KR20230053337A - Mirror with automatic de-fogging function - Google Patents

Abstract

The present invention relates to a mirror having an automatic de-fogging function, and in particular, a mirror; a frame installed on the rear surface of the mirror; A hot water inlet and hot water outlet exposed to the outside of the frame in a state installed in the frame and a hot water pipe for heating the mirror having a form connected to a hot water supply pipe and a faucet, respectively; a water flow detection sensor that detects the flow of hot water as an electrical signal; an indoor air forcible circulation fan that forcibly sucks in and discharges humid indoor air and reduces moisture contained in the indoor air by convective heat of the hot water flowing through the hot water pipe for heating the mirror; It is characterized in that it is configured to include; a control unit that operates the indoor air forced circulation fan when the user uses hot water.
Therefore, it is possible to completely and automatically remove fogging that occurs when the temperature difference between the glass mirror and indoor air is large or when the indoor humidity rises above a predetermined humidity level.

Description

Mirror with automatic de-fogging function}

The present invention relates to a mirror having an automatic de-fogging function, and more particularly, to a mirror widely used in bathrooms, etc., by installing a hot water pipe having a predetermined shape for heating the mirror and a forced indoor air circulation fan on the rear side of the mirror, so that the user can use the hot water. When the temperature difference between the glass mirror and the indoor air is large or the indoor humidity rises above the specified humidity by heating the mirror and forcibly circulated indoor air using the heat generated from the hot water passing through the hot water pipe for heating the mirror It relates to a mirror having an automatic fogging removal function invented to automatically remove fogging generated in a short time.

In general, mirrors are installed in bathrooms, sauna rooms, or kitchens. In particular, shower facilities are provided in bathrooms or sauna rooms, and when a user takes a shower, the temperature of the hot water supplied to the shower increases the temperature inside the bathroom. And, since the temperature of the mirror surface installed on the wall of the bathroom is relatively low compared to the elevated temperature inside the bathroom, the surface of the mirror is fogged, so it blocks the user's view when washing hair, shaving, washing face, brushing teeth, etc. There is a problem.

Here, fogging occurring on the surface of the mirror is a type of condensation phenomenon that occurs when the indoor air temperature is above the dew point temperature and the amount of water vapor is above the saturation humidity. It refers to the phenomenon in which water droplets collide with water.

Therefore, the user wipes the fogged mirror again to look at the mirror, but the fog reappears soon, making it very inconvenient to look at the bathroom mirror for washing face or shaving in the shower. When the surface becomes hazy, it becomes difficult for the user to use the mirror, and the inconvenience of spraying water or continuously wiping the surface to remove condensation occurs.

In order to solve such conventional disadvantages, conventionally, the bathroom mirror has been tried to prevent fogging of the bathroom mirror by matching the internal temperature of the bathroom and the surface temperature of the mirror through a heating means in the form of a coil or a film, but the high cost is a disadvantage and the mirror's There were disadvantages such as a problem of securing a separate installation space at the rear and a separate energy supply as a heating means.

In addition, the current bathroom culture is changing from the traditional lifestyle of taking a bath with water in a bathtub to a lifestyle of light and frequent washing using a shower head, so many homes remove the bathtub and install only a separate shower booth in the bathroom. It is being remodeled and used.

As a method for solving this inconvenience, conventional Korean Utility Model Registration No. 20-0336693 discloses a technique of preventing fogging of the mirror by increasing the temperature of the mirror using a hot water pipe.

However, the anti-fogging technology of mirrors using such a hot water pipe has disadvantages in that construction is difficult and expensive, and dew condensation is removed in an irregular form by heat transferred to the mirror, making it look messy.

As another conventional method, a device for preventing fogging is disclosed in Korean Patent Registration No. 10-0945258.

