CN218205280U - Skylight structure of green building - Google Patents

Abstract

The utility model relates to a green building technical field specifically discloses a skylight structure of green building, including fixing the carriage on the green building roof, the skylight frame, the plane skylight, two guide unit, sealed frame and four electronic hydraulic push rod, the plane skylight is fixed on the skylight frame internal surface, four electronic hydraulic push rod are fixed respectively on the double-phase internal face of carriage, the free end of four electronic hydraulic push rod of skylight frame fixed connection, and the seal groove has been seted up, sealed frame is fixed in the seal groove, and butt carriage top surface, guide unit includes stand pipe and guide bar, stand pipe and guide bar all are the cuboid form, two stand pipes are fixed respectively on the double-phase internal face of carriage, two guide bars are all fixed on the skylight frame bottom surface, and slide respectively in two stand pipes, the utility model provides an among the prior art staff is not convenient for promoting a problem of the casement subassembly of skylight structure of green building when the roof of green building is higher.

Description

Skylight structure of green building

Technical Field

The application relates to the technical field of green buildings, and particularly discloses a skylight structure of a green building.

Background

In the prior art, as disclosed in CN215802724U, a skylight structure of a green building includes a baffle plate, a stay bar, a window frame, and a window sash assembly, where the baffle plate is fixedly connected to the top of the window sash assembly, the baffle plate can block rainwater above the structure, the window sash assembly is rotatably connected to the window frame, the stay bar is rotatably connected to the window frame, the window sash assembly includes a protective net, a glass layer, a glass heat-insulating film, and a connecting frame, and the protective net, the glass layer, and the glass heat-insulating film are sequentially embedded into the connecting frame from outside to inside.

Above-mentioned skylight structure of this kind of green building when the roof of green building is higher, the staff can not direct contact casement subassembly to it is not very convenient to lead to the staff to promote the process that the inside ventilation of green building was realized to the casement subassembly.

The present invention provides a green building window structure, so as to solve the above-mentioned problem that it is inconvenient for a worker to push a sash assembly of a green building window structure when a roof of the green building is high.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a skylight structure of green building to solve among the prior art when the roof of green building is higher the staff be not convenient for promote the problem of the casement subassembly of skylight structure of green building.

In order to achieve the above object, the utility model discloses a basic scheme provides a skylight structure of green building: including fixing the carriage on green building roof, the skylight frame, the plane skylight, two guide unit, the electronic hydraulic push rod of external skylight control unit is connected to sealed frame and four equal electricity, the plane skylight is fixed on skylight frame internal surface, four electronic hydraulic push rods are fixed respectively on the double-phase internal side of carriage, the free end of four electronic hydraulic push rod of skylight frame fixed connection, and the seal groove has been seted up, sealed frame is fixed in the seal groove, and butt carriage top surface, guide unit includes stand pipe and guide bar, stand pipe and guide bar all are the cuboid form, two stand pipes are fixed respectively on the double-phase internal side of carriage, two guide bars are all fixed on the skylight frame bottom surface, and slide respectively in two stand pipes.

Compared with the prior art, the utility model discloses an effect: when the skylight frame needs to be pushed, an operator starts the external control unit firstly, the external skylight control unit controls the four electric hydraulic push rods to act simultaneously, the free ends of the four electric hydraulic push rods push the skylight frame, the sealing frame and the daylighting panel to move upwards together, the skylight frame can drive the two guide rods to move upwards together, the two guide rods can slide in the two guide pipes until the skylight frame reaches a preset position, the skylight frame is far away from the supporting frame, ventilation inside a green building can be realized, and the external skylight control unit can be arranged in a place which can be contacted by the operator inside the green building; adopt sealed frame to seal between can sealing up support frame and the skylight frame top surface, avoid the rainwater to get into the support frame from between skylight frame and the support frame top surface, improved the leakproofness of support frame.

Further, the motor shading device further comprises a shading mechanism, the shading mechanism comprises a shading frame, a shading unit, a pull rope and a power unit electrically connected with an external motor control unit, the shading unit comprises two shading seats, a shading shaft and a shading plate, the shading frame is fixed on the inner surface of the supporting frame, the two shading seats are fixed on the bottom surface of the shading frame, the shading shaft is fixedly connected with the two shading seats, the shading plate is rotatably connected with the shading shaft, the power unit is fixed on the top surface of the shading frame, one end of the pull rope is fixedly connected with the power unit, and the other end of the pull rope penetrates through the shading frame and is fixed on the top surface of the shading plate to be far away from one end of the shading shaft.

