CN220080544U - Skylight subassembly is overturned to passageway suitable for - Google Patents

Abstract

The utility model discloses a turnover skylight assembly suitable for a channel, relates to the technical field of turnover skylight assemblies, and aims to solve the problems that the existing turnover skylight for the channel is mainly formed by turnover of a whole piece of glass, the whole piece of glass cannot be normally used after the whole piece of glass is damaged easily due to the structure, and the replacement cost is high. The upper end and the lower end of the inner part of the outer support frame are movably provided with a first glass frame and a second glass frame, the inner walls of the first glass frame and the second glass frame are provided with glass clamping grooves, and skylight glass is arranged in the glass clamping grooves; further comprises: the first combined installation end is integrally arranged at the lower end of the first glass frame, the second combined installation end is integrally arranged at the upper end of the second glass frame, the magnetic attraction patch is arranged on the outer wall of the second combined installation end, and the second combined installation end is magnetically attracted and fixed with the first combined installation end through the magnetic attraction patch.

Description

Skylight subassembly is overturned to passageway suitable for

Technical Field

The utility model relates to the technical field of turnover skylight components, in particular to a turnover skylight component applicable to a channel.

Background

The turnover skylight is a window structure arranged at the top of a channel, the skylight not only can improve the daylighting degree of the channel, but also can rapidly discharge smoke under the conditions of fire and the like, and the skylight opening mode is usually controlled by electric power, such as motor driving, because the ground clearance of the turnover skylight is higher.

However, most of the existing channel overturning skylights are overturning by using a whole piece of glass, and the whole piece of glass cannot be normally used after the whole piece of glass is damaged easily due to the structure, so that the replacement cost is high; thus, the existing need is not met, for which we propose a sunroof assembly adapted for channel flipping.

Disclosure of Invention

The utility model aims to provide a passageway turnover skylight assembly, which is suitable for solving the problems that the prior passageway turnover skylight assembly provided in the background art is mainly formed by turnover of a whole piece of glass, and the whole piece of glass cannot be normally used after the whole piece of glass is damaged easily due to the structure, so that the replacement cost is high.

In order to achieve the above purpose, the present utility model provides the following technical solutions: a gangway roll-over roof assembly, comprising: the outer support frame is characterized in that a first glass frame and a second glass frame are movably mounted at the upper end and the lower end of the inner part of the outer support frame, glass clamping grooves are formed in the inner walls of the first glass frame and the second glass frame, and skylight glass is arranged in the glass clamping grooves;

further comprises:

the first combined installation end is integrally arranged at the lower end of the first glass frame, the second combined installation end is integrally arranged at the upper end of the second glass frame, the magnetic attraction patch is arranged on the outer wall of the second combined installation end, and the second combined installation end is magnetically attracted and fixed with the first combined installation end through the magnetic attraction patch.

Preferably, the first glass frame and the second glass frame are formed by extrusion and stretching of aluminum alloy.

Preferably, a motor case is fixedly installed on one side of the outer support frame, a device case is fixedly installed on the other side of the outer support frame, and channels are formed between the outer support frame and the motor case and between the outer support frame and the device case.

Preferably, the upper end and the lower end inside the motor box are respectively provided with a driving motor through screws, the output end of the driving motor is provided with a transmission rod, and the driving motor is in transmission connection with the first glass frame and the second glass frame through the transmission rods.

Preferably, driven rods are arranged at the upper end and the lower end of the device box, and one end of each driven rod penetrates through the channel and extends to the first glass frame and the second glass frame.

Preferably, the other end of the driven rod is provided with a limiting end, and the limiting end is fixedly arranged on the inner wall of the device box.

Preferably, a rotating wheel is arranged on the outer wall of the driven rod, an angle scale bar is arranged on the outer wall of the rotating wheel, and a probe is detachably arranged above the rotating wheel through a screw.

Preferably, the storage battery layer is detachably mounted below the outer support frame through screws, a controller is mounted on the outer wall of the storage battery layer, the output end of the controller is electrically connected with the driving motor and the control end of the storage battery layer, and the input end of the controller is electrically connected with the output end of the probe.

Preferably, the controller comprises a wireless transmission module, and the controller is in wireless connection with the user terminal through the wireless transmission module.

