CN220395580U - Building external window with ultra-low energy consumption - Google Patents

Abstract

The utility model relates to the technical field of building external windows, in particular to an ultra-low energy consumption building external window, which comprises a window frame, wherein a glass frame is arranged on one side of the window frame, a glass plate is arranged on the glass frame, a cover plate is arranged on the other side of the window frame, and a through groove is formed in the cover plate corresponding to the glass plate; the inside of the window frame is provided with a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are respectively arranged at two ends of the window frame, the first rotating shaft is provided with a piece of sun-shading cloth, the second rotating shaft is provided with a pull rope, and the pull rope is connected with the sun-shading cloth; the bottom of the cover plate is provided with a hand wheel corresponding to the first rotating shaft and the second rotating shaft respectively, and each hand wheel is connected with the corresponding rotating shaft respectively through a transmission assembly; the outside joint of apron has the sunshading board. The sun-shading cloth can be folded and unfolded at any time, the sun-shading plate is convenient to assemble and disassemble, the use and replacement are simple and quick, the heat-insulating layer prevents excessive heat exchange between the window frame and the outside, and the heat-insulating effect of the window is improved.

Description

Building external window with ultra-low energy consumption

Technical Field

The utility model relates to the technical field of building exterior windows, in particular to an ultra-low energy consumption building exterior window.

Background

Energy conservation and environmental protection are the focus of attention in the building field, and the aim of realizing environmental protection and energy conservation is the problem that the whole building industry is thinking by integrating the advanced energy conservation and environmental protection concepts into modern buildings through the technical fields of equipment energy conservation, environmental protection materials and construction. The existing structure of the building outer window has poor effect when in use, and the solar radiation can cause the indoor temperature to be too high, so that the energy consumption of the indoor air conditioner is increased.

The utility model discloses an ultra-low energy consumption building exterior window sunshade structure, including the wall body, vertical groove has been seted up to the inner chamber of wall body, the window frame is installed on the right side of vertical groove inner chamber, the left side fixedly connected with pillar of window frame inner chamber, the dorsal part fixedly connected with sunshading board of pillar, the right side fixedly connected with glass body of window frame inner chamber, the right side fixedly connected with sunshade layer of glass body, the equal fixedly connected with heat preservation in top and bottom on wall body right side. This structure is through wall body, perpendicular groove, window frame, lock bolt, fixing base, heat preservation, polyester fiber layer, polypropylene fiber layer, polystyrene fiber layer, pillar, sunshading board, glass body, sunshade layer, polyester film layer, polyvinylidene fluoride rete and EVA film layer's cooperation, has reached the effectual advantage of sunshade, has solved the current building exterior window sunshade structure sunshade effect not good problem when using. However, the sun shield is directly arranged on the left side of the glass body, and can be used for sun-shading, the sun shield cannot be stored, the sun shield shields the glass body for a long time, the light transmittance is poor, indoor lighting is affected, and cleaning is inconvenient; and the sunshade layer is added on the surface of the glass body, so that the glass is easy to scratch, and the sunshade layer is fixedly connected with the glass body and is difficult to replace.

Disclosure of Invention

The embodiment of the utility model provides an ultra-low energy consumption building external window, which has the technical effects of sunshade according to actual requirements and conveniently and rapidly replacing a sunshade layer.

In one aspect of the implementation of the utility model, an ultra-low energy consumption building exterior window is provided, which comprises a window frame, wherein a glass frame is arranged on one side of the window frame, a glass plate is arranged on the glass frame, a cover plate is arranged on the other side of the window frame, and a through groove is formed in the cover plate corresponding to the glass plate; the inside of the window frame is provided with a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are respectively arranged at two ends of the window frame, the first rotating shaft is provided with a piece of sun-shading cloth, the second rotating shaft is provided with a pull rope, and the pull rope is connected with the sun-shading cloth; the bottom of the cover plate is provided with a hand wheel corresponding to the first rotating shaft and the second rotating shaft respectively, and each hand wheel is connected with the corresponding rotating shaft respectively through a transmission assembly; the outer side of the cover plate is clamped with a sun shield; the outside of the glass frame is provided with an insulating layer.