Compared with the prior art, the utility model discloses an effect: the light shading frame can support two light shading seats, the rotation of the light shading plate can be facilitated by the two light shading seats and the light shading shaft, the light shading plate can shade light passing through the light shading plate, the comfort of people inside a green building is improved, the pull rope and the power unit can control the rotation of the light shading plate, and the practicability of the light shading unit is improved.

Furthermore, the power unit comprises a power motor, a power shaft, two retaining rings and two power seats, wherein the power motor, the power shaft, the two retaining rings and the two power seats are electrically connected with the external control unit, the power motor and the two power seats are fixed on the top surface of the shading frame, one end of the power shaft is fixedly connected with a motor shaft of the power motor, the other end of the power shaft is rotatably connected with the two power seats, the two retaining rings are fixed on the power shaft and are arranged between the two power seats, and the pull rope is fixed and wound on the power shaft.

Compared with the prior art, the utility model discloses an effect: the power motor can provide power for the rotation of the light screen, the practicability of the power unit is guaranteed, the power shaft can be wound or the stay cord can be released, the practicability of the stay cord is guaranteed, the stay cord on the power shaft can be limited by the two retaining rings, and the power shaft can be supported by the two power seats.

Further, the number of the power units and the pull ropes is two.

Compared with the prior art, the utility model discloses an effect: the quantity of power pack and stay cord is two, can increase the power of rotating the light screen, has reduced the pulling force that single stay cord received, has increased the life of stay cord.

Furthermore, the power unit also comprises a stopping part, the stopping part comprises a stopping electric push rod, a stopping disc and a stopping block, the stopping electric push rod, the stopping disc and the stopping block are electrically connected with the external stopping control unit, the stopping disc is fixed at one end, away from the two power seats, of the power shaft, a stopping hole is formed in the side face of the power shaft, the stopping electric push rod is fixed on the top face of the shading frame, the stopping block is fixed at the free end of the stopping electric push rod and slides in the stopping hole, and the stopping block abuts against the surface of the stopping hole.

Compared with the prior art, the utility model discloses an effect: the locking electric push rod can push the stop block, the practicability of the stop block is guaranteed, the stop block and the stop disc can fix the power shaft, and the stability of the position of the power shaft is improved.

Further, shading mechanism still includes buffering frame and heated board, and the buffering frame is fixed on the light screen top surface, and butt light screen bottom surface, and the heated board is fixed on the light screen bottom surface.

Compared with the prior art, the utility model discloses an effect: the buffering frame is fixed on the shading plate top surface, can reduce the impact force when the shading frame receives the light screen rotation, has increased the life of light screen, and the heated board can keep warm to green building, has improved the heat insulating ability and the energy-conservation nature of green building.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a front view of a skylight structure of a green building in the present invention;

FIG. 2 is a cross-sectional view of FIG. 1;

FIG. 3 is a schematic diagram of the power unit of FIG. 2;

fig. 4 is a schematic structural view of the guide tube in fig. 2.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The following is further detailed by the specific embodiments:

reference numerals in the drawings of the specification include: the structure comprises a supporting frame 1, a skylight frame 2, a sealing frame 3, a heat-insulation plate 4, a light screen 5, a buffering frame 6, a light-shielding frame 7, an electric hydraulic push rod 8, a daylighting panel 9, a guide pipe 10, a power motor 11, a power seat 12, a power shaft 13, a pull rope 14, a stop disk 15, a stop electric push rod 16 and a stop block 17.

The first embodiment is as follows:

the utility model discloses a concrete implementation process: the utility model provides a skylight structure of green building, as shown in fig. 1, fig. 2 and fig. 4, including fixing the carriage 1 on the green building roof, skylight frame 2, daylighting panel 9, two guide unit, sealed frame 3 and four equal electric connection external skylight control unit's electronic hydraulic push rod 8, daylighting panel 9 is fixed on 2 internal surfaces of skylight frame, four electronic hydraulic push rod 8 are fixed respectively on the two-phase internal face of carriage 1, skylight frame 2 fixed connection four electronic hydraulic push rod 8's free end, and set up the seal groove, sealed frame 3 is fixed in the seal groove, and butt carriage 1 top surface, guide unit includes stand pipe 10 and guide bar, stand pipe 10 and guide bar all are the cuboid form, two stand pipe 10 are fixed respectively on the two-phase internal face of carriage 1, two guide bar are all fixed on skylight frame 2 bottom surface, and slide respectively in two stand pipe 10.

