KR101534184B1 - Inflatable solar fan heater - Google Patents

Abstract

The present invention relates to a solar hot-air fan, and more particularly, to a solar-powered hot air fan, in which air can be injected into the fan to expand it into a solar hot-air fan of a specific shape to be easily and quickly installed on a window sill or window of a building, The present invention relates to an air injecting type solar fan heater which can be easily separated and stored after installation. The present invention provides a ventilation apparatus comprising: a body made of a heat-resistant vinyl material that can be inflated by the injection of air, having at least one air inlet and having an air inlet and an air outlet at a rear portion thereof; A condensing tube formed of the same material as the body and arranged inside the body, one end connected to the air inlet of the body, and the other end connected to the air outlet; A reflector disposed on an inner surface of a rear side of the heat collecting tube and reflecting sunlight incident on the front surface of the body to the heat collecting tube; And a support for connecting and holding the heat collecting tube inside the body so that the heat collecting tube can be arranged at a predetermined position when the body is inflated.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an inflatable solar fan heater,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a solar hot-water fan, and more particularly, to a solar hot-air fan, The present invention relates to an air-injecting type solar fan heater that can be easily separated and stored when necessary after installation.

Conventionally, a heating apparatus using solar heat collects solar radiation heat to a heat collecting plate and stores the heat in a heat storage tank by using circulating water that exchanges heat with the heat collecting plate, and is used for hot water heating. Such a conventional heating system is heavily weighted due to the fact that the heat exchange medium must be filled with water in order to circulate the circulating water, that is, water, and circulation water is circulated and the installation place is restricted. In addition, there are many hassles and inconveniences that require a lot of production cost and periodic management

In order to compensate for these drawbacks, as shown in FIG. 1A and FIG. 1B, a solar heating hot air apparatus disclosed in Korean Utility Registration No. 20-0313206 is provided with a heat collecting box 10 having a front part opened to the sun on the outer wall of a building, A transparent glass layer 12 is provided on the opened front side of the heat collecting box 10 so that sunlight can be transmitted through the front surface of the heat collecting box 10, And a pipe 14 made of a metal material is arranged in a zigzag form on the front side of the heat collecting plate 26. [ Both ends of the pipe 14 pass through the rear portion of the heat collecting box 10 and the outer wall of the building and are drawn into the room so as to be used as the air inlet 16 and the air outlet 18, respectively. An air supply pump 20 is installed on a line connected to the air intake port 16 and the operation of the air supply pump 20 is controlled through a controller 22.

In the conventional solar hot-air apparatus having the above-described structure, the solar heat is absorbed through the heat collecting plate 26 provided on the inner surface of the heat collecting box 10, so that the temperature inside the heat collecting box 10 is raised, ), The internal temperature is further increased. At this time, when the temperature inside the heat collecting box 10 is sensed by the temperature sensor disposed near the air outlet 18 and the temperature of the heat collecting box 10 is raised to a predetermined temperature, a signal is sent to the controller 22 to operate the air supply pump 20, The indoor air is circulated to the inside of the pipe 14 so that the indoor air is heated.

However, in the above-mentioned conventional solar heating hot air apparatus, when a building or the like is installed, a heat collecting box 10 made of wood or iron is installed on the outer wall surface of the building, and then a heat collecting plate 26 is disposed inside the heat collecting box 10 The transparent glass layer 12 is covered on the front surface of the heat collecting box 10 after the pipe 14 is installed and the air inlet 16 connected to the pipe 14 inside the heat collecting box 10 ) And the air outlet (18). Therefore, the construction work of the solar hot air device is very cumbersome and takes a lot of time, and the solar hot air device There is a problem in that it takes a lot of cost for manufacture and construction. In addition, it is difficult to dismantle the solar hot-air device once it is installed on the building wall, and there is a sign of construction on the wall of the building even if it is disassembled, which hinders the appearance of the building or requires additional blocking work.

Korean Utility Model Publication No. 20-0313206 (registered on Apr. 30, 2003)

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and an object of the present invention is to provide a solar heat and air blower, a heat collecting plate, a heat collecting tube and a transparent plate, A heat-resistant vinyl material that can be inflated to a specific shape, and a structure in which the solar heat and air blower configured in this way is arranged in an open space such as a window frame of a building, The present invention provides an air-injecting type solar air heater that can be easily and quickly installed, can easily disassemble a solar hot-air fan by simply removing the air after it is installed, and can be easily folded and folded.

