KR20230122280A - A window for preventing dew condensation - Google Patents

Abstract

The present invention includes a window frame in which a window coupling hole is formed, a window made of a transparent material coupled to the window coupling hole 101, a temperature information acquisition unit for obtaining temperature information of the window, and a heating air supply unit for supplying heated air to the window. , It relates to a condensation prevention window including a control unit for determining whether or not the heating air supply unit is operating based on the temperature information acquired by the temperature information acquisition unit.

Description

A window for preventing dew condensation}

The present invention relates to a condensation-preventing window capable of preventing water droplets from forming on a window due to condensation and mold from occurring due to the water droplets.

Condensation that occurs indoors due to the temperature difference between indoor and outdoor during the winter can cause mold to occur, which can harm the health of residents.

In the case of a wall, condensation can be prevented by improving the insulation or increasing the thickness, but in the case of a window, there is no way to prevent condensation because the thickness is thin and the insulation cannot be used.

In particular, when the indoor temperature and humidity are increased during the winter season to improve the living comfort of indoor residents, there is a problem in which dew condensation occurs due to the high indoor humidity and the temperature difference between the window and the room.

In order to solve this problem, research has been conducted in various fields, but a technology capable of effectively preventing condensation has not yet been developed.

Patent Document 1) Korean Registration Publication No. 10-2157741 (Name: Window Frame Construction Method for Reinforcing Insulation, Announcement Date: 2020.09.18) Patent Document 2) Korean Registration Publication No. 10-2217404 (Name: Window frame bonding structure that prevents condensation and improves insulation and workability, notice date: 2021.02.22)

The present invention has been made to solve the problems described above, and an object of the present invention is to provide a condensation-preventing window capable of preventing condensation.

Another object of the present invention is to protect the health of residents by preventing the occurrence of mold due to condensation, improve the comfort of indoor residents, and prevent damage to houses.

The present inventors anti-condensation window for achieving the object as described above, the window frame 100 in which the window coupling hole 101 is formed;

A window 200 made of a transparent material coupled to the window coupling hole 101;

a temperature information acquisition unit 300 acquiring temperature information of the window 200;

a heating air supply unit 400 supplying heated air to the window 200; and

and a control unit 500 that determines whether or not the heating air supply unit 400 operates based on the temperature information acquired by the temperature information acquisition unit 300.

In addition, the temperature information obtaining unit 300 is characterized in that it includes a temperature sensor for determining the surface temperature of the window 200.

In addition, the heating air supply unit 400 includes a blower 410 sucking in air and then discharging it;

a distribution duct 420 for distributing and supplying the air supplied through the blower 410 to the window 200; and

A heating means 430 located inside the distribution duct 420 to heat the passing air.

In addition, the distribution duct 420 includes a duct housing 421 having an air discharge hole 421-1 formed on one side facing the window 200; and distribution lips 422 distributing and supplying air to each of the air discharge holes 421-1.

In addition, the air discharge hole 421-1 includes a first air discharge hole 421-1A formed on one side of the window 200 in the thickness direction and a second air discharge hole 421-1A formed on the other side in the thickness direction of the window 200. 1B); characterized in that it includes.

In addition, the distribution duct 420 is coupled to the upper side of the air discharge hole 421-1 to guide the air discharged through the discharge hole 421-1 to the inside where the window 200 is located. It is characterized by including a guide lip 423.

In addition, the exhaust air guide lip 423 is coupled to the distribution duct 420 at an angle.

In addition, the exhaust air guide lip 423 is characterized in that it is made of any one of rubber and silicone material.

In addition, the control unit 500 includes a power supply unit 510 for supplying power;

A relay switch 520 for adjusting whether or not electricity is supplied to the power supply unit 510;

a motor driver 530 for adjusting the motor strength of the blower 410; and

The temperature information transmitted from the temperature information obtaining unit 300 is compared with the dew point temperature calculated from the temperature and humidity of indoor air to determine whether or not condensation has occurred, and the relay switch 520 and the motor driver determine whether or not condensation has occurred. It is characterized in that it includes; a control unit 540 for controlling the operation of 530.

