KR102150604B1 - Venturi type variable air volume control device and air volume control method using the same - Google Patents

Abstract

The present invention relates to a variable air volume control device and an air volume control method using the same, and more particularly, to a venturi-type variable air volume control device and an air volume control method using the same. An air volume control system includes: the venturi-type air volume control device; a database including air volume data of the venturi-type air volume control device; and a control unit that controls the air volume of the venturi-type air volume control device according to the data stored using the database. The air volume control system according to the present invention does not require a straight pipe part for measuring the differential pressure, and is easily installed in narrow and bent pipes to accurately control the air volume.

Description

Venturi type variable air volume control device and air volume control method using the same}

The present invention relates to a variable air volume control device and an air volume control method using the same, and more particularly, to a Venturi-type variable air volume control device and an air volume control method using the same.

In order to adjust the flow rate or air volume inside the duct, a method of installing a blade in a duct inside the duct and adjusting the angle of the blade to control the opening and closing amount is used. The angle of the blade can be adjusted manually or automatically by the actuator according to the required air volume. For example, a temperature sensor is installed indoors, and when the temperature rises, the amount of opening and closing is increased so that a large amount of cold air can be introduced, and when the temperature is lowered, the amount of opening and closing is reduced. However, since the air volume flowing through the duct is not constant, the original air volume is affected by the control of the opening and closing amount, and the opening and closing amount and the air volume do not change proportionally, it is not easy to control the duct air volume through the adjustment of the opening and closing amount. In order to solve this problem, it is necessary to measure the actual air volume of the duct and reflect the opening and closing amount in the control.

Korean Patent Publication No. 10-2010-0135122 discloses a method of measuring the air volume of a duct using the differential pressure measured through a pitot tube, and providing an accurate controlled air volume to the room using this.

However, the flow measurement method using the differential pressure is disadvantageous in that it requires a straight pipe to induce laminar flow. In order to induce laminar flow, a straight pipe portion having a length of at least five times the diameter is required. In the case of a complex flow path, it is not easy to introduce such a straight pipe portion. The differential pressure measurement error due to turbulence generated in the short straight pipe section leads to an error in the actual air volume, making accurate control difficult.

The problem to be solved in the present invention is to provide a new air volume control device that does not require a differential pressure measuring unit for measuring an actual flow rate.

Another problem to be solved in the present invention is to provide a new air volume control method that does not require a differential pressure measuring unit for measuring an actual flow rate.

In order to solve the above problems, the present invention

Venturi-type air volume control device;

A database including air volume data of the Venturi-type air volume control device; And

It provides an air volume control system including a control unit for controlling the air volume of a Venturi-type air volume control device according to data stored using the database.

In the present invention, the venturi-type air volume control device includes a venturi-type pipe, a support that moves along a central axis of the pipe in the venturi-type pipe, an actuator that moves the support, and is coupled to a front end of the support. A pressure-independent venturi type that includes a cone that moves back and forth from the front end of the pipe, and the cone attached to the front end of the support is a pressure-independent venturi-type whose position is adjusted according to the wind pressure so as to provide a constant air volume for changes in wind pressure at a predetermined support position. It may be an air volume control device.

In the practice of the present invention, the pressure-independent Venturi-type air volume control device may be purchased and used commercially, or Korean Patent No. 1804777 may be referred to.

Although not limited in theory, since the air volume control cone absorbs the change in wind pressure inside the duct and provides substantially the same air volume at the position of the support, the actual measurement data according to the position of the support is made into a database. Therefore, by using this, it is possible to control the air volume by using the data stored in the database without actually measuring the air volume of the duct, and thus, it is possible to accurately control the air volume without the intuition for pressure measurement.

In the present invention, the outside air may be air conditioned by an air conditioner. For example, air adjusted to a temperature of 16 to 17° C. during cooling and 28° C. during heating may enter the room.

In the present invention, the control unit calculates the required air volume using the room temperature and/or the outside air temperature, determines the opening/closing amount capable of providing the calculated air volume through the database, and driving the actuator according to the determined opening/closing amount. By doing so, the support is moved and the position of the cone is controlled.

In the present invention, the air volume control system may include a temperature sensor that measures indoor temperature and/or outside air temperature.

In the present invention, the database includes a position of the support and an actual air volume according to the position of the support.

