KR200497996Y1 - Linear diffuser for floor air conditioning system - Google Patents

Abstract

The present invention relates to a linear diffuser for floor air conditioning, and its purpose is to be able to control the direction and reach of the discharge airflow and to quickly and easily remove foreign substances collected inside the diffuser.
To this end, the present invention is a linear diffuser for floor air conditioning that is installed longitudinally on the wall or window side of a building interior to discharge hot or cold air, wherein the linear diffuser is an external member installed on the wall or window side. (11), an inner member 13 spaced apart from the outer member 11 by a predetermined distance, and an intermediate member 12 provided along the longitudinal direction between the outer member 11 and the inner member 13. It is configured to include, and a wind speed control damper (20) is further provided in the inner airflow passage (B) between the intermediate member (12) and the inner member (13), and the outer member (11) and the inner member (13) It is characterized in that a foreign matter collection net 30 is provided in a detachable manner at the end of the.

Description

Linear diffuser for floor air conditioning {LINEAR DIFFUSER FOR FLOOR AIR CONDITIONING SYSTEM}

The present invention relates to a linear diffuser for floor air conditioning that is installed on the floor inside a building for cooling and heating. More specifically, the discharge wind speed is controlled by the wind speed control damper provided inside the diffuser and the reaching distance of the airflow is controlled. It relates to a linear diffuser for floor air conditioning that is equipped with a detachable foreign matter collection net at the bottom of the diffuser so that foreign matter can be easily removed.

An air conditioning system that cools and heats the interior of a building is a floor-type air conditioning system.

The floor-type air conditioning system discharges cold or warm air supplied from the air conditioning device into the room through an air grill installed on the floor.

The floor-type air grill is composed of a plurality of narrow and long grills, and is usually installed adjacent to the wall or window of a building.

The floor-type air conditioning system is also called an air barrier air conditioning system in the sense that it forms an air barrier toward the window.

Figure 1 shows an example of such a floor-type air conditioning system.

As shown in FIG. 1, a conventional floor-type air conditioning system includes a housing, an air filter 300, and a blowing fan 200, and an air inlet and an air outlet are formed on the upper surface of the housing.

And the housing includes a body portion 110, an extraction unit 120, and an air grill 130.

The air grill 130 is assembled at the top of the body 110 to maintain a plurality of grill bodies 132 at regular intervals, so that air is blown out and sucked into the space between the grill bodies 132. Let it be lost.

As shown in FIG. 2, the air grill 130 is provided with a gap maintenance member 134 for maintaining the gap between the grill bodies 132.

The gap maintenance member 134 is located between a fastening member 1342 composed of bolts and nuts so as to penetrate and secure a plurality of grill bodies 132, and each grill body 132. (132) consists of a pipe (1344) to maintain the gap.

However, the conventional air grill structure described above has a problem in that it takes a lot of time to assemble the grill body 132 and the manufacturing cost increases.

That is, in order to assemble a conventional air grill, a plurality of grill bodies 132 are placed on the floor, a pipe 1344 is placed between each grill body 132, and then a bolt penetrates the grill body 132. After passing through both the ball and pipe 1344, one end of the bolt must be tightened with a nut.

That is, the pipe 1344 must be placed in the narrow space between the grill body 132 and the bolt must pass through the through hole of the grill body 132 and the pipe.

Accordingly, there is a problem that a large number of workers are required and assembly of the air grill takes a lot of time.

Additionally, once assembly of the grill body 132 is completed, the entire grill must be seated again on the upper part of the main body 110.

In addition, since through-holes into which bolts are inserted must be machined in each of the plurality of grill bodies 132, manufacturing costs increase, and it is not easy to form bolt through-holes at regular intervals in the plurality of long grill bodies 132. .

If the plurality of bolt through holes formed in the grill body 132 are not formed at precise intervals, problems may occur when assembling the air grill.

That is, the conventional air grill structure has a problem in that manufacturing costs increase because a large number of bolts, nuts, and pipes must be separately provided, and productivity decreases because bolt through-holes must be formed at regular intervals in the grill body.

In addition, it takes a lot of time to assemble and install the air grill, which increases the construction period. Also, there is a problem that labor costs increase because multiple workers are required for assembly and installation.

In addition, the conventional floor-type air grill has a structure that discharges air slanted at a certain angle, so there is a problem in that condensation water is formed on the frame on both sides.

That is, when the air conditioning system is operated in cooling mode, there is a problem in that the humid air contained in the room comes into contact with the metal frame provided on both sides of the air grill, forming condensation water.

In order to solve the above problems, the present designer proposed a floor-type air grill for preventing condensation as shown in FIG. 3.

The conventional floor-type air grill described above is a structure that is installed longitudinally on the indoor floor to discharge air, and includes a plurality of grill bodies 132 that are formed in the shape of a long plate and inclined at a certain angle, and on the floor surface. It is configured to include a fixing bracket 136 that is seated and supports the grill body 132.