This is a heating element composed of one or a plurality of heating lines formed by directly applying a mixture of 40 to 60% by weight of fine carbon powder and 60 to 40% by weight of an adhesive on the rear surface of the mirror, and the temperature or humidity of the mirror surface. A sensing unit composed of a temperature sensor or a humidity sensor that senses, and an operating unit that controls the temperature of the heating element according to the detection of the sensing unit to operate the heating element when the detection value of the sensing unit is lower than a set comparison value, and to stop it when it is high , It consists of a controller including an overheat protection unit that stops the operation of the operation unit when the operation time of the operation unit exceeds the time set in the time setting unit.

however. This prior art is not only structurally complex, but also uneconomical in that it requires the supply and use of electrical energy, and a method for preventing damage to the heating element and related parts due to moisture by using the heating element in a humid place is It has the problem of needing an additional one.

Domestic Registered Utility Model Publication No. 20-0336693 (December 10, 2003) Korean Registered Patent Publication No. 10-0945258 (February 24, 2010) Domestic Patent Publication No. 10-2012-0015967 (February 22, 2012) Domestic Patent Registration No. 10-1595554 (February 12, 2016)

The present invention has been devised to solve these conventional problems, and a hot water pipe for heating a mirror having a predetermined shape and a forced indoor air circulation fan having a predetermined shape are installed on the back of a mirror widely used in bathrooms, so that when a user uses hot water, The temperature between the glass mirror and the indoor air is heated by using the heat generated from the hot water passing through the hot water pipe for heating the mirror to heat the mirror as well as the humid air in the room that is forcibly circulated by the forced indoor air circulation fan. An object of the present invention is to provide a mirror having an automatic defogging function capable of completely and automatically removing fogging that occurs when a vehicle is large or the indoor humidity rises above a predetermined humidity level in a short period of time.

Another object of the present invention is to install two lines at regular intervals so that an air distribution path is formed between the hot water pipes for heating the mirror when installing hot water pipes for heating the mirror on the rear side of the mirror, and through a forced indoor air circulation fan. When indoor air with high humidity is sucked in, the moisture is removed, and then discharged back into the room, it passes through the air distribution path formed between the two hot water pipes for heating the mirror, so that the heat generated in the hot water pipe for heating the mirror is used to cool the indoor air. An object of the present invention is to provide a mirror having an automatic defogging function capable of rapidly reducing moisture contained in the air and automatically removing dew condensation formed on the surface of the mirror more effectively.

Another object of the present invention is to install an electromagnetic valve on the hot water pipe for heating the mirror, install a humidity sensor and a first temperature sensor in the room, install a second temperature sensor on the back of the mirror, and make the control unit When the difference between the room temperature and the actual temperature of the mirror exceeds a set temperature (i.e., dew point temperature) or the indoor humidity rises above a set humidity, the electromagnetic valve for automatic hot water discharge is automatically opened and the indoor air forced circulation fan is turned on at the same time. An object of the present invention is to provide a mirror having an automatic defogging function that can automatically remove dew condensation formed on the surface of the mirror more quickly, effectively, and cleanly by operating automatically.

Other detailed objects of the present invention will be clearly identified and understood by experts or researchers in the art through the specific contents described below.

The present invention for achieving the above object is a mirror having a predetermined area; a rectangular frame-shaped frame having a back plate and installed between the rear surface of the mirror and the outer surface of the wall; The hot water inlet and the hot water outlet exposed to the outside of the frame in a state of being fixed to the back plate in a zigzag manner within the frame are connected to the hot water supply pipe and the faucet, respectively, and when the user opens the faucet and uses hot water, It is characterized in that it comprises a; hot water pipe for heating the mirror that prevents fogging on the surface of the mirror by allowing heat generated from the hot water flowing to the mirror to be transferred to the surrounding air.

In addition, a water flow detection sensor for detecting the flow of hot water as an electrical signal in a state installed at one end or the other end of the hot water pipe for heating the mirror; It is operated when hot water is used while installed in the frame, and the humid air in the room is sucked into the space formed between the rear surface of the mirror and the frame through the air inlet formed on one side of the frame, and then forced through the air outlet formed on the other side. an indoor air forcible circulation fan that discharges the indoor air and reduces moisture contained in the indoor air by convective heat of the hot water discharged to the outside of the hot water pipe for heating the mirror; It may further include a controller configured to operate the forced indoor air circulation fan when the user's use of hot water is sensed through the water flow detection sensor.