In addition, the present invention further includes a window frame 600 in which the window frame 100 is slidably coupled and an electricity supply socket 610 is formed, and the power supply unit 510 is fastened to the electricity supply socket 610. It is characterized in that it comprises a; fastening terminal 511 to be supplied with electricity.

The anti-condensation window of the present invention has an advantage of minimizing condensation caused by a temperature difference because the temperature of the window can be adjusted adjacent to the room temperature by applying hot air to the window.

In addition, since hot air is evenly applied to the entire window through the distribution duct, the window can be heated more effectively.

In addition, since the hot air is obliquely applied to the surface of the window by the exhaust air guide lip, there is an advantage in solving the problem that the hot air applied to the window does not heat the window and is wasted.

In addition, since the device operates only when the window is closed, energy for maintaining the device can be minimized.

1 is a front view showing an anti-condensation window according to the present invention;
Figure 2 is a cross-sectional view and a plan view for explaining the structure and principle of the heating air supply unit of the present inventors anti-condensation window.
Figure 3 is a conceptual diagram for explaining the exhaust air guide lip of the present inventors anti-condensation window.
Figure 4 is a conceptual diagram for explaining the coupling of the electrical supply socket formed on the window frame of the present inventors anti-condensation window and the fastening terminal provided in the power supply unit.

Advantages and characteristics of the embodiments of the present invention, and methods for achieving them will become clear with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below and may be implemented in various different forms, only the present embodiments make the disclosure of the present invention complete, and common knowledge in the art to which the present invention belongs. It is provided to completely inform the person who has the scope of the invention, and the present invention is only defined by the scope of the claims. Like reference numbers designate like elements throughout the specification.

In describing the embodiments of the present invention, if it is determined that a detailed description of a known function or configuration may unnecessarily obscure the subject matter of the present invention, the detailed description will be omitted. In addition, terms to be described later are terms defined in consideration of functions in the embodiment of the present invention, which may vary according to the intention or custom of a user or operator. Therefore, the definition should be made based on the contents throughout this specification.

Hereinafter, the anti-condensation window 1000 according to the present invention will be described with reference to the accompanying drawings.

1 is a front view showing an anti-condensation window of the present inventor, Figure 2 is a cross-sectional view and a plan view for explaining the structure and principle of the heated air supply unit of the anti-condensation window of the present inventor, Figure 3 is a discharge air guide of the anti-condensation window of the present inventor It is a conceptual diagram for explaining the lip, and FIG. 4 is a conceptual diagram for explaining that the electrical supply socket formed on the window frame of the condensation-preventing window of the present invention and the fastening terminal provided in the power supply unit are coupled.

Referring to FIG. 1, the anti-condensation window 1000 of the present invention includes a window frame 100 in which a window coupling hole 101 is formed,

A window 200 made of a transparent material coupled to the window coupling hole 101;

A temperature information acquisition unit 300 for obtaining temperature information of the window 200;

A heating air supply unit 400 for supplying heated air to the window 200;

A control unit 500 for determining whether the heating air supply unit 400 is operating based on the temperature information acquired by the temperature information obtaining unit 300 may be included.

In detail, the maximum value of water vapor contained in the air varies depending on the temperature of the air. When the air contacts a low-temperature object, the relative humidity of the air increases, and when the dew point is reached, Moisture in the air condenses on the object it touches.

This condensation phenomenon occurs a lot in the window 200, which is particularly affected by the external temperature due to its thin thickness, and the water droplets formed on the window surface due to the condensation cause a problem of mold propagation. ), when it is determined that condensation may occur due to the temperature difference between the window 200 and the indoor air, the heating air supply unit 400 is operated to raise the temperature of the window 200.

The temperature information acquisition unit 300 may include a temperature sensor that detects the surface temperature of the window 200, and the control unit 500 controls the temperature of the window 200 determined by the temperature information acquisition unit 300. It is possible to determine whether the heating air supply unit 400 is operating by comparing the surface temperature with the indoor temperature and humidity.

At this time, a separate temperature sensor and humidity sensor for determining indoor temperature and humidity may be connected to the controller 500 to provide indoor temperature information and humidity information to the controller 500 .