Another object of the present invention is to provide a solar-type hot air fan, which is made of heavy and expensive materials such as wood, steel and plastic, as a light and cheap heat-resistant vinyl material, To provide a solar hot air fan.

It is a further object of the present invention to provide an air conditioner for a solar air heater which is provided with a suction plate on a rear surface of a body of a solar hot air fan to easily attach a solar hot air fan to a window surface of a room through the suction plate, Type solar heat fan.

According to an aspect of the present invention, there is provided a solar thermal fan,

A body made of a heat-resistant vinyl material that can be inflated by the injection of air, having at least one air inlet, and having an air inlet and an air outlet at a rear portion thereof;

A condensing tube formed of the same material as the body and arranged inside the body, one end connected to the air inlet of the body, and the other end connected to the air outlet;

A reflector disposed on an inner surface of a rear side of the heat collecting tube and reflecting sunlight incident on the front surface of the body to the heat collecting tube; And

A support for connecting and holding the heat collecting tube inside the body so that the heat collecting tube can be arranged at a predetermined position when the body expands;

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At this time, the outer edge of the body of the fan can be formed with a concave and convex portion to be engaged with and fixed to the window frame groove in a concave-convex form.

Also, the heat collecting tube provided inside the body may be formed in the form of a corrugated tube so as to increase the contact area with solar heat.

At this time, the outer peripheral surface of the heat collecting tube may be coated with opaque color so as to increase the absorption rate of sunlight.

A part of the body of the solar heat fan can be formed as a transparent region so as to transmit sunlight to the room and to exhibit a lighting effect.

Meanwhile, in the solar hot-air fan, an auxiliary collection part that is capable of collecting solar heat at a predetermined inclination angle with the body may be additionally installed at one side of the front part of the body.

At this time, a support for supporting the auxiliary collection part may be further provided to prevent the auxiliary collection part from flowing due to external force.

In addition, wings may be additionally installed on the left and right sides of the auxiliary collecting part so as to face the auxiliary collecting part at predetermined inclination angles to collect solar heat.

In addition, at least one suction plate may be installed on the rear surface of the solar heat and air blower body so as to be installed on the window surface of the room.

According to another aspect of the present invention, there is provided a solar hot-water fan,

A body made of a heat-resistant vinyl material that can be inflated by the injection of air, having at least one air inlet, and having an air inlet and an air outlet at a rear portion thereof;

A condensing tube formed of the same material as the body and arranged inside the body, one end connected to the air inlet of the body, and the other end connected to the air outlet;

A support for connecting and holding the heat collecting tube inside the body so that the heat collecting tube can be arranged at a predetermined position when the body expands;

A blower mounted on an air inlet or an air outlet of the body to allow air to flow from the inlet of the collector to the outlet;

A solar panel mounted on a front surface of the body for absorbing solar energy and supplying power to the blower; And

A control panel mounted on a rear portion of the body and having an operation button for controlling an operation state of the blower;

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At this time, the air-

And a reflector disposed on an inner surface of a rear side of the heat collecting tube and reflecting sunlight incident on the front surface of the body to the heat collecting tube.

In this case,

The air outlet may be formed so as to pass through the front and rear portions of the body, and may further include an air outlet equipped with a blower to discharge the air on the rear portion of the body to the front portion.

Further, in the front portion of the body,

An opening is formed,

Wherein the opening portion is in communication with the heat collecting tube,

The opening may be a structure that can be combined with another pipe.

At this time, an auxiliary collecting part for collecting solar heat at a predetermined inclination angle with the body may be installed on the front part of the body, and a collecting tube in which the opening and one end are communicated may be arranged inside.

In this case, a supporting stand for supporting the auxiliary collecting part may be further provided.

On the other hand,

A front portion and a rear portion,

A passage portion of a structure that can be opened and closed by the cover can be formed.

Meanwhile, the air intake port and the air exhaust port of the body may be formed,

It may be a structure that is connected to another external device by piping to supply air heated by solar heat.

In this case,

And may be selected from the group consisting of a dryer, a food dryer, a clothes dryer, a food garbage disposer, a table-type heating godart, a livestock breeding facility, a hatchery, a bathroom, and a warm floor.

In the present invention having the above-described configuration, each constituent part of the solar heat fan is constituted by a heat-resistant vinyl material which can be inflated into a specific form by air injection, and air is injected into the inside of the building, It is possible to perform the installation work of the solar hot air fan very quickly and easily and to easily perform the dismantling work of the solar hot air fan by simply removing the air after the installation, It is advantageous that it can be easily stored with a small volume after folding.