Preferably, a sealing strip is adhered to the inner wall of the outer support frame.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the first glass frame, the second glass frame, the first combined mounting end, the second combined mounting end and the magnetic attraction are arranged to achieve the effect of dividing the whole glass into the upper glass and the lower glass, specifically, the first glass frame and the second glass frame are respectively acted on the upper end and the lower end of the outer support frame, when the skylight is closed, the second glass frame is driven by the driving motor to rotate, so that the second glass frame is rotated into the outer support frame first, the first glass frame is then rotated into the outer support frame, the first combined mounting end at the first glass frame can be just combined with the second combined mounting end below, the combined mode is used for carrying out adsorption fixation in a magnetic attraction mode, the tightness between the two glass frames can be improved, the two frames are separated when the skylight is opened conveniently by subsequent rotation, the first glass frame is rotated first, the first combined mounting end and the second combined mounting end are separated by virtue of the rotating force, and after the first glass frame is rotated to a required angle, the second glass frame is rotated again, the first glass frame and the second glass frame are turned over, and the whole glass frame can be replaced, and the whole window can be replaced, and the window is normally when the skylight is opened, and the window is damaged by the window is opened by the window.

2. The aluminum profile is extruded and stretched by adopting aluminum alloy, is convenient to produce, low in production cost, convenient to install, large in glass area and good in light transmittance, and solves the problems that the light transmittance of a channel is affected due to the fact that a traditional channel overturning skylight adopts processes such as sheet metal blanking bending welding and the like, and is high in production cost, and the glass area is small in occupied ratio.

3. The driving motor drives the transmission rod to rotate the two glass frames, the overturning effect of the skylight is realized in a rotating mode, the driving motor is a stepping motor, and the stepping motor is a motor for converting an electric pulse signal into corresponding angular displacement or linear displacement. Every time a pulse signal is input, the rotor rotates an angle or before, the adjustment of different turning angles is convenient, when the driven rod follows the glass frame to be driven, the rotating wheel is driven equally, the position of the scale bar of the angle above will be changed every time the rotating wheel is driven, the probe above can know the turning angle in real time and rotate the change condition, the controller feeds back the monitoring to the controller, the controller feeds back the data to the user terminal through the wireless transmission module, and the user can conveniently adjust the turning angle of the skylight according to the angle data.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a partial structure of a first glass frame according to the present utility model;

FIG. 3 is a schematic view of a partial structure of a second glass frame according to the present utility model;

FIG. 4 is an enlarged view of a portion of the utility model at A;

FIG. 5 is a schematic view of a partial structure of a glass card slot according to the present utility model;

in the figure: 1. an outer support frame; 2. a battery layer; 3. a controller; 4. a first glass frame; 5. skylight glass; 6. a second glass frame; 7. a first combined mounting end; 8. a second combined mounting end; 9. magnetic attraction sticking; 10. a glass clamping groove; 11. a motor case; 12. a device box; 13. a driving motor; 14. a transmission rod; 15. a channel; 16. a driven rod; 17. a rotating wheel; 18. an angle scale bar; 19. a probe; 20. a limiting end; 21. a sealing strip; 22. and a wireless transmission module.

Detailed Description

The following description of the embodiments of the present utility model 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 utility model, but not all embodiments.

Referring to fig. 1-5, an embodiment of the present utility model is provided: a gangway roll-over roof assembly, comprising: the outer support frame 1, the upper and lower both ends inside the outer support frame 1 are movably provided with a first glass frame 4 and a second glass frame 6, the inner walls of the first glass frame 4 and the second glass frame 6 are provided with glass clamping grooves 10, and skylight glass 5 is arranged inside the glass clamping grooves 10;

further comprises:

the first combined installation end 7 is integrally arranged at the lower end of the first glass frame 4, the upper end of the second glass frame 6 is integrally provided with a second combined installation end 8, the outer wall of the second combined installation end 8 is provided with a magnetic attraction patch 9, and the second combined installation end 8 is magnetically attracted and fixed with the first combined installation end 7 through the magnetic attraction patch 9;

the first glass frame 4 and the second glass frame 6 are formed by extrusion and stretching of aluminum alloy;

