CN215993502U - Antifog vanity mirror - Google Patents

Abstract

The utility model provides an antifog vanity mirror belongs to house technical field. The installation back box comprises a box body and a plurality of partition plates arranged in the box body, a water flow channel is formed between each partition plate and a side plate of the box body parallel to the partition plates, and between adjacent partition plates, water through holes communicated with the adjacent water flow channels are formed in the partition plates, the water through holes of the adjacent partition plates are arranged in a staggered mode, the lenses are hermetically connected to the opening of the box body, each water flow channel sequentially forms a snake-shaped water through path, a water inlet hole is formed in the side plate of the box body close to the beginning end of the water through path, a water outlet hole is formed in the side plate of the box body close to the end of the water through path, the water inlet hole is far away from the water through hole corresponding to the partition plate at the beginning end of the water through path, and the water outlet hole is far away from the water through hole corresponding to the partition plate at the end of the water through path; the water inlet hole is connected with a hot water source, and the water outlet hole is connected with a hot water outlet terminal in the bathroom. The utility model has the advantages of can realize the antifog of vanity mirror in good time automatically.

Description

Antifog vanity mirror

Technical Field

The utility model belongs to the technical field of the house, a antifog vanity mirror is related to.

Background

The water mist is formed by water vapor which is liquefied when meeting cold, more water vapor is generated in a bathroom when hot water is used (the temperature of bathing water is higher than the indoor temperature) for bathing, the water vapor is liquefied into small water drops when meeting a mirror surface with the temperature lower than the temperature of the water vapor, namely the water mist is formed on the cosmetic mirror, the mirror surface is affected by light refraction, reflection and the like after the water mist is formed, the cosmetic mirror cannot be normally used, and new water mist can be formed quickly after the water mist is wiped by a towel (the indoor temperature is still higher than the mirror surface temperature).

Among the existing solution, more conventional and effectual mode is that the heating strip is set up to the cosmetic mirror medial surface, opens when using and heats in order to the lens, drives to attach to the water smoke on the mirror surface and volatilizees again and disappear, however, this kind of mode still has following defect:

1. the bathroom is located in a high-humidity area, electronic equipment such as a lead and densely distributed resistance heating strips needs to be arranged on the back of the cosmetic mirror in an electric heating mode, potential safety hazards are formed, and the requirement on the water sealing performance of an electric part is high;

2. in the actual use process of the existing electronic heating demisting cosmetic mirror, the situation that the power supply is forgotten to be turned off often occurs, so that the lens is heated continuously, and not only is electric energy wasted, but also potential safety hazards such as fire caused by heat collection exist;

3. the demisting function can be used only when bathing in autumn and winter, and the electric part is in an idle state due to the fact that the indoor temperature and the water temperature have almost the same difference under ordinary conditions, so that the electric part is not used for a long time and is easy to cause faults;

4. the electronic equipment has high failure rate, almost cannot be maintained, the cosmetic mirror needs to be integrally replaced, the cost is high, and the disassembly and the assembly are troublesome.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an antifog vanity mirror to the above-mentioned problem that prior art exists, the utility model aims to solve the technical problem that how realize the in good time defogging of lens.

The purpose of the utility model can be realized by the following technical proposal: an anti-fog cosmetic mirror is characterized by comprising a lens and an installation back box, wherein the installation back box comprises a box body and a plurality of partition plates arranged in the box body, a water flow channel is formed between each partition plate and a side plate of the box body parallel to the partition plates and between adjacent partition plates, water through ports communicated with the adjacent water flow channels are formed in each partition plate, the water through ports of the adjacent partition plates are arranged in a staggered mode, the lens is hermetically connected to the opening of the box body, each water flow channel sequentially forms a snakelike water through path, a water inlet hole is formed in the side plate of the box body close to the beginning of the water through path, a water outlet hole is formed in the side plate of the box body close to the tail end of the water through path, the water inlet hole is far away from the water through port corresponding to the partition plate at the beginning of the water through path, and the water outlet hole is far away from the water through port corresponding to the partition plate at the tail end of the water through path;

the inlet opening is connected with a hot water source, and the outlet opening is connected with a hot water outlet terminal in the bathroom.

The second purpose of the utility model is to match the corresponding installation method for the structure of the novel anti-fog cosmetic mirror, so that the utility model is beautiful and elegant and is convenient to be disassembled and assembled; this method is not one or several methods that may exist, and other installation methods also exist depending on the scene.

A method for installing an antifogging cosmetic mirror is characterized in that a hot water inlet pipe which is pre-embedded in a wall body and connected with a hot water supply end is arranged in a bathroom, and a hot water outlet pipe which is pre-embedded in the wall body and connected with a hot water outlet terminal is arranged in the bathroom.

Furthermore, a wall surface mounting opening which is concave and matched with the box body is formed in the cavity corresponding to the mounting position of the anti-fog cosmetic mirror, and one side of the box body, back to the lens, is arranged in the wall surface mounting opening.

