KR101263993B1 - Window shaped hybrid ventilator - Google Patents

Abstract

The present invention relates to a window-type hybrid ventilator, and more particularly, a case installed in the ventilator and having a flow path formed therein; A ventilation fan installed at an intermediate portion of the flow path; A heat storage member provided at an intermediate portion of the flow path and storing heat of air flowing through the flow path; A washing device installed to be adjacent to the heat storage member and washing the heat storage member; A filter body provided at an intermediate portion of the flow path and filtering air passing through the flow path; A control unit controlling the ventilation fan and the washing device; By using a ventilator consisting of a solar panel provided on the outer surface of the case, and relates to a window-type hybrid ventilator that can exchange heat with the outside air discharged to the outside and the outside air introduced into the room with higher efficiency.
According to the window-type hybrid ventilation apparatus according to the present invention, by using the heat storage material provided in the middle of the flow path has the advantage of increasing the thermal efficiency by mutual heat exchange between the air discharged from the indoor and the air introduced from the outside, furthermore, It has the effect of improving the living environment.

Description

Window Hybrid Ventilation Equipment {WINDOW SHAPED HYBRID VENTILATOR}

The present invention relates to a window-type hybrid ventilation device, and more particularly, the case is installed in the ventilation portion and the flow path is formed therein; A ventilation fan installed at an intermediate portion of the flow path; A heat storage member provided at an intermediate portion of the flow path and storing heat of air flowing through the flow path; A washing device installed to be adjacent to the heat storage member and washing the heat storage member; A filter body provided at an intermediate portion of the flow path and filtering air passing through the flow path; A control unit controlling the ventilation fan and the washing device; By using a ventilator consisting of a solar panel provided on the outer surface of the case, and relates to a window-type hybrid ventilator that can exchange heat with the outside air discharged to the outside and the outside air introduced into the room with higher efficiency.

In general, a system for ventilating the air in a building includes mechanical ventilation that allows the ventilation of indoor air by force using a fan, and natural ventilation that enables natural ventilation by using a pressure difference between indoors and outdoors. Is widely used.

At this time, the mechanical ventilation device for forcibly venting the air is divided into a type that can be exhausted or supplied only by using a fan or with the exhausted and supplied air, and natural ventilation is made by the user manually opening and closing the window.

However, when ventilation is performed using mechanical ventilation or natural ventilation in a state in which the room is cooled or heated, there is a problem that energy efficiency is greatly reduced since air in the cooled or heated room is discharged to the outside as it is.

In addition, in the case of a ventilation system using such a mechanical ventilation device, a duct for transporting air must be additionally installed, and the duct must be installed inside the building together with the interior work of the building.

However, the duct used in the ventilation system as described above has a serious problem that is difficult to install and costly as well as a lot of pressure loss. In particular, such a duct is not only difficult to maintain after installation, it is difficult to clean the dust accumulated inside there was a problem that mold or bacteria can easily breed.

The present invention was devised to solve the problems of the conventional ventilation device as described above, and the internal air discharged to the outside and the outside air introduced into the room to maximize the energy efficiency while improving the user's living environment It is an object of the present invention to provide a window-type hybrid ventilator capable of mutual heat exchange with higher efficiency.

In order to achieve the above object and to solve the above-mentioned conventional problems, the window-type hybrid ventilation apparatus according to a preferred embodiment of the present invention is installed on the window or wall of the building, the outdoor side is open to the outdoor side An opening is formed and an indoor side opening is formed in the indoor side, and a case is formed therein and has a flow path connecting the outdoor opening and the indoor opening; A ventilation fan provided at an intermediate portion of the flow path; It is provided in the middle portion of the flow path, characterized in that it comprises a heat storage member for storing the heat of air flowing through the flow path.

According to another embodiment of the present invention, the case is hinged to the ventilation unit formed to penetrate the window or wall of the building, it is possible to open and close the entire ventilation unit by rotating the case, the indoor side of the case on the outdoor side A natural ventilation mechanism is formed in line with the opening, and the natural ventilation mechanism is provided with opening and closing means.

According to another embodiment of the present invention, the outdoor side opening is provided with an outdoor cover, the outdoor cover is connected to the outdoor opening and the outer end surface of the front end portion extending through the ring body protruding, and the end of the extension tube It is installed so that the circumferential surface is characterized by consisting of a cover provided with an edge extending toward the proximal end of the extension tube.