When the skylight frame 2 is to be pushed, an operator starts the external control unit first, the external skylight control unit controls four electric hydraulic push rods 8 to act simultaneously, the free ends of the four electric hydraulic push rods 8 push the skylight frame 2, the sealing frame 3 and the lighting plate 9 to move upwards together, the skylight frame 2 can drive two guide rods to move upwards together, the two guide rods can slide in the two guide pipes 10 until the skylight frame 2 reaches a preset position, the skylight frame 2 can be far away from the supporting frame 1, ventilation inside a green building can be realized, the external skylight control unit can be installed at a place where the operator inside the green building can contact, the external skylight control unit can be a circuit switch for controlling the four electric hydraulic push rods 8 to act, the external skylight control unit can also control the four electric hydraulic push rods 8 to drive the skylight frame 2, the sealing frame 3 and the lighting plate 9 to move downwards together, until the sealing frame 3 abuts against the top surface of the supporting frame 1, the four electric hydraulic push rods 8 are used as an external power supply, the lighting plate 9 can be made of glass, and the sealing frame 3 can be made of butyl rubber.

Example two:

the difference from the first embodiment is that:

the utility model provides a skylight structure of green building, as shown in fig. 2, still include light-shading mechanism, light-shading mechanism includes shading frame 7, the shading unit, stay cord 14 and the power pack of the external motor control unit of electricity connection, the shading unit includes two shading seats, shading axle and light screen 5, shading frame 7 is fixed on the 1 internal surface of carriage, two shading seats are all fixed on shading frame 7 bottom surface, two shading seats of shading axle fixed connection, light screen 5 rotates to connect and hides the optical axis, power pack fixes on shading frame 7 top surface, 14 one end fixed connection power pack of stay cord, the other end passes shading frame 7 and fixes and keeps away from shading axle one at light screen 5 top surface and serve.

When will shelter from the light, the staff operates external motor control unit, external motor control unit control power constantly twines stay cord 14, stay cord 14 length between 7 bottom surfaces of light-shielding frame and the 5 top surfaces of light screen is constantly diminishing, stay cord 14 can stimulate light screen 5 to surround and shelter from the light axis and upwards rotate, until light screen 5 rotates preset position department, can operate external motor control unit control power unit action, then light screen 5 can be parallel and light-shielding frame 7 bottom surfaces, external motor control unit can also operate power unit release stay cord 14, let light screen 5 under the effect of gravity perpendicular and light-shielding frame 7 bottom surfaces.

As shown in fig. 2 and fig. 3, the power unit includes a power motor 11 electrically connected to an external motor control unit, a power shaft 13, two stop rings and two power seats 12, the power motor 11 and the two power seats 12 are both fixed on the top surface of the light-shielding frame 7, one end of the power shaft 13 is fixedly connected to a motor shaft of the power motor 11, the other end of the power shaft is rotatably connected to the two power seats 12, the two stop rings are both fixed on the power shaft 13 and are both between the two power seats 12, and a pull rope 14 is fixed and wound on the power shaft 13.

When winding stay cord 14, the staff operates external motor control unit, and external motor control unit can the starter motor clockwise rotation, and power motor 11 can take power shaft 13 and two to keep off the ring and rotate clockwise together, and power shaft 13 begins to wind stay cord 14 simultaneously, and the staff operates external motor control unit and controls power motor 11 anticlockwise rotation, then power shaft 13 release stay cord 14, the external power of power motor 11.

The number of power units and pull cords 14 is two.

The quantity of power unit and stay cord 14 is two, can increase the power of rotating light screen 5, has reduced the pulling force that single stay cord 14 received, has increased the life of stay cord 14, and stay cord 14 can be wire rope, and the material of power shaft 13 can be 45 steel.

Example three:

the difference from the second embodiment is that:

a skylight structure of a green building is disclosed, as shown in fig. 2 and fig. 3, a power unit further comprises a stopping part, the stopping part comprises a stopping electric push rod 16, a stopping disc 15 and a stopping block 17, the stopping disc 15 is fixed at one end, far away from two power seats 12, of a power shaft 13, a stopping hole is formed in the side face of the stopping electric push rod, the stopping electric push rod 16 is fixed on the top face of a shading frame 7, the stopping block 17 is fixed at the free end of the stopping electric push rod 16 and slides in the stopping hole, and the stopping block 17 abuts against the surface of the stopping hole.

After the light screen 5 is pulled to a position parallel to the bottom surface of the light screen frame 7 by the pull rope 14, the stop hole is aligned with the stop block 17, a worker operates an external stop control unit to control the stop electric push rod 16 to act, the stop electric push rod 16 pushes the stop block 17 to enter the stop hole, the stop disc 15 is positioned, the power shaft 13, the pull rope 14 and the light screen 5 are positioned by the stop disc 15, and the stop electric push rod 16 is externally connected with a power supply.