In addition, the present invention is advantageous in that the manufacturing cost is lower than that of the existing solar and hot air heaters made of wood and iron, by constituting the solar hot air fan which is made of heavy and expensive material such as wood, steel and plastic as the conventional light and cheap heat resistant vinyl material And it can be installed without modification work of the existing facilities (such as piercing, sealing work, etc.), and can easily attach and detach to the installation target part.

In addition, the present invention can increase the coupling force between the body and the window frame at the time of installation of the solar heat and air blower, by forming the concave-convex portion to be engaged with the groove of the window frame, It is possible to prevent detachment of the battery from the battery and to improve the stability of the battery.

In addition, the present invention has an advantage that a solar heat and air blower can be easily attached to a window surface of a room through the suction plate even in a state where the window is fixed and can not be opened.

In addition, the present invention has an advantage in that the heat collection efficiency can be improved because the heat collecting tube made of heat resistant vinyl material provided in the solar heat and air blower is formed into a corrugated tube shape to increase the contact area between the sunlight and the collector tube.

In addition, the solar heat fan of the present invention can be installed in various places such as an apartment, a private house, an office, a factory, etc., and blows hot air of about 50 to 70 degrees centigrade Therefore, the present invention can be applied not only to the heating function of a building room but also to various drying apparatuses for drying food and grain.

FIG. 1A is a front view showing a configuration of a conventional solar heat and air blower; FIG.
1B is a side sectional view of Fig. 1A. Fig.
2 is a perspective view illustrating a solar heat and air heater according to a first embodiment of the present invention.
Fig. 3 is a front perspective view of Fig. 2 viewed from the front (outdoor); Fig.
4 is a side perspective view showing the side cross-sectional structure of FIG. 2;
Fig. 5 is a rear perspective view of Fig. 2 viewed from the rear (inside). Fig.
6 is a perspective view showing a state in which a solar heat and air heater of the present invention is installed on a veranda window.
7 is a side sectional view of Fig. 6; Fig.
8 is a flowchart sequentially illustrating a method of installing a solar heat and air heater according to the present invention on a window.
9 is a rear perspective view showing a state in which a suction plate is provided on a rear surface of a solar heat fan according to a second embodiment of the present invention;
10 is a side sectional view showing a state in which the solar heat fan of FIG. 9 is attached to the glass surface of an indoor window;
FIG. 11 is a side sectional view showing a solar heat and air blower structure installed on a window frame of a small area, according to a third embodiment of the present invention. FIG.
12 is a top plan view of Fig. 11; Fig.
13 is a perspective view seen from the front (outdoor) of the solar heat and air blower according to the fourth embodiment of the present invention.
Fig. 14 is a perspective view of the rear side (indoor) of the solar heat fan of Fig. 13; Fig.
Fig. 15 is a rear perspective view of Fig. 13 viewed from the rear (indoor). Fig.
16 is a perspective view showing a state in which a solar heat and air heater according to a fourth embodiment of the present invention is installed on a window.
Fig. 17 is a side sectional view of Fig. 16; Fig.
18 is a rear perspective view seen from the rear (indoor) of the solar heat fan according to the fifth embodiment of the present invention.
Fig. 19 is a side sectional view of Fig. 18; Fig.
FIG. 20 is a rear perspective view seen from the rear (indoor) of the solar heat fan according to the sixth embodiment of the present invention; FIG.
Fig. 21 is a side sectional view of Fig. 20; Fig.
22 is a front perspective view seen from the front (outdoor) of the solar heat fan according to the seventh embodiment of the present invention;
23 is a side sectional view of Fig. 22; Fig.
24 is a side schematic view showing that a solar heat fan according to the present invention and another external device are connected by a pipe.

The present invention is configured to be capable of expanding into a specific type of solar hot-air fan by the injection of air, so that the process of injecting or extracting air into or from a solar hot air fan can be installed or separated on the installation target surface of the building wall very quickly and conveniently It suggests the structure of the solar heat fan.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a perspective view illustrating a solar heat and air heater according to a first embodiment of the present invention. 3 is a front perspective view of FIG. 2 viewed from the front (outdoor), FIG. 4 is a side sectional view showing the side sectional structure of FIG. 2, and FIG. 5 is a rear perspective view of FIG. 2 viewed from the rear (interior). However, when the solar heat fan is installed in the above drawing, the outdoor side direction in which sunlight is incident is referred to as the front side direction, and the indoor side direction on the opposite side is defined as the rear side direction.