In one aspect of the present invention,

Installing a venturi-type air volume control device on the experimental duct, and measuring the air volume according to the position of the supporter to which the cone is coupled in front;

Storing the measured air volume data in a database; And

And controlling the air volume of the duct by installing a Venturi-type air volume control device including the database in a duct, and adjusting a position of the support according to data stored in the database.

In the present invention, the air volume control method further includes the step of calculating a required air volume by measuring the temperature of the indoor and/or outside air.

The present invention provides a new air volume control device and air volume control method that does not require a differential pressure measuring unit for measuring an actual flow rate.

In the present invention, a differential pressure portion for measuring an actual flow rate, a Venturi-type air volume control device that does not require a straight pipe portion for accurate differential pressure measurement of the differential pressure portion, and a wind volume control method using the same are provided.

The venturi-type air volume control device according to the present invention does not require a straight pipe part for measuring the differential pressure, so it is easily installed in narrow and bent pipes, thereby enabling accurate air volume control.

1 is a view showing a cross-section of a duct air volume control apparatus according to the prior art.
2 is a view showing a cross section of the air volume control system according to the present invention.
3 is a view showing an open state according to the position of the support base of the air volume control device according to the present invention.
4 is a view showing the actual air volume passed through different open states according to the position of the support in the air volume control device according to the present invention. Different models with different diameters appear differently.
5 is a view showing the structure of the cone of the air volume control device according to the present invention and movement according to the wind pressure.

Hereinafter, the present invention will be described in detail through examples. The features and effects of the present invention described above will become more apparent through the following detailed description in connection with the accompanying drawings, and accordingly, those of ordinary skill in the technical field to which the present invention pertains to easily implement the technical idea of the present invention. I will be able to do it. Since the present invention can apply various changes and have various forms, specific embodiments will be illustrated in the drawings and described in detail in the text. However, this is not intended to limit the present invention to a specific form disclosed, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention. The terms used in the present application are only used to describe specific embodiments, and are not intended to limit the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In the present application, terms such as "comprise" or "have" are intended to designate the presence of features, numbers, steps, actions, components, parts, or a combination thereof described in the specification, but one or more other features or It is to be understood that the presence or addition of numbers, steps, actions, components, parts, or combinations thereof does not preclude the possibility of preliminary exclusion.

As shown in Figure 2, the air volume control system according to the present invention includes a pressure independent Venturi-type air volume control device 100 installed in a duct pipe A, and air volume data of the pressure-independent Venturi-type air volume control device 100 Database 200 including a; And it provides an air volume control system (1) including a control unit 300 for controlling the air volume of the Venturi-type air volume control device according to the data stored using the database 200.

The pressure-independent air volume control device 100 includes a front end case 10 through which wind is introduced and a rear end case 20 through which the introduced wind is discharged. The front-end case 10 has a wide diameter and gradually decreases in diameter along the direction in which the wind moves to maintain a narrow diameter, and the rear-end case 20 is configured to have the same diameter of the front-end case 10, The case 10 and the rear case 20 form a Venturi-type conduit that decreases in diameter and then increases again.

Inside the front case 10 and the rear case 20, a support 30 reciprocating along a central axis is located, and the support 30 is fixed by a fixing bracket 60 installed inside the rear case 20 do. A cone-shaped regulator 40 is fixed at the front end of the support 30, and the other end of the reciprocating shaft 30 is fixed to the actuator 50 installed on the outer surface of the rear case 20 through a linker 51. The actuator 50 is driven by an actuator driver 52.

The fixing bracket 60 is composed of a horizontal support 61 crossing the center of the rear case 20 and a support piece 62 protruding from both ends and the center of the horizontal support 61 in the direction of the front case 10 The support piece 62 is composed of a central support piece 62' for supporting the reciprocating support 30 and a side support piece 62' fixed to the inner wall.

The support 30 penetrates through the central support piece 62 ′ and has an end connected to the linker 51, and is reciprocated by the operation of the actuator 50. The linker 51 is a conversion device that converts the operation of the actuator 50 into a forward and backward reciprocating motion of the support 30, and Korean Patent No. 1950647 or No. 911656 may be referred.

In the database 200, as shown in FIG. 3, the support 300 is moved by the operation of the actuator 50, the opening degree of the venturi-type flow path is changed according to the position of the support 300, and Air volume data is stored according to the location.

The air volume data uses data related to the basic air volume flowing when fully opened and an actual air volume value obtained by measuring the actual air volume passing through according to the position of the support 30 while the pressure independent air volume control device 100 is installed. It can be obtained as a graph as in FIG. 4.

