KR20160038904A - Pair Glass Window system with heating and cooling air curtain function - Google Patents

Abstract

The present invention relates to a pair glass windows system with heating and cooling air curtain functions, capable of an automatic control to blow down cooling air from an inner upper portion of a window frame to a lower side during summer, and to blow up heating air from an inner lower portion of the window frame to an upper side during winter. According to the present invention, the pair glass windows system with the heating and cooling air curtain functions comprises: a window frame having an inner closed space, fixatedly installed with an outer glass and an inner glass apart from each other at a predefined distance; a cooling air and electricity producing means, to produce the cooling air by a first control current during a cooling mode, and to produce electricity by using a temperature difference between the closed space of the outer and inner glasses and the external air of the outer glass during heating or a heating mode; a heating air producing means to produce the heating air by a second control current; a power supplying part to respectively store the power produced from solar energy or the cooling air and electricity producing means, to supply the same to the cooling air and electricity producing means or the heating air electricity producing means; a microprocessor to control an operation of the power supplying part at an input signal by a user or a predefined control command; and at least one temperature sensor to respectively measure the inner and external temperatures to transfer the same to the microprocessor.

Description

{Pair Glass Window system with heating and cooling air curtain function with cooling / heating air curtain function}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a fair glass window system having a cooling / heating air curtain function, and more particularly, to a window glass system having a cooling / heating air curtain function, To a pair of window glass systems having an air-conditioning and air-curtain function capable of cooling and heating.

Generally, in a residential and office space such as a house, an apartment, an office, and the like, an opaque partition wall such as concrete, block, panel, and wood is usually installed.

The reason for installing glass windows in residential and office spaces is that the user can view the outside scenery when needed while securing natural light.

However, when cooling or heating indoors in summer and winter, there is a loss of cooling or heating energy easily escaping through a window.

On the other hand, the solar heat in summer and the cold outside in winter can easily enter from outside to inside through glass windows, which ultimately contributes to deteriorating energy efficiency of the whole heating and cooling system.

Korean Patent Laid-Open Publication No. 10-2014-0052538 discloses a method of injecting a fluid into a space formed through two sheets of glass plates and heating or cooling the fluid using a thermoelectric element to reduce the amount of thermal energy exiting through the window, A window system having a fluid heating and cooling method using a thermoelectric element capable of effectively preventing a fluid is disclosed. However, in order to circulate the fluid introduced between two glass plates or to supplement the fluid when the fluid is insufficient, It is required to increase the manufacturing cost and increase the cost of the entire construction.

Korean Patent Registration No. 10-1030930 discloses a window air-conditioning automatic control air curtain ventilation system that automatically provides an air curtain by selectively providing cold or hot air to the inside of a window. However, Air supply unit that supplies the air-mixing unit and mixed air that has been heated or cooled to the vicinity of the window is separately required. In addition, since the hot air ascends from the lower part to the upper part, There is a limitation in implementing the entirely optimized cold function.

Korean Patent Laid-open Publication No. 10-2011-0106209 (a window using a thermoelectric element and a solar cell) and Korea Patent Publication No. 10-2011-0084484 (a solar power generation window system that performs a cooling and heating and air conditioning function of a building) Or sunlight to realize a cooling and heating function of a window glass has been proposed as a prior art. However, since it can not be practically implemented or the cost of parts and installation is too high, There was a limit in applying to the frame.

Korean Patent Publication No. 10-2014-0052538 (window system having a fluid heating and cooling method using a thermoelectric element) Korean Patent Registration No. 10-1030930 (Air conditioning and ventilation automatic control air curtain ventilation system) Korean Patent Publication No. 10-2011-0106209 (a window using a thermoelectric element and a solar cell) Korean Patent Laid-Open No. 10-2011-0084484 (Solar power generation window system that performs air conditioning and air conditioning functions of buildings)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-described problems, and it is an object of the present invention to provide a refrigerator which is capable of cooling cold air in a closed space formed in the inside of a fair glass, And to provide a fair glass window system having an air-conditioning and air-curtain function capable of being automatically controlled to rise upward from a lower end of a formed closed space.

Another object of the present invention is to provide a fair glass window system having a cooling / heating air curtain function capable of independently producing and storing electric energy by selectively using a solar cell and a thermoelectric element.

