CN212054315U - Outward-pushing type lighting window - Google Patents

Abstract

The utility model discloses an outward-pushing type lighting window, which comprises a frame body, a light-permeable window door and at least one hinge assembly; the window door is matched with the inner ring of the frame body, an accommodating cavity is formed between one side of the window door and the corresponding inner side of the frame body, the hinge assembly is arranged in the accommodating cavity and is respectively connected with the window door and the frame body, and the window door can be opened and closed relative to the frame body through the hinge assembly in a rotating mode. The utility model discloses an extrapolation formula daylighting window installs the hinge subassembly in the holding intracavity that forms between framework inboard and window door side, forms interior concealed hinge, does not expose in the outside of daylighting window, is difficult for receiving erosion and destruction, reduces or has avoided the window door to open and form the clearance between the framework, and effective waterproof rain-proof need not additionally set up the rain eaves.

Description

Outward-pushing type lighting window

Technical Field

The utility model relates to a lighting window especially relates to an extrapolation formula lighting window.

Background

Most of the existing lighting windows in the shelter field in the market are fixed windows, left and right sliding windows, upper and lower vertical sliding windows or external hinge outward-pushing windows, and the windows respectively have advantages and disadvantages. The fixed window is large in light transmission area, simple and reliable, but cannot be opened, cannot ventilate and is inconvenient to escape. The left-right/up-down sliding window can be opened for ventilation but is not rain-proof. The external hinge outwards-pushing window can effectively prevent rainwater when a rain eave is added, but the external hinge is exposed outside and is easily corroded and damaged, and the invisible performance of the shelter due to the fact that irregular bulges on the outer surface of the shelter are increased, and the external hinge outwards-pushing window is not attractive. In addition, many of the existing lighting windows do not have an electromagnetic shielding function.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to provide an outer push type daylighting window for shelter that hinge is built-in.

The utility model provides a technical scheme that its technical problem adopted is: providing an out-pushing lighting window for a shelter, the out-pushing lighting window comprising a frame, a light permeable window door, and at least one hinge assembly; the window door is matched with the inner ring of the frame body, an accommodating cavity is formed between one side of the window door and the corresponding inner side of the frame body, the hinge assembly is arranged in the accommodating cavity and is respectively connected with the window door and the frame body, and the window door can be opened and closed relative to the frame body through the hinge assembly in a rotating mode.

Preferably, the hinge assembly comprises a hinge base and a tongue rotatably connected to the hinge base;

the hinge base is fixed on the inner side of the frame body through a first fastener, and the tongue piece is fixedly connected with one side of the window through a second fastener.

Preferably, each inner side of the frame body is provided with a protruding positioning frame strip, and the positioning frame strips are sequentially connected to form an annular positioning frame; a first sealing rubber strip is arranged on one side, facing the window and the door, of the positioning frame;

and a second sealing rubber strip which is matched and compressed with the first sealing rubber strip is arranged on one surface of the window door, which faces the positioning frame.

Preferably, the out-pushing type lighting window further comprises at least one locking assembly for locking the window door in the frame;

the locking assembly comprises a handle and a bolt, wherein the handle is rotatably arranged on one surface, facing the positioning frame, of the window door, the bolt is connected to the handle and can be matched with one side, facing away from the window door, of the positioning frame.

Preferably, the window and door includes opposite top and bottom sides, and two opposite side edges respectively connected between the top and bottom sides;

the accommodating cavity is formed between the top side of the window and the inner side of the top of the frame body;

the locking assembly is arranged on one surface of the window door, which faces the positioning frame, close to the bottom side of the window door.

Preferably, the window and door comprises a window frame arranged corresponding to the inner ring of the frame body and at least one piece of light-transmitting glass installed in the window frame.

Preferably, the light-transmitting glass is tempered glass or shielding glass.

Preferably, the window and door further comprises a pressing plate frame which is arranged on one surface of the window frame facing the frame body and is pressed on the light-transmitting glass.

Preferably, the extrapolation lighting window further comprises at least one strut assembly;

one end of the stay bar assembly is rotatably connected to an inner side of the frame body, and the other opposite end is rotatably connected to a surface of the window door facing the frame body.

