KR200376799Y1 - Variable air volume control device - Google Patents

Abstract

The present invention is a variable air volume control device that automatically adjusts the amount of air supplied to the room from the air conditioner according to the change in the temperature of the room, between the guide of the damper actuator mounted to the outside of the gas operated by the room temperature sensor The operating shaft moves forward and backward, and streamlined air flow control dampers positioned symmetrically on both links attached to the leading end of the operating shaft are opened and closed, and an air induction pipe is installed between the manned air inlet formed at the lower part of the body and the first air outlet. The first air supplied from the central air conditioner and the air introduced into the manned air inlet from the room or the ceiling space were mixed and supplied to the room. Therefore, it is possible to supply a higher temperature and a large amount of air to the room with only a small amount of first air to maintain a comfortable indoor environment, and to achieve a considerable energy saving effect at the same time.

Description

Variable air volume control device {VARIABLE AIR VOLUME CONTROL DEVICE}

        The present invention relates to a variable air volume control device that automatically adjusts the amount of air supplied to the room from the central air conditioner according to the change in the temperature of the room. More specifically, the damper is operated outside the gas and operated by a room temperature sensor. Between the guides of the actuator, the operation shaft moves forward and backward, and the streamlined air volume control dampers, which are positioned symmetrically, are opened and closed at both links connected to the tip of the operation shaft. The air induction pipe is installed in the air, and the air is introduced into the mixed air outlet. The first air supplied from the central air conditioner and the air introduced into the inlet air inlet from the room or ceiling space are mixed, and this mixing To provide the air to the room. The conventional variable air volume control device has a drawback that it is not possible to effectively attract air in the room or the ceiling and thus does not supply comfortable air to the room, and consumes a lot of energy.

In order to solve the above-mentioned problems, the present invention devises an inlet air inlet formed at a lower portion of the variable air volume control device, and a damper is installed, and an air induction pipe is disposed between the first air outlet in the gas and the inlet air inlet. Installed and configured to communicate with the outlet of the mixed air, the air is drawn from the room or ceiling space to the inlet air inlet, which is drawn back by the air induction pipe and mixed with the first air supplied from the central air conditioner. Was supplied indoors. Therefore, the object of the present invention is to provide a variable air volume control device capable of supplying a higher temperature and a large amount of air to a room with only a small amount of first air to maintain a comfortable indoor environment and to simultaneously obtain energy saving effects. .

Referring to the configuration and operation of the subject innovation in detail as follows.

FIG. 1 is a longitudinal sectional view of the present invention, and FIG. 2 is a state diagram in which the air volume control damper is closed in FIG. 1, and the configuration of the variable air volume control device 1 includes an initial air inlet 11 and an initial air in the base 10. The outlet 12 and the mixed air outlet 13 are formed, and a damper actuator 20 operated by a temperature sensor is installed on the outer circumferential surface of the gas 10, and operated in the guide section 21 of the damper actuator 20. The shaft 22 is moved forward and backward, and both side links 23 adhered to the front end of the working shaft 22 are connected to each streamlined air volume control damper 24 adhered to both front ends of the initial air outlet 12 so that the first air The outlet 12 is opened and closed. In the above, both air volume control dampers 24 are formed in a streamlined shape and are located symmetrically with each other. In addition, a manned air damper 31 is installed at the manned air inlet 30 formed in the lower part of the gas 10, and an air induction pipe 40 is installed between the first air outlet 12 and the manned air inlet 30. It is the structure connected to the mixed air outlet 13 by this. Reference numeral 50 is a pressure raising chamber, 60 is a support of the operating shaft (23). Referring to the operation process of the present invention as described above, when the guide section 21 of the damper actuator 20, which is operated by the temperature sensor, advances the operating shaft 22, both sides adhered to the tip of the operating shaft 22. Each of the links 23 pushes the air volume control damper 24 outward to open the initial air outlet 12 at a controlled interval as shown in FIG. 1. At this time, both sides of the air volume control damper 24 is installed symmetrically in a streamlined form to maximize the flow of air. On the contrary, as shown in FIG. 2, when the guide shaft 21 reverses the operating shaft 22, the link 23 pulls the air volume control damper 24 to the center to close the initial air outlet 12.

