KR200322908Y1 - Air supply diffuser assembled with venturi tube and shape memory alloy coil - Google Patents

Abstract

The present invention relates to an air diffuser using a venturi tube-shaped housing and a shape memory alloy coil.

A housing 11 which is a venturi tube of the present invention; An upper support 12 fixedly coupled to an upper end of the housing 11 and having a bracket 12A at a center thereof; A shape memory alloy coil (13) having an upper end coupled to the bracket (12A) so as to be perpendicular to the ground along the axial direction of the housing (11); A lower support 14 coupled to an inner circumferential surface of the housing, the inner circumferential surface of which is directly below the minimum inner diameter; It is composed of a cone (15) coupled to the lower end of the shape memory alloy coil 13, the structure of the present invention in a structure to move the cone up and down inside the housing in accordance with the contraction and expansion of the shape memory alloy coil There are technical features.

The diffuser of the present invention can change the flow rate and the discharge angle of the discharge air together to improve the cooling and heating efficiency, the structure is relatively simple, there is an advantage that easy maintenance.

Description

Air supply diffuser assembled with venturi tube and shape memory alloy coil

The present invention relates to a diffuser for air conditioning using a venturi tube and a shape memory alloy coil. More specifically, the venturi housing which serves as an air outlet in an air conditioning and heating air conditioning system of a large building such as a large building or a factory is described. The cone is formed of a pipe, and the cone is moved up and down by the shape memory alloy coil inside the housing, so that the cone is contracted or expanded in length depending on the air supply temperature during cooling or heating. The present invention relates to a variable type automatic diffuser which automatically controls the area of the outlet port of the venturi tube housing while moving in the up and down direction so that the air flow rate and direction can be changed according to the temperature of the exhaust air.

With the development of building technology, industrialization and urbanization, large-scale high-rise buildings with many people working together are being erected, and most windows are enclosed in order to prevent aesthetics and safety accidents. to be.

Therefore, a high-rise building is equipped with an air conditioning system for cooling, heating and forced ventilation for the comfort of indoor air, and acts as an inlet and an outlet of a duct, an air movement path for cooling, heating, and ventilation. The diffuser, which is a blowout device, is mostly installed on the ceiling of the building interior.

The diffuser is a device from which the indoor air is blown out, which greatly influences the control of the indoor air according to its structure, but its development is not so significant as compared to other devices.

Most air outlets of the housing constituting the conventional diffuser are fixed, and there is always a problem that the discharge angle of the discharged air is constant regardless of the indoor air temperature or the temperature of the discharged air.

That is, the general conventional diffuser is fixed to the inclination angle of the air outlet is 45 °, so that the cold air of the summer and the warm air of winter supplied from the air conditioning system is supplied from the ceiling to the floor side at a constant angle regardless of the temperature. .

However, since cold air that is colder than indoor air is relatively heavy and drops immediately upon supply, it is difficult for cold air to be supplied to the upper space above the middle height of the room, and warm air that is warmer than indoor air rises vice versa. Efficient supply of warm air is not achieved until the lower space below the middle height.

Due to the above phenomenon, it is impossible to efficiently perform cooling and heating. In particular, when the floor height is high, there is a problem that a separate heating facility or diffuser is required because the warm air cannot reach the lower part of the room.

In order to solve the problems of the conventional diffuser as described above, a diffuser in which the angle of the outlet changes with temperature is disclosed in Korean Patent Publication No. 10-0338188.

The diffuser is installed in the housing axially coupled shape alloy alloy coil and the upper cylinder and the lower cylinder in the housing, and combines a plurality of wings in the form of floppler on the outer peripheral surface around the axis of the two cylinders, one side of each wing By combining the two ends with the upper and lower cylinders respectively, the tilt angle of the wing is changed by the upper cylinder that moves up and down with respect to the lower cylinder together with the shape-coil alloy coil that contracts and expands according to the temperature change. .