2 to 5, a solar heat and air heater 100 according to the present invention includes a body 110 made of a heat-resistant vinyl material that can be inflated into a specific shape by air injection, And an air inlet 104 and an air outlet 104. The air inlet 102 and the air outlet 104 of the body 110 are connected to the air inlet 102 and the air outlet 104 of the body 110, And a reflector 120 disposed on the inner surface of the rear body 110 of the heat collecting tube 120 and reflecting sunlight incident on the front surface of the body 110 toward the heat collecting tube 120 And a support part 122 for connecting and holding the heat collecting tube 120 inside the body 110 so that the heat collecting tube 120 can be arranged at a predetermined position when the body 110 is expanded. .

The body 110 is made of a heat-resistant vinyl material, such as an air matress, which can be inflated into a specific shape through the injection of air. At least one of the outer surfaces of the body 110 is internally And an air inlet (not shown) is formed so as to inject air. An air inlet 102 through which air is sucked and an air outlet 104 through which air is sucked are formed in a rear portion of the body 110 (a portion of the cabinet 110 located in a direction toward the interior of the cabinet at the time of installation of the solar heat and air warmer).

The body 110 is made of a transparent heat-resistant vinyl material so that sunlight can be transmitted as a whole. When the air is injected into the body 110, the body 110 expands into a rectangular mattress shape, For example). The concave and convex portions 111 are formed on the outer edge of the body 110 so as to be engaged with and fixed to the concave and convex grooves formed on the inner surface of the window frame when the body 110 is inflated.

Meanwhile, a heat collecting pipe 120 is installed in the body 110 to increase the temperature of the solar heat collecting unit 120 and to collect solar heat. The heat collecting tube 120 is made of the same heat-resistant vinyl material as the body 110 and is formed in a corrugated tube shape to increase the heat collecting efficiency by increasing the contact area with sunlight. The outer surface of the heat collecting tube 120 is coated with an opaque color (for example, black) so as to absorb sunlight. One end of the heat collecting pipe 120 is connected to the air inlet 102 of the rear portion of the body 110 and the other end of the heat collecting pipe 120 is connected to the air outlet 104 to connect the air inlet 102 and the air outlet The air in the room can be circulated through the heat collecting pipe 120 through the heat exchanger 104. At this time, a fan (not shown) is installed in any one of the air inlet 102 and the air outlet 104 so that air can be forcedly circulated to the inside of the collecting tube 120.

The heat collecting tube 120 is arranged in a zigzag form so as to be repeatedly folded inside the body 110. When the body 110 is inflated and the heat collecting tube 120 does not move toward the body 110, And a plurality of supports 122 for supporting the heat collecting tube 120 on the inner surface of the body 110 so that the heat collecting tube 120 can be always placed at a predetermined position inside the body 110. At this time, the supporting part 122 is formed in the shape of a thin vinyl piece made of the same material as the body, and a plurality of the supporting parts 122 are installed at regular intervals along the heat collecting tube 120. Both ends of the supporting part 122 are connected to the body 110 And is fixed to the inner surface of the heat collecting tube 120 and the outer surface of the heat collecting tube 120 by means of stiffening.

Meanwhile, the body 110 is divided into an upper transparent region 112 through which sunlight can be transmitted and a lower opaque region 114 through which sunlight can not be transmitted. The transparent region 112 located above the body 110 is a portion through which sunlight can be transmitted so that sunlight can be introduced into the room through the transparent region 112 when the solar heat fan is installed To prevent the room from becoming dark. On the other hand, the opaque region 114 located below the body 110 is a region shielded from sunlight so that it can not transmit sunlight, and is a region where substantial solar heat is collected. In the opaque region 114 of the body 110, the heat collecting tubes 120 are arranged over the entire surface in the above-described structure, and the inner surface of the body 110 located on the rear side of the heat collecting tube 120 And a reflector 116 for reflecting sunlight incident on the front surface of the body 110 and incident on the collector 120.

The reflector 116 is attached to the inner surface of the body 110 in a thin vinyl form on the front surface thereof coated with a reflective material so that the sunlight incident into the body 110 is directed toward the collector 120 Thereby improving the heat collection efficiency. At this time, instead of the reflection plate 116, the inner surface of the body 110 may be coated with a reflective material to reflect sunlight. Here, the opaque region 114 under the body 110, which is shielded through the heat collecting tube 120 and the reflection plate 116, is formed to have a larger area than the transparent region 112 at the upper portion.