Preferably, the strut assembly is a pneumatic strut.

The utility model discloses an extrapolation formula daylighting window installs the hinge subassembly in the holding intracavity that forms between framework inboard and window door side, forms interior concealed hinge, does not expose in the outside of daylighting window, is difficult for receiving erosion and destruction, reduces or has avoided the window door to open and form the clearance between the framework, and effective waterproof rain-proof need not additionally set up the rain eaves.

In addition, the transparent glass on the window door is set as the shielding glass, so that the lighting window has the electromagnetic shielding function.

Drawings

The invention will be further explained with reference to the drawings and examples, wherein:

fig. 1 is a schematic perspective view of an external pushing type lighting window according to an embodiment of the present invention in an open state;

fig. 2 is a schematic cross-sectional structure view of the push-out type lighting window shown in fig. 1;

fig. 3 is a schematic cross-sectional structure diagram of an external pushing type lighting window in a closed state according to an embodiment of the present invention.

Fig. 4 is a schematic structural view of a hinge assembly in an external pushing type lighting window according to an embodiment of the present invention.

Detailed Description

In order to clearly understand the technical features, objects, and effects of the present invention, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in fig. 1 to 3, an external-push type lighting window according to an embodiment of the present invention is used for a shelter, and includes a frame body 10, a light-permeable window door 20, and at least one hinge assembly 30. The window 20 is fitted to the inner ring of the frame 10, a receiving cavity 100 is formed between one side of the window 20 and a corresponding inner side of the frame 10, the hinge assembly 30 is disposed in the receiving cavity 100 and respectively connected to the window 20 and the frame 10, and the window 20 is rotatably opened and closed relative to the frame 10 by the hinge assembly 30.

Since the accommodating cavity 100 is formed between the window 20 and the mating side of the frame 10 and is not exposed outside the frame 10 or the window 20, the hinge assembly 30 is not exposed outside the frame 10 or the window 20 in the accommodating cavity 100, so that the appearance of the lighting window is ensured, and meanwhile, the lighting window is prevented from being corroded or damaged by rainwater and the like, and the stealth performance and the aesthetic property of the shelter are ensured.

Specifically, the periphery of the frame body 10 corresponds to a reserved hole on a deck of the shelter, and the lighting window is matched in the reserved hole through the frame body 10 and further riveted and fixed. The frame body 10 may be formed by a plurality of aluminum profiles.

Each inner side of the frame 10 is provided with a protruding positioning frame strip, and all the positioning frame strips on the inner sides are connected in sequence to form an annular positioning frame 11. The positioning frame 11 can divide the inner ring space of the frame 10 into two spaces, namely an outward space and an inward space, the window 20 can be matched in the outward space in an opening and closing way, and the positioning frame 11 can abut against one surface of the window 20 to limit the window 20 in a closed position.

In order to increase the sealing performance when the lighting window is closed, a first sealing rubber strip 61 is arranged on one side of the positioning frame 11 facing the window door 20. Correspondingly, a second sealing rubber strip 62 is arranged on one surface of the window and door 20 facing the positioning frame 11, and the second sealing rubber strip 62 is matched and pressed with the first sealing rubber strip 61, so that the matched part between the window and door 20 and the frame body 10 can be sealed.

The outer peripheral shape of the window 20 is set to correspond to the inner peripheral shape of the frame 10. In this embodiment, the frame 10 is a rectangular frame, and the window 20 is a rectangular window. For a rectangular window 20, the window 20 includes opposing top and bottom sides, and opposing side edges respectively connected between the top and bottom sides. The receiving chamber 100 is formed between the top side of the window and door 20 and the inside of the top of the frame 10; the hinge assembly 30 is connected to the top side of the window and door 20 and the inside of the top of the frame body 10, respectively.

The window and door 20 may further include a window frame 21 disposed corresponding to an inner circumference of the frame 10, and at least one light-transmitting glass 22 installed in the window frame 21. The window frame 21 may be formed by a plurality of aluminum profiles. The second joint sealant 62 is disposed on a surface of the window frame 21 facing the positioning frame 11. The peripheral edge of the light-transmitting glass 22 may be adhered to the window frame 21 by glue or adhesive tape or the like.

