KR200485338Y1 - The connecting pipe for air supply of heatexchaging system - Google Patents

Abstract

The present invention relates to an inlet / outlet pipe connected to an overall heat exchanger, which is a device for ventilating indoor air, and a connector for allowing air to flow by connecting outdoor air to a sleeve provided on the outer wall, ,
A first body 102 coupled to the intake and exhaust pipe 102 for connecting the intake and exhaust pipe 102 connected to the total enthalpy heat exchanger 101 to intake or exhaust air, and a sleeve 104 provided on the outer wall 103, And a second body part 120 formed below the cover plate 110 and inserted into the sleeve 104. The first body part 120 may include a first body part 100, And a tension coupling part 130 formed on an outer periphery of the second body part 120,
The tension coupling part 130 is formed at three positions on the outer circumferential surface of the second body part 120. The tension coupling part 130 includes a pair of cutting holes 131 that are long in the lateral direction, And a tension surface 133 formed between the pair of cut-out holes 131 and thinner than the thickness of the second body part 120. The reinforcing cut- And a pair of fasteners 134 protruding from the tension surface 133 and having tapered tapered surfaces 135 on one side.
The present invention relates to a connector for connecting an intake and exhaust pipe and a sleeve of an all-end heat exchanger which is firmly and quickly installed without being restricted by the diameter of the sleeve.

Description

[0001] The present invention relates to a connecting pipe for connecting an inlet / outlet pipe of a total enthalpy heat exchanger to a sleeve,

The present invention relates to an inlet / outlet pipe connected to an overall heat exchanger, which is a device for ventilating indoor air, and a connecting port for allowing air to flow by connecting outdoor air to a sleeve provided on an outer wall. Relates to a connector for connecting the sleeve of the intake / exhaust pipe of the total enthalpy heat exchanger which is firmly and quickly installed without being restricted by the diameter of the sleeve.

In general, a ventilation system using an enthalpy heat exchanger is used to discharge contaminated indoor air of a building such as apartment house, office or department store, and a large-sized shopping mall to the outside and supply fresh external air to the indoor space.

That is, the conventional total enthalpy heat exchanger exchanges the outdoor air with the indoor air discharged to the outside so that the sudden cool air and the heat do not flow from the outside to the inside in ventilating the indoor air.

Therefore, the total enthalpy heat exchanger discharges the volatile organic compound material generated in the room through the exhaust and keeps the air in the room pleasantly by sucking the filtered fresh air into the room.

When the air in the air-conditioned room is discharged to the outside, the exhaust fan installed in the total enthalpy heat exchanger operates. At this time, air passing through the total enthalpy heat exchanger element in the room is contaminated air And is discharged to the outside.

On the contrary, when the air supply fan installed in the total enthalpy heat exchanger is operated, air is sucked into the room while passing through the total enthalpy heat exchanger element from outside with a static pressure generated.

At this time, heat and mass transfer is performed through the total enthalpy heat exchanger element, and energy loss through ventilation is minimized.

When the air supply fan and the exhaust fan of the total enthalpy heat exchanger are operated simultaneously, the static pressure in the room and the static pressure in the outdoor are constantly maintained.

In order to install a system for ventilating the indoor air using the total enthalpy heat exchanger, the total enthalpy heat exchanger is basically installed in the room, and then the intake / exhaust pipe is used to suck or discharge the air through the vent hole provided outside the building.

The total enthalpy heat exchanger as described above basically performs the installation work after completion of the processes of the outer wall and the building. Accordingly, the ventilation holes are previously formed in the outer wall of the building, and the heat exchanger is finished with the sleeve. The pipes are connected to each other.

However, since it is not possible to directly connect the inlet / outlet pipe to the sleeve, another connection port is fastened to the sleeve, and the other end of the connection port is connected to the inlet / outlet pipe by the process of fastening the inlet / outlet pipe.

