CN117646527B - Lighting energy-saving device for building engineering house building - Google Patents

Abstract

The invention discloses a lighting energy-saving device for building engineering and housing construction, which comprises an upper lighting roof, an inclined lighting roof, a water collecting tank and a reflecting plate, wherein the upper lighting roof is fixed on a bracket; the daylighting effect is improved through the cooperation of last daylighting roof, oblique daylighting roof, reflector panel, rainwater water economy resource is collected through the cooperation of oblique daylighting roof and water collecting tank, opens oblique daylighting roof and can give off indoor steam, is convenient for detach the frost on the reflector panel, and slewing mechanism can support the reflector panel on multiple spot, has improved the stability of reflector panel.

Description

Lighting energy-saving device for building engineering house building

Technical Field

The invention relates to the technical field of roofs, in particular to a lighting energy-saving device for building construction of a building engineering.

Background

Lighting in houses is very important, not only energy saving. The natural light has a plurality of advantages, and the living place is bright and transparent for a long time, and is particularly good for self and families. The sunlight sterilization can be used for airing clothes, whether sunlight has a certain influence on mood, bacteria are not easy to breed in a sunny room to enable a human body to be healthy, the existing building lighting is mainly lighting through windows, lighting is insufficient only by the windows, and for improving lighting, a reflector is usually arranged outside the windows, but the defects of inconvenient cleaning and unstable support exist.

Disclosure of Invention

The invention aims to provide a lighting energy-saving device for building engineering and housing construction, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the lighting energy-saving device for the building construction comprises an upper lighting roof, an inclined lighting roof, a water collecting tank and a light reflecting plate, wherein the upper lighting roof is fixed on a bracket, one end of the inclined lighting roof is hinged to the upper lighting roof, the other end of the inclined lighting roof is fixedly provided with a sealing structure, the inclined lighting roof can be upwards opened, the inclined lighting roof can be contacted with the water collecting tank, the light reflecting plates are arranged on two sides of the upper lighting roof, the light reflecting sides of the light reflecting plates are inwards, the light reflecting plates are fixed on an output rod of a rotating mechanism, and the rotating mechanism can adjust an included angle between the light reflecting plate and the upper lighting roof;

the rotating mechanism comprises an output rod, a connecting rod, an auxiliary rod, an input rod, a connecting frame triangle and a connecting rod triangle, wherein one end of the input rod is hinged on the bracket, the point is a point A, the other end of the input rod is hinged on one vertex of the connecting rod triangle, the point is a point B, one vertex of the connecting frame triangle is hinged on the bracket, the point is a point C, the other vertex of the connecting frame triangle and the other vertex of the connecting rod triangle are mutually hinged, the hinging point is a point D, four ABDC points enclose a parallelogram, one end of the output rod is hinged on the other vertex of the connecting rod triangle, the point is called a point E, one end of the connecting rod is hinged on the other vertex of the connecting frame triangle, the point is called a point F, the other end of the connecting rod is hinged on the output rod, the point is called a point G, and four DFGE points enclose a parallelogram; and an auxiliary rod is hinged on the point F, a plurality of reinforcing rods are hinged between the auxiliary rod and the output rod, and the reinforcing rods are equal and parallel to the connecting rods in length.

Preferably, the sealing structure comprises a transverse edge and a bevel edge, one end of the transverse edge is fixed on the oblique daylighting roof, the other end of the transverse edge is fixed with the bevel edge, the sealing structure is internally provided with a sealing gasket 6 in a shape like a Chinese character 'factory', the water collecting tank is trapezoid, the bottom edge of the water collecting tank is fixed on the support, and the inner surface of the sealing gasket 6 in a shape like a Chinese character 'factory' can be contacted with the side edge of the water collecting tank.

Preferably, the inner surface of the oblique daylighting roof is hinged with a piston rod of an air cylinder, the cylinder body of the air cylinder is hinged on the bracket, and the air cylinder can push the oblique daylighting roof to open upwards.

Preferably, the bracket is fixed on a wall, and a negative pressure fan is arranged on the wall, so that the negative pressure fan can suck air outside the wall into the wall.

Preferably, the upper lighting roof is fixed with a cleaning track, a cleaning plate is arranged on the cleaning track in a sliding manner, electric chain blocks are respectively arranged at two ends of the track, each electric chain block is fixed on the support, the output end of each electric chain block is fixed on the cleaning plate, and each electric chain block can move by pulling the cleaning plate through a winding iron chain, so that dust on the upper lighting roof is cleaned.