According to another embodiment of the present invention, the interior opening is provided with an interior cover, the interior cover is a frame member coupled to the front circumference of the interior opening, and one side lower end of the frame member It is connected to the lower end and the other end is characterized in that it comprises a guide panel made of a semi-circular shape is formed long in the upper direction spaced apart by a predetermined distance from the rim member and protrudes forward more than both ends.

According to another embodiment of the present invention, the lower end of the guide panel is formed with an intake slot for inhaling external air from side to side, and the air guided upward along the guide panel is discharged forward in the upper portion of the intake slot An exhaust slot to be formed is formed, characterized in that it further comprises a washing device disposed on the heat storage member to spray water to the heat storage member.

According to another embodiment of the present invention, the filter body is installed in the middle portion of the flow path further filters the air passing through the flow path, the filter body is coupled to one end of the cylinder with openings formed at both ends; And an electrostatic filter made of a plurality of microfiber fibers inserted into the cylinder and having one end fixed to the support.

According to another embodiment of the present invention, a brush type ionizer is provided on an upper portion of the filter body, and the flow path is an outdoor side flow path connected to the outdoor side opening around the installation position of the filter body, and the indoor space. It is divided into an indoor side passage connected to the side opening, wherein the outdoor side passage and the indoor side passage are interconnected by a bypass passage for bypassing the filter body, the middle portion of the bypass passage is the outdoor side passage It is characterized in that the valve body is opened.

According to another embodiment of the present invention, the upper and lower partitions are formed in the middle portion of the flow path so as to block the flow path is formed with a filtering chamber in which the filter body is installed in the middle of the flow path, the circumferential surface of the cylinder in the vertical direction An extended blocking wall is provided so that the inner space of the filtering chamber is partitioned into an upward connection passage and a downward connection passage extending in the vertical direction, and openings connected to the upper connection passage are formed at both sides of the upper partition and the lower end of the cylinder. Openings connected to the lower connection passage are formed on both sides of the lower partition and the upper end of the cylinder, respectively.

According to another embodiment of the present invention, the bypass flow passage is formed by forming a through hole directly connecting the indoor passage and the downward connection passage in the upper partition, the valve body is installed in the through hole and downward It is characterized in that the leaf valve to be opened.

According to another embodiment of the present invention, the heat storage member, a temperature sensor provided in the indoor opening and the outdoor opening, and a control unit for controlling the reverse rotation of the ventilation fan in accordance with the signal of the temperature sensor The control unit monitors the temperature of the heat storage member when the indoor air is discharged to the outside by using the ventilation fan. When the temperature of the heat storage member approaches the temperature of the indoor air, the control unit reverses the ventilation fan so that the outdoor air is indoors. Characterized in that it is introduced into, characterized in that it further comprises a solar panel provided on the outer surface of the case.

Meanwhile, the present invention may be variously modified and may have various embodiments, and specific embodiments are illustrated in the drawings and described in detail in the detailed description. However, this is not intended to limit the present invention to the specific embodiments, it should be understood to include all modifications, equivalents, and substitutes included in the spirit and scope of the present invention. In describing the drawings, similar reference numerals are used for similar elements.

Meanwhile, the terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms “comprise” or “have” are intended to indicate that there is a feature, number, step, action, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

According to the window-type hybrid ventilation apparatus according to the present invention, by using the heat storage material provided in the middle of the flow path has the advantage of increasing the thermal efficiency by mutual heat exchange between the air discharged from the indoor and the air introduced from the outside, furthermore, It has the effect of improving the living environment.

1 is a rear view showing an installation state of a window-type hybrid ventilation apparatus according to an embodiment of the present invention.
Figure 2 is a plan view showing the installation state of the window-type hybrid ventilation apparatus according to the present invention
Figure 3 is a front sectional view showing a window-type hybrid ventilation apparatus according to the present invention
Figure 4 is a side cross-sectional view showing a window-type hybrid ventilation apparatus according to the present invention
5 is a perspective view showing an outdoor side cover of the window type hybrid ventilation apparatus according to the present invention;
Figure 6 is a perspective view showing the interior cover of the window-type hybrid ventilation apparatus according to an embodiment of the present invention
Figure 7 (a) and (b) is a plan view and a side cross-sectional view showing the interior side cover of the window-type hybrid ventilation apparatus according to another embodiment of the present invention
Figure 8 is an exploded perspective view showing a heat storage member of the window-type hybrid ventilation apparatus according to the present invention
9 is an exploded perspective view showing the filter body of the window-type hybrid ventilation apparatus according to the present invention
10 and 11 is a reference diagram showing the action of the window-type hybrid ventilation apparatus according to the present invention
12 is a front sectional view showing the action of the window-type hybrid ventilation apparatus according to the present invention.
Figure 13 is a block diagram showing a window-type hybrid ventilation apparatus according to the present invention

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

1 to 12 show a window-type hybrid ventilation device (A) according to a preferred embodiment of the present invention, illustrating that it is installed in the ventilation unit 2 formed on one side of the window (1) of the building. In this case, the ventilation part 2 is formed by drilling a top of one side of the window 1 in a vertical long shape, and is partitioned by the window frame (1a) provided in the circumference.