In this embodiment, the window and door 20 includes two transparent glasses 22, one fitted in one surface of the window frame 21 facing the frame 10 and the other fitted in the other surface of the window frame 21 facing away from the frame 10. A closed space is formed between the two light-transmitting glasses 22.

The light-transmitting glass 22 may be tempered glass mainly used for light transmission according to the functional requirements of the lighting window; the transparent glass 22 may also be a shielding glass having an electromagnetic shielding function. In addition, the second joint sealant 62 may be replaced with a shielding wire mesh when electromagnetic shielding is required.

Further, the window and door 20 further includes a pressing plate frame 23 disposed on a side of the window frame 21 facing the frame 10, and the pressing plate frame 23 is used for pressing against the transparent glass 22 to achieve a stabilizing effect. For two light-transmitting glasses 22, the pressing frame 23 is pressed against the edge of one light-transmitting glass 22 close to the frame 10.

As shown in fig. 4, the hinge assembly 30 may include a hinge base 31 and a tongue 32 rotatably coupled to the hinge base 31. The rotatable connection between the tongue 32 and the hinge base 31 may be achieved by a shaft and shaft hole fit.

Referring to fig. 2 to 4, the hinge base 31 is fixed to the inner side of the frame 10 by a first fastening member such as a screw, etc., and the tongue piece 32 is fixedly coupled to one side of the window and door 20 by a second fastening member such as a screw, etc.

Preferably, the hinge base 31 can abut against the inside of the top of the frame 10 through the top surface thereof, and the first fastener can penetrate into the hinge base 31 through the top of the frame 10 to lock the hinge base 31 on the inside of the top of the frame 10. Because the first fastening piece penetrates into the frame body 10 from the top of the frame body, but not from any surface of two opposite surfaces of the frame body 10, after the lighting window is installed on the shelter, the first fastening piece is not exposed outside the lighting window, and no bulge is formed on the outside of the lighting window and the outer surface of the shelter, so that the stealth performance and the aesthetic property of the shelter are ensured.

One end of the tongue piece 32 is rotatably connected to the hinge base 31, and the other end is bent and arranged opposite to the hinge base and one surface of the end is matched with the surface of the top side of the window and door 20, and a second fastening piece is sequentially penetrated into the tongue piece 32 and the top side of the window and door 20 to lock the tongue piece 32 on the top side of the window and door 10.

The rotatable connection of the tongue 32 to the hinge base 31 allows the door 20 to rotate 0-90 deg. relative to the frame 10. As shown in fig. 2, when the window 20 is opened from the frame 10 by the tongue piece 32 rotating relative to the hinge base 31, the angle between the window 20 and the frame 10 may be 90 ° at the maximum. As shown in fig. 3, when the window and door 20 is closed on the frame 10, the angle between the two is 0 °.

Further, referring to fig. 1-3, the out-pushing type lighting window of the present invention further includes at least one stay bar assembly 40, at least one locking assembly 50.

The stay bar assembly 40 is used to support the window and door 20. The brace assembly 40 is pivotally connected at one end to an inner side of the frame 10 and at the opposite end to the surface of the door 20 facing the frame 10. Preferably, the stay bar assembly 40 includes two sets, each of which is connected between the window and door 20 and the inner side of the frame 10 near both side edges of the window and door 20.

On the surface of the window and door 20 facing the frame 10, the stay bar assembly 40 is located on the inner-ring side of the second weather strip 62. The end of the stay bar assembly 40 corresponding to the frame body 10 is connected in the space facing inward of the frame body 10, i.e. on the side of the positioning frame 11 facing away from the window 20, so as not to interfere with the sealing fit of the window 20 on the positioning frame 11.

Alternatively, the stay bar assembly 40 is a pneumatic stay bar, and the opening and closing of the lighting window are controlled.

The locking assembly 50 locks the window 20 in the frame 10, and restricts the rotation of the window 20. The locking assembly 40 is mounted on a side of the window and door 20 facing the positioning frame 11 near a bottom side of the window and door 20.

