CN210520649U - Touch-control vacuum energy-saving glass with mirror surface display - Google Patents

Abstract

The utility model discloses a touch-control mirror display vacuum energy-saving glass, which comprises a frame, wherein a first mirror glass and a second mirror glass are arranged in the frame, a vacuum structure is arranged between the first mirror glass and the second mirror glass, a first nano touch film is arranged on one side surface of the first mirror glass in the vacuum structure, and a second nano touch film is arranged on one side surface of the second mirror glass in the vacuum structure; the first nanometer touch control film is arranged at the lower part of the first mirror glass; the surface of the first mirror glass, which is positioned at one side far away from the vacuum structure, is provided with a defogging device, and the defogging device is arranged at the top. The utility model discloses can regard as to cut off the use to compromise the mirror function.

Description

Touch-control vacuum energy-saving glass with mirror surface display

Technical Field

The utility model relates to an indoor glass field, concretely relates to but touch-control mirror surface shows energy-conserving glass in vacuum.

Background

Nowadays, the utilization rate of indoor space is paid attention, especially for hotels and hotels, the utilization rate in the toilet directly affects the housing space, in the spatial layout of the toilet, the mirror of the wash-basin has a certain thickness, which affects the effect of further improving the space utilization, and the periphery of the mirror needs to be beautified to improve the aesthetic feeling.

In some narrow spaces, the mirror is designed in an embedded mode, the mirror and a wall body of the partition are integrated, a part of the wall body is cut and hollowed, and then the mirror is installed in an embedded mode, so that operation is troublesome and labor-consuming, the thickness of the partition is small, and the mirror is easy to cut excessively and is worn oppositely;

also some adopt the form of window frame, directly hollowing out the wall body, then install the mirror to keep pleasing to the eye with modes such as sticker in one side of mirror for being located the room, and in the use, because hot gas is big in the bathroom, the heat passes through the mirror and transmits to in the room, then can appear steam on the sticker surface, influence the use experience.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a but touch-control mirror surface shows energy-conserving glass in vacuum can regard as the wall to use to compromise the mirror function.

In order to solve the technical problem, the utility model provides a touch mirror display vacuum energy-saving glass, which comprises a frame, wherein a first mirror glass and a second mirror glass are arranged in the frame, a vacuum structure is arranged between the first mirror glass and the second mirror glass, a first nano touch film is arranged on one side surface of the first mirror glass in the vacuum structure, and a second nano touch film is arranged on one side surface of the second mirror glass in the vacuum structure;

the first nanometer touch control film is arranged at the lower part of the first mirror glass;

the surface of the first mirror glass, which is positioned at one side far away from the vacuum structure, is provided with a defogging device, and the defogging device is arranged at the top.

Furthermore, the defogging device is fixed on the first mirror glass through viscose.

Further, the defogging device comprises an air duct, a wind wheel is arranged in the air duct, the wind wheel is connected with the speed regulating motor, an air inlet is formed in the top of the air duct, an air outlet is formed in the bottom of the air duct, and the air outlet is arranged towards the surface of the first mirror glass.

Furthermore, a guide plate is further arranged on the air duct.

Furthermore, a hinge is arranged between the guide plate and the air duct.

Further, a damper is arranged on the hinge.

Furthermore, a lamp source is arranged on the inner wall of the frame.

The utility model has the advantages that:

the matching of the double-layer structure forms a vacuum structure, and the temperature in the toilet and the room is basically not influenced, so that the surface of the glass in the room can not be fogged, the heat exchange problem is also isolated, and the energy-saving effect is achieved. Can be used as a partition and also can be used as a mirror.

Through the setting of first nanometer touch-control membrane, in the bathroom, can increase the view of amusement and information, improve the experience sensation of living in and using.

The second mirror glass makes it possible to use the mirror also in the room without having to enter the toilet. And the experience feeling of living in and using can be improved through the second nanometer touch film, and the satisfaction degree is improved.

Defogging device can carry out the defogging to first mirror surface glass surface to guarantee the result of use of mirror and first nanometer touch membrane.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic cross-sectional structure of the present invention.

Detailed Description

The present invention is further described with reference to the following drawings and specific embodiments so that those skilled in the art can better understand the present invention and can implement the present invention, but the embodiments are not to be construed as limiting the present invention.