On the other hand, the window-type hybrid ventilation device (A) according to a preferred embodiment of the present invention is installed in the ventilation unit 2, the case 10 and the flow path (13a, 13b) formed therein, and the flow path (13a, 13b) A ventilation fan 20 installed at an intermediate portion of the heat storage member, a heat storage member 30 provided at an intermediate portion of the flow paths 13a and 13b, and storing heat of air flowing through the flow paths 13a and 13b; It is installed adjacent to the (30) is provided with a washing device 40 for washing the heat storage member 30, and provided in the middle portion of the flow path (13a, 13b) filter for filtering the air passing through the flow path (13a, 13b) It comprises a sieve 50, a control unit 60 for controlling the ventilation fan 20 and the washing device 40, and a solar panel 70 provided on the outer surface of the case 10.

Hereinafter, the main components of the present invention will be described in more detail. First, as shown in Figures 3 and 4, the case 10 is configured in the form of a rectangular box long vertically and is coupled to the ventilation unit (2). At this time, the case 10 is hinged to the window frame (1a) of the periphery of the ventilator 2 by a hinge provided at one end, as shown by the dotted line in Figure 2, the case 10 is rotated The ventilation unit 2 can be opened and closed.

In addition, an outdoor side opening 11 is formed at the lower end of the outdoor side of the case 10, an indoor side opening 12 is formed at the top of the indoor side, and an indoor side opening 12 is opened to the interior. Flow paths 13a and 13b connecting the side opening 11 and the indoor opening 12 are formed. Therefore, the outdoor air introduced through the outdoor opening 11 is raised through the flow paths 13a and 13b and introduced into the room through the indoor opening 12, or the air discharged through the indoor opening 12 is discharged. It descends through the flow paths 13a and 13b and is discharged to the outside through the outdoor side opening 11.

At this time, a natural ventilation mechanism 14 disposed in line with the outdoor side opening 11 is formed at the lower side of the indoor side of the case 10, and the manual opening and closing means 14a is provided at the natural ventilation mechanism 14. When the user opens the manual opening means, the outdoor side opening 11 and the natural ventilation mechanism 14 open at the same time, thereby allowing natural ventilation of the indoor air by the pressure difference between the indoor and outdoor.

In addition, the outer side cover 15 and the inner side cover 16 are respectively coupled to the outer side of the outer side opening 11 and the inner side opening 12 of the case 10. As shown in FIGS. 4 and 5, the outdoor cover 15 is connected to the outdoor opening 11 and an extension pipe 15a having a ring body 15b protruding from the outer peripheral surface of the front end portion of the extension pipe 15a. The cover 15c is installed to be spaced apart from the distal end and has an extension part 15d extending toward the proximal end of the extension pipe 15a. At this time, the end of the frame member (16a) is configured to cover the front end of the extension pipe (15a) while being spaced apart from the front of the case (10). Therefore, outdoor air flows in through the space between the extension part 15d of the lid 15c and the front surface of the case 10 and flows into the outdoor side opening 11 through the extension pipe 15a. When rain falls, rainwater does not flow into the extension pipe 15a and the outdoor side opening 11 due to the ring part 15b of the extension part 15d and the extension pipe 15a. In addition, according to another embodiment of the present invention, by installing a separate net on the outer surface of the inner or outdoor side opening 11 of the extension pipe (15a), it is possible to prevent the insects from entering the inside.

As shown in FIGS. 4 and 6, and FIGS. 7A and 7B, the interior cover 16 is coupled to the front circumference of the interior opening 12. And a guide panel 16b spaced apart from the frame member 16a by a predetermined distance. According to a preferred embodiment of the present invention, the frame member 16a is formed in a rectangular frame shape having a short front and rear length, and the guide panel 16b has one lower end and a lower end of the frame member 16a. Is connected to the other end is formed in a semi-circular shape is formed in the upper direction spaced apart by a predetermined distance from the edge member (16a) in the upper direction and the central portion protrudes further forward than both ends, through the interior opening 12 The discharged air is discharged to be widened in a fan shape in the left and right directions while being guided upward along the rear surface of the guide panel 16b.