On the other hand, when the collector pipe 120 is installed only on the lower opaque region 114 of the body 110 as described above, the heat collecting efficiency of the solar heat may be relatively lowered. Therefore, in order to increase the heat collection efficiency of the solar heat, the front surface of the body 110 is branched from the upper side of the opaque region 114 to have a predetermined inclination angle with respect to the body 110, And an auxiliary heat collecting part 130 arranged to be disposed.

The auxiliary collection part 130 has the same material and internal structure as the body 110 and is integrally connected to the body 110 so that the body 110 can be expanded together when the body 110 expands. At this time, the heat collecting pipe 120 installed inside the body 110 extends to the inner side of the auxiliary heat collecting part 130 and is arranged to be arranged over the entire inner side of the auxiliary heat collecting part 130.

The auxiliary heat collecting part 130 is disposed so as to form an inclined angle which is expanded when the body 110 expands and maintains an angle perpendicular to the incident angle of sunlight. Since the auxiliary collecting part 130 inclined at an inclination angle perpendicular to the incidence angle of the sunlight is provided on one side of the front part of the body 110 as described above, more solar heat can be absorbed through the auxiliary collecting part 130, The heat collecting efficiency through the heat pipe 120 can be increased.

Meanwhile, the wings 140 may be additionally provided on the left and right sides of the auxiliary collection part 130 to further increase the absorption rate of sunlight, in addition to the above-described installation of the auxiliary collection part 130 . The wing portions 140 are integrally connected to the left and right sides of the auxiliary heat collecting portion 130 and disposed at a predetermined angle in an inward direction so as to face each other. When the auxiliary heat collecting portion 130 expands, It spreads like a wing. At this time, the heat collecting pipe 120 disposed inside the auxiliary heat collecting part 130 extends to the inner side of the wing part 140. By installing the wing portion 140, it is possible to absorb more solar light together with the auxiliary heat collecting portion 130, thereby increasing solar heat collecting efficiency. At this time, at least one air inlet is formed in each of the auxiliary collection part 130 and the wing part 140 separately from the air inlet (not shown) provided in the body 110, As shown in FIG.

The solar heat and air warming apparatus 100 having the above-described structure is configured such that when the air is inflated, the body 110, the auxiliary heat collecting unit 130, and the wing unit 140, except for the heat collecting tube 120, Since the heat collecting tubes 120 provided in the respective components are supported through the plurality of supports 122 in the process of being expanded, the heat collecting tubes 120 are positioned on the inner surface of the body 110 Can be supported. The solar heat fan 100, which has been expanded through the above process, blows indoor air through a blowing fan (not shown) into the heat collecting tube 120 arranged inside, forcibly circulates the heat, A heat exchange function is performed in a process of circulating air inside, so that the indoor air can be heated to a certain temperature and then supplied to the room to be heated.

6 is a view showing an example of installation of the solar heat fan 100 according to the present invention, in which a solar heat fan 100 is installed on an apartment veranda window, and FIG. 7 is a side sectional view of FIG. 8 is a flowchart sequentially illustrating a process of installing the solar heating fan 100 on a window.

6 to 8, when the solar heat and air heater 100 according to the present invention is installed in, for example, an apartment veranda window having a relatively large window area, first, a porch window is opened and a solar heat and air 100 are disposed in the air inlet 110, air is first injected through the air inlet at a rate of about 80% to form a rough outline of the hot air fan 110, and the concave and convex portions 111 formed on the outer surface of the fan 110, Engage with the groove part and insert it into the window frame. When the remaining 20% of the air is injected into the hot air fan body 110 by the second injection, the outer surface of the body 110 is tightly engaged with the inner surface of the window frame. Thus, the installation work of the solar hot-air fan 100 is completed quickly and easily.

At this time, the solar heat and air blower 100 installed on the veranda window through the above-described process can securely fix the body 110 to the window frame 202, but the auxiliary collection part 130 in front of the body 110 has the lower end So that it can be influenced by the external force. Accordingly, the support bracket 204 is installed horizontally on the verandah railing 200 and the end of the support bracket 204 is coupled to the lower end of the auxiliary collection part 130, 130 can be prevented from flowing in the vertical direction.

When the sunlight is incident on the body 110 (including the auxiliary collecting portion and the wing portion) of the solar heat and fan 100, when the solar cell module 100 is installed in the body 110 And the temperature of the heat collecting pipe 120 provided inside the body 110 is also increased. At this time, the air circulated into the heat collecting pipe 120 is heat-exchanged in the course of passing through the heat collecting pipe 120, and hot hot air of about 50 to 70 ° C is discharged through the air outlet 104 on the rear side So that indoor heating can be performed.

