be provided with the running part that drives the supporting shoe and remove on the supporting shoe, be provided with the cylinder between two supporting shoes, cylinder butt is on glass curtain wall. This application has the effect of improving the inconvenient clearance problem of glass.

Description

Building heating device utilizing solar energy

Technical Field

The present application relates to the field of building heating, and in particular, to a building heating apparatus using solar energy.

Background

Nowadays, solar technology is paid attention to the world of heating ventilation and air conditioning, more and more solar technology is applied to families, a living environment which is warm in winter and cool in summer is provided for people, and non-renewable energy sources are not consumed as much as possible, so that the development of solar buildings is promoted.

The patent of the utility model with the publication number of CN208519849U discloses a solar building heating and ventilation system, which comprises a glass house, a ventilation system and a solar heat collecting wall, wherein the north surface of the glass house is the solar heat collecting wall, the top surface of the glass house is a top plate, the other surfaces of the glass house are the glass walls, the top plate is fixedly connected with the solar heat collecting wall, and the solar heat collecting wall is used for heating the house and supplying power to electric appliances in the house through absorbing solar energy.

To the above-mentioned related art, because the glass room contacts with the external world, consequently impurity such as leaf and dust pile up on glass surface easily, if untimely clearance, impurity such as leaf and dust will block sunlight, influence the sunlight and shine into in the glass room, and manual clearance is extremely inconvenient again, therefore has the inconvenient problem of clearance of glass.

Disclosure of Invention

In order to solve the problem that the glass is inconvenient to clean, the application provides a building heating device utilizing solar energy.

The application provides a building heating device utilizing solar energy adopts the following technical scheme:

the utility model provides a building heating system utilizing solar energy, includes the room body, two heat supply mouths have been seted up on one of them lateral wall of the room body, the lateral wall outside that the room body was equipped with the heat supply mouths is provided with the heat accumulator, wear to be equipped with a plurality of heat transfer pipes in the heat accumulator, every all rotate on the heat transfer pipe and be connected with solar collector, be provided with glass curtain wall on the outer wall that the room body was equipped with the heat accumulator, glass curtain wall covers on heat accumulator and solar collector, two the heat supply mouths all are located glass curtain wall, be provided with cleaning assembly on the glass curtain wall, glass curtain wall's top surface, bottom surface and just to the side of heat accumulator form the cambered surface of a U-shaped, cleaning assembly includes two slide rails, the slide rail sets up along the cambered surface of glass curtain wall, every equal sliding connection has the supporting shoe on the slide rail, be provided with the running part that drives the supporting shoe and remove, two be provided with the cylinder between the supporting shoe, the cylinder butt is on glass curtain wall.

Through adopting above-mentioned technical scheme, sunlight shines on the solar collector through glass curtain wall, and solar collector is used for the heating of the room body with the heat on the one hand, on the other hand passes through the heat transfer pipe with the heat and gives the heat accumulator, and the heat accumulator releases heat when evening and gives the room body heating, and when needs clearance glass curtain wall, walking part drives the supporting shoe and removes on the slide rail, and the supporting shoe drives the cylinder and removes on glass curtain wall, and the cylinder is clear up glass curtain wall surface's impurity to improve the inconvenient problem of clearance of glass curtain wall.

Optionally, the walking part includes the third driving motor, the output shaft tip of third driving motor is provided with the walking gear, be provided with the walking rack on the glass curtain wall, the walking rack sets up along the orbit of slide rail, the walking gear meshes with the walking rack mutually.

Through adopting above-mentioned technical scheme, third driving motor drives the walking gear rotation, and the walking gear rotates on the walking rack to drive the supporting shoe and remove on the slide rail.

Optionally, the cylinder rotates to be connected between two supporting blocks, be provided with drive gear on the axis of rotation of cylinder, drive gear meshes with the walking gear.

Through adopting above-mentioned technical scheme, when the supporting shoe removes, the walking gear drives drive gear and rotates, and drive gear drives the cylinder and rotate, and the direction of rotation of cylinder is opposite with the direction of movement of supporting shoe to make the cylinder can clear up glass curtain wall's surface better.

Optionally, all vertical sliding connection has the clearance board on the lateral wall of glass curtain wall both sides, the second spout of U-shaped has been seted up to the clearance inboard, the U-shaped opening of second spout is towards the room body, be provided with the second slider on the supporting shoe, the second slider slides in the second spout, the clearance board is provided with the clearance cloth to one side of glass curtain wall, the clearance cloth butt is on glass curtain wall.