At this time, the hot water pipe for heating the mirror is formed of a heat-resistant plastic or metal material, but is characterized in that it is formed as a rectangular pipe to reduce the volume at the rear surface of the mirror and widen the contact area with the mirror.

In addition, the hot water pipes for heating the mirror are formed in two lines with a predetermined interval between a hot water inlet and a hot water outlet, and when indoor air is sucked in through the forced indoor air circulation fan and discharged back into the room, Indoor air is circulated through an air distribution path formed with a predetermined width between two rows of hot water pipes for heating the mirror, and the moisture contained in the indoor air is rapidly reduced by the convective heat of the hot water generated from the hot water pipe for heating the mirror. It is characterized by making it.

In addition, a first temperature sensor and a humidity sensor for detecting the temperature and humidity of indoor air are installed in the room, and a second temperature sensor for detecting the actual temperature of the mirror is installed on the rear side of the mirror, and the mirror heating An electromagnetic valve for automatic hot water discharge is installed on the hot water outlet of the hot water pipe, and the control unit controls the water flow detection sensor when the difference between the temperature of the indoor air and the actual temperature of the mirror exceeds the dew point temperature or the indoor humidity rises above the predetermined humidity. It is characterized in that the defogging function is automatically performed by automatically opening the solenoid valve for automatic hot water discharge and simultaneously operating the forcible indoor air circulation fan regardless of the output signal of .

In addition, the control unit operates the rotation speed of the forced indoor air circulation fan at 70 to 80% of the maximum rotation speed when the normal de-fogging function is operated, but the difference between the room temperature and the actual temperature of the mirror is greater than a predetermined temperature or the indoor humidity When the saturated humidity is reached, the forced indoor air circulation fan is operated at a maximum rotational speed for a predetermined time.

As described above, according to the mirror having an automatic de-fogging function of the present invention, first, a hot water pipe for heating the mirror having a predetermined shape and a forced indoor air circulation fan are installed on the back of the mirror widely used in bathrooms, so that the user can use hot water. When using the heat generated from the hot water passing through the hot water pipe for heating the mirror, it is possible to heat the mirror as well as the humid air in the room that is forcibly circulated by the forced indoor air circulation fan, so that the air between the glass mirror and the indoor air can be heated. It has the effect of completely and automatically removing the fogging that occurs when the temperature difference between the room temperature is large or the indoor humidity rises above the set humidity level.

Second, in the present invention, when installing hot water pipes for heating the mirror on the rear side of the mirror, they are installed in two rows at regular intervals so that an air distribution path is formed between the hot water pipes for heating the mirror, and the humidity is controlled through a forced indoor air circulation fan. When high indoor air is sucked in to remove moisture and then discharged back into the room, it passes through the air distribution path formed between the two hot water pipes for heating the mirror, using the heat generated from the hot water pipe for heating the mirror to supply air to the room. Since the contained moisture can be rapidly reduced, condensation formed on the surface of the mirror can be more effectively removed automatically.

Third, in the present invention, an electromagnetic valve for automatic hot water discharge is installed on the hot water pipe for heating the mirror, a humidity sensor and a first temperature sensor are installed indoors, a second temperature sensor is installed on the rear surface of the mirror, and a control unit When the difference between the room temperature and the actual temperature of the mirror exceeds a set temperature (i.e., dew point temperature) or the indoor humidity rises above a set humidity, the solenoid valve for automatic hot water discharge is automatically opened and indoor air is forced to circulate at the same time It is a very useful invention, such as having the effect of automatically removing dew condensation formed on the mirror surface more quickly, effectively, and neatly by allowing the fan to operate automatically.

Other effects of the present invention will be clearly identified and understood by experts or researchers in the art through the specific details described below or during the process of implementing the present invention.

1 is a partial cutaway front view of a mirror to which a first embodiment of the present invention is applied.
2 is a cross-sectional side view of a mirror to which a first embodiment of the present invention is applied.
3 is a partial cutaway front view of a mirror to which a second embodiment of the present invention is applied;
4 is a partial cutaway front view of a mirror to which a third embodiment of the present invention is applied;
5 is a graph of dew point temperature change according to air temperature.
6 is a graph showing a saturated water vapor content curve according to air temperature.