Therefore, the diffuser is more efficient cooling and heating than the conventional fixed inclination angle diffuser because the discharge angle of the air discharged according to the temperature is changed.

However, the diffuser can only change the discharge angle of the exhaust air, and the range of the change angle is inevitably limited due to the characteristics of the shape memory alloy coil, and because the wind speed of the exhaust air is constant even if the discharge angle is changed. There is a disadvantage that the diffusion efficiency of the exhaust air is halved.

In addition, as one cylinder moves with respect to the other cylinder, and as the angle of the blade changes according to the movement, since the structure must be elaborate, the manufacturing cost increases, and its maintenance is also difficult.

The present invention was devised to solve all the problems of the conventional air conditioner diffuser, and can change the wind speed along with the wind direction of the air discharged through the diffuser according to the temperature of the exhaust air, and the structure is relatively simple The purpose of the present invention is to provide an automatic diffuser capable of minimizing the increase in manufacturing cost and at the same time maintaining the ease and automatically changing both the wind direction and the wind speed of the exhaust air.

1 is a cross-sectional structural view of an embodiment of the present invention diffuser.

Figure 2 shows the coupling structure of the guide tube and the shape memory alloy coil and the cone,

(A) is sectional view when the shape memory alloy coil is expanded,

(B) is sectional drawing when shape memory alloy coil contracted.

3 is a view illustrating an operation state of an embodiment of the present invention diffuser,

(A) is a cross-sectional structural diagram showing the shrinkage state of the shape memory alloy coil,

(B) is a cross-sectional structural diagram showing the expanded state of the shape memory alloy coil.

((Explanation of symbols for main part of drawing))

11.Housing 12. Upper Support

13. Shape company alloy coil 14. Lower support

15. Cone 21. Guide tube

D. Duct G. Groove

The above object of the present invention is achieved by a shape memory alloy coil and a venturi tube and a cone.

The venturi for air conditioning using the venturi tube and the shape memory alloy coil of the present invention has the characteristics of the shape memory alloy whose length varies with temperature and the characteristics of the venturi tube whose air velocity changes as the cross-sectional area of the hollow passes through the upper and lower sides. Combining the large, consisting of a tubular housing and the shape of the enterprise alloy coil and a cone cone coupled to the lower end of the coil, there is a technical feature of the present invention to configure the housing as a venturi tube.

That is, the housing constituting the present invention is a venturi tube having a hollow cross-section that penetrates the housing upwards and downwards at a central portion thereof in the longitudinal direction, and exhaust air introduced into the upper end portion through the duct is directed to the lower end portion through the hollow interior. As it flows, the flow velocity is changed according to the change in the cross-sectional area of the hollow.

In addition, the inside of the hollow between the longitudinal center portion and the lower end of the housing to maximize the flow rate of the exhaust air is provided with a cone having an inclination of the outer peripheral surface different from the inner peripheral surface slope of the housing, the hollow between the longitudinal center portion and the lower end of the housing A second venturi tube having a ring-shaped cross section is formed by the outer circumferential surface of the cone and the venturi tube inner circumferential surface spaced apart from each other, and the cross-sectional area of the second venturi tube is increased by allowing the cone to move in the up and down directions. In order to be able to change the structural features of the present invention diffuser.

The diffuser of the present invention is a shape memory alloy coil is installed in the housing of the venturi tube, the cone is coupled to the lower end of the shape memory alloy coil, the length of the shape memory alloy coil is increased according to the temperature of the exhaust air As the cone coupled to the lower end of the shape memory alloy coil moves up and down inside the housing, the cross-sectional area of the second venturi tube is changed, thereby changing the wind speed and the wind direction of the exhaust air.

The details of the purpose and technical constitution according to the present invention, including the effect thereof, will be clearly understood by the following description with reference to the drawings showing preferred embodiments of the present invention.

1 is a cross-sectional view of the present invention diffuser.