On the other hand, the lower end of the guide panel 16b is formed with an intake slot 16c that sucks outside air from side to side, and the upper portion of the intake slot 16c is discharged forward along the guide panel. An exhaust slot 16d is formed. Therefore, when the air discharged through the indoor opening 12 is upwardly moved along the guide panel 16b, additional air is introduced through the intake slot 16c to allow the air to rise at a higher speed. Is discharged to the front of the indoor cover 16 through the exhaust slot (16d) so that the air is spread out wide to the upper side.

The interior cover 16 according to the present invention shown in the drawings is shown only for convenience of description of the present invention, to exclude the use of other shapes within the scope that can achieve the same purpose and function. no. That is, according to the designer's choice, the guide panel 16b provided at the front side spaced apart from the edge member 16a by a predetermined distance is formed in a semi-circular shape as described above, or curved so that both ends thereof face forward more than the center portion. It may also be in the form.

In addition, according to an embodiment of the present invention, the indoor opening 12 and the indoor cover 16 is preferably spaced apart from the ground upwards by more than 180cm, spaced apart by more than 10cm from the ceiling surface of the room. In other words, when heating a general room, the temperature is rapidly lowered from the position of 10cm below the ceiling surface to the upper side, so the cold outdoor air is between 180cm or more higher than the height of the general adult and 10cm below the ceiling. When it is discharged obliquely upward, the cold outdoor air is slowly mixed with the indoor air and lowered, so that no temperature deviation or gradient occurs in the room.

The ventilation fan 20 is installed to be located above the outdoor side opening 11 and rotates forward and backward according to a control signal of the control unit 60. The air may be supplied to the room through the indoor side opening 12, or the indoor air may be sucked into the indoor side opening 12 to be discharged to the outside through the outdoor side opening 11 to force ventilation of the air.

Next, the heat storage member 30 which is a main component of the present invention will be described. As illustrated in FIG. 8, the heat storage member 30 includes a pair of heat storage panels 31 formed in a lattice shape and a heat storage foam 32 disposed between the heat storage panels 31 and the ventilation fan ( The upper portion 20 is provided to block the flow passages 13a and 13b. The heat storage panel 31 is manufactured by weaving carbon nanofibers, and is manufactured by assembling the manufactured panel in the form of a lattice panel, and a plurality of through holes 31a are formed to ensure breathability. It is configured to support the heat storage foam (32). The heat storage foam 32 is formed by rolling the carbon nanofibers into a cotton shape, and while reducing the resistance generated when the air passes, it maximizes the contact area with the air to improve thermal conductivity. Therefore, when the indoor air is discharged to the outside or the outdoor air is supplied to the room using the ventilation fan 20, the air exchanges heat with the heat storage member 30 while passing through the heat storage member 30, thereby resembling air. Heated or cooled to temperature.

As shown in FIGS. 3 and 4, the cleaning device 40 includes a water supply pipe 41 disposed above the heat storage member 30 and a plurality of sprays provided below the water supply pipe 41. It consists of the nozzle 42. At this time, the water supply pipe 41 is connected to the water pipe through the water supply pipe 43, the water supply pipe 43 or the water supply pipe 41 is provided with an electronic control valve 44 controlled by the control unit 60. . Accordingly, when the tap water is supplied to the control unit 60 by supplying the tap water to the water supply pipe, the tap water is sprayed to the upper portion of the heat storage member 30 through the injection nozzle 42, and thus the heat storage member 30. Foreign substances on the surface can be washed off and removed. At this time, one side of the case 10 is provided with an observation window (not shown) that can visually check the contamination state of the heat storage member 30, the user according to the contamination state of the heat storage member 30 The washing apparatus 40 may be operated by operating the 60.