Since the present invention can have various changes and various forms, specific embodiments are illustrated in the drawings and described in detail in the text. However, it should be understood that this is not intended to limit the present invention to the specific disclosed form, and includes all modifications, equivalents, and substitutes included in the spirit and scope of the present invention.

Terms such as first and second may be used to describe various components, but the components should not be limited by the terms. These terms are only used for the purpose of distinguishing one component from another. For example, a first element may be termed a second element, and similarly, a second element may be termed a first element, without departing from the scope of the present invention.

Terms used in this application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly dictates otherwise. In this application, the terms "comprise" or "having" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features or It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs.

Terms such as those defined in commonly used dictionaries should be interpreted as having a meaning consistent with the meaning in the context of the related art, and unless explicitly defined in the present application, they should not be interpreted in an ideal or excessively formal meaning. don't

Hereinafter, the operating state according to each configuration, including a preferred embodiment according to the present invention, will be described in detail with reference to the accompanying drawings.

1 shows a partially cut-away front view of a mirror to which the first embodiment of the present invention is applied, FIG. 2 shows a cross-sectional side view of a mirror to which the first embodiment of the present invention is applied, and FIG. 3 is a view to which the second embodiment of the present invention is applied. It shows a partially cut front view of a mirror, and FIG. 4 shows a partially cut front view of a mirror to which a third embodiment of the present invention is applied.

In addition, FIG. 5 shows a graph of dew point temperature change according to air temperature, and FIG. 6 shows a graph showing a saturated water vapor content curve according to air temperature.

According to this, as shown in FIGS. 1 and 2, the mirror having an automatic de-fogging function to which the first embodiment of the present invention is applied includes a frame 20 having a rectangular frame shape on the rear side of the mirror 10 having a large predetermined area and By installing the hot water pipe 30 for heating the mirror, when the user uses the hot water, the hot water passes through the hot water pipe 30 for heating the mirror through the hot water pipe 30 for heating the mirror The heat generated from hot water can heat the mirror, so that the fogging that occurs when the temperature difference between the glass mirror and the indoor air is large or the indoor humidity rises above the set humidity level can be automatically removed in a short time. as a major technical component.

At this time, the mirror 10 is generally installed and used on a wall in a bathroom, shower room, kitchen, etc., and its area may vary depending on the shape, including the area of the wall and the place where the mirror is to be installed.

In addition, the frame 20 is molded into a rectangular frame shape corresponding to the size of the mirror 10 using extruded bars made of metal or synthetic resin material, and a hot water pipe 30 for heating the mirror is fixed to the rear surface. It has a configuration in which a rear plate 21 is installed to do this, and is installed between the rear surface of the mirror 10 and the outer surface of the wall to perform the function of the outer frame.

In addition, the hot water pipe 30 for heating the mirror is fixedly installed in the frame 20 by bending a tubular body extruded from a heat-resistant plastic or metal material such as aluminum or copper, which is inexpensive and easy to construct, in a zigzag manner. In addition to having a shape, the hot water inlet 31 and the hot water outlet 32 exposed to the outside of the frame 20 are detachably coupled to the hot water supply pipe 40 and the faucet 50, respectively.

In such a mirror heating hot water pipe 30, when the user opens the faucet 50 to use hot water, the hot water supplied from the hot water supply pipe 40 passes through the mirror heating hot water pipe 30 to the faucet ( 50), the heat generated from the hot water flowing into the pipe heats the mirror 10 as well as the air around the hot water pipe 30 for heating the mirror inside the frame 20. It heats indirectly and performs a function of preventing fogging from occurring on the surface of the mirror 10.

At this time, the hot water pipe 30 for heating the mirror may have the shape of a general circular pipe, but in this case, the volume is large and there is a concern that the contact area with the rear surface of the mirror 10 is small. As such, by forming a rectangular tube, the overall height and volume can be reduced, and the contact area with the mirror 10 can be maximized to increase the transfer effect of heat generated from hot water.

