CN212271902U - Building daylighting guide structure - Google Patents

Abstract

The utility model relates to a building daylighting guide structure belongs to indoor daylighting technical field, include: the mounting hole penetrates through the wall body; the mounting frame is arranged on the mounting opening; the inner cavity is arranged in the wall body along the horizontal direction and penetrates through two side walls of the mounting frame; and a closure assembly disposed in the internal cavity, wherein the closure assembly comprises: the sliding groove extends along the extension direction of the inner cavity and is fixed at the positions of the top wall of the inner cavity and the top wall of the mounting frame; two daylighting panels which are connected to the sliding grooves in a sliding mode; and the first adjusting piece is arranged in the inner cavity and used for driving the daylighting panel to displace along the extending direction of the sliding groove. An object of the utility model is to provide a building daylighting guide structure can be through the big or small control sunshine of adjusting the daylight opening in indoor direction of shining, when can well ventilate, can carry out indoor daylighting purposively.

Description

Building daylighting guide structure

Technical Field

The utility model relates to an indoor daylighting technical field especially relates to a building daylighting guide structure.

Background

Along with the development of society, living environment is more and more emphasized by people, people all want to live in clean and tidy environment, the house is tidy, spacious and bright, in order to ventilate and daylight, the building is generally provided with a window, and the window is provided with an openable window.

However, many times, people need to work in a dark room for a long time, for example, a chemical storage room, the chemical storage room often cannot directly irradiate sunlight, and many unstable chemical agents are decomposed after being irradiated by sunlight, so that the chemicals are damaged.

At present, a common window is generally only arranged in a plurality of chemical storage rooms, sunlight is covered through a curtain, and direct irradiation of the sunlight on chemicals is avoided. However, the storage chamber needs to open the window infrequently due to storage, so that the peculiar smell of chemicals often exists indoors, the window is opened many times, and the fixed-point window structure cannot well avoid the irradiation of the chemicals by sunlight.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a not enough to prior art exists, the utility model aims to provide a building daylighting guide structure can be through adjusting the big or small control sunshine of daylighting mouth in indoor direction of shining, when can well ventilate, can carry out indoor daylighting purposively.

The above object of the present invention can be achieved by the following technical solutions:

a building light directing structure comprising: the mounting hole penetrates through the wall body; the mounting frame is arranged on the mounting opening; the inner cavity is arranged in the wall body along the horizontal direction and penetrates through two side walls of the mounting frame; and a closure assembly disposed in the internal cavity, wherein the closure assembly comprises: the sliding groove extends along the extension direction of the inner cavity and is fixed at the positions of the top wall of the inner cavity and the top wall of the mounting frame; two daylighting panels which are connected to the sliding grooves in a sliding mode; and the first adjusting piece is arranged in the inner cavity and used for driving the daylighting panel to displace along the extending direction of the sliding groove.

By adopting the arrangement, the arranged sealing assembly can seal the indoor space without lighting, so that the irradiation of sunlight is avoided, the shade of the indoor space is effectively ensured, and a better storage environment is provided for chemicals; and can adjust the position of plane skylight through first regulating part for the plane skylight can carry out illumination according to indoor demand and adjust, thereby makes indoor can carry out daylighting purposively, avoids the injecture of sunshine careless nature, and the direct injection causes the damage of chemical on chemical.

The utility model discloses it is further arranged that first regulating part includes: the fixing frame is sleeved and fixed around the daylighting panel; the sliding strip is installed at the top of the fixed frame and connected in the sliding groove in a sliding mode; the driving piece is arranged in the inner cavity and used for driving the daylighting panel to move in the horizontal direction; and the second adjusting piece is arranged at one end, close to the driving piece, of the fixed frame.

Through adopting above-mentioned setting, install the draw runner on the plane skylight through the driving piece drive for the draw runner carries out the displacement in the spout, along the extending direction of spout, drives the plane skylight and carries out the displacement along the extending direction of installation frame on the installation frame, thereby can control the size of a dimension of installing port, and then can control the area of daylighting, avoids sunshine to penetrate directly on chemical, causes chemical's damage.

The utility model discloses further set up the driving piece includes: the driving motor is fixed on the side wall of the inner cavity on one side and is positioned in the sliding groove; and one end of the bidirectional threaded rod is rotatably connected to the side wall of the inner cavity at the other side and is assembled with the driving motor, the bidirectional threaded rod is provided with two opposite threaded parts, and the sliding strips on the two daylighting panels are respectively in threaded connection with the opposite threaded parts of the bidirectional threaded rod.