Through adopting above-mentioned technical scheme, the supporting shoe drives the second slider and removes in the second spout, and when the supporting shoe moved down, the second slider drove the clearance board and moved down, and the clearance board drove clearance cloth and moved down, and clearance cloth clear up glass curtain wall's lateral wall to realize glass curtain wall's all-round clearance.

Optionally, the cleaning cloth is detachably connected to the cleaning plate through a magic tape.

Through adopting above-mentioned technical scheme, the clearance cloth is pasted through the magic subsides and is washd with the dismantlement of clearance cloth of being convenient for on the clearance board.

Optionally, rotate on the inner wall that the room body was equipped with the heat supply mouth and be connected with two apron that are used for sealing the heat supply mouth, be provided with on the inner wall of the room body and order about apron pivoted drive assembly, drive assembly includes a driving motor, a driving gear is provided with at the output shaft tip of driving motor, be provided with driven gear in the axis of rotation of apron, driving gear meshes with driven gear mutually.

Through adopting above-mentioned technical scheme, when not needing the heat supply, first driving motor drives the driving gear rotation, and the driving gear drives driven gear rotation, and driven gear drives the apron and rotates, and the apron seals the heat supply mouth to stop for the house body heat supply.

Optionally, a connection assembly is arranged between the rotating shafts of the two cover plates, the connection assembly comprises two belt wheels, the two belt wheels are respectively arranged on the rotating shafts of the two cover plates, and a belt is sleeved between the two belt wheels.

Through adopting above-mentioned technical scheme, carry out the transmission through band pulley and belt between the axis of rotation of two apron to realize the synchronous rotation of two apron, consequently only need a first driving motor as the actuating source can, thereby save the cost.

Optionally, be provided with the dwang on the solar collector, a plurality of be provided with the regulation pole between the dwang, the dwang rotates to be connected on adjusting the pole, be provided with the regulation rack along self length direction on adjusting the pole, install the second driving motor on the inner wall of glass curtain wall, the output shaft tip of second driving motor is provided with adjusting gear, adjusting gear meshes with the regulation rack mutually.

Through adopting above-mentioned technical scheme, the second driving motor drives adjusting gear and rotates, and adjusting gear drives adjusting rack and removes, and adjusting rack drives the regulation pole and removes, and the regulation pole drives the dwang and rotates, thereby the dwang drives solar collector and rotates, makes solar collector be in the state just to the sunlight always to better collection sunlight.

In summary, the present application includes at least one of the following beneficial technical effects:

sunlight irradiates onto a solar heat collector through the glass curtain wall, the solar heat collector uses heat for heating a room body on one hand, and transmits the heat to a heat accumulator through a heat transfer pipe on the other hand, the heat accumulator releases heat for heating the room body at night, when the glass curtain wall needs to be cleaned, a travelling part drives a supporting block to move on a sliding rail, the supporting block drives a roller to move on the glass curtain wall, and the roller cleans impurities on the surface of the glass curtain wall, so that the problem that the glass curtain wall is inconvenient to clean is solved;

the supporting block drives the second sliding block to move in the second sliding groove, when the supporting block moves downwards, the second sliding block drives the cleaning plate to move downwards, the cleaning plate drives the cleaning cloth to move downwards, and the cleaning cloth cleans the side wall of the glass curtain wall, so that the glass curtain wall is cleaned in all directions;

the second driving motor drives the adjusting gear to rotate, the adjusting gear drives the adjusting rack to move, the adjusting rack drives the adjusting rod to move, the adjusting rod drives the rotating rod to rotate, and the rotating rod drives the solar heat collector to rotate, so that the solar heat collector is always in a state of being opposite to sunlight, and sunlight is collected better.

Drawings

Fig. 1 is a schematic structural view of a building heating apparatus using solar energy according to an embodiment of the present application.

Fig. 2 is a cross-sectional view taken to illustrate the drive assembly and the connection assembly.

Fig. 3 is a cross-sectional view taken to illustrate the thermal mass and conditioning assembly.

Fig. 4 is a cross-sectional view taken to show the stop lever.

Fig. 5 is a schematic structural view of the cleaning assembly.

Fig. 6 is a schematic structural view of the cleaning plate.