In addition, the faucet 50 is a valve that allows or blocks tap water, and includes a sink faucet, a sink faucet, a shower faucet, a bathtub faucet, a gooseneck faucet, and a gobra faucet. Includes all faucet

In addition, although not shown, the contact portion between the rear surface of the mirror 10 and the front surface of the frame 20 and the contact portion between the rear surface of the mirror 10 and the hot water pipe 30 for heating the mirror are integrated with each other. As an adhesive means for bonding, heat generated in the hot water pipe 30 for heating the mirror through which hot water passes is well transmitted to the mirror 10 and at the same time has thermal conductivity and adhesive strength to continuously maintain mutual adhesive strength. It is preferable to use this very good thermally conductive adhesive (bond) or thermally conductive silicone adhesive or thermally conductive double-sided tape or the like.

Meanwhile, FIG. 3 shows a second embodiment of a mirror having an automatic de-fogging function to which the present invention is applied. As in the first embodiment, a square frame shape is formed on the rear side of the mirror 10 having a predetermined area. A frame 20 and a hot water pipe 30 for heating the mirror are installed, and in addition, a water flow detection sensor 60, a forced indoor air circulation fan 70, and a control unit 80 are provided so that when the user uses hot water, By allowing the hot water to pass through the hot water pipe 30 for heating the mirror, the heat generated from the hot water passing through the hot water pipe 30 for heating the mirror is transferred to the mirror 10 as well as the forced indoor air circulation fan 30. ) to heat the humid air in the room, which is forcibly circulated by the air, so that the fogging that occurs when the temperature difference between the glass mirror and the indoor air is large or when the indoor humidity rises above the set humidity is completely automatically and quickly. that could be removed.

Among the components additionally installed in the second embodiment of the present invention, the water flow detection sensor 60 is one end or the other end of the hot water pipe 30 for heating the mirror, that is, the hot water inlet 31 or the hot water outlet ( 32), and when the hot water flows into the hot water pipe 30 for heating the mirror due to the user using the hot water, it detects it as an electrical signal and transmits it to the control unit 80. .

At this time, the water flow detection sensor 60 generates an “on” signal when the user opens the faucet 50 and uses the hot water so that the hot water flows into the mirror heating hot water pipe 30, and the faucet 50 It is possible to use a water flow switch having a form of generating an “off” signal when there is no flow of hot water due to closing.

In addition, the indoor air forced circulation fan 70 is operated by an output signal from the control unit 80 when a user uses hot water while installed in a position close to the air outlet 23 within the frame 20. , Indoor humid air is sucked into the space formed between the rear surface of the mirror 10 and the frame 20 through the air inlet 22 formed on one side of the frame 20, and then the air outlet formed on the other side It is forcibly discharged through (23), and the moisture contained in the indoor air is reduced by the convective heat of the hot water discharged to the outside of the hot water pipe 30 for heating the mirror.

At this time, the indoor air forced circulation fan 70 does not expose wings having a longer shape to the outside than a generally widely used blower-type fan in consideration of the thickness of the frame 20, etc., and the motor It is desirable to adopt and install a blower fan whose speed can be controlled through a proportional control method.

In addition, the control unit 80 includes a storage unit for storing various control programs and various reference data, an A/D converter that converts detection signals input as analog signals from various sensors into digital signals, and the forced circulation of indoor air. A circulation fan driving unit for controlling the driving of the fan 70 is basically provided, and as a result of determining the output signal of the water flow detection sensor 60 in a state installed inside or outside the frame 20, the user's use of hot water is confirmed. When detected, it performs a function of operating the indoor air forced circulation fan 70 and the like.

Meanwhile, FIG. 4 shows a third embodiment of a mirror having an automatic de-fogging function to which the present invention is applied. In forming the hot water pipe 30 for heating the mirror, one pipe is simply jagged. Without bending, as shown in FIG. 4, the hot water pipe 30 for heating the mirror is bent in a zigzag pattern so as to have a predetermined interval between one hot water inlet 31 and the hot water outlet 32 in two lines. When installed in (20), an air distribution path 33 having a predetermined width is formed between the two rows of hot water pipes 30 for heating the mirror.