The conventional connecting port is formed in a cylindrical shape so that a part is inserted into the sleeve and then the suction and discharge tube is connected to the other side. At this time, the diameter of the sleeve is not constant, There is a problem in that separate post-processing such as finishing treatment with silicone is performed in the separate space between the connector and the sleeve after inserting the connector into the sleeve.

In addition, since the post-processing operation as described above is delayed in operation time, it is also apparent that the use of excessive use of silicon also causes a problem in appearance.

Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to solve the above-mentioned problems, and it is an object of the present invention to provide a fastener- And it is an object of the present invention to provide a connector for connecting an intake and exhaust pipe of a total enthalpy heat exchanger to a sleeve.

According to an aspect of the present invention,
A first body 102 coupled to the intake and exhaust pipe 102 for connecting the intake and exhaust pipe 102 connected to the total enthalpy heat exchanger 101 to intake or exhaust air, and a sleeve 104 provided on the outer wall 103, And a second body part 120 formed below the cover plate 110 and inserted into the sleeve 104. The first body part 120 may include a first body part 100, And a tension coupling part 130 formed on an outer periphery of the second body part 120,

The tension coupling part 130 is formed at three positions on the outer circumferential surface of the second body part 120. The tension coupling part 130 includes a pair of cutting holes 131 that are long in the lateral direction, And a tension surface 133 formed between the pair of cut-out holes 131 and thinner than the thickness of the second body part 120. The reinforcing cut- , And a pair of fasteners (134) protruding from the tension surface (133), one side of which is formed by a tapered tapered surface (135).

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It is possible to securely fix the present invention to the inner side of the sleeve without being restricted by the diameter of the sleeve by providing a connection portion for connecting the intake / exhaust pipe and the sleeve of the total enthalpy heat exchanger according to the present invention, In addition, it is possible to maximize the efficiency of the work with the minimum number of people by inserting the inlet / outlet tube into the other side after inserting the simple hole design into the sleeve, and the installation work is completed. And the structure of the present invention is simple, mass production is possible, the operator can perform the work quickly and accurately, and according to the present invention, the effect of tightening with the ventilation opening can be expected to be very easy.

1 is an overall perspective view of the present invention,
Fig. 2 is an overall perspective view seen from the back side of the present invention,
Figures 3 and 4 are cross-sectional views of essential parts of the present invention,
5 is an installation state diagram of the present invention,
6 is a cross-sectional view of an essential part of the present invention,
7 is an entire perspective view of another embodiment of the present invention as viewed from the rear,
Figs. 8 and 9 are sectional views of the main part of Fig. 7,
Fig. 10 is an installation state diagram of Fig. 7 which is another embodiment of the present invention,
11 is an entire perspective view of another embodiment of the present invention as viewed from the rear,
12 is an assembled sectional view of Fig.

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

As shown in the accompanying drawings, the first body part 100 and the second body part 120 are formed in a cylindrical shape on both sides of the cover plate 110, and the second body part 120 is tensioned (130).

The first body part 100 is a part where the intake and exhaust pipe 102 is fastened and is connected to one side of the total enthalpy heat exchanger 101 in a state where the total enthalpy heat exchanger 101 is installed indoors, (102) is fastened to the first body part (100).

As shown in the accompanying drawings, the cover plate 110 is located at the middle of the first and second body parts 100 and 120 and is extended outwardly. When the cover plate 110 is engaged with the sleeve 104, When the first and second body parts 100 and 120 are separated from each other, the cover plate 110 can prevent the first and second body parts 100 and 120 from being separated from each other. As a result, the cover plate 110 performs a finishing process of the present invention .

Meanwhile, the second body part 120 is inserted into the sleeve 104 as shown in the accompanying drawings, and is a part provided with a tension coupling part 130, which is a main part of the present invention.

As shown in the accompanying drawings, the tension coupling part 130 is formed at each of the three outer circumferential surfaces of the second body part 120 so that the second body part 120 is tightly fastened to the sleeve 104 The cutout hole 131 is formed in the lateral direction of the cutout hole 131. The cutout hole 131 is formed to protrude from one side of the cutout hole 131, And the squeeze surface (133) are formed between the two squeeze rollers (134).