As shown in FIG. 9, the filter body 50 has a cylinder 51 having openings 51a and 51b formed at both ends thereof, and a support having a plurality of through holes 52a formed at one end of the cylinder 51. And an electrostatic filter 53 made of a plurality of microfiber fibers inserted into the cylinder 51 and having one end fixed to the support 52, and positioned below the heat storage member 30. It is installed to remove the contaminants contained in the air flowing through the flow path (13a, 13b). The cylinder 51 and the support 52 is composed of a general synthetic resin, in particular, the support 52 is configured in a grid form is detachably coupled to the upper end of the cylinder 51. According to the embodiment of the present invention, the microfiber fibers are formed by cutting into a thin strip of polypropylene material which easily generates static electricity, and one end thereof is fixed to the support 52 so that the entire shape of the electrostatic filter 53 is dusty. It may be configured to have a bundle form such as hair, but does not exclude the use of other materials and forms within the scope to achieve the same purpose and function. Therefore, when air passes through the cylinder 51, contaminants such as dust contained in the air are attached to the electrostatic filter 53 by static electricity and removed.

At this time, as shown in Figs. 3, 4 and 10, 11, the flow path (13a, 13b) is an outdoor side flow path connected to the outdoor side opening 11 around the installation position of the filter body (50). 13a and an interior side flow passage 13b connected to the interior side opening 12. In addition, the outdoor side passage 13a and the indoor side passage 13b are connected to each other by a bypass passage for bypassing the filter body 50, and an intermediate portion of the bypass passage has the outdoor side passage ( 13a), the valve body 17 is provided so that the air passes through the filter body 50 when supplying outdoor air to the room, and the air passes through the filter body 50 when the air is discharged to the outside. It is to be discharged to the outside through the bypass passage without passing through).

To this end, upper and lower partition walls 55 and 56 are formed in the middle of the flow paths 13a and 13b to block the flow paths and in the middle part of the flow paths to form a filtering chamber for installing the filter body 50. The flow passages 13a and 13b are divided into an outdoor flow passage 13a and an indoor flow passage 13b by upper and lower partition walls 55 and 56, respectively.

10 and 11, upper and lower partitions 55 and 56 are provided at the middle of the flow passages 13a and 13b so as to block the flow passages 13a and 13b. A filtering chamber in which the filter body 50 is installed is formed in the middle portion, and the cylinder 51 is installed such that the upper and lower ends thereof are in close contact with the upper and lower partition walls 55 and 56. In addition, the circumferential surface of the cylinder 51 is provided with a blocking wall 57 extending in the vertical direction to the upper connecting passage 57a and the lower connecting passage 57b in which the inner space of the filtering chamber extends in the vertical direction. It is partitioned. Openings 55a and 51b connected to the upper connecting passage 57a are formed at both lower ends of the upper partition 55 and the cylinder 51, and the upper sides of the lower partition 56 and the upper cylinder 51 are both above. Openings 56a and 51a connected to the downward connection passage 57b are respectively formed so that air flows along the trajectory of the U trap shape.

In addition, the bypass flow passage is formed by forming a through hole 55b directly connecting the indoor passage 13b and the downward connection passage 57b to the upper partition 55, along the interior passage 13b. The discharged air is supplied directly to the outdoor side passage 13a through the lower connection passage 57b without passing through the filter body 50. The valve body 17 is constituted by a leaf valve installed in the through hole 55b and opened downward. At this time, the leaf valve in addition to blocking the flow of air, so that the water sprayed on the heat storage member 30 by the washing device 40 is discharged downward through the through-hole (55b).

Therefore, when the outdoor air is introduced into the room by operating the ventilation fan 20, as illustrated in FIGS. 3, 4, and 10, the outdoor side flow path 13a is provided through the outdoor side opening 11. After the air introduced into the lower connection passage (57b) is raised after the descending through the filter body 50 to remove the foreign matter, and again rises along the upper connection passage (57a) and the indoor side passage (13b) It is supplied to the room through the indoor side opening 12.

When the indoor fan is discharged to the outside by rotating the ventilation fan 20 reversely, as shown in FIGS. 11 and 12, the air flows into the indoor channel 13b through the indoor opening 12. Is pushed open the leaf valve, the lower connection passage (57b) does not pass through the upper connection passage (57a) flows down and is discharged to the outside through the outdoor side opening (11).

3 and 4, the brush type ionizer 54 is provided on the upper portion of the filter body 50 in the radial direction. The brush type ionizer 54 is installed to be spaced about 5 cm above the filter body 50 and generates a negative ion when power is applied. The brush type ionizer 54 binds an electrode of a thin wire form in a wire form and air and It is possible to improve the anion generation efficiency by widening the contact area of.