Through adopting the above-mentioned setting, drive the two-way threaded rod of driving motor drive through the driving piece and rotate, drive the draw runner of threaded connection at the two-way threaded rod double-phase anti-screw portion, carry out the motion of being close to each other or keeping away from each other to can drive the plane skylight and carry out the motion of being close to each other or keeping away from each other, and then can conveniently accurately adjust the size of a dimension of installing port, and then can control the area of daylighting, avoid sunshine to penetrate directly on chemical, cause chemical's damage.

The utility model discloses further set up the second regulating part includes: the two sliding grooves extend along the extension direction of the inner cavity and are fixed at the positions of the bottom wall of the inner cavity and the bottom wall of the mounting frame; the sliding block is arranged at the bottom of the fixed frame and is connected in the sliding groove in a sliding mode; a rotating worm wheel is sleeved and fixed between the sliding block and the mounting frame; the rotating shaft is connected with one end of the sliding block in a rotating mode, is connected with the bottom of the sliding strip in a rotating mode and penetrates through the rotating worm wheel and the mounting frame; and the rotating piece is arranged in the sliding groove and used for driving the lighting board to rotate.

Through adopting the above-mentioned setting, rotate the piece through in the second regulating part and drive and rotate the worm wheel and rotate, thereby can drive the pivot and rotate, because pivot and rotation worm wheel, the installation frame runs through mutually and is fixed mutually, and the both ends of pivot respectively with the slider, the draw runner rotates mutually and is connected, make the plane skylight rotate through the rotation of pivot, can carry out sheltering from and the guide of incident direction to illumination, and then can control the area of daylighting and the direction of daylighting, avoid the direct incidence of sunshine on chemical, cause the damage of chemical.

The utility model discloses it is further arranged that the rotation piece includes: the groove is consistent with the extending direction of the sliding groove and is formed in the position of the side wall of the sliding groove; a rotating motor installed in the groove; and one end of the bidirectional rotating worm is rotatably connected to the side wall of the inner cavity at the other side and is assembled with the rotating motor, the bidirectional rotating worm is provided with two opposite worm thread parts, the two worm thread parts are arranged on the bidirectional rotating worm and are positioned at the mounting port, and the two rotating worm wheels are respectively meshed with the two opposite worm thread parts of the bidirectional rotating worm.

Through adopting the above-mentioned setting, rotate the two-way worm that rotates of motor drive through rotating in the piece, make the rotation worm wheel that drives via the plane skylight along with the in-process of plane skylight displacement, rotate the motor and rotate, make to rotate the worm wheel and can mesh with two-way rotation worm mutually when the displacement smoothly, along with the meshing of two-way rotation worm and rotation worm wheel, can make the plane skylight rotate around the pivot, thereby can control the area of daylighting and the direction of daylighting, avoid sunshine to penetrate directly on chemical, cause the damage of chemical.

The utility model is further provided with a first limit strip fixed on the sliding groove.

Through adopting above-mentioned setting, can make the slider rotate and can not produce the displacement in the sliding tray.

The utility model is further provided with that the sliding groove is an arc-shaped groove, and the sliding strip is an arc-shaped strip matched with the sliding groove.

Through adopting above-mentioned setting, arc wall and arc structure can make the draw runner carry out the displacement in the spout better.

The utility model discloses it is further arranged that be fixed with the second spacing on the installation frame.

Through adopting above-mentioned setting, can make the plane skylight only can swing towards a direction to when can the plane skylight need reset, can better control the shape after the plane skylight rotates through the spacing strip of second, make the plane skylight cooperate with the inner chamber and reset.

To sum up, the utility model discloses following beneficial effect has:

the utility model can seal the indoor space without lighting through the arranged sealing component, thereby avoiding the irradiation of sunlight, effectively ensuring the shade in the indoor space and providing a better storage environment for chemicals; and can adjust the position of plane skylight through first regulating part, can turn to the plane skylight through the second adjusting part for the plane skylight can carry out illumination according to indoor demand and adjust, thereby makes indoor can carry out daylighting purposively, avoids the injecture of the carelessness of sunshine to penetrate into, penetrates directly on chemical, causes chemical's damage.

Drawings

Fig. 1 is a schematic view of the overall structure in an embodiment of the present invention;

fig. 2 is a schematic sectional view of the closed state structure in the embodiment of the present invention;

fig. 3 is a schematic view of a sectional open state structure in an embodiment of the present invention.