In this way, when the hot water pipe 30 for heating the mirror is installed in the frame 20 in a state in which two lines are formed between one hot water inlet 31 and one hot water outlet 32, the user uses hot water As a result, hot water is branched and passed through the two rows of hot water pipes 30 for heating the mirror, and the forced indoor air circulation fan 70 controlled by the control unit 80 is automatically operated, thereby forcibly circulating the indoor air. When the fan 70 sucks indoor air into the frame 20 from the rear surface of the mirror 10 and automatically discharges it back into the room, it has a predetermined width between the two lines of hot water pipes 30 for heating the mirror. Indoor air is circulated as shown by the arrow in FIG. 4 through the formed air distribution path 33, and the moisture contained in the indoor air is rapidly reduced by the convective heat of the hot water generated from the hot water pipe 30 for heating the mirror. will have

Therefore, since the moisture contained in the indoor air can be rapidly reduced using the heat generated from the hot water pipe 30 for heating the mirror, dew condensation formed on the surface of the mirror can be more effectively removed automatically.

In addition, in the present invention, as shown in FIG. 4, a first temperature sensor 90 and a humidity sensor 110 are further installed indoors to detect the temperature and humidity of indoor air and transmit them to the control unit 80, respectively, and a mirror ( 10) further installs a second temperature sensor 100 that transmits the actual temperature of the mirror to the control unit 80 that detects the actual temperature of the mirror. It further includes installing an electromagnetic valve 120 for automatic discharge.

In addition, in the present invention, the control unit 80 measures the difference between the indoor temperature detected by the first temperature sensor 90 and the actual temperature of the mirror 10 detected by the second temperature sensor 100. After the obtained difference is greater than the dew point temperature or when the indoor humidity detected through the humidity sensor 110 rises above a predetermined humidity, the output signal ("on/off" signal) of the water flow sensor 60 Regardless, the solenoid valve 120 for automatically discharging hot water is automatically opened and the indoor air forced circulation fan 70 is operated simultaneously.

As a result of the determination by the control unit 80 as described above, even if the water flow detection sensor 60 is in an “off” state because the user is not using hot water, the difference between the room temperature and the actual temperature of the mirror 10 is a set temperature (i.e., When it is above the dew point temperature or the indoor humidity rises above the predetermined humidity, the control unit 80 automatically opens the solenoid valve 120 for automatically discharging hot water and at the same time the indoor air forced circulation fan ( 70) automatically, it is possible to automatically remove dew condensation formed on the surface of the mirror more quickly, effectively, and cleanly without using hot water.

Here, the dew point temperature (also referred to as “dew point temperature”) refers to the temperature at which water vapor in the air is saturated and dew forms when the air temperature is lowered at a constant pressure, and the graph shown in FIG. Likewise, it is proportional to the amount of water vapor, that is, humidity, and when the amount of water vapor is 4.8 g/m3, the dew point temperature is 0°C, and when it is 10.6 g/m3, it is 12°C.

At this time, since the dew point temperature has one value depending on the amount of water vapor initially included, it can also be used as a variable representing the humidity in the air. % equals the current temperature, that is, the dew point temperature.

In addition, in the present invention, a control program included in a micom in the control unit 80 is partially changed, so that when the de-fog function is activated due to normal hot water use in the control unit 80, the forcible indoor air circulation fan 70 operates. The number of rotations is operated at 70 to 80% of the maximum number of rotations, and the difference between the room temperature and the actual temperature of the mirror 10 is greater than a predetermined temperature (for example, 10 to 15 ° C) or the indoor humidity reaches saturation humidity In one case, the indoor air forced circulation fan 70 was operated at the maximum rotational speed for a predetermined time (for example, 30 to 60 seconds).

As described above, when the rotation speed of the indoor air forced circulation fan 70 is increased when the defogging function is operated due to normal hot water use, and the difference between the indoor temperature and the actual temperature of the mirror 10 is greater than a predetermined temperature or the indoor humidity is saturated humidity If it is controlled differently, it is possible to prevent unnecessary power consumption and noise generation when performing the normal de-fogging function, and when the de-fogging function is urgently needed, it is faster, more effective, and cleaner through quick air circulation. Condensation (fog) formed on the surface of the mirror can be automatically removed.