In the meantime, the solar heat and air blower of the present invention can be installed not only in the opened window frame portion of the building wall as shown in the above-described embodiment but also in a state in which the window can not be opened. In this case, since the solar hot-air fan is installed on the closed window surface of the indoor unit, the solar fan unit 100 of the above-described embodiment has a structure in which the auxiliary heat collecting unit 130 and the wing unit 140 are omitted Should be applied.

FIG. 9 is a side view showing a rear side structure of the solar heat and air blower installed directly on a window surface of the room as described above, and FIG. 10 is a side sectional view showing a state where the solar heat and air blower of FIG.

9 and 10, the solar heat and fan 100a according to the second embodiment of the present invention includes four suction plates 206 mounted on the rear portion of the body 110a so as to be attachable to a window. At this time, the adsorption plate 206 is applied with an air adsorption type adsorption plate 206 having a strong adsorption force so as to exhibit a high adsorption force. If a plurality of suction plates 206 are installed on the rear surface of the body 110a of the solar heat and air warming apparatus 100a, the solar heat fan 100a is installed on the window surface 207 located in the room, It is possible to simply attach and fix.

FIG. 11 is a side sectional view showing a structure of a solar heat and air blower installed in a window frame of a relatively small area according to a third embodiment of the present invention, and FIG. 12 is a plan view as seen from the top of FIG.

If the structure of the solar heat fan 100 shown in the first embodiment described above is such that it is fixed to a relatively large window such as a veranda window of an apartment, the solar heat fan 100b shown in FIGS. 11 and 12, Which is an example of a solar hot air fan type applicable to a relatively small case.

Referring to FIGS. 11 and 12, the solar fan 100b according to the third embodiment of the present invention is similar to the solar fan 100 of the first embodiment, The upper transparent region 112b is formed to have an area larger than the opaque region 114b located on the lower side. This is suitable for cases where the area of the window is small but the amount of light entering the room must be secured to some extent. In this case, the area of the opaque region 114b where the solar heat is collected in the solar fan body 110b is small, and the heat collection efficiency is inevitably lowered. Therefore, as shown in the drawing, it is desirable to increase the area of the auxiliary heat collecting portion 130b and the wing portion 140b to be larger than the area of the body 110b so that the heat collection performance is not degraded. In the case of the solar heat fan 100b having such a structure, most of the solar heat is collected through the auxiliary collecting part 130b and the wing part 140b. Therefore, the auxiliary collecting part 130b and the wing part 140b ) Can be appropriately adjusted in accordance with the installation conditions.

FIG. 13 is a perspective view seen from the front (outdoor) of the solar heat fan according to the fourth embodiment of the present invention, FIG. 14 is a perspective view viewed from the rear (indoor), and FIG. 15 is a rear perspective view viewed from the rear (indoor). FIG. 16 is a perspective view showing a state in which a solar heat and air heater according to a fourth embodiment of the present invention is installed on a window, and FIG. 17 is a side sectional view of FIG.

13 to 15, the solar fan unit 100c according to the fourth embodiment of the present invention is different from the solar fan unit 100 of the first embodiment in that the air inlet 102c or the air outlet 104c And a solar battery panel 150c for supplying power to the blower 1021c is mounted on the front portion of the body 110c and a blower 1021c is mounted on the rear portion of the body 110c And a control button 160c provided with an operation button 161c for controlling the operation state of the operation buttons 1021c and 1021c.

Therefore, the solar-heated fan unit 100c having such a structure can drive the blower 1021c with only solar energy without supplying any additional power, and can provide heating to a desired place. The operating state of the blower 1021c includes not only the ON / OFF of the blower 1021c, but also the fan rotation speed of the blower 1021c. In this embodiment, the solar heat & The flow rate of the air that flows into the inner space 120c can be adjusted. Accordingly, the solar fan unit 100c according to the present embodiment can control the amount of air heated by the solar heat, thereby achieving the heating temperature control effect.

16 and 17, the solar heat and fan 100c according to the present embodiment has a width W0 and a width W2 of the window frame 202 on which the horizontal length W and the vertical length L are to be installed, respectively, And may be manufactured by appropriately changing it according to the height (H). The detailed description thereof has been described above, and therefore, it is omitted here.