In addition, the fixing bracket 136 includes a body portion 1362 and a plurality of seating grooves 1364 formed in the body portion 1362 at a certain depth and at regular intervals to secure the lower end of the grill body 132. It is composed by:

And at least one grill body 132 assembled on both sides of the air grill has a structure that discharges air in a horizontal direction toward both sides.

With the above structure, it is possible to prevent condensation water from forming on the air grill support frame.

In addition, installation is completed by simply attaching the air grill to the fixing bracket, so the air grill can be assembled quickly and easily, and since bolts, nuts, and pipes are not required as in the past, manufacturing costs can be reduced.

However, although the conventional floor-type air grill shown in FIG. 3 can prevent condensation from forming on the support frame, it still has the disadvantage of requiring the manufacture and assembly of multiple grill bodies.

In addition, there is a disadvantage in that the discharge wind speed cannot be controlled and the reaching distance of the air flow cannot be adjusted.

Meanwhile, air grills equipped with a foreign matter collection net are also used, but the conventional structure has a problem in that the foreign matter collection net is fixed to the grill body, making cleaning the foreign matter collection net inconvenient.

Korean Patent Publication No. 10-2015-122393 (published on November 2, 2015) Korean Patent Publication No. 10-778081 (announced on November 21, 2007) Korean Registered Utility Model Publication No. 20-184597 (announced on June 1, 2000)

The present invention is proposed to solve the problems of the prior art as described above, and its purpose is to provide a linear diffuser with a structure that does not require assembling a plurality of grill bodies one by one.

Another purpose of the present invention is to be able to control the direction and reach of the airflow discharged from the floor by the wind speed control damper.

Another purpose of the present invention is to remove frost or fogging from the window by controlling the direction and reach of the discharged air flow.

Another purpose of the present invention is to quickly and easily remove foreign substances collected in the linear diffuser.

In order to achieve the above object, the present invention is a linear diffuser for floor air conditioning that is installed longitudinally on the wall or window side of a building interior to discharge hot or cold air, wherein the linear diffuser is installed on the wall or window side. An air stream comprising an outer member installed in the outer member, an inner member provided at a predetermined distance apart from the outer member, and an intermediate member provided along the longitudinal direction between the outer member and the inner member, through which hot or cold air is discharged. The passage is formed of only two passages: an outer airflow passage formed between the outer member and the middle member, and an inner airflow passage formed between the middle member and the inner member, A wind speed control damper is further provided in the inner airflow passage between the middle member and the inner member, and a foreign matter collection net is provided in a detachable manner at the ends of the outer member and the inner member.
In addition, the outer member includes a horizontal portion forming an upper surface, a first inclined portion obliquely extending downward from one end of the horizontal portion, and a second inclined portion bent at an end of the first inclined portion. It is characterized by
In addition, the intermediate member is characterized in that it includes a first inclined portion provided to be inclined in the vertical direction and a second inclined portion bent at an end of the first inclined portion.
In addition, the inner member includes a horizontal portion forming an upper surface, a first inclined portion obliquely extending downward from one end of the horizontal portion, and a second inclined portion bent at an end of the first inclined portion. It is characterized by
Additionally, the second inclined portion of the intermediate member is formed to be longer than the second inclined portion of the outer member, and the second inclined portion of the inner member is formed to be longer than the second inclined portion of the intermediate member.
In addition, the wind speed control damper is provided on the inner airflow passage between the middle member and the inner member, and rotates at a certain angle by an actuator to close or open the inner airflow passage between the middle member and the inner member at a certain angle. It is characterized by
In addition, the wind speed control damper is characterized in that it has a structure that rotates at a certain angle around a hinge provided at the inflection point of the first inclined portion and the second inclined portion of the intermediate member.
Additionally, a first fixing groove is provided at an end of the second inclined portion of the outer member, and a second fixing groove is provided at an end of the second inclined portion of the inner member.
In addition, the foreign matter collection net is characterized in that it is laterally inserted into the first fixing groove of the outer member and the second fixing groove of the inner member.
In addition, the outer member, middle member, and inner member are manufactured by extruding aluminum, anodized, and finished with powder coating.

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According to the present invention, there is no need to assemble a plurality of grill bodies one by one, and the structure can be simplified.

Additionally, there is no need to assemble multiple grill bodies one by one, which has the effect of reducing assembly man-hours.

In addition, there is no need to form bolt through holes in each grill body, which has the effect of reducing machining costs.

In addition, the direction and reach of the airflow discharged from the floor can be adjusted by the wind speed control damper. .

This has the effect of removing frost or fogging from the windshield, just as it removes fogging from the windshield of a car.

