KR100645812B1 - A noise suppresser of a room cooler with a bunch fluid tube - Google Patents

Abstract

The present invention relates to a multi-tubular silencer used in an indoor unit, which is an air conditioner, and more specifically, a large bubble in the refrigerant flow is pulverized finely by dividing means having a plurality of flow paths so that the refrigerant flows inside the silencer. In order to be able to flow in the form to minimize the refrigerant noise,

In the silencer provided in the refrigerant pipe connected to the expansion device of the indoor unit to reduce the flow noise due to the abnormal flow, the inlet, the body and the outlet of the silencer forms a main flow passage having the same diameter, the main flow passage It relates to a multi-tubular silencer for indoor unit, characterized in that it comprises a dividing means having a predetermined length in the same direction as the refrigerant flow direction so that large bubbles in the refrigerant flow flowing through the main flow path can be divided.

Description

Bunch-type silencer for indoor unit {A noise suppresser of a room cooler with a bunch fluid tube}

1 is a schematic diagram showing a cooling and heating system of an air conditioner.

Figure 2 is a longitudinal sectional view schematically showing the silencer used in a conventional indoor unit.

Figure 3 is a perspective view of the main portion cutaway schematically showing a multi-tubular silencer used in the indoor unit according to the present invention.

4 is a schematic front sectional view according to FIG. 3;

Figure 5 is a side sectional view schematically showing another embodiment of the present invention.

6 is a main sectional front view schematically showing another embodiment of the present invention.

Explanation of symbols for the main parts of the drawings

10: silencer

   12 inlet 15 body

   16: outlet 18: main euro

20: dividing means

   22: split path 22a: subdivision

   22b: soda tube 25: bundle tube

The present invention relates to a multi-tubular silencer used in an indoor unit, which is an air conditioner, and more specifically, a large bubble in the refrigerant flow is pulverized finely by dividing means having a plurality of flow paths so that the refrigerant flows inside the silencer. The present invention relates to a bundle-type silencer for an indoor unit that can flow in a shape to minimize refrigerant noise.

In general, as shown in FIG. 1, an air conditioner air conditioning system is composed of an outdoor unit 100 and an indoor unit 200, and the outdoor unit 100 includes a compressor 110, a four-way valve 120, and an outdoor heat exchanger. 130 and an accumulator 140 are provided, and the indoor unit 200 is provided with an expansion device 210, an indoor heat exchanger 220, and a silencer 300.

In addition, an outdoor fan 132 and an indoor fan 222 are installed at one side of the outdoor heat exchanger 130 and the indoor heat exchanger 220, and at least one refrigerant pipe connected to the expansion device 210 of the indoor unit. The above silencer 300 is installed.

As shown in FIG. 2, the silencer 300 installed in the refrigerant pipe connected to the expansion device of the indoor unit 200 has an inlet 302 and an outlet to allow the refrigerant to flow in and out of the indoor heat exchanger 220 of the indoor unit. The body 305 has a small diameter, and a coolant flow path is formed therebetween, and slugs having a large bubble in the inner space of the body having a diameter equal to the diameter of the coolant pipe in the coolant pipe, that is, gas In order to reduce the flow noise generated in the form of an ideal flow in which the liquid state coexists with the liquid state, a relatively large area of the attachment 400 such as a mesh or a coil mass may be layered so as to be perpendicular to the flow direction of the refrigerant. Equipped.

However, in this case, since additional attachments inside the body are installed vertically perpendicular to the flow direction of the refrigerant, it causes a problem of causing a pressure drop, so that the efficiency of the silencer is significantly lowered, and thus the energy efficiency of the indoor unit. This had a problem of deterioration.

Accordingly, the present invention has been made to solve the conventional problems as described above, the object of the present invention is by a splitting means in which a plurality of flow paths are formed so that refrigerant flows inside the silencer used in the indoor unit of the air conditioner. In order to minimize the noise of the refrigerant by allowing large bubbles in the refrigerant flow to flow in a finely pulverized form and to have a structure that is not deformed by the refrigerant and the internal pressure.

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Still another object of the present invention is to prevent large bubbles in the refrigerant flow from being crushed and then merged again.

It is another object of the present invention to make it possible to more finely crush large bubbles in the refrigerant flow.

The present invention for achieving the above object, in the silencer provided in the refrigerant pipe connected to the expansion device of the indoor unit to reduce the flow noise by abnormal flow, the inlet and the body and the outlet of the silencer has the same diameter The main channel is formed, and in the main channel, a polygonal shape having a honeycomb structure has a predetermined length in the same direction as the refrigerant flow direction and has a thin thickness so that large bubbles in the refrigerant flow flowing through the main channel are divided and flowed. The split channel is provided with a splitting means in the form of a bundle, wherein the split channel is characterized in that the front end and the end are formed in different positions.

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The dividing flow channel is characterized in that it is formed in the form of soda tube formed with a plurality of small dividing flow path therein.

The subdivision channel is characterized in that it is formed in a polygonal shape.

The polygon of the subdivision channel has a honeycomb structure.

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

3 is a perspective view illustrating a main part cutaway schematically showing a bundle-type silencer used in an indoor unit according to the present invention, and FIG. 4 is a schematic sectional front view of the main part according to FIG. 3.