Preferably, a curtain rail is arranged below the upper daylighting roof, the curtain rail is fixedly provided with a support, a driving rod is arranged on the curtain rail in a sliding manner, nylon rope winches are respectively arranged at two ends of the curtain rail, each nylon rope winch is fixed on the support, the output end of each nylon rope winch is fixed on the driving rod, a plurality of support rods are further arranged on the curtain rail in a sliding manner, one end of the curtain is fixed on the support, the other end of the curtain is fixed on the driving rod, the middle part of the curtain rail is fixed on the support rods, the nylon rope winch can pull the driving rod to move through winding the nylon ropes, the distance between the driving rod and the support rods is further increased, the curtain is driven to shield the upper daylighting roof, and otherwise, the distance between the driving rod and the support rods is reduced, so that the curtain is driven to fold.

Preferably, the rotating mechanism is driven by a double-output shaft motor, the double-output shaft motor is fixed on the bracket, and the double-output shaft motor is connected to the input rod through a gear set.

Compared with the prior art, the invention has the beneficial effects that: the daylighting effect is improved through the cooperation of last daylighting roof, oblique daylighting roof, reflector panel, rainwater water economy resource is collected through the cooperation of oblique daylighting roof and water collecting tank, opens oblique daylighting roof and can give off indoor steam, is convenient for detach the frost on the reflector panel, and slewing mechanism can support the reflector panel on multiple spot, has improved the stability of reflector panel.

Drawings

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a schematic view of a rotating mechanism according to the present invention;

FIG. 3 is a cross-sectional view of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3A in accordance with the present invention;

FIG. 5 is another angular perspective view of the present invention;

in the figure: 1. the upper daylighting roof, 2, the oblique daylighting roof, 3, a water collecting tank, 4, a reflector plate, 5, a sealing structure, 6, a sealing gasket in a shape of a Chinese character 'factory', 7, a gear set, 8, an air cylinder, 9, a cleaning track, 10, an electric chain, 11, a cleaning plate, 12, a curtain track, 13, a driving rod, 14, a nylon rope winch, 15, a supporting rod, 16, a double-shaft motor, 17, a driving shaft, 20, a rotating mechanism, 21, an input rod, 22, a connecting rod triangle, 23, a connecting frame triangle, 24, an output rod, 25, a connecting rod, 26, an auxiliary rod, 27 and a reinforcing rod.

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.

The invention provides a technical scheme that: the utility model provides a daylighting economizer of building engineering house building, shown in fig. 1, including last daylighting roof 1, oblique daylighting roof 2, water catch bowl 3 and reflector panel 4, go up daylighting roof 1 and fix on the support, oblique daylighting roof 2 one end articulates on last daylighting roof 1, and the other end is fixed with seal structure 5, and oblique daylighting roof 2 can upwards open, oblique daylighting roof 2 can with water catch bowl 3 contact, the rainwater can follow in the oblique daylighting roof 2 gets into water catch bowl 3, upward daylighting roof 1 both sides are provided with reflector panel 4, reflector panel 4 reflection of light side inwards, reflector panel 4 is fixed on the output rod 24 of rotary mechanism 20, as shown in fig. 3, rotary mechanism 20 can adjust the contained angle between reflector panel 4 and the last daylighting roof 1, adjusts the contained angle of reflector panel 4 and the last daylighting roof 1 of back sun side earlier and makes it reflect into indoor with the heat gas contained angle of sun again, can improve the daylighting effect, opens the reflector panel 2 and can be with the indoor reflector panel of giving off the frost of reflection of light panel 4 of giving off.

As shown in fig. 2, the rotating mechanism 20 includes an output rod 24, a connecting rod 25, an auxiliary rod 26, an input rod 21, a link set square 23 and a link set square 22, wherein one end of the input rod 21 is hinged on the bracket, the point is a point, the other end is hinged on a vertex of the link set square 22, the point is B, one vertex of the link set square 23 is hinged on the bracket, the point is a point C, the other vertex of the link set square 23 is hinged with the other vertex of the link set square 22, the hinging point is a point D, four points of abd enclose a parallelogram, one vertex of the link set square 22 is hinged with one end of the output rod 24, the point is referred to as an E point, one vertex of the link set square 23 is hinged with one end of the connecting rod 25, the other end of the connecting rod 25 is hinged on the output rod 24, the point is referred to as a point G, and four points of DFGE enclose a parallelogram;

the rotation of the input rod 21 can drive the connecting rod triangle 22 to move, further drive the connecting frame triangle 23 to rotate, and the rotation of the connecting frame triangle 23 can drive the connecting rod 25 to move, further drive the output rod 24 to move.

The auxiliary rod 26 is hinged to the point F, a plurality of reinforcing rods 27 are hinged between the auxiliary rod 26 and the output rod 24, the reinforcing rods 27 are equal to the connecting rods 25 in length and parallel, the reinforcing rods 27 can be driven to move by the movement of the output rod 24, the auxiliary rod 26 is driven to move by the movement of the output rod 24, the auxiliary rod 26, the connecting rods 25 and the reinforcing rods 27 enclose into a plurality of parallelograms with the same size, the number of supporting points of the output rod 24 is increased, the rotating mechanism 20 can support multiple points on the reflecting plate 4, and the stability of the reflecting plate 4 is improved.