In addition, since the foreign matter collection net is provided in a detachable manner, foreign matter can be removed easily and quickly, and maintenance of the linear diffuser is simplified.

1 is a diagram showing an example of a conventional floor-type air conditioning system.
Figure 2 is a cross-sectional view showing the assembled state of an air grill according to the prior art.
Figure 3 is a diagram showing an example of a floor-type air grill according to the prior art.
Figure 4 is a cross-sectional view of a linear diffuser according to the present invention.
Figure 5 is a cross-sectional view showing the linear diffuser according to the present invention installed on the floor of a building.
Figure 6 is a perspective view showing the linear diffuser according to the present invention installed on the window side.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the attached drawings.

The linear diffuser according to the present invention, as shown in FIGS. 4 to 6, is a linear diffuser for floor air conditioning that is installed longitudinally on the wall or window side of a building interior to discharge hot or cold air, and is installed on the wall or window side of the building. An outer member 11 installed on the side, an inner member 13 spaced apart from the outer member 11 by a predetermined distance, and an inner member 13 provided along the longitudinal direction between the outer member 11 and the inner member 13. It is configured to include an intermediate member 12.

In addition, in the present invention, a wind speed control damper 20 is further provided in the inner airflow passage B between the intermediate member 12 and the inner member 13.

The wind speed control damper 20 rotates at a certain angle by an actuator (not shown) and closes or opens the inner airflow passage B between the intermediate member 12 and the inner member 13 at a certain angle.

With the above structure, the inner airflow passage (B) can be completely sealed so that the airflow is discharged only to the outer airflow passage (A) between the outer member (11) and the intermediate member (12).

As a result, it is possible to increase the reach of the airflow discharged into the outer airflow passage (A) and thereby remove frost or fogging from the window.

Additionally, the inner airflow passage (B) can be completely opened to allow airflow to be discharged in a vertical direction.

In addition, the outer member 11 according to the present invention includes a horizontal portion 11a forming an upper surface, a first inclined portion 11b extending obliquely downward from one end of the horizontal portion 11a, and the first inclined portion 11b. It is configured to include a second inclined portion 11c bent at the end of the first inclined portion 11b.

Additionally, the intermediate member 12 includes a first inclined portion 12a inclined in the vertical direction and a second inclined portion 12b bent at an end of the first inclined portion 12a.

And the inner member 13 includes a horizontal portion 13a forming an upper surface, a first inclined portion 13b extending obliquely downward from one end of the horizontal portion 13a, and the first inclined portion 13a. It is configured to include a second inclined portion (13c) bent at the end of (13b).

Here, the second inclined portion 12b of the intermediate member 12 is formed longer than the second inclined portion 11c of the outer member 11, and the second inclined portion 13c of the inner member 13 is preferably formed longer than the second inclined portion 12b of the intermediate member 12.

This takes into account the fact that, as shown in FIG. 6, the air supply pipe 40 is generally installed at a certain distance from the window.

As described above, the lengths of the second inclined portion 13c of the inner member 13, the second inclined portion 12b of the intermediate member 12, and the second inclined portion 11c of the outer member 11 are different from each other. By forming this, the air supplied to the plenum chamber (C) through the air supply pipe 40 can be smoothly discharged through the linear diffuser.

In addition, it is possible to prevent foreign substances that have fallen into the plenum chamber (C) from being discharged with the discharge airflow as much as possible through the open outer airflow passage (A) and inner airflow passage (B).

And the wind speed control damper 20 according to the present invention rotates at a certain angle around the hinge 12c provided at the inflection point of the first inclined portion 12a and the second inclined portion 12b of the intermediate member 12. It is formed with a structure that

With the above-described structure, the opening rate of the inner airflow passage B between the intermediate member 12 and the inner member 13 can be freely adjusted to adjust the direction of the discharged airflow.

For example, if the wind speed control damper 20 is positioned vertically, the air passing through the inner airflow passage B can be discharged in the vertical direction.

Additionally, when the wind speed control damper 20 is positioned horizontally, the inner airflow passage (B) is blocked and air is discharged only to the outer airflow passage (A).

As a result, the reach distance of the airflow passing through the outer airflow passage (A) can be increased, thereby efficiently removing frost or fogging on the windshield.

In addition, a first fixing groove 11d is provided at the end of the second inclined portion 11c of the outer member 11, and a second fixing groove is provided at the end of the second inclined portion 13c of the inner member 13. (13d) is provided.

Due to the above-described structure, the foreign matter collection net 30 can be inserted laterally into the ends of the outer member 11 and the inner member 13 and can be easily assembled and disassembled.

This makes cleaning the foreign matter collection net easier and maintenance of the linear diffuser easier.

In addition, the outer member 11, the middle member 12, and the inner member 13 according to the present invention are preferably manufactured by extruding aluminum and finished with powder coating after anodizing.