Referring to fig. 1 and 2, an embodiment of the energy-saving vacuum glass with touch mirror display according to the present invention includes a frame 1, a first mirror glass 2 and a second mirror glass 3 are disposed in the frame, a vacuum structure is disposed between the first mirror glass and the second mirror glass, a first nano touch film 4 is disposed on a side surface of the first mirror glass located in the vacuum structure, and a second nano touch film 5 is disposed on a side surface of the second mirror glass located in the vacuum structure; first mirror surface glass and the cooperation of second mirror surface glass form the vacuum structure, and the heat in the bathroom can not transmit to the second mirror surface glass outside, consequently, the fogging phenomenon can not appear on second mirror surface glass surface to the heat is isolated, also has energy-conserving effect.

First mirror surface glass and second mirror surface glass homoenergetic can regard as the mirror to use, homoenergetic in the room and the bathroom uses the mirror, improves convenient degree to the setting of first nanometer touch-control membrane and second nanometer touch-control membrane makes all can realize touch-control operation on first mirror surface glass and second mirror surface glass, in order when brushing teeth and washing one's face and rinsing one's mouth and looking one's mouth, can increase view of amusement and information, improves and uses the satisfaction.

The glass body is prepared by adopting a vacuum magnetron sputtering process, performing reflection treatment on the surface of the glass body through a non-conductive electron microscope surface, and safely tempering the glass body.

The first nanometer touch control film is arranged at the lower part of the first mirror glass and avoids the area for looking into the mirror, thereby ensuring that the looking into the mirror and the operation touch control are not influenced mutually;

first mirror surface glass is located and is provided with defogging device 6 on the surface of keeping away from vacuum structure one side, and defogging device sets up at the top, from last to down, plays the defogging effect.

Foretell defogging device passes through the viscose to be fixed on first mirror surface glass, improves the packaging efficiency.

Wherein, defogging device includes dryer 7, is provided with wind wheel 8 in the dryer, and the wind wheel is connected with buncher 9, and the dryer top is provided with air intake 10, and the dryer bottom is provided with the air outlet, and the air outlet sets up towards first mirror surface glass surface. The speed regulating motor drives the wind wheel to rotate, the wind wheel realizes air outlet, the principle of the speed regulating motor can refer to an indoor unit of an air conditioner, and demisting is carried out on the surface of the first mirror glass after the wind wheel exhausts air, so that the structure is compact.

Still be provided with guide plate 11 on foretell dryer, through the guide plate in order to improve the guide effect of wind, improve defogging ability. A hinge 12 is arranged between the guide plate and the air duct, and the angle of the guide plate can be adjusted through the hinge due to the large mirror surface area. The hinge is provided with the damping to ensure that the guide plate can stay at any angle when being adjusted, and the adjusting effect is ensured.

Still be provided with lamp source 13 on the inner wall of frame, belong to embedded structure, the lamp source provides illumination, has good shadow and hides the effect.

The above embodiments are merely preferred embodiments for fully illustrating the present invention, and the scope of the present invention is not limited thereto. Equivalent substitutes or changes made by the technical personnel in the technical field on the basis of the utility model are all within the protection scope of the utility model. The protection scope of the present invention is subject to the claims.

Claims (7)

1. The vacuum energy-saving glass capable of realizing touch mirror display is characterized by comprising a frame, wherein a first mirror glass and a second mirror glass are arranged in the frame, a vacuum structure is arranged between the first mirror glass and the second mirror glass, a first nano touch film is arranged on the surface of one side, located in the vacuum structure, of the first mirror glass, and a second nano touch film is arranged on the surface of one side, located in the vacuum structure, of the second mirror glass;

the first nanometer touch control film is arranged at the lower part of the first mirror glass;

the surface of the first mirror glass, which is positioned at one side far away from the vacuum structure, is provided with a defogging device, and the defogging device is arranged at the top.

2. The touch-controllable mirror display vacuum energy-saving glass according to claim 1, wherein the defogging device is fixed on the first mirror glass by an adhesive.

3. The touch-controllable mirror display vacuum energy-saving glass according to claim 1, wherein the defogging device comprises an air duct, a wind wheel is arranged in the air duct, the wind wheel is connected with the speed regulation motor, an air inlet is arranged at the top of the air duct, an air outlet is arranged at the bottom of the air duct, and the air outlet faces the surface of the first mirror glass.

4. The touch-controllable mirror display vacuum energy-saving glass according to claim 3, wherein a guide plate is further disposed on the air duct.

5. The touch-controllable mirror display vacuum energy-saving glass according to claim 4, wherein a hinge is disposed between the air deflector and the air duct.

6. The touch-controllable mirror display vacuum energy-saving glass according to claim 5, wherein a damper is disposed on the hinge.

7. The touch-controllable mirror display vacuum energy-saving glass according to claim 1, wherein a lamp source is further disposed on an inner wall of the frame.

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