As shown in FIG. 13, the control unit 60 includes a temperature sensor 62, a humidity sensor 63, a dust sensor 64, and a gas sensor installed in the flow paths 13a and 13b of the case 10. 65) rotates the ventilation fan 20 forward or backward according to the control signal input by the input device 61 provided on the indoor side and the state of the air measured by the sensor. Activate the solenoid valve 44 of the device 40. At this time, the temperature sensor 62 is installed in the heat storage member 30, the outdoor side opening 11 and the indoor opening 12, the temperature of the heat storage member 30 and the temperature of the indoor air and the outdoor air It is configured to measure the temperature. The humidity sensor 63, the dust sensor 64, and the gas sensor 65 measure the humidity of the air passing through the flow paths 13a and 13b or the concentration of dust contained in the air, and the components of the gas contained in the air. Measure

As shown in FIG. 4, the solar panel 70 is provided on the front surface of the case 10 to generate electricity using the light of the sun. The control unit 60 and the ventilation fan 20 and It functions as a power source for the solenoid control valve 44. In this case, a separate battery may be connected to the solar panel 70 so that the electricity charged in the battery may be used at night.

Ventilation device according to the invention consisting of the above components operates as follows.

First, when a user inputs a control command using the input device 61, the control unit 60 rotates the ventilation fan 20 forward and backward to discharge the indoor air to the outside and the outdoor air. Repeat the process of feeding indoors. At this time, when the indoor air is discharged to the outside through the heat storage member 30, the heat storage member 30 has a deviation of 2 ~ 3 ℃ and the temperature of the indoor air, the control unit 60 is the heat storage member 30 By monitoring the temperature of the), when the temperature of the heat storage member 30 is close to the indoor air, the ventilation fan 20 is reversely rotated so that outdoor air flows through the heat storage member 30 to be heat exchanged and then flows into the room. . When the heat storage member 30 is cooled to a predetermined temperature, the control unit 60 rotates the ventilation fan 20 forward to discharge the indoor air to the outside.

That is, for example, when heating the indoor space in the winter, when the warm air in the room is discharged to the outside through the heat storage member 30, the heat storage member 30 rises to a temperature 2 ~ 3 ℃ lower than the temperature of the indoor air do. When the control unit 60 detects that the heat storage member 30 is sufficiently raised by monitoring the signal of the temperature sensor 62, the control unit 60 reversely rotates the ventilation fan 20 so that external cool air is stored in the heat storage member ( Pass 30) and supply it to the room warmly. Then, when the temperature of the heat storage member 30 is lowered to 5 ° C, the control unit 60 reversely rotates the ventilation fan 20 again so that the heat storage member 30 is heated by indoor air. Keep repeating. At this time, the temperature at which the control unit 60 reversely rotates the ventilation fan 20 may be changed according to the setting.

In addition, in the summer of cooling the indoors, outdoor hot air is cooled and introduced into the room through the process opposite to the above process.

On the other hand, when the user inputs a control signal for operating the washing device 40 using the input device 61, the control unit 60 opens the electronic control valve 44 of the washing device 40. By supplying water to the spray nozzle 42, the heat storage member 30 is washed by the sprayed water. At this time, the user can form an observation window for observing the heat storage member 30 on the inner surface of the case 10 so that the user can visually check the contamination state of the heat storage member 30, the case ( 10) The whole can be made of synthetic resin made of translucent material.

In addition, the control unit 60 receives the signal of the humidity sensor 63, when the humidity of the indoor air is low, while spraying water to the washing device 40 to let the outdoor air to enter the indoor air Can improve the humidity. In addition, by monitoring the state of the air flowing into the room through the dust sensor 64 and the gas sensor 65, when yellow dust occurs or the outdoor air condition is bad, the ventilation fan 20 automatically stops the air Shut off the inflow. In addition, when abnormal gas is included in the indoor air, the ventilation fan 20 may be operated at the highest speed while outputting an alarm so that the indoor air may be discharged to the outside.

Ventilation device configured as described above is provided with a heat storage member 30 in the middle of the flow path (13a, 13b), thereby preventing the waste of the energy of the indoor air discharged to the outside by heat exchange the air outside the room, and thermal efficiency The advantage is that it can be improved.

In addition, the case 10 is hinged to the ventilation unit 2 formed to penetrate the window 1 or the wall surface of the building, it is possible to rotate the case 10 to open and close the entire ventilation unit 2, There is an advantage to improve the ventilation speed by opening the entire ventilator (2) at the time.

In addition, the inner side surface of the case 10 is formed with a natural ventilation mechanism 14 arranged in line with the outdoor side opening 11, the natural ventilation mechanism 14 is provided with an opening and closing means 14a, According to the advantage that you can choose forced ventilation and natural ventilation.