When the actual temperature measured by the indoor temperature sensor 400 is different from the set temperature to be maintained, for example, when the indoor temperature is higher than the set temperature, the controller 300 measures the outdoor temperature. , Calculate the amount of outside air required to lower the indoor temperature.

Divide the required external supply by time to calculate the required air volume per unit time, check the position of the support plate 300 suitable for the air quantity in the database, and send a control signal to the actuator 50 to advance the support plate 300 to adjust the air volume. A distance between the cone 40 and the inner wall of the shear case 10 is separated and opened to allow wind to enter. After a predetermined period of time for the required amount of outside air to flow in, a control signal is transmitted to the actuator 50 to reverse the support 300 so that the air volume control cone 30 is in close contact with the inner wall of the front case 10 to prevent wind from entering. do.

If the air volume flowing through the duct temporarily changes, the cone-shaped regulator 40 absorbs it and maintains a constant air volume. As shown in FIG. 5A, the cone-shaped adjuster 40 includes a convex mirror part 41 protruding in the form of a convex mirror and a cone-shaped body 42 having a cylindrical through hole in the center thereof; The pipe-shaped body 43 inserted into the cylindrical through-hole, the cap cover 44 covering the upper end of the pipe body, the coil-shaped spring 45 embedded in the pipe-shaped body and coupled to the cap cover, and the coil It is coupled to the lower end of the type spring and consists of a cylindrical adjuster consisting of a spring support 46 having a diameter smaller than the diameter of the pipe, and the support 300 passes along the central axis, and the spring support is fixed to the support 300 do. As shown in Figure 3b, the cone-shaped regulator 40 is a state in which the spring support 46 is fixed to the support 300, the coil-shaped spring 450 is in a non-compressed state and advances to the maximum. When wind pressure of a predetermined strength or more is applied to the regulator 400, the coil-type spring 45 is pressed and pushed to the rear, thereby adjusting the amount of air inflow.

In case the air volume flowing inside the duct temporarily increases, the position of the cone moves backward due to the wind pressure while the position of the support remains the same, reducing the distance between the cone and the Venturi pipe, despite an increase in the basic air volume. And at the same support position, the same air volume stored in the database is controlled to pass through.

When the basic air volume flowing inside the duct returns to normal, the position of the cone is restored to its original state, and the distance between the cone and the Venturi pipe is widened to control the amount of air passing through it.

A: Duct pipe
1: air volume control system
100: Venturi-type air volume control device
200: database
300: control unit

Claims (4)

Venturi-type air volume control device installed in the pipeline and controlled by the control unit,
Here, the Venturi-type air volume control device includes a Venturi-type pipe, a support that moves along a central axis of the pipe within the Venturi-type pipe, an actuator that moves the support, and is coupled to the front end of the support to form a Venturi-type pipe. Containing a cone that moves back and forth from the front end, and the cone attached to the front end of the support is a pressure-independent Venturi-type air volume control device that is adjusted according to the wind pressure at a predetermined support position, and the Venturi-type air volume control device is used for experimentation. It is installed in the duct and includes a database unit including air volume data measured according to the position of the support; And
A control unit that controls the air volume of the Venturi-type air volume control device according to the data stored using the database
Air volume control system comprising a. The method of claim 1,
The air volume control system, characterized in that the pipe does not have a straight pipe part for measuring the differential pressure at the front end of the venturi-type air volume control device. The method according to claim 1 or 2,
The control unit calculates the required air volume using room temperature and/or outside air temperature, determines the opening/closing amount that can provide the calculated air volume through the database, and moves the support by driving the actuator according to the determined opening/closing amount. The air volume control system, characterized in that to control the position of the cone. A venturi-type pipeline, a support for which a position is adjusted, an actuator for moving the support, and a cone that is coupled to a front end of the support and moves back and forth from the front end of the venturi-type pipe, and the cone attached to the front end of the support Installing a pressure-independent Venturi-type air volume control device in the experimental duct, the position of which is adjusted according to the wind pressure at a predetermined support position, and measuring the air volume according to the position of the support to which the cone is coupled to the front;
Storing the measured air volume data in a database; And
Installing a Venturi-type air volume control device including the database in a duct, and regardless of a change in wind pressure inside the duct, the control unit controls the air volume of the duct by adjusting the position of the support according to the data stored in the database. Duct air volume control method comprising a.

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