Reference numerals illustrate: 1. a house body; 10. a heat supply port; 11. a cover plate; 2. a drive assembly; 20. a first driving motor; 21. a drive gear; 22. a driven gear; 3. a connection assembly; 30. a belt wheel; 31. a belt; 4. a heat storage body; 40. a heat transfer tube; 41. a solar collector; 42. a connecting rod; 43. a rotating ring; 5. an adjustment assembly; 50. a rotating lever; 500. a limit groove; 51. an adjusting rod; 510. a rotating groove; 52. a limit rod; 53. adjusting the rack; 54. a second driving motor; 55. an adjusting gear; 6. glass curtain wall; 60. a first chute; 7. cleaning the assembly; 70. a slide rail; 71. a support block; 72. a walking member; 720. a third driving motor; 721. a traveling gear; 722. a walking rack; 73. a roller; 74. a transmission gear; 75. a cleaning plate; 750. a first slider; 751. a second chute; 76. a second slider; 77. cleaning cloth.

Detailed Description

The present application is described in further detail below in conjunction with fig. 1-6.

The embodiment of the application discloses a building heating device utilizing solar energy. Referring to fig. 1 and 2, a building heating apparatus using solar energy includes a house 1, two heat supply ports 10 are provided on one side wall of the house 1, the two heat supply ports 10 are provided up and down, two cover plates 11 for closing the heat supply ports 10 are rotatably connected to an inner wall of the house 1, and a driving assembly 2 for driving the cover plates 11 to rotate is provided on the inner wall of the house 1.

Referring to fig. 1 and 2, the driving assembly 2 includes a first driving motor 20, an output shaft end of the first driving motor 20 is connected with a driving gear 21, a driven gear 22 is connected to a rotating shaft of one of the cover plates 11, the driving gear 21 is meshed with the driven gear 22, a connecting assembly 3 is disposed between the rotating shafts of the two cover plates 11, the connecting assembly 3 includes two belt pulleys 30, the two belt pulleys 30 are fixedly connected to the rotating shafts of the two cover plates 11, and a belt 31 is sleeved between the two belt pulleys 30.

Referring to fig. 3, a heat accumulator 4 is installed outside the side wall of the house 1 provided with a heat supply port 10, a plurality of rectangular heat transfer tubes 40 vertically penetrate through the heat accumulator 4, solar heat collectors 41 with the same number as that of the heat transfer tubes 40 are arranged on one side of the heat accumulator 4 away from the house 1, the solar heat collectors 41 are semicircular and arc-shaped openings are opposite to the heat accumulator 4, the heat transfer tubes 40 penetrate through the solar heat collectors 41, two connecting rods 42 are fixedly connected to the inner wall of the solar heat collectors 41, a rotating ring 43 is fixedly connected between the two connecting rods 42, and the rotating ring 43 is rotatably sleeved on the heat transfer tubes 40, so that the solar heat collectors 41 are rotatably connected to the heat transfer tubes 40 through the connecting rods 42 and the rotating ring 43.

Referring to fig. 3 and 4, a glass curtain wall 6 is installed on the outer side wall of a room body 1 provided with a heat accumulator 4, the glass curtain wall 6 is covered on the heat accumulator 4, a heat transfer pipe 40, a solar heat collector 41, a connecting rod 42 and a rotating ring 43, two heat supply ports 10 are also positioned in the glass curtain wall 6, an adjusting component 5 for adjusting the rotating angle of the solar heat collector 41 is arranged on the side wall of the glass curtain wall 6, the adjusting component 5 comprises rotating rods 50 with the same number as the solar heat collectors 41, the rotating rods 50 are fixedly connected to one side of the solar heat collector 41, which is opposite to the opening of the rotating rods 41, an adjusting rod 51 is arranged between the rotating rods 50, a plurality of rotating grooves 510 are formed in the adjusting rod 51, the rotating rods 50 are correspondingly penetrated in the rotating grooves 510 one by one, a limiting rod 52 is fixedly connected between two opposite groove walls of the rotating grooves 510, and the limiting rod 52 is vertically arranged.

Referring to fig. 3 and 4, a limit groove 500 is formed in the rotating rod 50, the limit groove 500 is formed along the length direction of the rotating rod 50, the limit rod 52 is slidably inserted into the limit groove 500, and the limit rod 52 and the limit groove 500 cooperate to prevent the rotating rod 50 from being separated from the adjusting rod 51; an adjusting rack 53 is fixedly connected to the adjusting rod 51 along the length direction of the adjusting rod, a second driving motor 54 is mounted on the side wall of the glass curtain wall 6, an adjusting gear 55 is fixedly connected to the end portion of an output shaft of the second driving motor 54, and the adjusting gear 55 is meshed with the adjusting rack 53.

