KR102520369B1 - the air conditioning electric damper for the ventilation system capable of remote control - Google Patents

Abstract

The present invention relates to an air-adjusting electric damper for a ventilation system for internal ventilation of each indoor space divided in a building or a house such as an apartment. More specifically, a damper housing (10) is coupled and installed in an installation hole mainly formed on a ceiling of each indoor space divided in a building or a house such as an apartment. A ventilation hole (13) of the damper housing is opened, closed, and adjusted by moving an opening/closing plate (20) installed in front of the ventilation hole (13) forward and backward to a driving operation part (30) of a cam operation type, and is opened and closed when air pollution is detected by a detection sensor (40) to ventilate. The assembly productivity is excellent in comparison to a conventional screw method by a cam method of a simple structure, and operation noise is reduced to have excellent use satisfaction. Specifically, since only corresponding indoor spaces with polluted indoor air can be selectively opened and closed, excellent use efficiency is provided by selectively ventilating only the corresponding indoor spaces with polluted indoor air instead of simultaneously ventilating all indoor spaces of a building or a house.

Description

The air conditioning electric damper for the ventilation system capable of remote control}

The present invention relates to an air conditioning motorized damper for a ventilation system for internal ventilation of each indoor space partitioned inside a house or building, such as an apartment, and more particularly, it is installed in each indoor space and operates by opening and closing when indoor air is polluted. It relates to an air conditioning motorized damper for a remote controllable ventilation system that ventilates an indoor space, provides a simple structure by a cam method, and selectively ventilates only polluted areas in each indoor space.

Conventional ventilation systems installed for internal ventilation of houses or buildings, such as apartments, connect diffusers and supply and exhaust ducts installed in partitioned indoor spaces such as living rooms and rooms to dampers.

That is, when the ventilation system is operated, the damper is opened along with the operation of the supply and exhaust fans, and supply and exhaust are made to the supply and exhaust ducts through the diffuser in the partitioned indoor space to perform indoor ventilation.

However, in the conventional ventilation system described above, the diffuser installed on the ceiling of a partitioned space such as a living room or room is always open, and the damper installed in the supply and exhaust duct is opened to supply and exhaust air, so it is connected to the ventilation system There was a problem that all the indoor spaces in the room were ventilated at the same time.

For example, in the case of an apartment, all indoor spaces are ventilated at the same time through a diffuser in each indoor space divided into a living room and a room, and ventilation is performed regardless of air pollution in each indoor space, so there is an inefficient problem.

That is, there is a limit to selectively ventilating only the indoor space where the air is polluted.

In addition, since the diffuser installed in each partitioned indoor space of a house or building is fixed in a normally open state, it is inconvenient for a user to easily check whether or not ventilation of the indoor space is working with the naked eye.

In addition, in the case of the conventional electric damper installed and used in the supply and exhaust ducts, the cover installed in the front of the damper housing is moved back and forth in the interlocking structure of the screw and nut rotationally driven by the motor inside the damper housing to open and close the assembly. There was a problem of difficulty in production as well as a problem of generating a large operating noise, and there was also a problem of obstruction of supply and exhaust through the inside of the damper housing.

Public utility model No. 20-2009-0002771 (March 19, 2009) Patent Publication No. 10-2015-0082144 (July 15, 2015)

The present invention was invented to solve the various problems of the prior art, and is installed in each indoor space partitioned inside a house or building such as an apartment to ventilate the indoor space by opening and closing when indoor air is polluted. Assembly productivity is excellent due to the simple structure by , and the user satisfaction is excellent because the operation noise is low. In addition, when contamination is detected by the air pollution detection sensor, it is possible to selectively ventilate only the contaminated indoor space instead of ventilating all indoor spaces. Its purpose is to provide excellent use efficiency.

An object of the present invention is to provide excellent usability reliability by allowing a user to easily check with the naked eye whether or not ventilation is operating in an indoor space by turning on a lamp when the opening/closing plate is opened and closed.

The present invention is a tubular damper housing installed in each indoor space partitioned inside a house or building but connected to a ventilation duct of a ventilation system, an opening and closing plate installed in a position in front of a ventilation hole in the center of the damper housing, and the opening and closing It is composed of a driving operation unit that opens and closes the ventilation hole of the damper housing while moving the plate back and forth by the drive of the driving motor, and an air pollution detection sensor that detects air pollution in the indoor space and drives and controls the driving operation unit to control the indoor space. Its characteristic is that each indoor space can be selectively ventilated when air pollution is detected.