By using the above method, the upper part of the linear diffuser exposed to the outside can be beautifully finished to improve marketability.

A typical conventional line diffuser has a structure in which a plurality of grills are assembled one by one, and is not equipped with a separate wind speed control damper.

As a result, if there is a need to control airflow in a high-rise building with a floor height of 15 m or more, it is not possible to respond appropriately.

Meanwhile, some of the conventional line diffusers are equipped with a foreign matter collection net, but the conventional foreign matter collection net is fixed to the lower part of the grill.

This has the disadvantage of making it inconvenient to remove foreign substances and maintain the linear diffuser.

In contrast, since the present design does not involve assembling a plurality of grills one by one, assembly man-hours can be reduced and the structure is also simplified.

In addition, in the present invention, the discharge direction and reaching distance of the airflow can be freely adjusted by the wind speed control damper 20.

In addition, in the present design, since the foreign matter collection net is provided in a detachable manner, the removal work of foreign matter and the maintenance work of the linear diffuser are simplified.

The above is an exemplary description of preferred embodiments of the present invention, and the scope of the present invention is not limited to the specific embodiments described above. Anyone skilled in the art of the present invention will understand that various modifications and changes can be made without departing from the scope of the technical idea of the present invention.

11: outer member 11a: horizontal portion
11b: first inclined portion 11c: second inclined portion
11d: first fixing groove 12: middle member
12a: first inclined portion 12b: second inclined portion
12c: Hinge 13: Inner member
13a: horizontal portion 13b: first inclined portion
13c: second inclined portion 13d: second fixing groove
20: Wind speed control damper (Damper) 30: Foreign matter collection net
40: Air supply piping
130: Floor type air grille (Air Grille) 132: Grill body
1322: insertion protrusion 134: gap maintenance member
1342: Fastening member 1344: Pipe
136: Fixing bracket (Bracket) 1362: Body part
1364: Seating groove 1366: Insertion groove
1369: concave groove 138: buffer member
A: Outer airflow passage B: Inner airflow passage
C: Plenum Chamber

Claims (9)

In the linear diffuser for floor air conditioning, which is installed longitudinally on the wall or window side of the building interior to discharge hot or cold air,
The linear diffuser,
An outer member 11 installed on the wall or window side,
an inner member 13 provided at a certain distance from the outer member 11;
It is configured to include an intermediate member 12 provided along the longitudinal direction between the outer member 11 and the inner member 13,
The airflow passage of warm or cold air,
An outer airflow passage (A) formed between the outer member (11) and the intermediate member (12),
It is formed only by two passages: an inner airflow passage (B) formed between the intermediate member (12) and the inner member (13),
A wind speed control damper (20) is further provided in the inner airflow passage (B) between the intermediate member (12) and the inner member (13),
A foreign matter collection net 30 is provided in a detachable manner at the ends of the outer member 11 and the inner member 13,
The outer member 11 is,
A horizontal portion 11a forming the upper surface,
a first inclined portion (11b) extending obliquely downward from one end of the horizontal portion (11a);
It is configured to include a second inclined portion (11c) bent at an end of the first inclined portion (11b),
The intermediate member 12 is,
A first inclined portion 12a provided inclined in the vertical direction,
It is configured to include a second inclined portion (12b) bent at an end of the first inclined portion (12a),
The inner member 13 is,
A horizontal portion 13a forming the upper surface,
a first inclined portion (13b) extending obliquely downward from one end of the horizontal portion (13a);
It is configured to include a second inclined portion (13c) bent at an end of the first inclined portion (13b),
The second inclined portion 12b of the intermediate member 12 is formed to be longer than the second inclined portion 11c of the outer member 11,
The second inclined portion 13c of the inner member 13 is formed longer than the second inclined portion 12b of the intermediate member 12,
The wind speed control damper 20,
It is provided on the inner airflow passage (B) between the intermediate member 12 and the inner member 13,
The inner airflow passage (B) between the middle member 12 and the inner member 13 is closed or opened at a certain angle while rotating at a certain angle by the actuator,
The wind speed control damper 20,
It has a structure that rotates at a certain angle around a hinge 12c provided at the inflection point of the first inclined portion 12a and the second inclined portion 12b of the intermediate member 12,
A first fixing groove (11d) is provided at the end of the second inclined portion (11c) of the outer member (11),
A second fixing groove (13d) is provided at the end of the second inclined portion (13c) of the inner member (13),
The foreign matter collection net 30 is laterally inserted into the first fixing groove 11d of the outer member 11 and the second fixing groove 13d of the inner member 13,
The outer member 11, the middle member 12, and the inner member 13 are manufactured by extruding aluminum, anodized, and finished with powder coating, and are installed longitudinally on the wall or window side floor. Linear diffuser for floor air conditioning. delete delete delete delete delete delete delete delete

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