In order to improve the tightness of the oblique daylighting roof 2, as shown in fig. 3 and 4, the sealing structure 5 comprises a transverse edge and a bevel edge, one end of the transverse edge is fixed on the oblique daylighting roof 2, the other end of the transverse edge is fixed with the bevel edge, the inner surface of the sealing structure 5 is fixed with a 'factory' -shaped sealing pad 6, the water collecting tank 3 is trapezoid, the bottom edge of the water collecting tank 3 is fixed on a bracket, and the inner surface of the 'factory' -shaped sealing pad 6 can be in contact with the side edge of the water collecting tank 3.

In order to facilitate opening of the inclined daylighting roof 2, as shown in fig. 3, a piston rod of an air cylinder 8 is hinged to the inner surface of the inclined daylighting roof 2, the cylinder body of the air cylinder 8 is hinged to a bracket, and the air cylinder 8 can push the inclined daylighting roof 2 to open upwards.

In order to facilitate air circulation, the bracket is fixed on a wall, and a negative pressure fan is arranged on the wall and can suck air outside the wall into the wall.

In order to facilitate cleaning of dust on the upper daylighting roof 1, as shown in fig. 1, a cleaning track 9 is fixed on the upper daylighting roof 1, a cleaning plate 11 is arranged on the cleaning track 9 in a sliding manner, electric chain links 10 are respectively arranged at two ends of the track, each electric chain link 10 is a common chain lifting machine, each electric chain link 10 is fixed on a support, the output end of each electric chain link 10 is fixed on the cleaning plate 11, and each electric chain link 10 can move by pulling the cleaning plate 11 through a winding iron chain, so that dust on the upper daylighting roof 1 is cleaned.

In order to facilitate the sun-shading, as shown in fig. 5, a curtain rail 12 is arranged under the upper daylighting roof 1, the curtain rail 12 is fixed on a bracket, a driving rod 13 is arranged on the curtain rail 12 in a sliding manner, nylon rope winches 14 are respectively arranged at two ends of the curtain rail 12, nylon rope winches 14 are commonly used winding nylon rope devices, each nylon rope winch 14 is fixed on the bracket, the output end of each nylon rope winch 14 is fixed on the driving rod 13, a plurality of supporting rods 15 are also arranged on the curtain rail 12 in a sliding manner, one end of the curtain is fixed on the bracket, the other end of the curtain is fixed on the driving rod 13, the middle part of the curtain rail is fixed on the supporting rods 15, the nylon rope winches 14 can pull the driving rod 13 to move through winding nylon ropes, so that the distance between the driving rod 13 and the supporting rods 15 is increased, the curtain is driven to shield the upper daylighting roof 1, and conversely, the distance between the driving rod 13 and the supporting rods 15 is reduced, so that the curtain is driven to fold.

In order to facilitate driving of the input rod 21, as shown in fig. 5, the rotating mechanism 20 is driven by a double-output shaft motor 16, the double-output shaft motor 16 is a common motor with output shafts on both end faces, the double-output shaft motor 16 is fixed on a bracket, the output end of the double-output shaft motor 16 is fixed with a driving shaft 17, the driving shaft 17 is connected to the input rod 21 through a gear set 7, the double-output shaft motor 16 can drive the driving shaft 17 to rotate, and power is transmitted to the input rod 21 through the gear set 7 to drive the input rod 21 to rotate.

The working process comprises the following steps: the double-output-shaft motor 16 can drive the input rod 21 to rotate, the rotation of the input rod 21 can drive the output rod 24 to move, so that the included angle between the reflecting plate 4 and the upper daylighting roof 1 is adjusted, the included angle between the reflecting plate 4 on the back sun side and the upper daylighting roof 1 is adjusted to prevent sunlight from being blocked, the included angle between the reflecting plate 4 on the sun facing side and the upper daylighting roof 1 is adjusted to reflect sunlight into a room, the daylighting effect can be improved, the air cylinder 8 can push the inclined daylighting roof 2 to open upwards, the indoor hot air can be emitted after the inclined daylighting roof 2 is opened, frost on the reflecting plate 4 is removed conveniently, and air outside the wall can be sucked into the wall through the negative-pressure fan, so that air circulation is facilitated;

