KR100888756B1 - Method for manufacturing silencer for air conditioner - Google Patents

Abstract

The present invention is a method of manufacturing a silencer provided in the refrigerant pipe connected to the expansion device of the air conditioner to reduce the flow noise due to the abnormal flow, the up and down simultaneous impact extrusion method, the outer edge from the center portion of the pre-sheared base material The upper and lower cylindrical portions to be formed are extruded in opposite directions to form a body having an outer portion of the central portion having an upper and lower container shape, and a composite extrusion processing step of front and rear for complex extrusion to form a partition wall at the center portion, and as a dividing means. And a piercing processing step of drilling a plurality of flow ports so that large bubbles in the refrigerant flow flowing through the partition wall of the central portion can flow, and the diameters of the upper and lower ends of the body are simultaneously reduced to narrow the inlet and the outlet. Reduces noise due to pumping of compressor, including complex necking The present invention relates to a silencer for an air conditioner configured to reduce a load of a compressor by simultaneously reducing a flow path resistance. The silencer of the air conditioner includes a plurality of flow paths formed by a plurality of flow paths in which a refrigerant flows through the silencer of the air conditioner. By allowing large bubbles to flow in a finely pulverized form, a structure capable of minimizing refrigerant noise can be manufactured with a minimum of airflow.

Description

Method for manufacturing silencer for air conditioner {Method for manufacturing silencer for air conditioner}

The present invention relates to a porous silencer used in an air conditioner, and more particularly, to divide a large bubble in a refrigerant flow in a finely pulverized form by a dividing means in which a plurality of flow paths are formed so that a refrigerant flows inside the silencer. It relates to a porous silencer for an air conditioner to minimize the refrigerant noise.

In general, the air conditioning system of the air conditioner is largely composed of the interior and exterior air conditioner 100 and the interior 200 as shown in Figure 1, the interior and exterior air conditioner 100, the compressor 110, the four-way valve 120 The outdoor heat exchanger 130 and the 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 vehicle interior 200 has an inlet 302 and a refrigerant to flow in and out of the indoor heat exchanger 220 of the indoor unit. The outlet 304 has a small diameter, the body 305 having a coolant flow path therebetween, and slugs having a large bubble in the inner space of the body with a diameter equal to the diameter of the coolant pipe in the coolant pipe, that is, Dividing means 400 having a relatively large area such as a mesh shape or a coil is provided to be orthogonal to the flow direction of the refrigerant in order to reduce the flow noise generated when the gas and the liquid state coexist. .

However, in such a case, since additional dividing means inside the body are welded and installed vertically perpendicular to the flow direction of the refrigerant, the manufacturing efficiency decreases, such as an increase in the number of manufacturing steps and a manufacturing cost.

In accordance with an aspect of the present invention, there is provided a silencer for an air conditioner configured to reduce noise due to pumping of a compressor and at the same time reduce a flow resistance to reduce a load of a compressor. It provides a method of manufacturing a silencer for an air conditioner that maximizes the production efficiency while minimizing the refrigerant noise by allowing the large bubbles in the refrigerant flow to be pulverized by the splitting means formed with a plurality of flow paths to be divided and flow. There is a major challenge.

Method of manufacturing a silencer for an air conditioner according to the present invention to achieve the above object,

In the manufacturing method of the silencer provided in the refrigerant pipe connected to the expansion device of the air conditioner to reduce the flow noise due to abnormal flow,

As an upward and downward synchronous impact extrusion method, the upper cylindrical part and the lower cylindrical part which form an outer periphery from the center part of the pre-sheared base material are extruded in opposite directions, and the outer part of this center part forms the upper and lower container shape, and a partition is formed in the center part. The composite extrusion processing step of the front and rear complex extrusion to form a,

As a dividing means, a piercing processing step of puncturing a plurality of flow ports so that large bubbles in the refrigerant flow flowing through the partition wall of the central portion can be divided and flow;

Simultaneously reducing the diameter of the upper and lower ends of the body, characterized in that the inlet and outlet comprises a narrow necking (Necking) processing.

In addition, the body is preferably formed in a streamline shape with a gentle cross-sectional area.

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

1 is a system diagram schematically showing a system structure of an air conditioner according to a conventional example, FIG. 2 is a longitudinal sectional view showing an enlarged silencer employed in the air conditioner of FIG. 1, and FIG. 3 is an embodiment of the present invention. 4 is a vertical cross-sectional view showing an enlarged silencer according to the present invention, and FIG. 4 is a process diagram for explaining a manufacturing process of the silencer according to the present invention.

According to the present invention, as shown in the refrigerant pipe is provided in the refrigerant pipe connected to the expansion device of the air conditioner of the air conditioner, the refrigerant noise by the abnormal flow generated by the flow of large bubbles in the refrigerant flow of the same diameter as the diameter of the refrigerant pipe In order to reduce the pressure, the inlet 302 and the outlet 304 are provided at the front end and the end of the silencer 300 is provided.

As described above, in order to reduce the noise caused by the pumping of the compressor and at the same time reduce the flow resistance, the air conditioner silencer 300 is configured to reduce the load of the compressor, so that the inside of the silencer 300 of the air conditioner The air conditioner silencer that maximizes the manufacturing efficiency while minimizing the refrigerant noise by allowing the large bubbles in the refrigerant flow to be finely crushed by the dividing means 400 having a plurality of flow paths so that the refrigerant is divided and flows. The manufacturing method of 300) is as follows.

