KR100991844B1 - Ventilating device - Google Patents

Abstract

PURPOSE: A ventilation device is provided to enable a worker to easily enter, inspect and repair or clean the ventilation device through a path. CONSTITUTION: A ventilation device(1) comprises a frame(10), sidewalls(30), a fixing unit(20), and a blocking unit(60). One side of the frame is connected to a building and the inner space of the frame is connected to the inner space of the building. The sidewalls are arranged on the side of the frame at given intervals. The fixing unit connects the sidewalls to the frame. The blocking unit covers the sidewalls. The blocking unit comprises a first blocking member covering the sidewalls and a second blocking member, which is installed at an interval from the first blocking member and covers the sidewalls. A path is formed between the first and second blocking members.

Description

Ventilation device {VENTILATING DEVICE}

The present invention relates to a ventilation device.

Ventilation devices are installed in the building to exchange contaminated air with fresh air from outside. In addition, it serves to control the internal temperature by discharging the air heated by the heat generated from the facilities or machinery installed inside the building to the outside.

Such a conventional ventilation device has no entrance to enter when the blower is broken or the user needs to enter the ventilation device in order to clean the interior of the ventilation device.

Accordingly, the worker has to work to re-attach part of the roof after finishing work, and the work efficiency is low, and the overall appearance of the building becomes messy.

The problem to be solved by the present invention is to provide a ventilation device that allows the operator to easily enter the interior of the blocking portion through the passage formed in the blocking portion.

In the ventilation device for discharging the fluid in the interior space of the building to the outside of the building, one side is connected to the building, the interior space is connected to the interior space of the frame, the frame portion at a plurality of mutually spaced apart side It is configured to include a side wall disposed, a fixing portion connecting each side wall and the frame portion, and a blocking portion surrounding the side wall,
The blocking unit may include a first blocking member surrounding the sidewall, and a second blocking member disposed at intervals with the first blocking member to surround the sidewall, and between the first blocking member and the second blocking member. The passage part which can enter this frame part is formed.

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The frame part is located in the lower portion of the front side wall and is installed on the passage with the building interior space, the first frame portion connected to the fixing portion, is located in the lower portion of the rear side wall is installed on the passage with the building interior space It may further include a second frame portion connected to the government, and a third frame portion disposed between the first frame portion and the second frame portion and connected to the fixed portion.

In addition, the side of the frame portion may be further provided with a discharge passage for discharging the air inside the frame portion.

In addition, the cross-sectional shape of the side wall may be a semi-circle or semi-ellipse.

In addition, a skylight plate is formed on the roof, and the skylight plate may include polycarbonate.

In addition, a blower installed in the frame portion, and connected to the blower, and further comprises a solar cell unit for supplying power to the blower, and further comprising a control unit connected to the solar cell unit for controlling the operation of the solar cell unit. can do.

In addition, the solar cell unit is connected to the photovoltaic module formed on the side wall, the photovoltaic module, the inverter converts the direct current electricity provided by the photovoltaic module into alternating current electricity, and the inverter, It may include a power storage unit for storing the alternating current electricity converted by the inverter.

In addition, a separate roof is installed on the upper portion of the frame portion, the wind speed sensor for measuring the external wind speed may be connected to the roof.

According to an embodiment of the present invention, the operator can easily enter the ventilation device through the passage formed in the blocking unit to check and repair the blower or to clean the inside.

In addition, according to an embodiment of the present invention, there is an advantage that it is possible to forcibly exhaust the air inside the building using a blower as well as natural exhaust.

In addition, according to an embodiment of the present invention, the blower serves to discharge the air in the interior space of the building or to supply the outside air. For example, in summer, a blower is operated to supply outside air to the inside of a building such as a factory. Thus, there is an effect to increase the comfort inside the building. In addition, there is an effect of discharging the odor or smoke generated in the high temperature heat generation or harmful substances generating process to the outside. Therefore, the manager can have two or more effects with the same facility, which has the advantage of a customized facility.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art may easily implement the present invention. The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Like parts are designated by like reference numerals throughout the specification.

Next, a ventilation device according to an embodiment of the present invention will be described with reference to FIGS. 1 to 5.