According to an aspect of the present invention, there is provided a pair-glass window system having an air-conditioning and air-curtain function, wherein outer and inner glasses are fixedly installed at predetermined intervals so as to divide and separate the present place from the inside or the outside, A window frame for forming a closed space in the window frame; The outdoor unit is installed at the upper end of the outer and inner glasses contacting with the upper end of the window frame. The outdoor unit is configured to generate cold air by a first control current when the air conditioner is in the cooling mode, A cold generating and electricity generating means for generating electrical energy by using the temperature difference of the air in the closed space of the outer and inner glasses; A heat generating unit installed in the window frame positioned at a lower end portion between the outer and inner glasses or installed at an inner lower end surface of the outer glass in contact with a lower end portion of the window frame to generate heat by a second control current, and; A power supply unit installed at an arbitrary position of the window frame and storing a solar power or a power generated by the cold generating and electricity generating unit to supply the cold generating and electricity generating unit or the heat generating unit; A microprocessor for controlling the operation of the power supply unit according to a user's input signal or a preset control command; And at least one temperature sensor inserted and mounted at an arbitrary position of the cold air generating and electricity generating means or the window frame to measure the temperature of the inside and outside of the room and transmit the measured temperature to the microprocessor, respectively.

Here, the microprocessor may control the power supply unit such that the cold generating and electricity generating unit or the hot generating unit is operated according to the user's control command; And a controller for comparing the sensed temperature detected by the temperature sensor with a preset temperature preset by a user and automatically controlling the power supply unit to operate the cold generating and electricity generating unit or the heat generating unit according to the comparison determination value .

Also, the cold air generating and electricity generating means may include: an external heat sink for discharging heat to the outside; Wherein the first control current is generated by a first control current in a cooling mode according to a first control current supplied from the power supply unit, One or more thermoelectric elements for producing the thermoelectric element; And an internal heat dissipating plate which radiates cool air generated by the thermoelectric element in the cooling mode downward between the inner glass and the outer glass so as to be convected.

The above-described fair-glass window system having the air-conditioning and air-curtain function according to the present invention has the following advantages.

First, in summer, cold air flows downward in a convection manner from an upper end of a closed space formed in the inside of the pair of glasses, and in a cold winter period, heat is raised in a convection manner from a lower end of a closed space formed inside the pair of glasses Can be controlled automatically.

Therefore, the user can automatically control the outdoor heating and cooling system to effectively prevent the outside air from entering into the building, and minimize the cooling / heating energy supplied from the room to the outside through the window. As a result, Not only can the efficiency be greatly increased, but also the cooling and heating energy cost can be minimized.

In addition, the existing window system can be replaced with a pair of glasses and can be installed integrally with a new window frame. Therefore, it is possible to realize the realization of the installation cost, but it can greatly expand the market of the product.

In addition, it is possible not only to store electric energy produced by the solar cell in the battery, but also to generate and store electric energy by using the temperature difference between indoor and outdoor, if necessary, Can be realized while not using or minimizing the electric energy of the battery.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing an outline of a pair glass window system having a cooling / heating air curtain function according to a preferred embodiment of the present invention. FIG.
2 is a view for explaining a configuration of a cold air generating and electricity generating means provided in a pair of glass window systems having a cooling / heating air curtain function according to a preferred embodiment of the present invention.
3 and 5 are perspective views showing the structure of a window frame of a pair glass window system having a cooling and heating air curtain function according to a preferred embodiment of the present invention.
4 and 6 are sectional views of a pair glass window system having a cooling / heating air curtain function according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings, the same reference numerals as in the drawings denote the same elements in the drawings, unless they are indicated on other drawings.

FIG. 1 is a front view showing the outline of a pair glass window system having a cooling and heating air curtain function according to a preferred embodiment of the present invention. FIG. 2 is a front view of the pair glass window system having a cooling and heating air curtain function according to a preferred embodiment of the present invention. FIG. 3 is a sectional view of a pair glass window system having a cooling / heating air curtain function according to a preferred embodiment of the present invention. FIG.