As shown, the air diffuser using the venturi tube and the shape memory alloy coil of the present invention, the coupling portion 11A connected to the end of the duct (D) is provided at the upper end, so as to have a minimum inner diameter at the center in the longitudinal direction An inner diameter gradually decreasing along the vertical direction and then gradually increasing, and a hollow H penetrating upward and downward is formed to form a venturi tube;

An upper support 12 having both ends fixedly coupled to an inner upper surface of the housing 11 opposite to an inner circumferential surface thereof, and having a bracket 12A at the center thereof;

An upper end portion coupled to the bracket 12A of the upper support and installed downward in the axial direction of the housing 11 so as to be perpendicular to the ground;

A lower support 14 coupled to an opposite inner circumferential surface directly above the minimum inner diameter of the housing hollow H and having a central portion thereof penetrated by the shape memory alloy coil 13 to reduce the flow of the coil 13;

Conical cone 15 is coupled to the lower end of the shape memory alloy coil (13).

Looking in more detail the subject innovation diffuser configured as described above are as follows.

The inclination of the up and down direction with respect to the vertical line of the outer circumferential surface of the cone 15 is set to be greater than the inclination of the inner circumferential surface below the longitudinal center portion of the housing, which is determined by the up and down movement of the cone 15. It is for changing the flow velocity of exhaust air by changing the area of the space formed between the outer peripheral surface of (15) and the inner peripheral surface of the housing 12.

The shape memory alloy coil 13 is a bidirectional shape memory alloy, and when the shape recovery temperature is arbitrarily stored during spring processing, the shape memory alloy coil has a shape recovery force and recovers to the original shape. This loss causes the elastic force to weaken and increase.

That is, when the shape recovery temperature of the shape memory alloy coil 13 is 30 ° C, the shape recovery force of the coil 13 increases as the temperature of the exhaust air contacting the coil 13 approaches 30 ° C, and the length thereof is increased. The length at the time of initial processing is reduced, and the shape recovery force decreases as it does not reach 30 degreeC, and the length becomes the state which gradually increased compared with the length at the time of initial processing, and accordingly, the cone 15 couple | bonded with the lower end of the said coil 13 ) Is moved up and down along the axial direction inside the housing hollow (H).

In addition, the shape memory alloy coil 13 has a structure in which the front and rear, left and right movements, ie, the shaking of the cone, is suppressed by the lower support 14, but the up and down movement of the coil 13 is disturbed. In order to avoid receiving it, an appropriate gap must be formed between the inner circumferential surface of the through hole at the center of the lower support 14 and the outer circumferential surface of the coil 13 through which the coil 13 penetrates.

Therefore, it is impossible to prevent the coil 13 from being shaken within the gap range by the exhaust air, and the flow of the exhaust air may be changed irregularly by the shaking or the eddy current may be reduced, thereby reducing the air discharge efficiency. In addition, the up and down movement of the coil is interrupted, which may delay the flow and flow rate of the exhaust air quickly and appropriately with temperature.

In order to prevent the above phenomenon, it is also preferable to protect the shape memory alloy coil 13 with a pipe-shaped guide tube.

That is, as shown in FIG. 2, the upper end of the hollow pipe-shaped guide tube 21 is coupled to the bracket 12A such that the shape memory alloy coil 13 is positioned in the hollow, and the lower surface of the guide tube 21. The ring-shaped groove G is formed on the outer circumferential surface of the cone 15 opposite to the cone 15 so that the cone 15 along the inner and outer circumferential surface of the lower portion of the guide tube 21 as the shape memory alloy coil 13 contracts and expands. Can move up and down.

At this time, the guide tube 21 is a flexible and rigid material, and the shape memory alloy coil 13 and the exhaust air are in direct contact with the outer peripheral surface of the guide tube so that the coil 13 can respond quickly to temperature changes. It is desirable to form a plurality of through holes (not shown) in communication with the hollow.

