CN213087804U - Electric sliding window - Google Patents

Abstract

The utility model provides an electric sliding window, including being square aluminum alloy window frame, upper end with aluminum alloy window frame rotates the aluminum alloy fan frame and the casing of connecting and rotates to be connected push rod motor on the aluminum alloy window frame, the push rod of push rod motor rotates to be connected the lower extreme of aluminum alloy fan frame, be provided with glass assembly in the space that aluminum alloy fan frame encloses, glass assembly includes two toughened glass boards and one by the centre gripping two membrane of adjusting luminance between the toughened glass board, install on the aluminum alloy window frame respectively with the push rod motor with the control chip that membrane of adjusting luminance electricity is connected. The window opening or closing action is executed by the aid of the push rod motor, operation is convenient, ventilation is facilitated, transmittance can be adjusted by the aid of the light adjusting film, a curtain does not need to be adopted, shading operation is convenient, the window is not prone to being damaged, and the service life is relatively long.

Description

Electric sliding window

Technical Field

The utility model relates to a building materials, especially an electric sliding window.

Background

In some high buildings such as large production workshops, lighting windows are usually arranged on the wall near the ceiling to ensure sufficient indoor optics, and because the lighting windows are relatively high in position, it is difficult to open or close the windows in daily use, and therefore the lighting windows are generally arranged as normally closed windows, resulting in relatively poor indoor ventilation.

In addition, the glass of the existing lighting window usually uses common transparent glass, and the transmittance of the glass cannot be adjusted, so a curtain needs to be arranged to shade light, however, because the lighting window is relatively high in position, the upper end of the curtain is also relatively high, the sliding operation of the curtain at the lower part of the curtain is inconvenient, and the whole curtain is easy to pull down, which affects the service life of the curtain.

In view of the above, the applicant has made intensive studies to solve the above problems and has made the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a convenient operation, do benefit to the ventilation and the relatively higher electric sliding window of life.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides an electric sliding window, including be square aluminum alloy window frame, upper end with aluminum alloy window frame rotates the aluminum alloy fan frame of connecting and the casing rotates to be connected push rod motor on the aluminum alloy window frame, the push rod of push rod motor rotates to be connected the lower extreme of aluminum alloy fan frame, be provided with glass assembly in the space that aluminum alloy fan frame encloses, glass assembly includes two toughened glass boards and one by the centre gripping two the membrane of adjusting luminance between the toughened glass board, install on the aluminum alloy window frame respectively with push rod motor with the control chip that the membrane of adjusting luminance is connected.

As an improvement of the utility model, one of them toughened glass board is kept away from one side of membrane of adjusting luminance is provided with transparent electricity generation glass board, transparent electricity generation glass board with the control chip electricity is connected.

As an improvement of the utility model, the transparent power generation glass plate is kept away from one side of toughened glass plate is pasted and is equipped with the protection glass board.

As an improvement of the utility model, the transparent electricity generation glass plate is close to this transparent electricity generation glass plate be formed with first sealed chamber between the toughened glass plate.

As an improvement of the utility model, keep away from relatively transparent electricity generation glass board the toughened glass board is kept away from one side of membrane of adjusting luminance is provided with heat insulation glass board, heat insulation glass board with be close to this heat insulation glass board be formed with the sealed chamber of second between the toughened glass board.

As an improvement of the present invention, the second sealing chamber is filled with a mixed gas of air and krypton.

As an improvement of the utility model, the aluminum alloy fan frame is inserted with a first connecting pipeline and a second connecting pipeline which are respectively communicated with the first sealed cavity.

As an improvement of the utility model, the aluminum alloy fan frame includes the aluminum alloy ex-trusions, the aluminum alloy ex-trusions includes the transversal square body of personally submitting, an organic whole is connected with six mutual parallel arrangement's baffles on one of them side of body.

Adopt above-mentioned technical scheme, the utility model discloses following beneficial effect has:

1. the window opening or closing action is executed by the aid of the push rod motor, operation is convenient, ventilation is facilitated, transmittance can be adjusted by the aid of the light adjusting film, a curtain does not need to be adopted, shading operation is convenient, the window is not prone to being damaged, and the service life is relatively long.

2. Through setting up transparent electricity generation glass, realize the self-power, comparatively energy-conserving.

3. Through setting up the passageway with first sealed chamber intercommunication, outside coolants such as usable water cool down transparent electricity generation glass, help improving the generating efficiency.

4. Through the arrangement of the second sealed cavity, particularly the mixed gas of air and krypton is filled in the second sealed cavity, and the heat insulation can be effectively realized due to the relatively low heat conduction coefficient of the second sealed cavity.

5. The aluminum alloy sash frame is made of the specific aluminum alloy section, so that the glass assembly is convenient to mount.