1 to 3, a pair-glass window system having an air-conditioning and air-curtain function according to a preferred embodiment of the present invention includes outer and inner glasses 90a and 90b for partitioning and separating a current place from indoor or outdoor, A window frame 100 fixedly installed at predetermined intervals to form a closed space S in the inside and an upper portion of outer and inner glasses 90a and 90b in contact with an upper end of the window frame 100, The cooling air is generated by the first control current in the cooling mode and the temperature difference of the closed space S of the outdoor and inner and outer glasses 90a and 90b is determined based on the outer glass 90a in the heating or heating mode A cold air generating and electricity generating means 200 for generating electric energy by using the airflow generated by the airflow generated by the airflow generated by the airflow generated by the airflow, Abut A heat generation means 300 installed on an inner lower end surface of the outer glass 90a to generate heat by a second control current and a heat generation means 300 installed at an arbitrary position of the window frame 100 to generate solar heat or cool air, A power supply unit 400 for storing power generated by the electricity generating means 200 and supplying the power to the cold generating and generating means 200 or the heating generating means 300, A microprocessor 500 for controlling the operation of the power supply unit 400 and the cooler generating and generating unit 200 or the window frame 100. The temperatures of the inside and outside are measured And one or more temperature sensing sensors (600) for transmitting the signals to the microprocessor (500).

Here, the window frame 100 can be manufactured using a general window frame material such as aluminum or wood, and the shape of the window frame 100 can be equally applied to any shape including a rectangular shape. Particularly, a general window frame can be applied not only to a structure in which one or more window frames extend vertically, horizontally, or even to a single structure, but also to a case in which a door partially openable and closable is installed inside the window frame.

It is preferable that the outer and inner glasses 90a and 90b installed in the vertical direction inside the window frame 100 are made of sheet glass, but synthetic resin-based products such as acryl, PET film and vinyl can be used as needed The outer glass 90a may be made of a plate glass, and the inner glass 90b may be made of a material having a relatively low strength such as a PET film.

1, it is preferable that the window frame 100 is formed of a rectangular frame body 110 for dividing and separating the present place from the inside or the outside of the room, As shown in FIG. 6, a horizontal groove 130 may be additionally formed in the horizontal lower end portion of the frame body 110 so as to insert the opening generating means 300 therein.

As shown in FIGS. 2 and 3, the cold air generating and electricity generating means 200 includes an external heat sink 210 for discharging heat to the outside, and an external heat sink 210 for generating electricity according to a first control current supplied from the power supply unit 400 The cooling air is generated by the first control current in the cooling mode and the outdoor air and the air in the closed space S formed in the outer and inner glasses 90a and 90b on the basis of the outer glass 90a in the cooling or heating mode And at least one thermoelectric element 220 for generating electric energy by using the temperature difference of air and a cool air generated by the thermoelectric element in the cooling mode along a sealed space S formed between the inner glass and the outer glasses 90a and 90b And a frame 250 accommodating the outer heat dissipating plate 210, the thermoelectric modules 220 and the inner heat dissipating plate 230 and having the through hole 240 formed at the lower end thereof, .

In the preferred embodiment of the present invention, the cold generating and electricity generating means 200, the power supplying unit 400, the microprocessor 500, and the temperature sensing sensor 600 are made of an integrated electronic substrate module, And the upper end of the inner frame 90b may be independently provided at the upper end of the window frame 100.

Here, the outer heat sink 210 is preferably made of aluminum, copper, or graphite with excellent heat dissipation effect, or a thin plate having a high thermal conductivity (for example, a nano thin plate).

The inner surface 214 of the outer heat sink 210 and the outer surface 232 of the thermoelectric element 220 exchange heat with the outside of the building and the inner surface 234 of the thermoelectric element 220 and the inner heat sink 230 Is preferably attached using a heat conductive grease or a heat conductive film (not shown) so as to smooth the conduction of heat energy.

In the preferred embodiment of the present invention, as shown in FIG. 2, three thermoelectric elements 220a-230c are connected in series. However, if necessary, the number of thermoelectric elements may be increased or decreased, Or a combination of serial and parallel may be used.

In the preferred embodiment of the present invention, the heat generating means 300 is provided at the lower end of the window frame 100 positioned between the outer glass 90a and the inner glass 90b, as shown in FIGS. 3 and 4, It is preferable to form a heat generating carbon layer or a carbon rod.

If a DC current is applied to the carbon layer or the carbon rod on which the electrodes are formed under the control of the microprocessor 500, heat is generated due to the self resistance of the carbon layer. The amount of heat generated is larger as the current flows or the resistance increases. Further, when carbon rods are applied, the calorific value increases as the thickness of the carbon rods decreases.

5 and 6, a horizontal groove 130 is formed at an inner lower end of the frame body 110 positioned between the outer glass 90a and the inner glass 90b, The entrance of the horizontal grooves 130 formed in the window frame 100 is relatively narrower than the inner space and the heat is transmitted to the outer glass 90a and the inner glass 90b, It is preferable that the inlet is partially protruded so as to be discharged in a convection manner in the upward direction.