Furthermore, the water inlet hole and the water outlet hole are both positioned on the back plate of the box body, and the connecting ends of the hot water inlet pipe and the hot water outlet pipe extend out of the wall and are respectively communicated with the water inlet hole and the water outlet hole.

Furthermore, the lens can be detachably connected to the opening of the box body.

Furthermore, a connector is inserted into the water inlet hole and the water outlet hole, the connector is of a hollow tubular structure, one end of the connector is provided with an insertion part corresponding to the hot water inlet pipe and the hot water outlet pipe, and the other end of the connector is provided with a limiting part with a diameter larger than the diameters of the water inlet hole and the water outlet hole.

As is well known, vanity mirror fog is just can form because indoor vapor liquefies on the lens when indoor temperature is higher than the lens temperature, if indoor temperature is less than the lens temperature then can not produce water smoke on the lens, and this vanity mirror utilizes this rationale, makes the hot water in the bathroom flow through in the box at lens back, and has certain volumetric water space in the box, can realize following function: only when hot water is used for bathing, the indoor temperature is higher than the temperature of the lens, at the moment, the lens is in a state of being heated by the hot water due to the fact that the circulating hot water exists in the box body on the back of the lens, the temperature of the lens is not lower than the indoor temperature of a bathroom with a larger space, and therefore the lens can be guaranteed not to be fogged during bathing, and when cold water is used for bathing, the indoor temperature is originally not higher than the lens, the lens does not have a fogged condition, moreover, water using terminals such as a shower head and a water tap using the hot water are simultaneously connected with a hot water source and a cold water source, the temperature suitable for use is formed after the hot water and the cold water are mixed according to a certain proportion, namely the temperature is not higher than the water supply temperature of the hot water source, namely the temperature of the hot water circulating in the box body is higher than the water temperature during use, and the temperature of the lens is guaranteed to be higher than the water temperature, namely the lens temperature is higher than the indoor temperature; in order to further improve the reliability and the uniformity of heating the lens, a circuitous water passing path is arranged in the box body, so that hot water can carry out uniform heat exchange on the lens, a certain amount of hot water can still be reserved in the box body after the water using terminal is closed, the hot water can continuously heat the lens within a short time, and the using time of the cosmetic mirror is not just the time of using water and the time after using water, the scheme can just meet the anti-fog requirement when the cosmetic mirror is used, and other times are almost the same as the temperature of the lens and the indoor temperature, and the condition of fogging does not exist.

The box can bury in the wall, only makes the lens be located outside the wall, can increase space utilization on the one hand, can also reduce the interior decoration material that the lens sheltered from the region.

The box can also be arranged on the wall in a rear-mounted mode, and pipelines need to be reserved and the positions of the pipelines need to be designed according to the size of the box.

The lens can be fixed by utilizing the connector, and the makeup mirror can be disassembled and assembled when the lens is disassembled.

The detachable sealing structure is a conventional means in the prior art, and is not described herein in detail, and when the partition plate is longitudinally arranged, after the water valve at the hot water inlet pipe is closed, only a small amount of water overflows after the lens is detached, so that the normal construction of the lens cannot be influenced, and the detachable sealing structure is convenient to detach and maintain.

Drawings

FIG. 1 is a schematic view showing the installation position of the cosmetic mirror in a bathroom.

Fig. 2 is a schematic perspective view of the cosmetic mirror with the lens removed.

Fig. 3 is a transverse sectional view of the cosmetic mirror.

Fig. 4 is a schematic perspective view of the connection head.

In the figure, 1, a lens; 2. a box body; 3. a partition plate; 4. a water flow channel; 5. a water inlet; 6. a water inlet hole; 7. a water outlet hole; 8. a hot water inlet pipe; 9. a hot water outlet pipe; 10. a plug-in part; 11. a limiting part.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 2 and 3, the lens comprises a lens 1 and a back-mounting box, the back-mounting box comprises a box body 2 and a plurality of partition plates 3 arranged in the box body 2, a water flow channel 4 is formed between each partition plate 3 and a side plate of the box body 2 parallel to the partition plates 3 and between adjacent partition plates 3, the partition plates 3 are provided with water through ports 5 communicated with the adjacent water flow channels 4, the water through ports 5 of the adjacent partition plates 3 are arranged in a staggered manner, the lens 1 is hermetically connected to an opening of the box body 2, each water flow channel 4 sequentially forms a serpentine water flow path, the side plate of the box body 2 close to the beginning of the water flow path is provided with a water inlet 6, the side plate of the box body 2 close to the end of the water flow path is provided with a water outlet 7, the water inlet 6 is far away from the water through port 5 corresponding to the partition plate 3 at the beginning of the water flow path, and the water outlet 7 is far away from the water through port 5 corresponding to the partition plate 3 at the end of the water flow path;

the water inlet hole 6 is connected with a hot water source, and the water outlet hole 7 is connected with a hot water outlet terminal in the bathroom.