According to the present invention, the driving operation unit protrudes a push protrusion at the inner center of the opening and closing plate, and protrudes guide rods on both sides of the push protrusion, and inserts the guide rod into the guide hole of the support bracket protrudingly installed inside the damper housing. However, an elastic spring is inserted and installed in the guide rod to elastically move the opening and closing plate in the closing direction of the ventilation hole, and an operating cam coupled to the motor shaft of the driving motor is installed in close contact with the inside of the push protrusion to It is characterized in that it is configured to open and close the ventilation hole while moving the opening and closing plate back and forth by the operation of the cam by rotation.

According to the present invention, a contact sensor is installed in the damper housing at a closed position of the opening and closing plate in front of the ventilation hole, and when the contact sensor of the opening and closing plate is released from the damper housing or the opening and closing plate, the user can check whether the opening and closing plate is open. It is characterized by installing and configuring lamps that turn on and operate.

According to the present invention, a damper housing is installed in combination with an installation hole mainly formed on the ceiling of each indoor space partitioned inside a house or building such as an apartment, and the opening and closing plate installed in front of the ventilation hole of the damper housing is driven by a cam operation method. The ventilation hole is opened and closed by moving back and forth in the unit, but opens and closes when air pollution is detected by the detection sensor to ventilate. The cam method with a simple structure has excellent assembly productivity compared to the conventional screw method, as well as low operating noise. Satisfaction is excellent, and since only the indoor space with polluted indoor air can be selectively opened and closed, it is used to selectively ventilate only the indoor space with polluted indoor air, rather than ventilating all indoor spaces of a house or building at the same time. Therefore, the efficiency of use is excellent.

In addition, when the ventilation hole is closed by the opening/closing plate, the lamp is turned on so that the user can easily check with the naked eye whether or not the ventilation in the indoor space is operating, so that the use reliability is excellent.

In addition, since the opening/closing plate automatically opens and closes and ventilates by detecting indoor air pollution by the sensor, it can be used for remote control and has excellent usability.

1 is an external perspective view showing an embodiment of a motorized damper of the present invention.
Figure 2 is a cross-sectional configuration diagram of Figure 1;
Figure 3 is a perspective view showing the configuration of the main part of Figure 2;
Figure 4 is an operation diagram of Figure 2;
Figure 5 is an installation use state diagram of Figure 2;
6 is an external perspective view showing another embodiment of the electric damper of the present invention.
Figure 7 is a cross-sectional configuration diagram of Figure 6;

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

As shown in FIGS. 1 to 7, the air conditioning motorized damper for a remote controllable ventilation system of the present invention includes a damper housing 10, an opening and closing plate 20, a driving operation unit 30 and an air pollution detection sensor 40 ) and is installed in a partitioned indoor space inside a house or building such as an apartment, so that only the polluted space is selectively ventilated while automatically opening and closing when the air in the indoor space is polluted.

The damper housing 10 is mainly formed on the ceiling or wall in each indoor space divided inside a house or building, for example, in an indoor space divided into room 1, room 2, and living room as shown in FIG. 5 in the case of an apartment Installation It is installed and inserted into the ball 3, but installed and configured to be connected to the ventilation duct 120 of the ventilation system 100.

The damper housing 10 may be formed as a cylindrical tube as shown in FIG. 1 or as a rectangular tube as shown in FIG. can do.

In addition, the damper housing 10 is inserted into the installation hole 3 and consists of a pipe body 11 fixedly installed by fastening a piece to the outer flange 11a, and a cover 12 coupled to the front surface of the pipe body. It is configured by forming a ventilation hole 13 through the inner center of the tube body and the cover.

At this time, the inlet of the ventilation hole 13 is preferably formed in a tapered structure in which a diameter narrows from the outside to the inside.

The opening and closing plate 20 is installed at a position in front of the ventilation hole 13 of the damper housing, and is configured to open or close the ventilation hole 13 by moving back and forth.

The driving operation unit 30 is configured to move the opening/closing plate 20 forward and backward by a driving motor M, but the driving motor M can be installed inside the damper housing 10, but a wide ventilation space is secured In order to do so, it is preferable to configure the coupling to be installed outside the damper housing 10.