As shown in FIGS. 5 and 6, the horizontal grooves 130 may be formed as a straight integral groove, but may also be formed as a plurality of grooves formed while maintaining a constant gap as required.

1, the power supply unit 400 includes at least one solar cell 410 capable of converting solar energy into electric energy, and at least one solar cell 410 capable of converting electric energy generated from the solar cell 410 or the thermoelectric element 220 And controls the switching of the output of the electric energy stored in the storage battery 420 under the control of the microprocessor 500 And a switching element 430. Here, the switching element 430 provided in the power supply unit 400 may be omitted depending on the circuit configuration.

Here, in the preferred embodiment of the present invention, the solar cell 410 of the power supply unit 400 includes the cold-generating and electricity generating unit 200, the microprocessor 500, the temperature sensor 600, But it is preferable to be fixedly installed on the entire or partial outer wall of the building.

Also, one or more solar cells may be fixedly connected in series or in parallel depending on the design.

It is desirable that the battery 420 is installed at the upper end of the inside of the window frame 100 so that the installation position of the storage battery 420 is not easily touched by children while avoiding the direct view of the users.

The temperature sensor 600 for sensing the indoor or outdoor temperature and providing the sensed temperature to the microprocessor 500 is preferably inserted into the external heat sink 210 and the internal heat sink 230, Or may be inserted into the inner or outer upper end of the body 100.

At this time, after the temperature sensor 600 is inserted into the outer heat dissipating plate 210, the inner heat dissipating plate 230, or the window frame 100, it is preferable to finish the gap existing in the rim.

In addition, the microprocessor 500 can control the DC power of the battery 420 to be supplied to the cold generating and electricity generation means 200 or the heat generation means 300 in accordance with a user's input signal The DC power of the storage battery 420 is automatically supplied to the generator 300 through the power supply unit 400 and the electricity generating means 200 or the heat generating means (not shown) according to the temperature value sensed by the temperature sensing sensor 600, 300). ≪ / RTI >

In the preferred embodiment of the present invention described above, a microprocessor 500 and a temperature sensor 600, a cold generating and electricity generating means 200 or a heat generating means 300 It is preferable that the inner surface of the outer glass 90a provided on the window frame 100 or the silicon adhesive surface on the outer surface of the inner glass 90b, As shown in FIG.

The operation of the pair glass window system having the cooling / heating air curtain function according to the embodiment of the present invention will be described with reference to the accompanying drawings.

The microprocessor 500 may be operated by a user with a manual glass operation or a fair glass window system having a cooling / heating air curtain function by a user's preset automatic operation.

When a fair glass window system having the cooling / heating air curtain function is manually operated, a user or a technician can directly issue a control command to the microprocessor 500 to perform a cooling operation or a heating operation regardless of the current temperature It is. These tanks will be mainly used for checking to see if there is something wrong with a small product.

On the other hand, when the pair glass window system having the cooling / heating air curtain function is automatically operated, the user can set the preset temperature, the cold air temperature, the electricity generation unit 200 or the plurality of temperature sensors And compares the sensed temperatures detected by the air conditioner 600 with each other and automatically performs the air curtain function for cooling or heating according to the comparison value.

First, the cooling mode operation of the pair glass window system having the cooling / heating air curtain function will be described as follows.

The temperature sensor 600 installed in the external heat sink 210 and the internal heat sink 230 senses the current temperature and transmits the sensed temperature to the microprocessor 500 for example.

The microprocessor 500 determines that the current state is a state requiring cooling when the sensed temperature is higher than the preset temperature by comparing the preset cooling mode set temperature by the user (for example, image 25 degrees) To the thermoelectric element 220 provided in the electricity generating means 200. The DC power is supplied to the thermoelectric element 220 provided in the electricity generating means 200.

At this time, the reaction surface 224 of the thermoelectric element 220 performs an endothermic operation in accordance with the direction of the applied direct current, and the microprocessor 500 is set to a temperature set by the user (for example, image 25 degrees) So that the heat absorption operation is continued at the reaction surface 224 of the thermoelectric element 220.

The cool air generated from the inner upper surface of the window frame 100 is continuously and continuously downward along the closed space S formed between the outer glass 90a and the inner glass 90b along the through- So as to perform a cold air curtain function, as shown in FIG.