That is, by comparing the temperature of the window 200 obtained by the temperature information acquisition unit 300 with the dew point temperature calculated from the temperature and humidity of indoor air, condensation occurs when the temperature of the window 200 approaches the dew point temperature. It is determined that the temperature of the window 200 is increased by determining that it is generated and supplying heated air to the window 200 by operating the heating air supply unit 400 by operating the relay switch 520 and the motor driver 530. It is possible to prevent dew condensation occurring on the window 200 by raising the window 200 . For example, when the difference between the temperature of the window 200 and the dew point temperature is within 10° C., the heating air supply unit 400 may be operated. In addition, when the difference between the temperature of the window 200 and the dew point temperature is less than 5 ° C, the heating air supply unit 400 may be operated.

In addition, the present invention may include a separate temperature sensor for determining the indoor temperature, and the temperature sensor may be connected to the controller 500 to provide indoor temperature information to the controller 500 .

The control unit 500 may store humidity data according to temperature in advance, and determine the temperature and humidity of the room from the temperature information obtained from the temperature sensor and the previously stored humidity data according to temperature.

The controller 500 may determine whether the heating air supply unit 400 is operating by comparing the surface temperature of the window 200 identified by the temperature information acquisition unit 300 with the temperature and humidity of the room.

Referring to FIG. 2, the heating air supply unit 400 includes a blower 410 that sucks in and then discharges air;

A distribution duct 420 for distributing and supplying air supplied through the blower 410 to the window 200;

It may include a heating means 430 located inside the distribution duct 420 to heat the passing air.

In detail, when it is determined that there is a possibility of condensation in the control unit 500, the blower 410 is operated to supply air to the distribution duct 420, and the supplied air is shown in FIG. 2 (a) As described above, it is distributed and supplied to the window 200 through a passage formed inside the distribution duct 420.

The air passing through the distribution duct 420 is heated by the heating means 430 located in the inner passage of the distribution duct 420 and supplied to the window 200 in a hot and dry state.

In addition, the distribution duct 420 distributes air to the duct housing 421 having air discharge holes 421-1 formed on one side facing the window 200 and each of the air discharge holes 421-1. It may include a dispensing lip 422 for supplying.

In detail, since air must be uniformly supplied to the plurality of air outlet holes 421-1 to uniformly increase the overall temperature of the window 200, the plurality of air outlet holes 421 through the distribution lip 422 -1) to supply a uniform amount of air.

At this time, in order to uniformly supply air to the plurality of air discharge holes 421-1, the plurality of distribution lips 422 are formed in a form in which the length decreases from one side where the blower 410 is located to the other side. can

In addition, the air discharge hole 421-1 may be formed only on the indoor side, but as shown in FIG. 2 (b), a pair may be formed on both sides of the window 200 in the thickness direction, and such a pair The air discharge hole 421-1 of the is separated into a first air discharge hole 421-1A and a second air discharge hole 421-1B, and is generally located on the indoor side of the first air discharge hole 421 -1A), but if the outside temperature is low and the window heating is difficult, the heated air is discharged through both the first air discharge hole (421-1A) and the second air discharge hole (421-1B). Thus, the heating of the window 200 may be performed on both sides in the thickness direction.

Referring to FIG. 3 , the distribution duct 420 is coupled to an upper side of the air discharge hole 421-1 and directs the air discharged through the air discharge hole 421-1 to the inner side where the window 200 is located. It may include an exhaust air guide lip 423 for guiding.

In addition, the discharge air guide lip 423 has a streamlined structure with an inclined inner surface, so that guided air is supplied to the window 200 at an inclined angle and moved along the surface of the window 200 .

In detail, the heating air flows along the surface of the window 200 without being bounced off the window 200, so that the window 200 can be effectively heated with the same amount of heating air.

At this time, a guide groove is formed in the direction in which air rides and flows in the discharge air guide lip 423, so that the air can move with directionality.

In addition, although not shown in the drawing, the exhaust air guide lip 423 is made of a flexible material such as rubber or silicon and is coupled to the upper surface of the distribution duct 420 forming the air discharge hole 421-1, Only when the air discharge hole 421-1 is applied, the discharge air guide lip 423 is bent and opened, and when air is not discharged from the air discharge hole 421-1, the air discharge hole 421-1 opens. It may have a closed structure.