Example four:

the difference from the second embodiment is that:

the utility model provides a skylight structure of green building, as shown in fig. 2, light-shading mechanism still includes buffering frame 6 and heated board 4, and buffering frame 6 is fixed on light screen 5 top surface, and butt light-shading frame 7 bottom surface, and heated board 4 is fixed on light screen 5 bottom surface.

Buffering frame 6 is fixed on 5 top surfaces of light screen, can reduce the impact force when light screen 5 rotates received light screen 7, and heated board 4 can keep warm to green building, and the material of buffering frame 6 can be natural rubber, and the material of heated board 4 can be glass fiber.

The utility model provides a skylight structure during operation of green building, the staff starts external control unit earlier, external skylight control unit controls four electric hydraulic push rod 8 simultaneous movement, four electric hydraulic push rod 8 free ends promote skylight frame 2, sealed frame 3 and daylighting panel 9 make progress one end together, skylight frame 2 can take two guide bars to make progress one end together, two guide bars can slide in two stand pipes 10, until skylight frame 2 reachs preset position department, skylight frame 2 can keep away from carriage 1, can realize the inside ventilation of green building, external skylight control unit can install the place that the inside staff of green building can contact, external skylight control unit can be the circuit switch who controls four electric hydraulic push rod 8 actions, external skylight control unit can also control four electric hydraulic push rod 8 and take skylight frame 2, sealed frame 3 and daylighting panel 9 move down together, until sealed frame 3 butt carriage 1 top surface, four electric hydraulic push rod 8 external power supplies, the material of daylighting panel 9 can be glass, the material of sealed frame 3 can be butyl rubber.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (6)

1. The utility model provides a skylight structure of green building which characterized in that: including fixing the carriage on green building roof, the skylight frame, the plane skylight, two guide unit, the electronic hydraulic push rod of external skylight control unit is connected to sealed frame and four equal electricity, the plane skylight is fixed on skylight frame internal surface, four electronic hydraulic push rods are fixed respectively on the double-phase internal side of carriage, the free end of four electronic hydraulic push rod of skylight frame fixed connection, and the seal groove has been seted up, sealed frame is fixed in the seal groove, and butt carriage top surface, guide unit includes stand pipe and guide bar, stand pipe and guide bar all are the cuboid form, two stand pipes are fixed respectively on the double-phase internal side of carriage, two guide bars are all fixed on the skylight frame bottom surface, and slide respectively in two stand pipes.

2. The skylight structure of green buildings according to claim 1, characterized in that: the shading mechanism comprises a shading frame, a shading unit, a pull rope and a power unit electrically connected with an external motor control unit, the shading unit comprises two shading seats, a shading shaft and a shading plate, the shading frame is fixed on the inner surface of the supporting frame, the two shading seats are fixed on the bottom surface of the shading frame, the shading shaft is fixedly connected with the two shading seats, the shading plate is rotatably connected with the shading shaft, the power unit is fixed on the top surface of the shading frame, one end of the pull rope is fixedly connected with the power unit, and the other end of the pull rope penetrates through the shading frame and is fixed on the top surface of the shading plate to be far away from one end of the shading shaft.

3. The skylight structure of green buildings according to claim 2, characterized in that: the power unit comprises a power motor, a power shaft, two retaining rings and two power seats, wherein the power motor, the power shaft, the two retaining rings and the two power seats are electrically connected with an external motor control unit, the power motor and the two power seats are fixed on the top surface of the shading frame, one end of the power shaft is fixedly connected with a motor shaft of the power motor, the other end of the power shaft is rotatably connected with the two power seats, the two retaining rings are fixed on the power shaft and are arranged between the two power seats, and the pull rope is fixed and wound on the power shaft.

4. The sunroof structure of a green building according to claim 3, wherein: the number of the power units and the pull ropes is two.

5. The skylight structure of green buildings according to claim 3, characterized in that: the power unit further comprises a stopping part, the stopping part comprises a stopping electric push rod, a stopping disc and a stopping block, the stopping electric push rod, the stopping disc and the stopping block are electrically connected with the external stopping control unit, the stopping disc is fixed to one end, far away from the two power seats, of the power shaft, a stopping hole is formed in the side face of the stopping disc, the stopping electric push rod is fixed to the top face of the shading frame, the stopping block is fixed to the free end of the stopping electric push rod and slides in the stopping hole, and the stopping block abuts against the surface of the stopping hole.

6. The skylight structure of green buildings according to claim 2, characterized in that: the shading mechanism further comprises a buffering frame and a heat-insulating plate, the buffering frame is fixed to the top surface of the shading plate and abutted to the bottom surface of the shading frame, and the heat-insulating plate is fixed to the bottom surface of the shading plate.

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