When a plurality of thermoelectric elements 220a, 220b and 220c are provided in the cold air generating and electricity generating means 200, the microprocessor 500 controls the temperature of the thermoelectric elements 220b, It is possible to control the generation of electrical energy using the temperature difference between the air in the closed space S formed between the outer glass 90a and the inner glass 90b, (420). That is, the air in the closed space S formed between the outer glass 90a and the inner glass 90b in which the radiator is operated is getting colder. On the other hand, since the outside air is in summer, And the specific thermoelectric element 220 can generate electrical energy by the temperature difference and the battery 420 of the power supply unit 400 is made of the solar cell 410 made of the solar cell 410 Electricity and electricity generated by some thermoelectric elements can be stored separately.

Next, the heating mode operation of the pair glass window system having the cooling / heating air curtain function will be described as follows.

The temperature sensor 600 installed in the external heat sink 210 and the internal heat sink 230 senses the current temperature and transmits the sensed temperature to the microprocessor 500 for example.

The microprocessor 500 judges that the current situation is a situation requiring heating when the sensed temperature is higher than the set temperature by comparing the preset cooling mode set temperature (for example, image 15 degrees) by the user, The DC power stored in the battery 420 is applied to the electrode of the heat generating means 200 such as the exothermic carbon layer or the exothermic carbon rod.

At this time, the exothermic carbon layer or the exothermic carbon rod performs the exothermic operation of dissipating heat by its own resistance, and the microprocessor 500 continues the exothermic operation until the temperature is set by the user (for example, image 15 degrees) Respectively.

The heat generated from the inner bottom surface of the window frame 100 is continuously diffused in the upward direction along the closed space S formed between the outer glass 90a and the inner glass 90b such as a glass window As a result, as shown in Fig. 1, it performs a warm air curtain function.

At this time, the cold generating and electricity generating means 200 can generate electric energy using the temperature difference between indoor and outdoor while generating heat by the heat generating means 300. The generated electric energy is supplied to the power supply unit 400 The battery 420 is charged. That is, when the heat generating means 300 is operated, the air in the closed space S formed between the outer glass 90a and the inner glass 90b becomes very hot, while the outside air is winter, A large temperature difference may occur between the outer surface and the inner surface of the outer glass 90a and the thermoelectric element 220 can generate electrical energy by the temperature difference. The electricity generated in the solar cell 410 and the electricity generated in the thermoelectric element 220 can be stored.

According to the present invention described above, the cooling / heating efficiency of a room in which a cooling or heating device is installed can be remarkably improved, thereby minimizing cooling / heating energy consumption and maximizing cooling / heating efficiency.

In addition, the electric energy that performs the air curtain function for cooling and heating can be produced in a natural way, so that no consideration of the electric charge is required.

While the present invention has been particularly shown and described with reference to certain preferred embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It should be understood that various changes and modifications may be made by those skilled in the art.

90, 90a, 90b: glass
100: window frame
110: frame body
120: Horizontal heat radiation frame
130: Horizontal grooved
200: cold air generation and electricity generating means
210, 230: heat sink
220: thermoelectric element
300: means of generating heat
400: power supply means
410: Solar cell
420: Battery
430: switching element
500: microprocessor
600: Temperature sensor

Claims (1)

A window frame which is fixedly installed at a predetermined interval so as to divide and separate the current place from the inside or the outside, and forms an enclosed space therein;
The outdoor unit is installed at the upper end of the outer and inner glasses contacting with the upper end of the window frame. The outdoor unit is configured to generate cold air by a first control current when the air conditioner is in the cooling mode, A cold generating and electricity generating means for generating electrical energy using the temperature difference of the air in the closed space of the outer and inner glasses;
A heat generating unit installed in the window frame positioned at a lower end portion between the outer and inner glasses or installed at an inner lower end surface of the outer glass in contact with a lower end portion of the window frame to generate heat by a second control current, and;
A power supply unit installed at an arbitrary position of the window frame and storing a solar power or a power generated by the cold generating and electricity generating unit to supply the cold generating and electricity generating unit or the heat generating unit;
A microprocessor for controlling the operation of the power supply unit according to a user's input signal or a preset control command;
And at least one temperature sensor inserted and mounted at an arbitrary position of the cold air generating and electricity generating means or the window frame to measure the inside and outside temperatures respectively and transmit the measured temperature to the microprocessor,
Wherein the temperature sensor is inserted into the external heat radiating plate and the internal heat radiating plate, respectively.

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