1 is a perspective view of a ventilation device according to an embodiment of the present invention. 2 is an exploded perspective view of a ventilation device according to an embodiment of the present invention. FIG. 3 is an enlarged view of A shown in FIG. 2. 4 is a view showing in detail the skeleton portion and the exhaust fan shown in FIG. 5 is a view illustrating a state in which polluted air is discharged using an intelligent exhaust device according to an embodiment of the present invention.

Prior to describing the ventilation device 1, the building 2 will be described briefly. The building 2 has an internal space and is provided with an entrance and exit. A building can be a factory. In addition, the building 2 may be formed with an intake and an exhaust portion through which the fresh air can flow in and out, and may include a sound absorbing plate to prevent noise. The connecting member 3 is coupled to the upper part of the building 2. The connecting member 3 is connected to the internal space of the building 2 because the internal space is empty. The connecting member 3 can be omitted.

1 to 5, the ventilation device 1 of one embodiment includes a frame part 10, a fixing part 20, a side wall 30, an outlet passage part 40, a roof 50, and a blocking part ( 60, and a blower 70 is included.

The frame part 10 is located on the lower side of the side wall 30 and is installed on the passage with the inner space of the building, and is connected to the fixing part, and is connected to the fixing part. And a second frame portion installed on the second frame portion and connected to the fixed portion, and a third frame portion disposed between the first frame portion and the second frame portion and connected to the fixed portion.
Specifically, the first frame portion 11 and the second frame portion 12 are provided at both ends of the frame portion 10, respectively. In addition, the frame portion includes a first member 14 connected to the interior space of the building 2 and a second member 15 connected to the first member 14. At this time, the first cover part 16 is covered with the first frame part 11, the first member 14, and the first member 14 of the second frame part 12, respectively. In the third frame part 13, the second cover part 17 is covered with the second member 15 instead of the first member 14.

The lower part of the frame part 10 is connected to the connecting member 3, and the inner space of the frame part 10 is connected to the internal space of the connecting member 3. That is, the interior space of the building 2, the interior space of the connection member 3, and the interior space of the frame portion 10 are all connected to one another.

The fixing part 20 is connected to the other side of the frame part 10, that is, one side of the second member 15 of each frame part.

The side wall 30 is spaced a predetermined distance from the frame portion and is connected to the other side of the fixing portion 20. The side walls 30 are semicircular or semi-elliptical in cross-sectional shape. The side wall 30 is a structure that surrounds the frame 10 round.

In addition, a discharge passage portion 40 is disposed on one surface of the frame portion 10 facing the side wall 30. Through the discharge passage 40, fluid in the space inside the frame part 10 naturally flows out of the frame part 10.

The roof 50 is located at the top of the frame 10. In addition, a skylight plate 51 is formed on the roof 50 to allow external light to be irradiated to the interior space of the building 2. The skylight plate 51 includes polycarbonate. Polycarbonate has good thermal efficiency because of its low heat permeability. This maximizes the heating effect in winter.

The blocking part 60 covers the side wall 30 so that the frame part 10 plays a role that is not influenced by an external environment such as draft or rain water. At this time, the blocking portion 60 is formed with a passage portion 61 of a predetermined size.
The operator may enter the ventilation device 1 according to an embodiment through the passage 61. The blocking unit 60 may be separated according to the size of the passage 61, but when the size of the passage 61 is small, the blocking unit 60 is not separated. The passage portion 61 may be large enough to allow a worker to enter and exit the ventilation device 1. In addition, depending on the number of the passage portion 61, the blocking portion 60 may be separated into several.
In order to implement the passage part 61, the blocking part 60 may be disposed at a distance from the first blocking member 62 surrounding the side wall 30 and the first blocking member 62 to surround the side wall. The first blocking member 62 and the second blocking member 63 may be configured to include the blocking member 63, and the gaps thereof may be passage portions 61 as end portions thereof are positioned at intervals from each other.

The blower 70 serves to discharge the air in the interior space of the building 2 or to supply the outside air. For example, in summer, the blower 70 is operated to supply external air into the building 3 such as a factory. Thus, there is an effect of increasing the comfort level inside the building (3). In addition, the odor or smoke generated in the high temperature heat generation or harmful substance generation process is discharged toward the ventilation device 1 according to one embodiment.

The blower 70 is connected to the frame 10 but may be installed inside the building 2.