FIG. 18 is a rear perspective view seen from the rear (indoor) of the solar heat fan according to the fifth embodiment of the present invention, and FIG. 19 is a side sectional view of FIG.

Referring to Figs. 18 and 19, the solar heat and air blower 100d according to the fifth embodiment of the present invention has a structure in which a front portion and a rear portion are provided on a body 110c in comparison with the structure of the solar- And a passage portion 107e of a structure penetrating therethrough is further formed.

Specifically, as shown in Fig. 19, the air outlet 106d has a structure in which a blower 1061d is mounted so that air in the room is discharged to the front portion of the body 110c.

FIG. 20 is a rear perspective view seen from the rear (indoor) of the solar heat fan according to the sixth embodiment of the present invention, and FIG. 21 is a side sectional view of FIG.

20 and 21, the solar heat and air blower 100e according to the sixth embodiment of the present invention has a structure in which a front surface portion and a rear surface portion are provided on the body 110c, as compared with the structure of the solar heat and air blower 100c of the fourth embodiment And a passage portion 107e having a structure penetrating therethrough is formed.

Specifically, as shown in Fig. 21, the passage portion 107e is a structure that can be opened and closed by the lid 1071e, and can serve as a connection passage between the outside and the inside. The connection passage may be, for example, a passage such as a cable or a pipe for entering the room from the outside. Accordingly, the solar heat and air blower 100e according to the present embodiment can provide a passage for connecting the outdoor to the indoor without damaging the wall separating the outdoor from the indoor.

FIG. 22 is a rear perspective view seen from the rear (indoor) of the solar heat and air heater according to the seventh embodiment of the present invention, and FIG. 23 is a side sectional view of FIG.

22 and 23, the solar fan unit 100f according to the seventh embodiment of the present invention is compared with the structure of the solar fan unit 100c of the fourth embodiment described above, 108f are formed, and the auxiliary heat collecting portion 130f is further mounted.

22 and 23, the opening 108f communicates with the collecting tube 120c and is connected to another tube to communicate with the collecting tube 120f of the auxiliary collecting portion 130f .

More specifically, the auxiliary heat collecting portion 130f is provided with a heat collecting pipe 120f communicating with the opening 108f and communicating with the body 110c. The body 110c has a body 110c and a predetermined inclination angle As shown in Fig. Further, a support base 204f may be further provided to support the auxiliary heat collecting portion 130f.

Accordingly, even when the window area is relatively small, the solar heat and air blower 100f having such a structure can be installed by reducing the width W of the solar heat and air blower 100f, The solar heat absorption amount can be covered by the auxiliary heat collection part 130f. It is needless to say that the width W2 of the auxiliary heat collecting portion 130f can be appropriately changed in consideration of the solar heat absorption amount and the stability at the time of installation.

24 is a side schematic view showing that the solar heat fan according to the present invention and another external device are connected by piping.

Referring to FIG. 24, the solar hot-water warmer 100c of the present invention can be installed in various places such as an apartment, a private house, an office, a factory, etc., It is possible to blow warm air.

Accordingly, in the solar heat and air warming fan 100c of the present invention, the air inlet port 102c and the air outlet port 104c are connected to the suction port 311 and the discharge port 312 of another external device 300 by using the pipes 410 and 420, And can be used for various purposes.

As a result, the solar heat and air blower 100c of the present invention can be used not only for the heating function of a building but also for a dryer, a food dryer, a clothes dryer, a food garbage disposer, a table type heating godadzu, a livestock breeding facility, And can be used by being applied to a room.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Changes will be possible.

100, 100a, 100b, 100c, 100d, 100e, 100f:
102, 102c: air intake portion 1021c: blower
104, 104c: air outlet port 106d: exhaust port
1061d: blower 107e:
1071e: lid 108f: opening
110, 110c: body 111, 111c:
112: transparent region 114: opaque region
116, and 116c: reflectors 120, 120c, and 120f:
122, 122c: Support parts 130, 130f:
131f: piping 140: wing portion
150c: Solar panel 160c: Control panel
161c: Operation button 200: Railing
201: window 202: window frame
204, 204f: Support base 206: Suction plate
300: external device 311: air suction part
312: air discharge part 320: air flow space
410, 420: air flow piping

Claims (18)