The guide tube 21 may be a metal pipe made of stainless steel or aluminum, which is excellent in corrosion resistance, but it may be used as a synthetic resin pipe.

Looking at the operating state of the subject innovation diffuser configured as described above are as follows.

For example, when the shape recovery temperature of the shape memory alloy coil 13 is 30 ° C, when the temperature of the exhaust air approaches or exceeds 30 ° C, the coil 13 contracts as shown in FIG. ) Is maximized so that a space having a cross-sectional area more than the cross-sectional area of the minimum diameter portion is formed between the outer circumferential surface of the cone 15 and the inner circumferential surface of the housing 11 below the minimum diameter portion inside the housing 11.

As a result, the air discharged from the duct (D) gradually increases its flow rate from the top of the housing and escapes the cone (15) in a further accelerated state after passing through the minimum diameter portion, and despite the lightness of the warm discharged air, As a result, it proceeds closer to the indoor floor directly under the housing.

As the exhaust air temperature does not reach 30 ° C, the contraction force of the coil 13 decreases, and the length thereof increases, and as shown in FIG. 4, the cone 15 moves to the lower side of the lower chamber. The cross-sectional area of the space formed between the outer circumferential surface of 15) and the inner circumferential surface of the housing 11 is enlarged.

As a result, the exhaust air has a maximum flow rate at the minimum diameter inside the housing and then decreases in velocity, but moves along the outer circumferential surface of the cone, thereby increasing the discharge angle outside the housing and spreading widely.

That is, the air discharged through the diffuser of the present invention is basically faster than the conventional diffuser, the faster the cone moves upward, the faster the flow rate, the smaller the discharge angle, the lower the flow rate is relatively It will slow down and increase the discharge angle.

As described above, the diffuser of the present invention can change the flow rate and the discharge angle of the exhaust air by using a venturi tube, not only enables efficient cooling and heating, but also requires a separate power source because it uses a shape memory alloy. There is no advantage in that the structure is relatively simple and easy to maintain.

Claims (7)

A tubular housing 11 that gradually decreases in diameter along the up and down longitudinal directions so as to have a minimum inner diameter at the center in the longitudinal direction, and gradually increases again; An upper support 12 fixedly coupled to an inner circumferential surface of the upper end side of the housing 11 and provided with a bracket 12A at a central portion coinciding with the central axis of the housing 11; A shape memory alloy coil 13 having an upper end coupled to the bracket 12A of the upper support so as to be perpendicular to the ground along the central axis of the housing 11; A lower support 14 coupled to an inner circumferential surface directly above the minimum inner diameter of the housing hollow H and having a central portion thereof penetrated by the shape memory alloy coil 13; A venturi tube and a shape memory alloy coil configured to include a conical cone (15) coupled to the lower end of the shape memory alloy coil (13). The air conditioner diffuser using the venturi tube and the shape memory alloy coil according to claim 1, wherein the housing is a venturi tube. The air diffuser according to claim 1, wherein the shape memory alloy coil (13) is a bidirectional shape memory alloy. The venturi tube and the shape memory alloy coil according to claim 1, wherein the up and down inclination with respect to the vertical line of the outer circumferential surface of the cone 15 is larger than the inclination of the inner circumferential surface of the housing 11 or less in the longitudinal direction. Air Conditioning Diffuser. The venturi tube according to claim 1, wherein an upper end of the hollow pipe-shaped guide tube 21 is additionally coupled to the bracket 12A of the upper support such that the shape memory alloy coil 13 is located in the hollow. Diffuser for air conditioning using a shape memory alloy coil. The air conditioner diffuser using the venturi tube and the shape memory alloy coil according to claim 3, wherein the guide tube is one of an aluminum pipe and a stainless pipe. According to claim 3, The outer circumferential surface of the guide tube (21) is a diffuser for air conditioning using a venturi tube and a shape memory alloy coil, characterized in that a plurality of through holes communicating with the hollow.