In the case of the blower 70 installed around the first frame portion 11 and the second frame portion 12 of the frame portion 10, the first frame portion 11 and the second frame portion 12 are opened. The fluid is discharged to the outside through the two members 15 to increase the discharge efficiency. In addition, in the case of the blower 70 installed around the third frame portion 13 covered with the second member 15 by the second cover part 17, the fluid that can be supplied from the left and right sides of the blower 70 is removed. By closing the cover portion 17, the fluid in the area immediately below the blower 70, rather than the left and right of the blower 70 is concentrated. This allows the fluid to be discharged more efficiently.

To summarize the ventilation device 1 according to an embodiment, the roof 50 is connected to the upper portion of the frame portion (10). A plurality of side walls 30 spaced apart from each other at predetermined intervals are disposed on the side surface of the frame portion 10. The side walls 30 are substantially semi-circular pipes and are arranged at predetermined intervals along the longitudinal direction of the frame portion 10. The frame part 10 and the side wall 30 are connected by the fixing part 20. The plurality of side walls 30 are covered by the blocking unit 60. Discharge passage portion 40 is disposed on one surface of the frame portion 10 facing the side wall 30, the fluid inside the frame portion 10 through the discharge passage portion 40 to the outside of the frame portion 10 Exit to The part except the upper and lower parts of the frame part 10 is covered by the blocking part 60 and the roof 50 and is blocked from the outside. Accordingly, the fluid inside the frame part 10 passes through the discharge passage part 134, the space between the frame part 10 and the center of the side wall 30, and the space between the roof 50 and the side wall 30. (10) It goes out naturally. In addition, a predetermined hole 61 is formed in the blocking portion 60. Through the hole 61, the worker can easily access the frame part 10 to check and repair the frame part 10 and the blower 70.

Meanwhile, the ventilation device 1 according to an embodiment may further include a pollution measuring sensor 80, a temperature measuring sensor 90, a solar cell unit 100, a wind speed sensor 110, and a controller 120. . Through the various sensors and the solar cell unit 100, the blower 70 may be environmentally friendly.

The controller 120 controls the exhaust capacity of the blower 70 based on a reference value preset by an operator. In this case, the preset reference value may be any one of a set value of polluted air in the building 2, an air temperature set value in the building 2, a set wind speed set in the building 2, and a set wind speed set outside the building 2. May be used or both may be used. In addition, the worker can operate the blower 70 when the outside air wind speed is significantly reduced or when the natural ventilation is impossible due to low pressure.

The control unit 120 is connected to the pollution measuring sensor 80, the temperature measuring sensor 90, the wind speed sensor 110, and the solar cell unit 100 as well as the blower 70. Can be controlled.

For example, when the temperature of the building 2 measured by the temperature measuring sensor 90 rises by a predetermined temperature, the controller 120 operates the blower 70. The preset temperature is assumed to be about 35 ° C. If the temperature is continuously raised without falling below a predetermined temperature of 35 ° C., the controller 120 increases the exhaust capacity of the blower 70 to increase the blowing amount. That is, when the temperature measured by the temperature measuring sensor 250 is lower than the temperature preset by the controller 120, the controller 120 does not operate the blower 70, and when the temperature is high, the blower 70 automatically. )). In addition, when the temperature exceeds a preset temperature, the exhaust capacity of the blower 70 is increased to lower the temperature inside the building 2 within a short time.

In addition, when the preset fine dust concentration value is 100 mg / m 3, when the fine dust concentration of the building 2 measured by the pollution measuring sensor 80 is 100 mg / m 3 or more, the controller 120 operates the blower 70. Let's do it. If the fine dust concentration rises to 120 mg / m 3 or more without falling below 100 mg / m 3, the control unit 120 increases the exhaust capacity of the blower 70 to increase the amount of blowing.

That is, when the pollution measurement value measured by the pollution measurement sensor 80 is lower than the pollution measurement value set in the controller 120, the blower 70 is not operated, and when the pollution measurement value is high, the blower is automatically Start the 70. In addition, in the case of exceeding the predetermined pollution measurement numerical value to increase the exhaust capacity of the blower 70 to lower the fine dust concentration inside the building (2) within a short time.