the electric chain hoist 10 can move by winding the iron chain to pull the cleaning plate 11, so that dust on the upper daylighting roof 1 is cleaned, and the nylon rope winch 14 can move by winding the nylon rope to pull the driving rod 13, so that the distance between the driving rod 13 and the supporting rod 15 is increased, and the curtain is driven to shield the upper daylighting roof 1.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a daylighting economizer of building engineering house building which characterized in that: the novel light collecting device comprises an upper light collecting top (1), an inclined light collecting top (2), a water collecting tank (3) and a light reflecting plate (4), wherein the upper light collecting top (1) is fixed on a support, one end of the inclined light collecting top (2) is hinged to the upper light collecting top (1), the other end of the inclined light collecting top is fixedly provided with a sealing structure (5), the inclined light collecting top (2) can be upwards opened, the inclined light collecting top (2) can be contacted with the water collecting tank (3), the light reflecting plate (4) is arranged on two sides of the upper light collecting top (1), the light reflecting side of the light reflecting plate (4) is inwards, the light reflecting plate (4) is fixed on an output rod (24) of a rotating mechanism (20), and an included angle between the light reflecting plate (4) and the upper light collecting top (1) can be adjusted by the rotating mechanism (20);

the rotating mechanism (20) comprises an output rod (24), a connecting rod (25), an auxiliary rod (26), an input rod (21), a connecting frame triangle (23) and a connecting rod triangle (22), wherein one end of the input rod (21) is hinged on the bracket, the point is a point A, the other end of the input rod is hinged on one vertex of the connecting rod triangle (22), the point is B, one vertex of the connecting frame triangle (23) is hinged on the bracket, the point is a point C, the other vertex of the connecting frame triangle (23) and the other vertex of the connecting rod triangle (22) are mutually hinged, the hinging point is a point D, four points ABDC enclose into a parallelogram, one vertex of the connecting rod triangle (22) is hinged with one end of the output rod (24), the point is called a point E, one vertex of the connecting rod (25) is hinged on the other vertex of the connecting frame triangle (23), the point is called a point G, and four points DFGE form a parallelogram;

and an auxiliary rod (26) is hinged on the point F, a plurality of reinforcing rods (27) are hinged between the auxiliary rod (26) and the output rod (24), and the reinforcing rods (27) are equal to the connecting rods (25) in length and parallel.

2. A lighting and energy saving device for a building engineering building according to claim 1, wherein: the sealing structure (5) comprises a transverse edge and a bevel edge, one end of the transverse edge is fixed on the oblique daylighting roof (2), the other end of the transverse edge is fixed with the bevel edge, a factory-shaped sealing gasket (6) is fixed on the inner surface of the sealing structure (5), the water collecting tank (3) is trapezoid, the bottom edge of the water collecting tank (3) is fixed on a support, and the inner surface of the factory-shaped sealing gasket (6) can be in contact with the side edge of the water collecting tank (3).

3. A lighting and energy saving device for a building engineering building according to claim 1, wherein: the inner surface of the oblique daylighting roof (2) is hinged with a piston rod of an air cylinder (8), the cylinder body of the air cylinder (8) is hinged on the bracket, and the air cylinder (8) can push the oblique daylighting roof (2) to open upwards.

4. A lighting and energy saving device for a building engineering building according to claim 1, wherein: the bracket is fixed on the wall, and a negative pressure fan is arranged on the wall, and can suck air outside the wall into the wall.

5. A lighting and energy saving device for a building engineering building according to claim 1, wherein: go up and be fixed with clean track (9) on daylighting roof (1), the gliding cleaning board (11) that is provided with on clean track (9), orbital both ends are provided with electronic chain block (10) respectively, and every electronic chain block (10) is all fixed on the support, and the output of electronic chain block (10) is fixed on cleaning board (11), and electronic chain block (10) can be through the removal of winding iron chain pulling cleaning board (11), and then clear up the dust on daylighting roof (1).

6. A lighting and energy saving device for a building engineering building according to claim 1, wherein: the curtain rail (12) is arranged below the upper daylighting roof (1), the curtain rail (12) is fixed on a support, the driving rod (13) is arranged on the curtain rail (12) in a sliding mode, nylon rope winches (14) are respectively arranged at two ends of the curtain rail (12), each nylon rope winch (14) is fixed on the support, the output end of each nylon rope winch (14) is fixed on the driving rod (13), a plurality of support rods (15) are arranged on the curtain rail (12) in a sliding mode, one end of a curtain is fixed on the support, the other end of the curtain is fixed on the driving rod (13), the middle part of the curtain is fixed on the support rods (15), the nylon rope winches (14) can be used for pulling the driving rod (13) to move through winding nylon ropes, and then the distance between the driving rod (13) and the support rods (15) is increased, so that the upper daylighting roof (1) is driven, and conversely, the distance between the driving rod (13) and the support rods (15) is reduced, and the curtain is driven to be folded.

7. A lighting and energy saving device for a building engineering building according to claim 1, wherein: the rotating mechanism (20) is driven by a double-output-shaft motor (16), the double-output-shaft motor (16) is fixed on the bracket, a driving shaft (17) is fixed at the output end of the double-output-shaft motor (16), and the driving shaft (17) is connected to the input rod (21) through the gear set (7).