The driving operation unit 30 has a push protrusion 21 at the inner center of the opening/closing plate 20 and guide rods 22 and 22' protruding from both sides of the push protrusion to form the guide rods 22 and 22. ') is inserted into the guide hole 16a of the support bracket 16 protrudingly installed inside the damper housing, and the opening/closing plate 20 is installed on the guide rods 22 and 22' of the ventilation hole 13. An elastic spring 25 is inserted and installed so as to move the elastic in the closing direction, and an operating cam 35 coupled to the motor shaft 32 of the driving motor is installed in close contact with the inside of the push protrusion 21 to prevent the movement of the operating cam. It is configured to control opening and closing by moving the opening/closing plate 20 back and forth while pushing the push protrusion by cam operation by rotation.

At this time, the elastic spring 25 is inserted into the guide rod 22 (22') at an inner position of the support bracket 16, and the elastic spring 25 protrudes from the inner end of the guide rod to separate the elastic spring. It is supported to prevent this, and a threaded portion is formed at the outer end to be screwed to the opening and closing plate to be fixedly coupled.

In addition, the actuating cam 35 is shaft-coupled with the motor shaft 32 eccentrically so that the outer circumferential portion formed with the diameter farthest from the motor shaft 32 is located on the push protrusion for each rotation of the actuating cam and opens and closes the plate (20) is pushed to open the ventilation hole (13).

The air pollution detection sensor 40 is installed to detect air pollution in the indoor space, but is installed in a position separated from the cover 12 of the damper housing or the damper housing.

That is, air pollution in the indoor space is detected by the air pollution detection sensor 40, but when the air pollution level is detected as higher than a set value, a separate controller operates the driving motor of the driving operation unit 30 to ventilate the air. It is configured to automatically open and operate.

In addition, in the damper housing 10, a contact sensor 15 is installed in the closed position of the opening and closing plate 20 in front of the ventilation hole 13, and the contact sensor of the opening and closing plate is installed on the damper housing or the opening and closing plate as shown in the drawing ( 15) Install and configure a lamp 18 that turns on so that the user can check whether the opening/closing plate is open when the contact is released.

On the other hand, it goes without saying that various filters may be detachably installed inside the damper housing 10 to be configured to exhaust polluted air in a filtered state during ventilation.

As non-explained numerals, 5 denotes a fastening bolt and 7 denotes a ceiling of an indoor space where an installation hole is formed.

Next, we will look at the operation and operation of the present invention configured as described above.

First, the electric damper of the present invention is installed as an installation hole 3 mainly formed on the ceiling of an indoor space partitioned inside a house or building, such as an apartment building.

That is, the damper housing 10 connected to the ventilation duct 120 of the ventilation system 100 is inserted into the installation hole 3 of the ceiling, and the opening and closing plate 20 is installed in front of the ventilation hole 13 of the damper housing assemble and install

At this time, the opening and closing plate 20 inserts the guide rods 22 and 22' protruding on the inside into the guide hole 16a of the support bracket 16 protrudingly installed inside the damper housing 10 However, the elastic spring 25 inserted into the guide rod 22 (22') pushes the opening/closing plate 20 inward to keep the ventilation hole 13 of the damper housing closed. .

As such, when the ventilation hole 13 of the damper housing is closed by the opening/closing plate 20, ventilation of the indoor space is not performed.

The electric damper of the present invention installed as described above detects the degree of air pollution in the indoor space where the electric damper is installed by the air pollution detection sensor 40.

And when the degree of air pollution in the indoor space exceeds the set value, the air pollution detection sensor 40 in the indoor space detects it and drives the driving operation unit 30 of the electric damper installed in the indoor space. .

That is, as shown in FIG. 5, in the case of an apartment, when the indoor air in the living room is polluted in each indoor space divided into room 1, room 2, and living room, the driving operation unit 30 of the electric damper installed in the living room is driven. .

In this way, while driving the driving motor M of the driving operation unit 30, the operating cam 35 coupled to the motor shaft 32 is rotated, and the opening/closing plate closely attached to the operating cam is pushed. The protrusion 21 is pushed outward by cam operation.

In this way, the opening/closing plate 20 is moved forward by the pushing operation of the push protrusion 21, and the ventilation hole 13 of the damper housing is opened from the closed state (see FIG. 2).

At this time, in the opening and closing plate 20, the guide rods 22 and 22' on both sides are guided by the guide holes 16a of the support bracket 16 and move forward while the elastic feet inserted into the guide rods are installed. The opening operation is performed while elastically compressing the spring 25 .