Drawings

Fig. 1 is a schematic structural view of the electric sliding window of the present invention;

FIG. 2 is a schematic sectional view of an aluminum alloy profile of the present invention;

fig. 3 is a schematic view of the sectioning structure of the aluminum alloy fan frame of the present invention.

The designations in the figures correspond to the following:

10-aluminum alloy window frames; 20-aluminum alloy fan frame;

21-aluminum alloy profile; 22-a body;

23-a separator; 24-slot configuration;

30-a push rod motor; 40-a glass component;

41-tempered glass plate; 42-a light adjusting film;

43-transparent power generation glass; 44-a cover glass plate;

45-a first sealed chamber; 46-a thermally insulating glass sheet;

47-second capsule.

Detailed Description

The invention will be further described with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-3, the present embodiment provides an electric sliding window, which includes a square aluminum alloy window frame 10, an aluminum alloy sash frame 20 with an upper end rotatably connected to the aluminum alloy window frame 10, and a push rod motor 30 rotatably connected to the aluminum alloy window frame 10 through a housing, wherein a push rod of the push rod motor 30 is rotatably connected to a lower end of the aluminum alloy sash frame 20, so that the push rod of the push rod motor 30 can be extended and retracted to drive the aluminum alloy sash frame 20 to rotate relative to the aluminum alloy window frame 10, thereby realizing the window opening or closing. The specific rotary connection structure of the aluminum alloy window frame 10 and the aluminum alloy sash frame 20 and the matching structure of the two are conventional structures, such as a hinge connection and the like, and will not be described in detail herein, since the rotary connection is located at the upper end of the aluminum alloy sash frame 20, the aluminum alloy sash frame 20 is horizontally arranged or obliquely arranged relative to the horizontal plane after the window is opened, so that the transparent power generation glass plate 43 which will be mentioned below can receive light irradiation.

The structure of the aluminum alloy window frame 10 is the same as that of a conventional aluminum alloy window frame, and will not be described in detail here.

The aluminum alloy sash frame 20 comprises four aluminum alloy sections 21 which surround to form a square structure together, the specific connection structure between the four aluminum alloy sections 21 is the same as that of a conventional sliding sash frame, for example, two adjacent aluminum alloy sections 21 can be welded, fixedly connected by bolts or in a mortise-tenon joint manner. The aluminum alloy section 21 comprises a body 22 with a square cross section, six partition plates 23 which are arranged in parallel are integrally connected to one side face of the body 22, a groove structure 24 is formed between every two adjacent partition plates 23, namely five groove structures 24 are provided, an electric sliding window is arranged behind the outer wall of a building, when the window is closed, one side of the electric sliding window, which faces the outer side of the building, is the outer side, the other corresponding side of the electric sliding window is the inner side, and the five groove structures 24 on the aluminum alloy section 21 are a first groove, a second groove, a third groove, a fourth groove and a fifth groove from outside to inside in sequence. After the aluminum alloy sections 21 are enclosed into the aluminum alloy sash frame 20, the partition plates 23 on the aluminum alloy sections 21 are positioned on one side facing the space enclosed by the aluminum alloy sections 21, so that the glass assembly 40 which will be mentioned below is convenient to mount, namely, the glass assembly 40 does not need to be assembled into a whole and then assembled on the aluminum alloy sash frame 20, but the glass plates can be assembled on the aluminum alloy sash frame 20 separately, so that the subsequent maintenance is convenient.

The space that aluminum alloy fan frame 20 encloses is provided with glass subassembly 40 in, glass subassembly 40 includes two toughened glass boards 41 and one by the membrane 42 of adjusting luminance of centre gripping between two toughened glass boards 41, wherein, toughened glass board 41 is from the common high strength chemical toughened glass on the market, the membrane 42 of adjusting luminance is the 3T membrane of adjusting luminance that can directly purchase the acquisition from the market, and it is opaque state at ordinary times, can be transparent state or the translucent state of different degree according to the difference of voltage after the circular telegram. During installation, the two tempered glass plates 41 and the light adjusting film 42 are prefabricated in a factory to form a whole, and then assembled together in the third groove of the aluminum alloy fan frame 20 and sealed by a sealant.

One side of one of the tempered glass plates 41, which is far away from the dimming film 42, is provided with a transparent power generation glass plate 43, one side of the transparent power generation glass plate 43, which is far away from the tempered glass plate 41, is adhered with a protective glass plate 44, and a first sealing cavity 45 is formed between the tempered glasses, wherein the transparent power generation glass plate 43 and the protective glass plate 44 are both conventional glass plates, during installation, after the transparent power generation glass plate 43 and the protective glass plate 44 are prefabricated in a factory to form a whole, the whole is assembled in a first groove of the aluminum alloy fan frame 20 and sealed by a sealant, and after installation, the first sealing cavity 45 can be naturally formed at a position corresponding to a second groove of the aluminum alloy fan frame 20. Of course, when mounting, the cover glass plate 44 needs to be positioned outside the transparent power generation glass plate 43, and the transparent power generation glass plate 43 is positioned outside the tempered glass plate 41.