Reference numerals: 1. an installation port; 11. a mounting frame; 2. an inner cavity; 21. a chute; 211. a fixing frame; 212. a slide bar; 213. a drive motor; 214. a bidirectional threaded rod; 22. a daylighting panel; 23. a second limit strip; 31. a sliding groove; 32. a slider; 33. rotating the worm gear; 34. a rotating shaft; 35. a groove; 36. rotating the motor; 37. a bidirectional rotating worm; 38. first spacing strip.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

In this embodiment:

a lighting guiding structure for building, as shown in fig. 1 and fig. 2, comprises an installation opening 1, in this embodiment, the installation opening 1 is arranged on a wall body in a penetrating way, an installation frame 11 is fixed on the outer wall position of the installation opening 1 through a screw, meanwhile, an inner cavity 2 is arranged in the wall body along the horizontal direction, and the inner cavity 2 is connected with two side walls of the installation frame 11 in a penetrating way.

Meanwhile, a sealing component is arranged in the inner cavity 2, wherein the sealing component includes a sliding groove 21, the sliding groove 21 is arranged at the top wall position of the installation frame 11 and the top wall position of the installation frame 11, and extends horizontally along the extending direction of the inner cavity 2, and two sliding strips 212 are connected to the sliding groove 21 in a sliding manner, the sliding groove 21 is an arc-shaped groove, the sliding strips 212 are arc-shaped strips matched with the sliding groove 21, the lighting panel 22 is installed at one end of each sliding strip 212 far away from the sliding groove 21, a fixing frame 211 is sleeved around the outer wall of the lighting panel 22, a rotating shaft 34 (not shown in the figure) penetrates through the fixing frame 211 near the inner cavity 2, and the top of the rotating shaft 34 penetrates through the fixing frame 211 to be connected with the sliding strips 212 in a rotating manner.

As shown in fig. 2 and 3, in the present embodiment, a driving member capable of driving the lighting panel 22 to displace in the extending direction of the sliding chute 21 is disposed in the inner cavity 2, wherein the driving member includes a driving motor 213, the driving motor 213 is a servo motor, the driving motor 213 is fixed on one side wall of the inner cavity 2 and is located in the position of the sliding chute 21, and the output end of the driving motor 213 points to the extending direction of the sliding chute 21.

Meanwhile, a bidirectional threaded rod 214 is assembled on an output shaft of the driving motor 213, the bidirectional threaded rod 214 is horizontally arranged with the ground, one end of the bidirectional threaded rod 214, which is far away from the driving motor 213, is rotatably connected to one side wall of the inner cavity 2, which is far away from the driving motor 213, through a bearing, the bidirectional threaded rod 214 has two threaded parts with the same area and opposite lines, and the sliding bars 212 on the two daylighting panels 22 are respectively in threaded connection with the two opposite threaded parts of the bidirectional threaded rod 214.

In the present embodiment, as shown in fig. 2 and 3, a slide block 32 is installed at the bottom position of the fixing frame 211 and at a position near one end of the inner cavity 2, two sliding grooves 31 are fixed at the positions of the bottom wall of the inner cavity 2 and the bottom wall of the mounting frame 11, which are matched with the sliding blocks 32, the two sliding grooves 31 extend along the extending direction of the inner cavity 2, a first limit strip 38 is fixed on the sliding groove 31, and at the same time, a sliding block 32 is installed on the bottom of the fixed frame 211, the sliding block 32 is slidably connected in the sliding groove 31, and due to the blocking of the first limit strip 38, the sliding block 32 can just stay on the sliding groove 31 when fully protruding the inner cavity 2, and a rotary worm wheel 33 is arranged between the sliding block 32 and the mounting frame 11, the bottom end of the rotating shaft 34 penetrates the rotating worm wheel 33, and the rotating shaft 34 is fixed to the rotating worm wheel 33 and rotatably connected to the side of the slider 32 close to the rotating worm wheel 33 through a bearing.