As such, when the ventilation hole 13 of the damper housing is opened, the polluted indoor air of the corresponding indoor space is exhausted to the outside through the ventilation hole 13 of the damper housing and through the ventilation duct 120 .

In particular, since the ventilation hole 13 inside the damper housing has a simple structure in which no components such as a drive motor are built-in, ventilation of indoor polluted air is more smoothly performed.

In addition, when the opening and closing plate 20 in the ventilation hole 13 of the damper housing is switched from the closed state to the open state, the contact sensor 15 in which the opening and closing plate 20 is installed in front of the ventilation hole 13 of the damper housing ), and the lamp 18 turns on and operates as it is converted from a contact state to a contact release state. That is, it is possible to simply check whether the indoor space is ventilated by simply checking the lighting state of the lamp 18 with the naked eye, rather than checking whether the opening/closing plate 20 is opened or closed.

As described above, when the polluted air in the corresponding indoor space is exhausted to the outside and the air pollution level in the indoor space drops to an appropriate level, the driving motor (M) of the driving operation unit 30 is driven again to move the operating cam 35 to the outside. The external force pushing the push protrusion 21 while rotating is removed, and the opening/closing plate 20 returns to its original position by the elastic force of the elastic spring compressed in the guide rods 22 and 22'.

As such, while the opening/closing plate 20 returns to its original position, the ventilation hole 13 of the damper housing is closed again, thereby stopping the ventilation operation (see FIG. 4).

And, as the opening/closing plate 20 contacts the contact sensor 15 installed in front of the ventilation hole 13 of the damper housing again, the lighting state of the lamp 18 is turned off.

Therefore, the electric damper of the present invention is installed in each indoor space partitioned inside a house or building such as an apartment building, and ventilates the indoor space by opening and closing when indoor air is polluted. As a result, the assembly productivity is excellent, the operating noise is low, and when contamination is detected by the air pollution detection sensor, it is used to selectively ventilate only the contaminated indoor space instead of ventilating all indoor spaces.

In addition, it goes without saying that the user may open all the electric dampers of all indoor spaces while remotely controlling them by the controller and use them to ventilate all indoor spaces at the same time.

10: damper housing 11: pipe body
12: cover 13: ventilation hole
15: contact sensor 16: support bracket
18: lamp 20: opening and closing plate
21: push protrusion 22,22 ': guide rod
23: locking jaw 25: elastic spring
30: driving operation unit 32: motor shaft
35: operating cam 40: air pollution detection sensor

Claims (3)

A tubular damper housing 10 installed in each indoor space partitioned inside a house or building and connected to a ventilation duct of a ventilation system;
An opening and closing plate 20 installed in a position in front of the ventilation hole 13 in the center of the damper housing;
A driving operation unit 30 for opening and closing the ventilation hole 13 of the damper housing while moving the opening and closing plate 20 back and forth by driving the driving motor M, and
It is composed of an air pollution detection sensor 40 that detects air pollution in the indoor space and drives and controls the driving operation unit so that each indoor space can be selectively ventilated when air pollution in the indoor space is detected,
The driving operation unit 30 has a push protrusion 21 at the inner center of the opening and closing plate, and guide rods 22 and 22' protruding from both sides of the push protrusion to form the guide rods 22 and 22'. Insert and install into the guide hole 16a of the support bracket 16 protruding inside the damper housing, and insert the opening and closing plate 20 into the guide rods 22 and 22' in the closing direction of the ventilation hole 13 In the air conditioning electric damper for a remote controllable ventilation system in which an elastic spring 25 is inserted and installed to move the elastic,
An operating cam 35 coupled to the motor shaft 32 of the driving motor is closely installed inside the push protrusion 21 so that the opening/closing plate 20 is moved back and forth by the rotation of the operating cam and the ventilation hole configured to open and close,
In the damper housing 10 installed in each of the partitioned indoor spaces, a contact sensor 15 is installed in the closed position of the opening/closing plate 20 in front of the ventilation hole 13, and the contact of the opening/closing plate to the damper housing or the opening/closing plate An air conditioning motorized damper for a ventilation system capable of remote control, characterized in that a lamp (18) is installed and configured so that the user can check whether the opening/closing plate is open when the sensor (15) contact is released. delete delete

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