In addition, the outdoor cover 15 coupled to the outdoor opening 11 is provided with an extension tube 15a on which the ring body 15b protrudes on an outer circumferential surface thereof to prevent rain water from flowing into the case 10. There are advantages to it.

In addition, the interior cover 16 coupled to the interior opening 12 has an upper end spaced apart from the rim member 16a by a predetermined distance and formed in the upper direction, and has a semicircular shape in which the central portion protrudes further forward than both ends. The guide panel 16b is formed to be provided so that the outdoor air is widely spread upward and supplied to the room, thereby preventing the temperature deviation or the gradient from occurring at the room temperature.

In addition, the inlet slot 16c and the exhaust slot 16d are formed at the lower end of the guide panel 16b, so that the outdoor air is not only smoothly supplied to the room but also the front of the guide panel 16b. There is an advantage that the outdoor air can be supplied spread wide.

In addition, the upper portion of the heat storage member 30 is provided with a cleaning device 40, there is an advantage that can easily wash the heat storage member (30). In addition, the filter body 50 is provided with an electrostatic filter 53 configured in the form of dust hair by fixing the ends of the plurality of microfiber fibers to the support 52, the dust contained in the air passing through the cylinder 51 By sticking to the electrostatic filter 53 by static electricity to be removed, not only dust can be easily removed, but also there is an advantage of minimizing resistance generated when air passes through the filter body 50. In addition, since the filter body 50 can be easily cleaned by separating the electrostatic filter 53 and washed with water, there is an advantage that easy maintenance.

In addition, the upper portion of the filter body 50 is provided with a brush type ionizer 54, there is an advantage that can sterilize the outside air introduced into the room. In addition, the outdoor side passage 13a and the indoor side passage 13b are connected to each other by a bypass passage bypassing the filter body 50, and the outdoor side passage 13a is formed at an intermediate portion of the bypass passage. Is provided with a valve body 17 which is open to the outside and passes through the filter body 50 when the outdoor air is supplied to the room, and the filter body 50 when the air is discharged to the outside. By discharging to the outside through the bypass passage without passing through, it is possible to prevent the burden on the filter body 50 by passing through the filter body 50 unnecessarily when the indoor air is discharged to the outside. have.

In addition, the flow paths 13a and 13b are partitioned using the upper and lower partition walls 55 and 56 provided in the middle portion of the flow paths 13a and 13b and the blocking wall 57 provided in the circumference of the cylinder 51. By using the through-hole 55b formed in the upper partition wall 55 to form a bypass flow path, the structure is simple and easy to manufacture, thereby reducing the cost and easy maintenance.

In addition, since the control unit 60 rotates the ventilation fan 20 forward and backward according to the signal of the temperature sensor 62, there is an advantage to maximize the heat exchange efficiency of the indoor air and outdoor air to increase the thermal efficiency. In addition, since the solar panel 70 is provided on the outer surface of the case 10, there is an advantage that can reduce the electricity bill without using a separate power source.

The present invention having the configurations and effects described above can be modified in various ways, and the above description is not intended to limit the scope of the present invention. That is, in the present specification, it is described that the ventilation portion is formed in the window, but this is merely for convenience of description and if necessary, the ventilation portion is formed on the wall, or the ventilation apparatus is disposed long to the left and right, in addition to the long vertical arrangement. It is also possible. In addition, the present specification has been described as manually operating the opening and closing means of the natural ventilation mechanism, it is also possible to enable the control unit to automatically open and close the opening and closing means using a separate actuator, if necessary. In addition, various modifications and variations are possible without departing from the spirit and scope of the invention, and modifications apparent to those skilled in the art to which the invention pertains are included within the scope of the following claims.

Description of the Related Art
10 case 20 ventilation fan
30: heat storage member 40: cleaning device
50: filter body 60: control unit
70: solar panel

Claims (14)