As shown in fig. 2 and 3, in the present embodiment, a groove 35 is formed at a position of a side wall of the sliding groove 31, the groove 35 is aligned with an extending direction of the sliding groove 31, a rotating motor 36 is installed in the groove 35, an output end of the rotating motor 36 is directed to be aligned with the extending direction of the groove 35, meanwhile, a bidirectional rotating worm 37 is installed on an output shaft of the rotating motor 36, the bidirectional rotating worm 37 has two opposite worm thread portions, the two worm thread portions are symmetrically formed on the bidirectional rotating worm 37 and are located at a position just at the installation port 1, after the rotating motor 36 rotates, the two rotating worm wheels 33 can be respectively engaged with the two opposite worm thread portions of the bidirectional rotating worm 37 along with the driving of the driving motor 213 on the lighting panel 22, and the lighting panel 22 is driven to rotate along with the rotation of the rotating worm wheel 33 after the engagement, be fixed with the spacing strip 23 of second on this installation frame 11, can make plane skylight 22 only can swing towards a direction to when plane skylight 22 needs to reset, can make plane skylight 22 rotate the back through the spacing strip 23 of second betterly and can paste mutually with the spacing strip 23 of second, and then make plane skylight 22 reset in inner chamber 2.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment as required without contribution after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (8)

1. A building light directing structure, comprising:

the mounting opening (1) is arranged on the wall in a penetrating way;

a mounting frame (11) arranged on the mounting opening (1);

an inner cavity (2) which is arranged in the wall body along the horizontal direction and penetrates through two side walls of the mounting frame (11);

and a closing assembly arranged in the inner chamber (2),

wherein the containment assembly comprises: a sliding chute (21) extending along the extension direction of the inner cavity (2) and fixed at the position of the top wall of the inner cavity (2) and the top wall of the mounting frame (11); two daylighting panels (22) which are connected to the sliding grooves (21) in a sliding manner; and a first adjusting piece which is arranged in the inner cavity (2) and is used for driving the daylighting panel (22) to displace along the extending direction of the sliding chute (21).

2. A building light directing structure according to claim 1, wherein the first adjustment member comprises: a fixing frame (211) which is sleeved and fixed around the daylighting panel (22); a sliding strip (212) which is arranged at the top of the fixed frame (211) and is connected in the sliding groove (21) in a sliding way; the driving piece is arranged in the inner cavity (2) and used for driving the daylighting panel (22) to move in the horizontal direction; and the second adjusting piece is arranged at one end of the fixed frame (211) close to the driving piece.

3. A building light guide according to claim 2, wherein the drive member comprises: the driving motor (213) is fixed on the side wall of the inner cavity (2) on one side and is positioned in the sliding groove (21); and one end of the bidirectional threaded rod (214) is rotatably connected to the side wall of the inner cavity (2) on the other side and is assembled with the driving motor (213), the bidirectional threaded rod (214) is provided with two opposite threaded parts, and the sliding strips (212) on the two daylighting panels (22) are respectively in threaded connection with the opposite threaded parts of the bidirectional threaded rod (214).

4. A building light directing structure according to claim 2, wherein the second adjustment member comprises: the two sliding grooves (31) extend along the extension direction of the inner cavity (2) and are formed in the bottom wall of the inner cavity (2) and the bottom wall of the mounting frame (11); a sliding block (32) which is arranged at the bottom of the fixed frame (211) and is connected in the sliding groove (31) in a sliding way; a rotating worm wheel (33) sleeved and fixed between the sliding block (32) and the mounting frame (11); a rotating shaft (34) with one end rotatably connected in the sliding block (32) and the other end rotatably connected to the bottom of the sliding strip (212) and penetrating through the rotating worm wheel (33) and the mounting frame (11); and a rotating member disposed in the sliding groove (31) and configured to rotate the plane skylight (22).

5. A building light guide structure according to claim 4, wherein the rotation member comprises: the groove (35) is consistent with the extending direction of the sliding groove (31) and is formed in the position of the side wall of the sliding groove (31); a rotating motor (36) mounted in the recess (35); and the two-way rotating worm (37) is connected to the side wall of the inner cavity (2) on the other side in a rotating mode and assembled with the rotating motor (36), the two-way rotating worm (37) is provided with two opposite worm thread parts, the two worm thread parts are arranged on the two-way rotating worm (37) and located at the position of the mounting port (1), and the two rotating worm wheels (33) are respectively meshed with the two opposite worm thread parts of the two-way rotating worm (37).

6. A building light guide according to claim 4, wherein a first stop strip (38) is fixed to the sliding groove (31).

7. A construction lighting guide according to claim 2, wherein said chute (21) is an arc-shaped chute and said slide (212) is an arc-shaped strip matching said chute (21).

8. A construction light guiding structure according to claim 1, wherein a second stop strip (23) is fixed to the mounting frame (11).

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