First, the manufacturing method of the silencer 300 provided in the refrigerant pipe connected to the expansion device of the air conditioner according to the embodiment of the present invention to reduce the flow noise due to the abnormal flow, as a top and bottom simultaneous impact extrusion method, a preliminary The upper cylindrical part and the lower cylindrical part which form an outer part from the center part of the sheared base material are extruded in the opposite direction, and the outer part of this center part forms the body 305 which forms the upper and lower container shape, and the composite part extrudes so that a partition may be formed in the center part. Composite extrusion processing step of the front and rear, the piercing processing step of drilling a plurality of flow holes so that the large bubbles in the refrigerant flow flowing through the partition wall in the partition portion 400, the body 305 At the same time, the diameter of the upper and lower ends is simultaneously reduced, so that the compound necking narrows the inlet 302 and the outlet 304.

The disclosure is made.

In addition, when the necked silencer 300 is placed on the anode and electrolyzed in a dilute acid solution, anodizing treatment is performed such that an oxide film (aluminum oxide: Al₂O₃) having a great adhesion with the base metal is formed by oxygen generated from the anode. It may further comprise the step of doing.

This is based on the premise that the base material is an aluminum material, but may include anodizing on the muffler 300 fabricated with a metal base material of Mg, Zn, Ti, Ta, Hf, and Nb.

In addition, the body 305 includes a step of processing in a streamline shape that the cross-sectional area is gently changed.

In addition, the present invention, the body 305 of the muffler 300, the inlet 302 and the outlet 302, 304 in order to allow the large bubbles in the refrigerant flow is divided and flow in the finely crushed form A dual divided main flow passage having a larger inner diameter, and 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 passage are divided and flowed in the main flow passage; It is shown to have a means (400).

The dividing means 400 is preferably formed in the form of a porous plate having a plurality of flow holes 401 having a small thickness and a large bubble can be divided into the flow in order to minimize the pressure drop due to the refrigerant flow.

In addition, the flow port 401 is formed in an orifice shape. Accordingly, the refrigerant flowing through the inlet 302 of the muffler 300 and the large bubbles in the refrigerant flow are finely crushed at the front end by a plurality of divided flow ports 401 formed in the bundle pipe of the dividing means 400. After being introduced into the end, it will be discharged in its finely crushed state.

The present invention relates to a structure of an air conditioner silencer 300 in which an inlet port 302 and an outlet port 304 are coaxially configured to provide an air conditioner silencer 300 and reduce flow noise due to an abnormal flow. Inlet 302 and the body 305 and the outlet 304 of the coaxial direction is formed in a coaxial direction, the body 305 is formed in a streamline shape with a gentle cross-sectional area, the inlet 302 through which the refrigerant passes Discharge ports 304 are respectively equipped with a fastening mechanism for connecting the refrigerant pipe, the fastening pipe connection fastening mechanism is a nut mounted on the inlet 302 side of the silencer 300, the outlet 304 of the silencer 300 The bolt mounted on the side may be mounted.

Of course, the above-mentioned base material preliminarily shears the base material to be extruded and, of course, preliminary shearing to a predetermined thickness.

Therefore, the silencer 300 of the present invention has a condition capable of minimizing the refrigerant noise generated by the large bubbles in the refrigerant flow by allowing the large bubbles in the refrigerant flow to be crushed finely.

In addition, since the porous partition constituting the dividing means 400 has a thin thickness and has a predetermined length in the same direction as the flow direction of the refrigerant, the pressure drop is minimized by securing a maximum area through which the refrigerant can flow. There is also a condition to do it.

The split flow port 401 formed in the dividing means 400 may be formed in a polygonal shape so as to minimize deformation by the pressure applied inside the silencer 300.

As described above, according to the present invention, the present invention, by the dividing means 400 formed a plurality of flow paths so that the refrigerant is divided into the inside of the silencer 300 used in the air conditioner of the air conditioner The pressure drop along with the effect of minimizing refrigerant noise due to large bubbles in the refrigerant flow by allowing the large bubbles in the refrigerant flow to flow in finely pulverized form and securing the maximum area through which the refrigerant can pass. There is a very good advantage, such as the ability to minimize the effect.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom.

1 is a system diagram schematically showing a system structure of an air conditioner according to a conventional example;

FIG. 2 is an enlarged vertical cross-sectional view of a silencer employed in the air conditioner of FIG. 1;

Figure 3 is a longitudinal sectional structural view showing an enlarged silencer according to an embodiment of the present invention,

Figure 4 is a process chart for explaining the manufacturing process of the silencer according to the present invention.

<Explanation of symbols for main parts of the drawings>

 300: silencer 302: inlet

 304: outlet 305: body

 400: dividing means 401: flow port

Claims (2)

In the manufacturing method of the silencer provided in the refrigerant pipe connected to the expansion device of the air conditioner to reduce the flow noise due to abnormal flow, As an upward and downward synchronous impact extrusion method, the upper cylindrical part and the lower cylindrical part which form an outer periphery from the center part of the pre-sheared base material are extruded in opposite directions, and the outer part of this center part forms the upper and lower container shape, and a partition is formed in the center part. The composite extrusion processing step of the front and rear complex extrusion to form a, As a dividing means, a piercing processing step of puncturing a plurality of flow ports so that large bubbles in the refrigerant flow flowing through the partition wall of the central portion can be divided and flow; Simultaneously reducing the diameter of the upper and lower ends of the body, a narrow necking (Necking) processing of the inlet and outlet, characterized in that it comprises a silencer manufacturing method for an air conditioner. The method of claim 1, The body is a silencer manufacturing method for an air conditioner, characterized in that the cross-sectional area is formed in a smooth streamline.

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