As shown in fig. 1, a hot water inlet pipe 8 which is embedded in the wall body and connected with a hot water supply end is arranged in the bathroom, a hot water outlet pipe 9 which is embedded in the wall body and connected with a hot water outlet terminal is arranged in the bathroom, the hot water inlet pipe 8 is connected with a water inlet hole 6, and the hot water outlet pipe 9 is connected with a water outlet hole 7.

And a wall surface mounting opening which is concave and matched with the box body 2 is formed in the cavity corresponding to the mounting position of the anti-fog cosmetic mirror, and one side of the box body 2 back to the lens 1 is arranged in the wall surface mounting opening.

As another mode, the inlet opening 6 and the outlet opening 7 are both located on the back plate of the box body 2, and the connecting ends of the hot water inlet pipe 8 and the hot water outlet pipe 9 extend out of the wall and are respectively communicated with the inlet opening 6 and the outlet opening 7.

The lens 1 is detachably connected at the opening of the box body 2.

As shown in fig. 4, a connector is inserted into each of the water inlet hole 6 and the water outlet hole 7, the connector is a hollow tubular structure, one end of the connector is provided with an insertion part 10 corresponding to the hot water inlet pipe 8 and the hot water outlet pipe 9, and the other end of the connector is provided with a limiting part 11 with a diameter larger than the diameters of the water inlet hole 6 and the water outlet hole 7.

As is well known, the vanity mirror fog is formed because indoor vapor is liquefied on lens 1 when indoor temperature is higher than the temperature of lens 1, if the indoor temperature is lower than the temperature of lens 1, then water mist can not be generated on lens 1, the vanity mirror utilizes the basic principle, hot water in a bathroom flows through in box 2 at the back of lens 1, and water storage space with certain volume is arranged in box 2, and the following functions can be realized: only when bathing with hot water, there will be a situation where the indoor temperature is higher than the temperature of the lens 1, and at this time, since the hot water flowing through the box body 2 at the back of the lens 1 exists, the lens 1 is in a state of being heated by the hot water, the temperature of the shower is not lower than that of a bathroom with a larger space, so that the lens 1 can not be fogged when the shower is taken, and when the shower is taken by using cold water, because the indoor temperature is not higher than the temperature of the lens 1 originally, the lens 1 has no fogging condition, moreover, water using terminals such as a shower head and a faucet using hot water are connected with a hot water source and a cold water source at the same time, the temperature suitable for use is formed after mixing according to a certain proportion, namely the temperature is not higher than the water supply temperature of the hot water source, namely the temperature of the hot water circulating in the box body 2 is higher than the water temperature in use, so that the temperature of the lens 1 is ensured to be higher than the water temperature, namely the temperature of the lens 1 is higher than the indoor temperature; in order to further improve the reliability and the heating uniformity of the lens 1, a circuitous water passing path is arranged in the box body 2, so that hot water can carry out uniform heat exchange on the lens 1, a certain amount of hot water can still be reserved in the box body 2 after the water using terminal is closed, the hot water can continuously heat the lens 1 in a short time, and the using time of the cosmetic mirror is not just the time of using water and a period of time after using water.

The box body 2 can be buried in the wall surface, and only the lens 1 is positioned outside the wall surface, so that the space utilization rate can be increased, and the indoor decoration materials of the shielding area of the lens 1 can be reduced.

The cabinet 2 may also be mounted on a wall in a rear-mounted manner, requiring the provision of pipes and the location of pipes designed to correspond to the size of the cabinet 2.

Utilize the connector can be fixed with lens 1, and can carry out the dismouting of this vanity mirror when dismantling lens 1.

The detachable sealing structure is a conventional means in the prior art, and is not described herein in detail, and when the partition plate 3 is longitudinally arranged, only a small amount of water overflows when the lens 1 is detached, and the normal construction of the lens cannot be influenced, so that the lens is convenient to detach, install and maintain.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (1)

1. The utility model provides an antifog vanity mirror, its characterized in that, includes lens (1) and installation back of the body case, the installation back of the body case includes box (2) and a plurality of baffles (3) of setting in box (2), between the curb plate of box (2) of baffle (3) and parallel baffle (3), all form a rivers passageway (4) between adjacent baffle (3), have water service mouth (5) of intercommunication adjacent rivers passageway (4) on baffle (3), water service mouth (5) dislocation set of adjacent baffle (3), lens (1) sealing connection is at the opening part of box (2), and each rivers passageway (4) form snakelike water service route according to the preface, are close to have a inlet opening (6) on the curb plate of box (2) at water service route top, are close to have a apopore (7) on the curb plate of water service route terminal box (2), the water inlet hole (6) is far away from the water through opening (5) corresponding to the clapboard (3) at the beginning end of the water through path, and the water outlet hole (7) is far away from the water through opening (5) corresponding to the clapboard (3) at the tail end of the water through path;

the water inlet hole (6) is connected with a hot water source, and the water outlet hole (7) is connected with a hot water outlet terminal in the bathroom.

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