At this time, the incision hole 131 is cut at a predetermined distance from both ends of the second body part 120, and a reinforcing incision hole 132 bent at right angles is formed at one end of the incision hole 131 This makes it possible to smoothly perform the tensioning operation of the tension coupling part 130 and at the same time to maintain the state where the tension coupling part 130 is firmly attached without being cut off from the second body part 120 .

In addition, the fastener 134 is formed as a tapered surface 135 that is in contact with the inside of the sleeve 104 and is inclined at one side so that it can be inserted more smoothly when the present invention is inserted into the sleeve 104 .

The tension surface 133 on which the fastener 134 is formed is a portion formed between the two side incision holes 131. The tension surface 133 can be constantly moved by the side incision holes 131. In this case, (133) is formed to be relatively thinner than the thickness of the second body part (120), so that the tension movement can be smoothly performed.

7 to 10 show another embodiment of the present invention, as shown in the accompanying drawings, in which the second body part 120 of the present invention is extended to have an inner tension coupling part 140, The tension member 140 is provided at each of three positions on the inner circumferential surface of the second body portion 120. A cutout hole 141 is formed on both sides of the cutout hole 141 and a fastening protrusion 142 is formed between the cutout holes 141 Is formed.

After the vent hole 105 is inserted into the second body part 120 after inserting the design into the sleeve 104 with the inner tension coupling part 140 as described above, the inner tension coupling part 140 So that they can be firmly fastened.

11 to 12 illustrate another embodiment of the present invention. As shown in the accompanying drawings, the third body part 150 is detachably attached to one side of the second body part 120, The first and second body portions 120 and 120 have an insertion tang 151 formed at one side thereof and an inner side tension coupling portion 140 at three positions corresponding to the inner surface of the second body portion 120, respectively.

As described above, another embodiment of the present invention is characterized in that the ventilation hole 105 can be more easily fastened by the inner tension coupling part 140. In general, the ventilation hole 105 is formed in the sleeve 104 The vent hole 105 is not firmly fastened due to the difference between the outer diameter of the vent hole 105 and the inner diameter of the sleeve 104. To solve this problem, the inner tension coupling part 140 is provided The ventilation hole 105 is not fastened to the sleeve 104 but is directly fastened to the present invention.

Therefore, even if the outer diameter of the ventilation hole 105 is not constant, the fastening protrusion 142 of the inner tension coupling part 140 can maintain the binding force with the ventilation hole 105 by the action of the tension so that the ventilation hole 105 can be stably fastened It is.

As described above, the present invention is applied to a total heat exchanger system and serves to connect the intake pipe and the sleeve. However, the present invention is not limited to this, and it is possible to use the pipe anywhere in the other area Of course.

100; A first body portion 101; Total heat exchanger
102; An intake and exhaust pipe 103; outer wall
104; Sleeve 110; Cover plate
120; A second body portion 130; The tension-
131; Cutter 132; Reinforcement incision
133; Tension surface 134; Fastener
135; Tapered surface 140; The inner tension-
141; Incision ball 142; Fastening projection
150; A third body portion 151; Insert jaw

Claims (4)

delete A first body 102 coupled to the intake and exhaust pipe 102 for connecting the intake and exhaust pipe 102 connected to the total enthalpy heat exchanger 101 to intake or exhaust air, and a sleeve 104 provided on the outer wall 103, And a second body part 120 formed below the cover plate 110 and inserted into the sleeve 104. The first body part 120 may include a first body part 100, And a tension coupling part 130 formed on an outer periphery of the second body part 120,
The tension coupling part 130 is formed at three positions on the outer circumferential surface of the second body part 120. The tension coupling part 130 includes a pair of cutting holes 131 that are long in the lateral direction, And a tension surface 133 formed between the pair of cut-out holes 131 and thinner than the thickness of the second body part 120. The reinforcing cut- , And a pair of fasteners (134) protruding from the tension surface (133) and having a tapered tapered surface (135) at one side thereof. Connector.
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