As shown in fig. 1, in the present embodiment, the locking assembly 40 includes a handle 51 rotatably mounted on a side of the window 20 facing the positioning frame 11, and a latch 52 connected to the handle 51 and engageable with a side of the positioning frame 11 facing away from the window 20.

The latch 52 may be perpendicular to the length of the handle 51 and rotate with the handle 51. When the window and door 20 is closed in the frame 10, the rotating handle 51 drives the bolt 52 to rotate to the side opposite to the window and door 20 and matched with the positioning frame 11, so that the window and door 20 cannot be pushed to open, that is, the window and door 20 is locked in the frame 10; when the handle 51 is rotated in the upward direction to move the latch tongue 52 away from the positioning frame 11 to the bottom side of the parallel window and door 20, the window and door 20 can be pushed to open from the frame 10.

The utility model discloses an during the installation of extrapolation formula daylighting window, can directly adorn on the reservation hole site of cabin board after the daylighting window is whole to be assembled to be fixed in on the cabin board from the inboard riveting of bounding wall frame 12 of 20 one sides of window door through framework 10 dorsad. When the square cabin is used on the square cabin, the light-transmitting and/or electromagnetic shielding function is realized.

The above only is the embodiment of the present invention, not limiting the patent scope of the present invention, all the equivalent structures or equivalent processes that are used in the specification and the attached drawings or directly or indirectly applied to other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. An out-pushing type lighting window for a shelter, the out-pushing type lighting window comprising a frame, a light-permeable window door, and at least one hinge assembly; the window door is matched with the inner ring of the frame body, an accommodating cavity is formed between one side of the window door and the corresponding inner side of the frame body, the hinge assembly is arranged in the accommodating cavity and is respectively connected with the window door and the frame body, and the window door can be opened and closed relative to the frame body through the hinge assembly in a rotating mode.

2. The extrapolation daylight window according to claim 1, wherein the hinge assembly comprises a hinge base and a tongue rotatably connected to the hinge base;

the hinge base is fixed on the inner side of the frame body through a first fastener, and the tongue piece is fixedly connected with one side of the window through a second fastener.

3. The extrapolation daylight window according to claim 1, wherein a protruding positioning frame strip is provided on each inner side of the frame body, and the positioning frame strips are connected in sequence to form an annular positioning frame; a first sealing rubber strip is arranged on one side, facing the window and the door, of the positioning frame;

and a second sealing rubber strip which is matched and compressed with the first sealing rubber strip is arranged on one surface of the window door, which faces the positioning frame.

4. The extrapolation daylight window according to claim 3, further comprising at least one locking assembly locking the window door within the frame;

the locking assembly comprises a handle and a bolt, wherein the handle is rotatably arranged on one surface, facing the positioning frame, of the window door, the bolt is connected to the handle and can be matched with one side, facing away from the window door, of the positioning frame.

5. The extrapolation daylight window according to claim 4, wherein the window door comprises opposite top and bottom sides, two side sides opposite and respectively connected between the top and bottom sides;

the accommodating cavity is formed between the top side of the window and the inner side of the top of the frame body;

the locking assembly is arranged on one surface of the window door, which faces the positioning frame, close to the bottom side of the window door.

6. The extrapolation daylight window according to claim 1, wherein the window door comprises a window frame disposed corresponding to the inner circle of the frame body, at least one light-transmitting glass mounted in the window frame.

7. The extrapolation daylight window according to claim 6, wherein the light-transmitting glass is tempered glass or shielding glass.

8. The extrapolated daylight window of claim 6, wherein the window door further comprises a pressing frame provided on a face of the window frame facing the frame body and pressed against the light-transmitting glass.

9. The extrapolation lighting window according to any one of claims 1-8, wherein the extrapolation lighting window further comprises at least one strut assembly;

one end of the stay bar assembly is rotatably connected to an inner side of the frame body, and the other opposite end is rotatably connected to a surface of the window door facing the frame body.

10. The extrapolated daylight window of claim 9, wherein the strut assembly is a pneumatic strut.

Images