3 is an installation state diagram of the present invention, the air having a certain pressure in the central air conditioner 100 is the first air enters the first air inlet 11 through the duct 101, this air is the pressure rise chamber (50) The positive pressure is increased while passing through the air, and the air having the elevated static pressure passes through the air volume control damper 24, so that the static pressure is lowered and the dynamic pressure is increased. That is, the air having the property of moving from the greater pressure side to the smaller side flows the air in the ceiling and the room into the inlet air inlet 30 because the pressure around it is larger than the air volume control damper 24. Is backflowed into the air induction pipe 40 and mixed with the original air, and supplies the mixed air to the diffuser 104 through the mixed air outlet 13 to the room. Therefore, even a small amount of first air can maintain a more comfortable indoor environment, and a considerable energy saving effect can be obtained at the same time.

For example, in a central air conditioner (100), 24 degrees of indoor air introduced into the manned air inlet (30) while the first air with a constant pressure of 25 mmAq, a temperature of 13 degrees, and a flow rate of 300 CMH passes through the initial air outlet (12). It is mixed with 300 CMH and amplified by 600 CMH of air having a temperature of 18 degrees to be supplied to the room through the diffuser 104. In this way, it is possible to maintain a pleasant environment by continuously supplying and exhausting indoors, and it is possible to raise the initial air of 13 degrees to about 18 degrees and amplify and supply it with about twice the air volume, thus saving energy. high.

In the embodiment attached to FIG. 3, the inlet air inlet 30 and the attracting diffuser 104a are connected to the duct 101a so as to attract indoor air, but when the duct 101a is not connected, it remains on the ceiling. Only air is introduced into the manned air inlet (30).

According to the present invention, a manned air damper 30 is installed at the manned air inlet 30 formed at the lower portion of the variable air volume control device 1 as described above, and the first air outlet 12 and the manned air inlet in the body 10 are provided. An air induction pipe 40 is installed between the air induction pipes 40 so as to be connected to the mixed air outlet 13 so that the air introduced into the manned air inlet 30 from the space of the room or ceiling is introduced. The mixed air was mixed with the first air supplied from the central air conditioner, and the mixed air was supplied to the room through the diffuser 104 connected to the mixed air outlet 13. Therefore, it is possible to supply a higher temperature and a large amount of air to the room than the first air, it is a useful design that can maintain a more comfortable indoor environment, and at the same time obtain the energy saving effect.

1 is a longitudinal cross-sectional view of the present invention

FIG. 2 is a view illustrating a state in which the air volume control damper is closed in FIG.

3 is an installation state of the present invention

<Explanation of symbols for main parts of drawing>

10: gas 11: first air inlet 12: first air outlet

13 mixing initial air outlet 20 damper actuator 21 guideway

22: working shaft 23: link 24: air volume control damper

30: manned air inlet 31: manned air damper 40: air induction pipe

Claims (2)

 An initial air inlet 11, an initial air outlet 12, and a mixed air outlet 13 are formed in the base 10, and are provided in the guide section 21 of the damper actuator 20 provided on the outer circumferential surface of the base 10. The actuating shaft 22 is moved forward and backward, and both links 23 adhering to the front end of the actuating shaft 22 are connected to the respective air volume regulating dampers 24 adhering to both front ends of the initial air outlet 12 so that the first air Opening and closing of the outlet 12, a manned air damper 31 is installed in the manned air inlet 30 formed in the lower portion of the base 10, between the initial air outlet 12 and the manned air inlet 30 Air flow guide tube 40 is installed, variable air flow rate control device, characterized in that connected to the mixed air outlet (13) The method of claim 1, The both sides air volume control damper 24 is formed in a streamlined, variable air volume control device, characterized in that the symmetrical positions are opened and closed