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

according to the sun-shading cloth, the sun-shading cloth is opened through the cooperation of the hand wheel, the transmission assembly, the first rotating shaft and the second rotating shaft, indoor daylighting sunlight can not be influenced when sun-shading is carried out, the sun-shading plate can be movably clamped on the outer side of the window frame when light is particularly strong, light is further blocked, and the sun-shading plate is easy and quick to assemble, disassemble and replace; the heat insulation layer is added to be favorable for preventing excessive heat exchange between the window frame and the outside, so that the heat insulation effect of the window is improved.

Further, the utility model adopts the following preferable scheme:

the sun-shading cloth is arranged on the connecting plate, and the pull rope is connected with the connecting plate.

The upper and lower both ends of connecting plate are provided with the slider respectively, and the roof and the bottom plate of window frame correspond the slider of each one side respectively and are provided with the spout rather than the adaptation, and the connecting plate passes through the cooperation and window frame sliding connection of slider and spout.

The driving bevel gear is connected with the corresponding hand wheel respectively through a driving shaft, and the driven bevel gear is arranged at the lower ends of the first rotating shaft and the second rotating shaft respectively and is meshed with the driven bevel gear for transmission.

The four vertex angle positions of the through groove on the cover plate are respectively provided with a buckle, and the four vertex angle positions of the sun shield are provided with mounting holes matched with the buckles.

The window frame, the cover plate and the glass frame are respectively AL6061.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this application, illustrate and together with the description serve to explain the utility model. In the drawings:

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

FIG. 2 is a schematic structural view of a sun-shading cloth;

FIG. 3 is a schematic view of the assembled rotary assembly of the present utility model;

fig. 4 is an enlarged view of a portion a of fig. 1;

in the figure: a window frame 1; a glass frame 2; a glass plate 3; a heat preservation layer 4; a cover plate 5; a sun visor 6; a hand wheel 7; a first rotating shaft 8; a second rotating shaft 9; a connection plate 10; a sunshade cloth 11; a pull rope 12; a driving bevel gear 13; a driven helical gear 14; a drive shaft 15; a chute 16; a slider 17; a clasp 18; a buckle base 181; a snap-in block 182; a spring piece 19; and a mounting hole 20.

Detailed Description

The present utility model will be described in further detail with reference to the following embodiments and the accompanying drawings, in order to make the objects, technical solutions and advantages of the present utility model more apparent. The exemplary embodiments of the present utility model and the descriptions thereof are used herein to explain the present utility model, but are not intended to limit the utility model.

The utility model provides an ultralow energy consumption building exterior window, includes window frame 1, window frame 1 installs the entrance to a cave department with the building window, as shown in figure 1, and window frame 1 right side is provided with glass frame 2, installs glass board 3 on the glass frame 2, connects through self-tapping screw between glass frame 2 and the window frame 1.

As shown in fig. 1 and 2, a first rotating shaft 8 and a second rotating shaft 9 are installed in the window frame 1, the first rotating shaft 8 is arranged at the rear end of the window frame 1, the second rotating shaft 9 is arranged at the front end of the window frame 1, and two ends of the first rotating shaft 8 and the second rotating shaft 9 are respectively connected with the window frame 1 in a rotating manner through bearings.

A sun-shading cloth 11 is arranged outside the first rotating shaft 8, one end of the sun-shading cloth 11 is fixedly connected with the first rotating shaft 8, the other end of the sun-shading cloth winds onto the first rotating shaft 8, and the end head of the sun-shading cloth is fixedly connected with a connecting plate 10; the upper and lower ends of the connecting plate 10 are respectively connected with the second rotating shaft 9 through pull ropes 12. The sun-shading cloth 11 in this embodiment may be a gauze.