In addition, referring to FIG. 1, the control unit 500 includes a power supply unit 510 for supplying power,

A relay switch 520 for controlling the presence or absence of electricity supply of the power supply unit 510;

A motor driver 530 for adjusting the motor strength of the blower 410;

The temperature information transmitted from the temperature information obtaining unit 300 is compared with the dew point temperature calculated from the temperature and humidity of indoor air to determine whether or not condensation has occurred, and the relay switch 520 and the motor driver determine whether or not condensation has occurred. A control unit 540 controlling the operation of 530 may be included.

In detail, the power supplied from the power supply unit 510, such as a supply, is transmitted to the motor driver 530 through the relay switch 520, and the motor driver 530 operates to operate the blower 410. there is.

The controller 540 may control operations of the relay switch 520 , the motor driver 530 and the blower 410 .

In addition, referring to FIG. 4, the anti-condensation window 1000 of the present invention may further include a window frame 600 on which the window frame 100 is slidably coupled and an electricity supply socket 610 is formed, and the electric power A fastening terminal 511 that is fastened to the electricity supply socket 610 and receives electricity may be formed in the supply unit 510 .

In detail, since condensation prevention through temperature control of the window 200 is sufficient when the room is closed, when the window is open, the electricity supply socket 610 as shown in (a) of FIG. The coupling between the fastening terminal 511 is released, the electricity supply is cut off, and the electricity supply socket 610 and the fastening terminal 511 are fastened only when the window is closed so that electricity can be supplied to the power supply unit 510 it did

100: window frame 101: window joiner
200: window
300: temperature information acquisition unit
400: heating air supply unit 410: blower
420: distribution duct 421: duct housing
421-1: air discharge hole 421-1A: first air discharge hole
421-1B: second air discharge hole 422: distribution lip
423: exhaust air guide lip 430: heating means
500: control unit 510: power supply unit
511: fastening terminal 520: relay switch
530: motor driver 540: control unit
600: window frame 610: electricity supply socket

Claims (7)

A window frame 100 in which a window coupling hole 101 is formed;
A window 200 made of a transparent material coupled to the window coupling hole 101;
a temperature information acquisition unit 300 acquiring temperature information of the window 200;
a heating air supply unit 400 supplying heated air to the window 200; and
A condensation prevention window comprising a control unit 500 that determines whether the heating air supply unit 400 is operating based on the temperature information acquired by the temperature information acquisition unit 300.
According to claim 1,
The heating air supply unit 400 includes a blower 410 sucking in air and discharging it;
a distribution duct 420 for distributing and supplying the air supplied through the blower 410 to the window 200; and
An anti-condensation window comprising a; heating means 430 located inside the distribution duct 420 to heat the passing air.
According to claim 2,
The distribution duct 420 includes a duct housing 421 having an air discharge hole 421-1 formed on one side facing the window 200; and
Distributing lips 422 for distributing and supplying air to each of the air discharge holes 421-1; anti-condensation window comprising a.
According to claim 3,
The air discharge hole 421-1 includes a first air discharge hole 421-1A formed on one side of the window 200 in the thickness direction and a second air discharge hole 421-1B formed on the other side in the thickness direction of the window 200. Anti-condensation window comprising a;
According to claim 3,
The distribution duct 420 is coupled to the upper side of the air discharge hole 421-1 and is an exhaust air guide for guiding the air discharged through the air discharge hole 421-1 to the inside where the window 200 is located. Anti-condensation window, characterized in that it further comprises a lip (423).
According to claim 5,
The exhaust air guide lip 423 is an anti-condensation window, characterized in that coupled to the distribution duct 420 at an angle.
According to claim 3,
The control unit 500 includes a power supply unit 510 for supplying power;
A relay switch 520 for adjusting whether or not electricity is supplied to the power supply unit 510;
a motor driver 530 for adjusting the motor strength of the blower 410; and
The temperature information transmitted from the temperature information acquisition unit 300 is compared with the dew point temperature calculated from the temperature and humidity of indoor air to determine whether or not condensation has occurred, and the relay switch 520 and the motor driver determine whether or not condensation has occurred. Condensation prevention window characterized in that it comprises a control unit 540 for controlling the operation of (530).