As shown in the figure, the refrigerant pipe is provided in the refrigerant pipe connected to the expansion device of the indoor unit, which is an air conditioner, to reduce the refrigerant noise due to the abnormal flow caused by the flow of large bubbles in the refrigerant flow of the same diameter as the refrigerant pipe. In the silencer having inlet and outlet at the tip and end,

The present invention, in order to allow the large bubbles in the refrigerant flow is divided and flow in the finely crushed form,

The inlet 12, the body 15, and the outlet 16 of the muffler 10 form a main flow passage 18 having the same diameter, and within the main flow passage 18, a refrigerant flow flowing through the main flow passage. It is shown that the dividing means 20 having a predetermined length in the same direction as the refrigerant flow direction so that the large bubbles in the inside can be divided and flow.

The dividing means 20 is formed in the form of a bundle tube 25 having a plurality of dividing flow passages 22 having a thin thickness in order to minimize the pressure drop due to the refrigerant flow and into which large bubbles are divided and introduced. desirable.

Accordingly, the refrigerant flowing through the inlet of the silencer and the large bubbles in the refrigerant flow are introduced into the form of finely pulverized at the tip by a plurality of dividing flow paths formed in the bundle pipe of the dividing means, and then in the finely pulverized state at the end. Will be discharged.

Therefore, the muffler of the present invention is to have a condition that can minimize the refrigerant noise generated by the large bubbles in the refrigerant flow by allowing the large bubbles in the refrigerant flow to be pulverized finely.

In addition, since the bundle tube of the dividing means has a thin thickness and has a predetermined length in the same direction as the flow direction of the refrigerant, a condition in which the pressure drop can be minimized by securing a maximum area through which the refrigerant can flow. Will also have.

The dividing flow passage 22 formed in the dividing means is preferably formed in a polygonal shape so as to minimize deformation by the pressure applied in the silencer.

The polygon of the dividing channel 22 is formed of a honeycomb structure having a normal honeycomb structure, that is, a honeycomb structure having the least structure that is deformed by the refrigerant flowing into the dividing channel through the main channel and the pressure applied to the silencer. It is preferable.

Fig. 5 is a side sectional view showing main parts schematically showing another embodiment of the present invention.

As shown in the above configuration, in order to achieve more efficient splitting when large bubbles are introduced into the dividing flow path of the dividing means, and to prevent the small bubbles that are divided even when being discharged,

The dividing channel 22 of the dividing means 20 shows that the front end and the end are formed at different positions.

Accordingly, the refrigerant flowing through the main flow passage and the large bubbles in the refrigerant flow flow at the front end of the split flow passage having different positions, that is, at the front end protruding portion, and then again at the rear end thereof. As crushing is performed, the finely divided bubbles can be recombined in the main flow path, as well as having a condition that they can be crushed more efficiently and smoothly flowed in. You will have the conditions to minimize what is present.

6 is a sectional front view schematically showing another embodiment of the present invention.

In the above-described configuration as shown, in order to be able to flow by dividing the large bubbles in the refrigerant flow in a finer state by the dividing means,

The dividing channel 22 is formed in the form of a soda bundle tube 22b having a plurality of small dividing channels 22a formed therein.

Accordingly, the large bubbles in the refrigerant flow can be flowed in a finely pulverized form by the subdividing flow paths in the dividing flow paths rather than the size divided through the dividing flow paths only. It will have a condition that can minimize the generated refrigerant noise.

The small dividing flow passage 22a formed in the soda tube 22b of the dividing flow passage is preferably formed in a polygonal shape so as to minimize deformation with respect to the pressure applied inside the silencer.

The polygon of the subdivision channel 22a has a conventional honeycomb structure, that is, a honeycomb structure having the least structure that is deformed by the refrigerant introduced into the subdivision channel through the main channel and the pressure applied to the silencer. It is preferable to form.

As described above, the present invention is such that the large bubbles in the refrigerant flow can be flowed in a finely pulverized form by the dividing means formed with a plurality of flow paths so that the refrigerant is divided and flows inside the silencer used in the indoor unit of the air conditioner. In addition, by ensuring the maximum area that the refrigerant can pass through, it has the effect of minimizing the pressure drop as well as the effect of minimizing the refrigerant noise due to large bubbles in the refrigerant flow.

In addition, since the dividing means has a polygonal honeycomb structure, the dividing means has an effect of minimizing the deformation by the refrigerant and the internal pressure flowing in the silencer.

In addition, since the front end and the end of the dividing flow path of the dividing means are positioned on different lines, it is also effective to prevent large bubbles in the refrigerant flow from being crushed finely and then merged again.

In addition, since a smaller subdivision channel is formed in the dividing channel through which large bubbles in the refrigerant flow pass, the large bubbles in the refrigerant flow can be pulverized finely to have a smaller size, thereby minimizing refrigerant noise. .

Claims (8)

delete delete delete delete In the silencer provided in the refrigerant pipe connected to the expansion device of the indoor unit to reduce the flow noise by abnormal flow, The inlet and the body and the outlet of the silencer form a main flow passage having the same diameter, In the main channel, a bundle tube having a honeycomb-shaped polygonal split channel having a thin thickness and a predetermined length in the same direction as the refrigerant flow direction so that large bubbles in the refrigerant flow flowing through the main channel are divided and flowed. It is provided with a partition means of the form, wherein the split passage is a tubular silencer for an indoor unit, characterized in that each front end and the end is formed in a different position. 6. The bundle-type silencer for indoor unit according to claim 5, wherein the dividing channel is formed in the form of a soda tube having a plurality of sub dividing channels formed therein. 7. The multi-tubular silencer for indoor unit according to claim 6, wherein the subdivided flow path is formed in a polygonal shape. 8. The multi-tubular silencer for indoor unit according to claim 7, wherein the polygon of the subdivision channel has a honeycomb structure.

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