The left side of the window frame 1 is provided with a cover plate 5, and the cover plate 5 is also connected with the window frame 1 through self-tapping screws; the lower extreme of apron 5 corresponds the position of pivot one 8 and pivot two 9 and is provided with a hand wheel 7 respectively, and the outside of apron 5 is arranged in respectively to hand wheel 7, and the inboard of apron 5 corresponds the mounted position of every hand wheel 7 and is provided with rotation subassembly respectively, and hand wheel 7 passes through rotation subassembly drive and rotates the pivot that corresponds respectively.

In this embodiment, as shown in fig. 3 (fig. 3 is a structure showing rotating components inside a window frame, the lower parts of the sides of the window frame are not completely drawn), each rotating component is composed of a driving bevel gear 13 and a driven bevel gear 14, the driving bevel gear 13 is connected with one end of a driving shaft, the other end of the driving shaft 15 penetrates through a cover plate 5 and is fixedly connected with a corresponding hand wheel 7, the driven bevel gear 14 is mounted at the lower end of a corresponding rotating shaft, and the driving bevel gear 13 and the driven bevel gear 14 in the rotating components in the same group are meshed for transmission.

As shown in fig. 1, 2 and 4 (fig. 4 shows the matching relationship between the sliding blocks and the sliding grooves, and breaks the side walls of the sliding grooves), in this embodiment, the sliding blocks 17 are respectively mounted at the upper and lower ends of the connecting plate 10, the sliding grooves 16 matched with the sliding blocks 17 at one end of each of the lower surface of the top plate and the upper surface of the bottom plate of the window frame 1 are respectively provided on the sliding blocks 17 at the other end of each of the lower surface and the bottom plate, and the connecting plate 10 is slidably connected with the window frame 1 through the matching of the sliding grooves 16 and the sliding blocks 17, so that the connecting plate 10 can be kept stable during movement and cannot deviate during sliding in the window frame 1. The slide 17 in this embodiment can also be replaced by a roller.

Rectangular through grooves are formed in the cover plate 5, corresponding to the size of the glass plate 3, buckles 18 are respectively arranged at positions, close to four vertex angles of the through grooves, of the cover plate 5, the sun shield 6 is a rectangular plate with the size slightly larger than that of the through grooves, mounting holes 20 matched with the buckles 18 are formed in the four vertex angles of the sun shield 6, and the sun shield 6 is matched with the cover plate 5 through the buckles 18 and the mounting holes 20.

In this embodiment, the buckle 18 is composed of a buckle base 181 and a clamping block 182, the upper and lower surfaces of the buckle base 181 are respectively provided with a T-shaped groove, the clamping blocks 182 are respectively arranged in the T-shaped grooves, and a spring piece 19 is arranged between the clamping blocks 182 and the inner wall of the T-shaped groove; when the sunshade plate 6 is required to be sunshade, the four mounting holes 20 of the sunshade plate 6 are aligned with the buckles 18 respectively and the sunshade plate 6 is pressed, the clamping blocks 182 are extruded at the positions of the mounting holes 20 of the sunshade plate 6 to be in contact with the cover plate 5, and at the moment, the clamping blocks 182 pop up under the action of the spring pieces 19 to limit the sunshade plate 6; when the sun-shading board 6 is not needed, the clamping block 182 is pressed, so that the sun-shading board 6 is not limited any more, the sun-shading board 6 is taken down, and the effect of quick dismounting of the sun-shading board 6 is achieved.

In order to improve the heat insulation performance of the outer window, the heat insulation layer 4 is arranged on the outer side of the glass frame 2, so that excessive heat exchange between the window frame 1 and the outside is prevented, and the heat insulation effect of the window is improved.

In the present embodiment, the window frame 1, the cover plate 5, and the glass frame 2 are AL6061, and AL6061 is advantageous in improving the strength and corrosion resistance of the window frame 1, the cover plate 5, and the glass frame 2, respectively. The glass plate 3 is double-layer hollow glass, and the heat preservation effect 9 of the outer window is improved by adopting the glass plate 5 made of the double-layer hollow glass.