In addition, when the preset wind speed is 2 ~ 3.0 kPa, the control unit 120 operates the blower 70 when the wind speed measured by the wind speed sensor 110 is less than 2 ~ 3.0 kPa. That is, when the wind speed measured by the wind speed sensor 110 is higher than the wind speed preset in the controller 120, the blower 70 is not operated. When the wind speed is low, the blower 70 is automatically operated. .

In addition, when the fine dust concentration measured by the pollution measurement sensor 80 is higher than the preset pollution measurement setting value, the control unit 120 forcibly blows the blower even when the external or internal wind speed is high and natural exhaust is generated. The 70 can be operated to discharge the contaminated air to the outside in a short time.

Through the control unit 120 connected to the solar cell unit 100, the operator can arbitrarily determine whether the solar cell unit 100 is operating and charging time.

The solar cell unit 200 converts light energy from the sun into electrical energy. The solar cell unit 200 includes a solar module 210, an inverter 230, and a power storage unit 220.

The solar module 101 is formed on the side wall 30. But it can also be installed in other places. The solar module 101 converts solar energy into electrical energy. Electrical energy is converted direct current electricity.

The inverter 103 is a power converter. The inverter 103 is connected to the photovoltaic module 101, and converts the direct current electricity converted by the photovoltaic module 101 into alternating current electricity.

The power storage unit 102 is connected to the inverter 103 and the blower 70, and serves to store AC electricity.

Although the preferred embodiments of the present invention have been described in detail above, the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are also provided. It belongs to the scope of rights.

1 is a perspective view of a combination of the ventilation device and the building according to an embodiment of the present invention.

2 is an exploded perspective view of a ventilation device and a building according to an embodiment of the present invention.

3 is a cross-sectional view of a ventilation device according to an embodiment of the present invention.

4 is an enlarged view of A shown in FIG. 2.

5 is a view showing in detail the skeleton portion and the exhaust fan shown in FIG.

6 is a view showing a state in which polluted air is discharged using a ventilation device according to an embodiment of the present invention.

7 is a block diagram of a control unit of a ventilation device according to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

1: ventilation device 2: building

3: connecting member

10: skeleton portion 11: first frame portion

12: second frame portion 13: third frame portion

14: first member 15: second member

16: 1st cover part 17: 2nd cover part

20: fixing part 30: side wall

40: discharge passage

50: roof 51: skylight

60: breaker 61: hole

70 blower 80 contamination measurement sensor

90: temperature measuring sensor 100: solar cell unit

101: solar module 102: power storage

103: inverter 110: wind speed sensor

120: control unit

Claims (9)

In the ventilation device for discharging the fluid in the interior space of the building to the outside of the building, One side is connected to the building, the skeleton portion that the inner space is connected to the interior space, A plurality of side walls arranged at a plurality of mutually spaced apart sides of the frame portion, Fixing parts connecting the respective side walls and the frame, and Blocking portion surrounding the side wall, Including; The blocking unit may include a first blocking member surrounding the sidewall, and a second blocking member disposed at intervals with the first blocking member to surround the sidewall, and between the first blocking member and the second blocking member. The passage formed to enter the frame portion is formed Ventilation. delete In claim 1, The frame part A first frame part disposed below the side wall and installed on a passage with an interior space of the building and connected to the fixing part; A second frame part positioned below the rear wall of the side wall and installed on a passage with an interior space of the building and connected to the fixing part; A third frame part disposed between the first frame part and the second frame part and connected to the fixing part; Containing Ventilation. In claim 1, The side of the frame portion is further provided with a discharge passage for discharging the air inside the frame portion Ventilation. In claim 1, And a cross-sectional shape of the side wall is a semi-circle or semi-ellipse. In claim 1, A skylight plate is formed on the roof located above the frame part, and the skylight plate includes polycarbonate. In claim 1, A blower installed in the frame part, Is connected to the blower, and further comprises a solar cell unit for supplying power to the blower, A control unit connected to the solar cell unit to control operation of the solar cell unit; Ventilation system. In claim 7, The solar cell unit, Solar module is formed on the side wall, An inverter connected to the photovoltaic module and converting the direct current electricity provided by the photovoltaic module into alternating current electricity, and A power storage unit connected to the inverter and storing the alternating current electricity converted by the inverter Containing Ventilation system. In claim 1, A roof is installed on the upper part of the frame part, and a wind speed sensor is connected to the roof to measure an external wind speed. Ventilation.

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