Referring to fig. 1 and 5, a U-shaped arc surface is formed on the top surface, the bottom surface and the side surface opposite to the room body 1 of the glass curtain wall 6, a cleaning component 7 for cleaning glass is arranged on the glass curtain wall 6, the cleaning component 7 comprises two sliding rails 70, the sliding rails 70 are arranged along the U-shaped arc surface of the glass curtain wall 6, each sliding rail 70 is slidably connected with a supporting block 71, a walking component 72 for driving the supporting block 71 to move is arranged on the supporting block 71, the walking component 72 comprises a third driving motor 720, a walking gear 721 is fixedly connected to the end part of an output shaft of the third driving motor 720, a walking rack 722 is fixedly connected to the glass curtain wall 6, the walking rack 722 is arranged along the track of the sliding rail 70, and the walking gear 721 is meshed with the walking rack 722.

Referring to fig. 5 and 6, a roller 73 is rotatably connected between the two supporting blocks 71, the roller 73 rolls on the glass curtain wall 6, and the roller 73 is used for cleaning a U-shaped cambered surface of the glass curtain wall 6; the transmission gear 74 is connected to the rotation shaft of the drum 73, and the transmission gear 74 is meshed with the traveling gear 721, so that the rotation direction of the drum 73 is opposite to the movement direction of the supporting block 71, and the drum 73 can clean the glass curtain wall 6 better.

Referring to fig. 5 and 6, a cleaning plate 75 is disposed outside two opposite side walls of the glass curtain wall 6, the cleaning plate 75 is vertically slidably connected to the glass curtain wall 6, a first sliding groove 60 is vertically formed in the outer wall of the glass curtain wall 6, a first sliding block 750 is fixedly connected to the cleaning plate 75, the first sliding block 750 slides in the first sliding groove 60, a U-shaped second sliding groove 751 is formed in the cleaning plate 75, a U-shaped opening of the second sliding groove 751 faces the room body 1, a second sliding block 76 is fixedly connected to the side wall of the supporting block 71, and the second sliding block 76 slides in the second sliding groove 751; the cleaning cloth 77 is arranged on the side wall, opposite to the glass curtain wall 6, of the cleaning plate 75, the cleaning cloth 77 is attached to the outer side wall of the glass curtain wall 6, accordingly the outer side wall of the glass curtain wall 6 is cleaned, the cleaning cloth 77 is detachably connected to the cleaning plate 75 through the magic tape, and accordingly the cleaning cloth 77 is convenient to detach and clean.

The implementation principle of the building heating device utilizing solar energy in the embodiment of the application is as follows: when heating is required through solar energy, the first driving motor 20 drives the driving gear 21 to rotate, the driving gear 21 drives the driven gear 22 to rotate, and accordingly one cover plate 11 is driven to be opened, and the other cover plate 11 can be opened simultaneously through transmission of the belt pulley 30 and the belt 31, so that circulating heat supply is carried out between the room body 1 and the glass curtain wall 6 through the two heat supply openings 10.

Sunlight irradiates the solar heat collector 41 through the glass curtain wall 6, the solar heat collector 41 directly uses heat for heating the house 1 on one hand, and the heat is collected and transferred to the heat transfer pipe 40 on the other hand, the heat transfer pipe 40 transfers the heat to the heat accumulator 4, the heat accumulator 4 stores the heat, and the heat is dissipated again to heat the house 1 when no sunlight exists at night; during daytime, the sun can move, the second driving motor 54 can drive the adjusting gear 55 to rotate, the adjusting gear 55 drives the adjusting rack 53 to move, so that the adjusting rod 51 is driven to move, the adjusting rod 51 can simultaneously drive the plurality of rotating rods 50 to rotate, and accordingly the angle of the solar heat collector 41 is adjusted, the solar heat collector 41 is always opposite to the sun, and sunlight is collected well.