When the sun-shading cloth is used, if the sunlight is strong outside, the hand wheel 7 at the lower part of the rotating shaft II is rotated, so that the hand wheel 7 drives the rotating shaft II 9 to rotate through the rotating component, the stay rope 12 can be wound on the rotating shaft II 9, the connecting plate 10 is driven to slide, and the sun-shading cloth 11 is unfolded while the connecting plate 10 moves towards one end of the rotating shaft II 9; if the external sunlight is too strong, the mounting holes 20 at the four corners of the sun shield 6 are aligned with the four buckles 18, then the sun shield 6 is pressed, the sun shield 6 is clamped on the cover plate 5, and the sun shield 6 and the sun shield cloth 11 shield the external sunlight at the same time, so that the energy consumption of an air conditioner in a room is reduced; if good lighting effect is needed in a room and sun shading is not needed, reversely rotating a hand wheel on the first rotating shaft 8 to drive the first rotating shaft 8 to rotate, so that the sun-shading cloth 11 is wound on the first rotating shaft 8 again, and external sunlight is not shielded; the clamping block 182 is pressed to prevent the sun shield 6 from being limited, and then the sun shield 6 is taken down, so that sufficient lighting in a room is ensured.

According to the utility model, the sun-shading cloth 11 is opened by matching the hand wheel 7, the transmission assembly, the first rotating shaft 8 and the second rotating shaft 9, indoor daylighting sunlight can not be influenced when sun shading is carried out, and the sun-shading plate 6 can be movably clamped at the outer side of the window frame 1 when light is particularly strong, so that the light is further blocked; and the sun shield 6 is clamped with the cover plate 5 through the buckle 18, so that the dismounting mode is simple and quick, and the sun shield is easy to replace even if the surface of the sun shield is scratched.

The foregoing description is only of the preferred embodiments of the present utility model and is not intended to limit the scope of the present utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model are included in the protection scope of the present utility model.

Claims (6)

1. The utility model provides an ultralow energy consumption building exterior window, includes the window frame, and glass frame is installed to one side of window frame, is provided with glass board on the glass frame, its characterized in that: a cover plate is arranged on the other side of the window frame, and a through groove is formed in the cover plate corresponding to the glass plate; the inside of the window frame is provided with a first rotating shaft and a second rotating shaft, the first rotating shaft and the second rotating shaft are respectively arranged at two ends of the window frame, the first rotating shaft is provided with a piece of sun-shading cloth, the second rotating shaft is provided with a pull rope, and the pull rope is connected with the sun-shading cloth; the bottom of the cover plate is provided with a hand wheel corresponding to the first rotating shaft and the second rotating shaft respectively, and each hand wheel is connected with the corresponding rotating shaft respectively through a transmission assembly; the outer side of the cover plate is clamped with a sun shield; the outside of the glass frame is provided with an insulating layer.

2. The ultra-low energy consumption building exterior window of claim 1, wherein: the sun-shading cloth is arranged on the connecting plate, and the pull rope is connected with the connecting plate.

3. The ultra-low energy consumption building exterior window of claim 2, wherein: the upper and lower both ends of connecting plate are provided with the slider respectively, and the roof and the bottom plate of window frame correspond the slider of each one side respectively and are provided with the spout rather than the adaptation, and the connecting plate passes through the cooperation and window frame sliding connection of slider and spout.

4. The ultra-low energy consumption building exterior window of claim 1, wherein: the driving bevel gear is connected with the corresponding hand wheel respectively through a driving shaft, and the driven bevel gear is arranged at the lower ends of the first rotating shaft and the second rotating shaft respectively and is meshed with the driven bevel gear for transmission.

5. The ultra-low energy consumption building exterior window of claim 1, wherein: the four vertex angle positions of the through groove on the cover plate are respectively provided with a buckle, and the four vertex angle positions of the sun shield are provided with mounting holes matched with the buckles.

6. The ultra-low energy consumption building exterior window of claim 1, wherein: the window frame, the cover plate and the glass frame are respectively AL6061.