through setting up first glass frame 4, second glass frame 6, first combination installation end 7, second combination installation end 8, the magnetism is inhaled and is pasted 9 and play the effect of dividing into two upper and lower glasses with monoblock glass, specifically, first glass frame 4 and second glass frame 6 are respectively used in the upper and lower both ends of outer braced frame 1, when the skylight is closed, second glass frame 6 is driven by driving motor 13 department and rotates, make second glass frame 6 rotate first to in the outer braced frame 1, rotate to in the outer braced frame 1 after the first glass frame 4, make the first combination installation end 7 of first glass frame 4 department can just in combination with the second combination installation end 8 of below, the combination mode is inhaled through the magnetism and is pasted 9 and adsorb fixedly, not only can improve the compactness between two glass frames, still make things convenient for follow-up rotation open the skylight with two frames separate, when opening, first glass frame 4 is rotated first by the rotation power, rely on first combination installation end 7 and second combination installation end 8 separation, it can be broken to change the window frame after the first glass frame 4 to the required rotation angle, the two can be changed normally, the window can be changed, the window can be broken down, the two is opened down, the window is opened through the change the window is opened, the cost is changed, and the window is changed.

Referring to fig. 1, a motor case 11 is fixedly installed on one side of an outer support frame 1, a device case 12 is fixedly installed on the other side of the outer support frame 1, channels 15 are respectively provided between the outer support frame 1 and the motor case 11 and between the outer support frame 1 and the device case 12, and the motor case 11 and the device case 12 are installed on two sides to facilitate subsequent overhaul and maintenance of a user.

Referring to fig. 1, driving motors 13 are mounted at the upper and lower ends of the inside of the motor box 11 through screws, transmission rods 14 are arranged at the output ends of the driving motors 13, the driving motors 13 are in transmission connection with the first glass frame 4 and the second glass frame 6 through the transmission rods 14, the driving motors 13 drive the transmission rods 14 to rotate the two glass frames, the skylight overturning effect is achieved in a rotating mode, the driving motors 13 are stepping motors, and the stepping motors are motors for converting electric pulse signals into corresponding angular displacement or linear displacement. And when a pulse signal is input, the rotor rotates by an angle or further, so that different overturning angle adjustment is convenient.

Referring to fig. 1 and 4, driven rods 16 are disposed at the upper and lower ends of the inside of the device box 12, and one end of each driven rod 16 penetrates through the channel 15 and extends to the first glass frame 4 and the second glass frame 6, and the driven rods 16 play a role in supporting the other side of the glass frames, so that the overturning process is more stable and firm.

Referring to fig. 1 and 4, the other end of the driven rod 16 is provided with a limiting end 20, and the limiting end 20 is fixedly arranged on the inner wall of the device box 12, and the limiting end 20 has the effect of supporting and fixing.

Referring to fig. 1 and 4, a rotating wheel 17 is installed on the outer wall of a driven rod 16, an angle scale bar 18 is arranged on the outer wall of the rotating wheel 17, a probe 19 is detachably installed above the rotating wheel 17 through a screw, when the driven rod 16 follows a glass frame to be driven, the rotating wheel 17 is driven as well, the position of the angle scale bar 18 above is changed every time the rotating wheel 17 is driven, so that the probe 19 above can know the turning angle change condition in real time, and the monitoring feedback is carried out to the controller 3.

Referring to fig. 1, a storage battery layer 2 is detachably mounted below an outer support frame 1 through screws, a controller 3 is mounted on the outer wall of the storage battery layer 2, the output end of the controller 3 is electrically connected with a driving motor 13 and the control end of the storage battery layer 2, the input end of the controller 3 is electrically connected with the output end of a probe 19, the storage battery layer 2 is used for placing a storage battery for supplying power, and the controller 3 has the effect of controlling the opening and closing of the storage battery power supply and the opening and closing of the driving motor 13.

Referring to fig. 1, the controller 3 includes a wireless transmission module 22 inside, and the controller 3 is wirelessly connected with a user terminal through the wireless transmission module 22, and the controller 3 feeds data back to the user terminal through the wireless transmission module 22, so that a user can conveniently adjust the turning angle of the skylight according to the angle data.

Referring to fig. 1, a sealing strip 21 is adhered to the inner wall of the outer support frame 1, and the sealing strip 21 has an effect of enhancing tightness at the inner wall of the outer support frame 1.