It is installed on the window (1) or wall of the building, the outdoor side opening 11 is formed on the outdoor side and the indoor side opening 12 is opened on the indoor side, the interior side is formed, the outdoor A case 10 having flow paths 13a and 13b connecting the side opening 11 and the indoor opening 12; A ventilation fan 20 provided at an intermediate portion of the flow paths 13a and 13b; In the window-type hybrid ventilator provided in the middle portion of the flow path (13a, 13b) comprising a heat storage member 30 for storing the heat of air flowing through the flow path,
The outdoor side opening 11 is provided with an outdoor side cover 15, and the outdoor side cover 15 is connected to the outdoor side opening 11, and an extension tube 15a having a ring body 15b protruding from the outer peripheral surface of the tip portion. And a cover 15c installed to be spaced apart from the distal end of the extension pipe 15a and having an extension part 15d extending toward the proximal end of the extension pipe 15a. According to claim 1, wherein the case 10 is hinged to the ventilation unit 2 formed to penetrate the window (1) or the wall surface of the building, it is possible to rotate the case 10 to open and close the entire ventilation unit (2). Window type hybrid ventilator, characterized in that According to claim 1, wherein the inner side surface of the case 10 is formed with a natural ventilation mechanism 14 which is arranged in line with the outdoor side opening 11, the natural ventilation mechanism 14 is an opening and closing means (14a) Window type hybrid ventilation device, characterized in that provided delete According to claim 1, wherein the interior opening 12 is provided with an interior cover 16, the interior cover 16 is an edge member coupled to the front circumference of the interior opening (12) ( 16a), and one lower end is connected to the lower end of the frame member 16a, and the other upper end is formed to be longer in the upper direction, spaced apart from the edge member 16a by a predetermined distance, and the center part is forward than both ends. Window-type hybrid ventilation device, characterized in that it comprises a guide panel 16b made of a semi-circular to protrude further The air inlet slot 16c is formed at the lower end of the guide panel 16b, and the left side of the guide panel 16b extends along the guide panel. A window-type hybrid ventilator, characterized in that an exhaust slot 16d is formed to allow air to flow forward. According to claim 1, Window-type hybrid ventilator characterized in that it further comprises a washing device 40 disposed on the heat storage member 30 to spray water to the heat storage member (30). The method of claim 1, further comprising a filter body 50 is installed in the middle of the flow path (13a, 13b) for filtering the air passing through the flow path,
The filter body 50 is coupled to one end of the cylinder 51 having openings at both ends, a support 52 coupled to one end of the cylinder 51, and having a plurality of through holes, and inserted into the cylinder 51. Window type hybrid ventilation device comprising an electrostatic filter 53 made of a plurality of microfibers fixed to the support 52 9. The window type hybrid ventilation device according to claim 8, wherein a brush type ionizer (54) is provided on the filter element (50). 9. The flow path 13a and 13b of claim 8, wherein the flow paths 13a and 13b are connected to the outdoor side opening 11 at the installation position of the filter element 50, and the indoor side opening 12. And an indoor side passage 13b connected to each other, wherein the outdoor side passage 13a and the indoor side passage 13b are connected to each other by a bypass passage bypassing the filter body 50. A window-type hybrid ventilator characterized in that the intermediate portion of the pass passage is provided with a valve body 17 which opens to the outdoor side passage 13a. The filtering chamber according to claim 8, wherein upper and lower partitions 55 and 56 are provided in the middle of the flow paths 13a and 13b so as to intersect the flow path, and the filter body 50 is installed in the middle of the flow path. Become,
The circumferential surface of the cylinder 51 is provided with a blocking wall 57 extending in the up and down direction so that the inner space of the filtering chamber is partitioned into an upward connection passage 57a and a downward connection passage 57b each extending in the vertical direction. ,
Openings 55a and 51b connected to the upper connecting passage 57a are formed at both lower ends of the upper partition 55 and the cylinder 51, respectively.
Window type hybrid ventilation device, characterized in that openings 56a and 51a connected to the lower connection passage 57b are formed at both sides of the lower partition 56 and the upper end of the cylinder 51, respectively. 12. The bypass passage according to claim 11, wherein the bypass flow passage is formed by forming a through hole 55b directly connecting the indoor flow passage 13b and the downward connection passage 57b to the upper partition 55. ) Is a window-type hybrid ventilator, characterized in that the leaf valve is installed in the through hole is opened to the lower side The ventilation fan according to claim 1, wherein the heat storage member (30), the temperature sensor (62) provided at the outdoor side opening portion (11) and the indoor side opening portion (12), and the signal of the temperature sensor (62). And a control unit 60 for controlling the forward and reverse rotation of the 20, wherein the control unit 60 discharges the indoor air to the outside by using the ventilation fan 20. When the temperature of the heat storage member 30 is close to the temperature of the indoor air by monitoring the window-type hybrid ventilation device, characterized in that by rotating the ventilation fan 20 to allow the outdoor air to enter the indoor The window-type hybrid ventilation device of claim 1, further comprising a solar panel 70 provided on an outer surface of the case 10.

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