When the glass curtain wall 6 needs cleaning, the third driving motor 720 drives the traveling gear 721 to rotate, the traveling gear 721 rotates on the traveling rack 722, so that the supporting block 71 is driven to move, meanwhile, the traveling gear 721 drives the transmission gear 74 to rotate, the transmission gear 74 drives the roller 73 to rotate, and the roller 73 cleans the U-shaped cambered surface of the glass curtain wall 6; when the supporting block 71 moves, the supporting block 71 drives the second sliding block 76 to move in the second sliding groove 751, when the supporting block 71 moves to the side face of the glass curtain wall 6 to move downwards, the second sliding block 76 drives the cleaning plate 75 to move downwards, the cleaning plate 75 drives the cleaning cloth 77 to move, and the cleaning cloth 77 cleans the side walls on two sides of the glass curtain wall 6, so that all glass faces of the glass curtain wall 6 are cleaned, and the problem that the glass curtain wall 6 is inconvenient to clean is solved.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. A building heating apparatus using solar energy, characterized in that: including room body (1), two heat supply mouths (10) have been seted up on one of them lateral wall of room body (1), the lateral wall outside that room body (1) was equipped with heat supply mouths (10) is provided with heat accumulator (4), wear to be equipped with a plurality of heat transfer pipes (40) in heat accumulator (4), every all rotate on heat transfer pipe (40) and be connected with solar collector (41), be provided with glass curtain wall (6) on the outer wall of room body (1) being equipped with heat accumulator (4), glass curtain wall (6) cover locates on heat accumulator (4) and solar collector (41), two heat supply mouths (10) all are located glass curtain wall (6), be provided with cleaning module (7) on glass curtain wall (6), top surface, bottom surface and the side just to heat accumulator (4) form a U-shaped cambered surface, cleaning module (7) include two slide rails (70), slide rail (70) are along the cambered surface setting of glass curtain wall (6), every slide rail (70) are gone up and are provided with supporting piece (71) and are driven by the roller (71) between two supporting pieces (71), the roller (73) is abutted against the glass curtain wall (6).

2. The building heating apparatus using solar energy according to claim 1, wherein: the walking component (72) comprises a third driving motor (720), a walking gear (721) is arranged at the end part of an output shaft of the third driving motor (720), a walking rack (722) is arranged on the glass curtain wall (6), the walking rack (722) is arranged along the track of the sliding rail (70), and the walking gear (721) is meshed with the walking rack (722).

3. A building heating apparatus using solar energy as defined in claim 2, wherein: the roller (73) is rotatably connected between the two supporting blocks (71), a transmission gear (74) is arranged on the rotating shaft of the roller (73), and the transmission gear (74) is meshed with the travelling gear (721).

4. A building heating apparatus using solar energy according to any one of claims 1 to 3, wherein: the cleaning device is characterized in that cleaning plates (75) are vertically and slidingly connected to the side walls of two sides of the glass curtain wall (6), second sliding grooves (751) in the shape of a U are formed in the cleaning plates (75), the U-shaped openings of the second sliding grooves (751) face the room body (1), second sliding blocks (76) are arranged on the supporting blocks (71), the second sliding blocks (76) slide in the second sliding grooves (751), cleaning cloth (77) is arranged on one side, opposite to the glass curtain wall (6), of the cleaning plates (75), and the cleaning cloth (77) is abutted to the glass curtain wall (6).

5. The building heating apparatus using solar energy according to claim 4, wherein: the cleaning cloth (77) is detachably connected to the cleaning plate (75) through a magic tape.

6. A building heating apparatus using solar energy according to any one of claims 1 to 3, wherein: the house is characterized in that the house body (1) is provided with two cover plates (11) for sealing the heat supply opening (10) in a rotating manner, the cover plates (11) are driven to rotate on the inner wall of the house body (1), the driving assembly (2) comprises a first driving motor (20), a driving gear (21) is arranged at the end part of an output shaft of the first driving motor (20), a driven gear (22) is arranged on a rotating shaft of the cover plates (11), and the driving gear (21) is meshed with the driven gear (22).

7. The building heating apparatus using solar energy according to claim 6, wherein: a connecting component (3) is arranged between the rotating shafts of the two cover plates (11), the connecting component (3) comprises two belt pulleys (30), the two belt pulleys (30) are respectively arranged on the rotating shafts of the two cover plates (11), and a belt (31) is sleeved between the two belt pulleys (30).

8. A building heating apparatus using solar energy according to any one of claims 1 to 3, wherein: be provided with dwang (50) on solar collector (41), a plurality of be provided with regulation pole (51) between dwang (50), dwang (50) rotate and connect on regulation pole (51), be provided with on regulation pole (51) along self length direction and adjust rack (53), install second driving motor (54) on the inner wall of glass curtain wall (6), the output shaft tip of second driving motor (54) is provided with adjusting gear (55), adjusting gear (55) mesh with adjusting rack (53).