Working principle: when the skylight is closed, the second glass frame 6 is driven by the driving motor 13 to rotate, so that the second glass frame 6 rotates into the outer supporting frame 1 firstly, the first glass frame 4 rotates into the outer supporting frame 1 afterwards, the first combined installation end 7 at the first glass frame 4 can be just combined with the second combined installation end 8 at the lower part, the combined mode is adsorbed and fixed in a magnetic attraction mode through the magnetic attraction and adhesion 9, the tightness between the two glass frames can be improved, the two frames are separated when the skylight is opened conveniently by subsequent rotation, the first glass frame 4 rotates firstly when the skylight is opened, the first combined installation end 7 is separated from the second combined installation end 8 by virtue of the rotating force, the second glass frame 6 rotates again after the first glass frame 4 rotates to a required angle, the two glass frames can be normally turned over and opened, the driving motor 13 drives the transmission rod 14 to rotate, the two glass frames are turned over by the rotating mode, the skylight is realized by the rotating effect, the driving motor 13 is a stepping motor, and the stepping motor converts an electric pulse signal into corresponding angular displacement or linear displacement. Every time a pulse signal is input, the rotor rotates an angle or is further before, different turning angle adjustment is convenient, when the driven rod 16 follows the glass frame to be driven, the rotating wheel 17 is driven equally, the position of the upper angle scale bar 18 can be changed after the rotating wheel 17 is driven each time, the upper probe 19 can know the turning angle rotation change condition in real time, the monitoring feedback is carried out to the controller 3, the controller 3 feeds data back to a user terminal through the wireless transmission module 22, and a user can conveniently adjust the turning angle of the skylight according to angle data.

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

Claims (10)

1. The utility model provides a be applicable to passageway upset skylight subassembly, includes outer braced frame (1), the inside upper and lower both ends of outer braced frame (1) are all movable mounting has first glass frame (4) and second glass frame (6), the inner wall of first glass frame (4) and second glass frame (6) all is provided with glass draw-in groove (10), skylight glass (5) have been installed to the inside of glass draw-in groove (10);

the method is characterized in that: further comprises:

the first combined installation end (7) is integrally arranged at the lower end of the first glass frame (4), the upper end of the second glass frame (6) is integrally provided with the second combined installation end (8), the outer wall of the second combined installation end (8) is provided with the magnetic attraction patch (9), and the second combined installation end (8) is magnetically attracted and fixed with the first combined installation end (7) through the magnetic attraction patch (9).

2. A sunroof assembly according to claim 1, wherein: the first glass frame (4) and the second glass frame (6) are formed by extrusion and stretching of aluminum alloy.

3. A sunroof assembly according to claim 1, wherein: one side of the outer support frame (1) is fixedly provided with a motor box (11), the other side of the outer support frame (1) is fixedly provided with a device box (12), and channels (15) are formed between the outer support frame (1) and the motor box (11) and between the outer support frame and the device box (12).

4. A roof window assembly adapted for use in a channel-turning roof window assembly as set forth in claim 3, wherein: the driving motor (13) is mounted at the upper end and the lower end inside the motor box (11) through screws, a transmission rod (14) is arranged at the output end of the driving motor (13), and the driving motor (13) is in transmission connection with the first glass frame (4) and the second glass frame (6) through the transmission rod (14).

5. A roof window assembly adapted for use in a tunnel rollover as defined in claim 4, wherein: driven rods (16) are arranged at the upper end and the lower end of the inside of the device box (12), and one end of each driven rod (16) penetrates through the corresponding channel (15) and extends to the first glass frame (4) and the second glass frame (6).

6. A roof window assembly adapted for use in a tunnel rollover as set forth in claim 5, wherein: the other end of the driven rod (16) is provided with a limiting end (20), and the limiting end (20) is fixedly arranged on the inner wall of the device box (12).

7. A roof window assembly adapted for use in a tunnel rollover as defined in claim 6, wherein: the outer wall of the driven rod (16) is provided with a rotating wheel (17), the outer wall of the rotating wheel (17) is provided with an angle scale bar (18), and a probe (19) is detachably arranged above the rotating wheel (17) through a screw.

8. A roof window assembly adapted for use in a tunnel rollover as defined in claim 7, wherein: the utility model discloses a battery pack, including outer braced frame (1), battery layer (2) are installed through the screw detachably to the below, install controller (3) on the outer wall of battery layer (2), and the output and driving motor (13) of controller (3), the control end electric connection of battery layer (2), the input and the output electric connection of probe (19) of controller (3).

9. A roof window assembly adapted for use in a tunnel roll-over as set forth in claim 8 wherein: the controller (3) comprises a wireless transmission module (22) inside, and the controller (3) is in wireless connection with the user terminal through the wireless transmission module (22).

10. A sunroof assembly according to claim 1, wherein: the inner wall of the outer support frame (1) is adhered with a sealing strip (21).