A heat insulation glass plate 46 is arranged on the side, far away from the dimming film 42, of the tempered glass plate 41 far away from the transparent power generation glass plate 43, and a second sealed cavity 47 is formed between the heat insulation glass plate 46 and the tempered glass plate 41 close to the heat insulation glass plate 46, wherein the heat insulation glass plate 46 is a common glass plate, and of course, high-strength chemical tempered glass can be adopted. During installation, the heat insulating glass plate 46 is assembled in the fifth groove of the aluminum alloy fan frame 20 and sealed by a sealant, and after installation, a second sealing cavity 47 can be naturally formed at a position corresponding to the fourth groove of the aluminum alloy fan frame 20.

The first and second sealed chambers 45 and 47 may be filled with dry air or set in a vacuum state to achieve thermal insulation. Preferably, in this embodiment, the second sealed cavity 47 is filled with a mixed gas of air and krypton, so that the heat insulation effect of the second sealed cavity 47 can be effectively improved. In addition, a first connecting pipeline and a second connecting pipeline (both shown in the figure) which are respectively communicated with the first sealed cavity 45 are inserted into the aluminum alloy fan frame 20 in a penetrating manner, specifically, the body of the aluminum alloy section 21 forming the aluminum alloy fan frame 20 is a hollow body, the first connecting pipeline and the second connecting pipeline both penetrate into the inner cavity of the body of the aluminum alloy section 21 from the upper portion of the aluminum alloy fan frame 20, wherein the first connecting pipeline is communicated with the first sealed cavity 45 at the lower end of the glass assembly 40, and the second connecting pipeline is communicated with the first sealed cavity 45 at the upper end of the glass assembly 40, so that the transparent power generation glass 43 can be cooled by filling cooling water into the first sealed cavity 45 through the second connecting pipeline, and the heat insulation effect is improved while the power generation efficiency is improved.

The aluminum alloy window frame 10 is provided with a control chip (not shown in the figure) which is electrically connected with the push rod motor 30 and the dimming film 42 respectively, the transparent power generation glass 42 is electrically connected with the control chip, and the control chip is also electrically connected with a storage battery (not shown in the figure) so as to control the working time sequence of each electric element. Certainly, the control chip is a conventional chip, such as a PLC control chip, and can be purchased from the market directly and set according to actual functional requirements, and in addition, the control chip can be connected with conventional modules such as a remote control receiving module, so as to implement various functions such as remote control operation.

The present invention has been described in detail with reference to the accompanying drawings, but the embodiments of the present invention are not limited to the above embodiments, and those skilled in the art can make various modifications to the present invention according to the prior art, and these all belong to the protection scope of the present invention.

Claims (8)

1. The utility model provides an electric sliding window, its characterized in that, including be square aluminum alloy window frame, upper end with aluminum alloy window frame rotate the aluminum alloy fan frame of connecting and the casing rotates to be connected push rod motor on the aluminum alloy window frame, the push rod of push rod motor rotates to be connected the lower extreme of aluminum alloy fan frame, be provided with glass assembly in the space that aluminum alloy fan frame encloses, glass assembly includes two toughened glass boards and one by the centre gripping two the membrane of adjusting luminance between the toughened glass board, install on the aluminum alloy window frame respectively with push rod motor with the control chip that the membrane of adjusting luminance electricity is connected.

2. The electric sliding window according to claim 1, wherein a transparent power generation glass plate is arranged on one side of one of the tempered glass plates, which is far away from the light modulation film, and the transparent power generation glass plate is electrically connected with the control chip.

3. The electric sliding window according to claim 2, wherein a protective glass plate is attached to one side of the transparent power generation glass plate, which is far away from the tempered glass plate.

4. An electric sliding window according to claim 2 wherein a first sealed chamber is formed between the transparent power generating glass plate and the tempered glass plate adjacent to the transparent power generating glass plate.

5. The sash window according to claim 4 wherein a heat insulating glass plate is provided on a side of said tempered glass plate remote from said light adjusting film opposite to a side of said tempered glass plate remote from said transparent power generating glass plate, and a second sealed chamber is formed between said heat insulating glass plate and said tempered glass plate adjacent to said heat insulating glass plate.

6. The electric sliding window according to claim 5, wherein the second sealed cavity is filled with a mixed gas of air and krypton.

7. The electric sliding window according to claim 4, wherein a first connecting pipeline and a second connecting pipeline which are respectively communicated with the first sealing cavity are inserted in the aluminum alloy sash frame.

8. The electric sliding window according to claim 5, wherein the aluminum alloy sash frame comprises an aluminum alloy section, the aluminum alloy section comprises a body with a square cross section, and six partition plates arranged in parallel are integrally connected to one side surface of the body.

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