At this time, the saturated humidity refers to a state in which the maximum amount of water vapor that can be contained in the air at a certain temperature is contained, and varies according to the temperature as shown in the saturated water vapor amount curve according to the temperature shown in FIG. 6, and when the temperature is high rises and decreases when the temperature is low.

Although the detailed description of the present invention described above has been described with reference to preferred embodiments of the present invention, those skilled in the art or those having ordinary knowledge in the art will find the spirit of the present invention described in the claims to be described later. And it will be understood that the present invention can be variously modified and changed without departing from the technical scope.

10 : Mirror
20: frame 21: back plate
22: air inlet 23: air outlet
30: hot water pipe for mirror heating 31: hot water inlet
32: hot water outlet 33: air distribution path
40: hot water supply pipe 50: faucet
60: water flow detection sensor 70: indoor air forced circulation fan
80: control unit
90: first temperature sensor 100: second temperature sensor
110: Humidity sensor 120: Electromagnetic valve for automatic hot water discharge

Claims (6)

a mirror having a predetermined area;
a frame installed between the rear surface of the mirror and the outer surface of the wall;
It is fixed to the rear plate in a zigzag manner within the frame and includes at least one hot water pipe for heating the mirror including a hot water inlet and a hot water outlet exposed to the outside of the frame,
The mirror having an automatic de-fogging function, characterized in that the hot water pipe for heating the mirror prevents the mirror from fogging through the heat of the hot water introduced through the hot water inlet and discharged through the hot water outlet.
The method of claim 1,
a water flow detection sensor installed at one end or the other end of the hot water pipe for heating the mirror and detecting the flow of hot water as an electrical signal;
In the state installed in the frame, it operates when hot water flows into the hot water pipe for heating, and sucks the humid air in the room into the space formed between the rear surface of the mirror and the frame through the air intake formed on one side of the frame, and then the other side an indoor air forcible circulation fan for forcibly discharging air through an air discharge port formed in and reducing moisture contained in the indoor air by convective heat of the hot water discharged to the outside of the hot water pipe for heating the mirror;
The mirror having an automatic de-fogging function, characterized in that it is configured to further include a control unit that operates the forced indoor air circulation fan when the user's use of hot water is detected through the water flow detection sensor.
The method of claim 1,
The hot water pipe for heating the mirror,
A mirror having an automatic de-fogging function, characterized in that it is formed of a rectangular tube to reduce the volume at the back of the mirror and widen the contact area with the mirror.
The method of claim 2,
The hot water pipe for heating the mirror,
Two lines are formed with a predetermined interval between one hot water inlet and hot water outlet, and when indoor air is sucked in through the forced indoor air circulation fan and discharged back into the room, between the two lines of hot water pipes for heating the mirror Indoor air is circulated through an air passage formed with a predetermined width in the automatic de-fogging, characterized in that the moisture contained in the indoor air is rapidly reduced by the convective heat of the hot water generated from the hot water pipe for heating the mirror. A mirror with a function.
The method of claim 2,
A first temperature sensor and a humidity sensor for detecting the temperature and humidity of indoor air are installed on the outside of the frame, and a second temperature sensor for detecting the actual temperature of the mirror is installed on the rear side of the mirror. An electromagnetic valve for automatic hot water discharge is installed on the hot water outlet of the hot water pipe for heating,
The controller automatically opens the solenoid valve for automatic hot water discharge regardless of the output signal of the water flow detection sensor when the difference between the indoor air temperature and the actual temperature of the mirror exceeds the dew point temperature or the indoor humidity rises above a predetermined humidity. A mirror having an automatic de-fog function, characterized in that the de-fog function is automatically performed by operating a forced indoor air circulation fan at the same time.
The method of claim 5,
The control unit,
When the defogging function is operated due to the user's use of hot water, the rotation speed of the forced indoor air circulation fan is operated at 70 to 80% of the maximum rotation speed,
When the difference between the indoor temperature and the actual temperature of the mirror is greater than a predetermined temperature or the indoor humidity reaches a saturated humidity, the indoor air forced circulation fan is operated at the maximum rotation speed for a predetermined time. mirror.

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