A body 110 made of a heat-resistant vinyl material that can be inflated by the injection of air and having at least one air inlet, and having an air inlet 102 and an air outlet 104 at a rear portion thereof;
One end of the air cleaner 100 is connected to the air inlet 102 of the body 110 and the other end of the air cleaner 100 is connected to the air outlet 104 A condenser 120 connected to the condenser;
A reflector 116 disposed on the inner surface of the rear side body 110 of the heat collecting tube 120 and reflecting the sunlight incident on the front surface of the body 110 toward the heat collecting tube; And
A support part 122 for connecting and supporting the heat collecting tube 120 inside the body 110 so that the heat collecting tube 120 can be arranged at a predetermined position when the body 110 is inflated;
Lt; / RTI >
Wherein an auxiliary collection part (130) is installed at one side of a front part of the body (110) to form a predetermined inclination angle with the body and collect solar heat.
The air-assisted solar hot-water fan as set forth in claim 1, wherein an outer surface of the body (110) is provided with recesses and protrusions (111) that can be engaged with outer structures in an uneven form when expanded.
2. The air-heated solar air heat exchanger according to claim 1, wherein the heat collecting pipe (120) has a corrugated pipe shape.
The air-assisted solar hot-water fan according to claim 1, wherein the outer circumferential surface of the heat collecting tube (120) is coated with an opaque color.
The air-assisted solar hot-water fan according to claim 1, wherein a part of the body (110) is formed as a transparent region (112) through which sunlight can pass.
delete The air-assisted solar hot-water fan according to claim 1, further comprising a supporting member (204) for supporting the auxiliary heat collecting part (130).
The air conditioner according to claim 1, wherein a wing portion (140) for collecting solar heat at a predetermined inclination angle with the auxiliary heat collecting portion (130) is further installed on left and right sides of the auxiliary heat collecting portion (130) Solar hot air heater.
The air-assisted solar hot-water fan according to claim 1, wherein at least one suction plate (206) is installed on a rear portion of the body (110).
A body 110c made of a heat-resistant vinyl material that can be inflated by the injection of air, having at least one air inlet, and having an air inlet 102c and an air outlet 104c at the rear thereof;
One end of the air inlet port 102c is connected to the air inlet port 102c of the body 110c and the other end of the air outlet port 104c is connected to the air outlet port 104c. A heat collecting tube 120c connected thereto;
A support part 122c for connecting and holding the heat collecting tube 120c inside the body 110c so that the heat collecting tube 120c when the body 110c is expanded can be arranged at a predetermined position;
A blower 1021c attached to the air inlet 102c or the air outlet 104c of the body 110c to allow air to flow from the air inlet 102c to the outlet 104c of the heat collecting tube 120c;
A solar panel 150c mounted on a front portion of the body 110c to absorb solar energy and supply power to the blower 1021c; And
A control panel 160c mounted on a rear portion of the body 110c and having an operation button 161c for controlling the operation state of the blower 1021c;
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An opening 108f is formed in a front portion of the body 110c and the opening 108f is communicated with the collecting tube 120c and the opening 108f is coupled with another pipe,
A heat collecting pipe 120f communicating with one end of the opening 108f is arranged in the inside of the main body 110c and an auxiliary furnace 120c which forms a predetermined angle of inclination with respect to the body 110c on the front face of the body 110c, And a heating part (130f).
The air conditioner according to claim 10, wherein the air-
Further comprising a reflector (116c) disposed on an inner surface of a rear side of the heat collecting tube (120c) and reflecting the sunlight incident on the front surface of the body to the heat collecting tube (120c) Injection type solar heat air heater.
11. The apparatus of claim 10, wherein the body (110c)
The exhaust port 106d is formed so as to penetrate through the front and rear portions of the body 110c and further includes an exhaust port 106d to which the blower 1061d is attached so as to discharge the air on the rear portion of the body 110c to the front portion Features an air-injected solar fan.
delete delete The air-assisted solar hot-water fan according to claim 10, further comprising a support base (204f) for supporting the auxiliary collection part (130f).
11. The apparatus of claim 10, wherein the body (110c)
A front portion and a rear portion,
And a passage portion (107e) having a structure that can be opened and closed by a lid (1071e) is formed.
11. The air conditioner according to claim 10, wherein the air inlet (102c) and the air outlet (104c) of the body (110c)
Is connected to another external device (300) by piping (410, 420) to supply air heated by solar heat.
18. The apparatus of claim 17, wherein the external device (300)
Wherein at least one of the indoor heat exchanger and the indoor heat exchanger is selected from the group consisting of a dryer, a food dryer, a clothes dryer, a food garbage disposer, a table type heating godad, a livestock breeding facility, a hatching facility, a bathroom and a heated floor.

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