KR101653674B1 - Dexterity frozen strainer - Google Patents

Abstract

The present invention relates to a strainer for a refrigerator, which comprises a compressor for compressing a refrigerant, a condenser for liquefying the compressed gas refrigerant, an evaporator for vaporizing the liquid refrigerant through an expansion valve, The strainer is installed in a refrigerator having a filter drier to remove impurities in a refrigerant. The strainer has an accommodating space formed therein, an opening formed therein, an inlet through which refrigerant flows into the one side, and a discharge port through which refrigerant is discharged A case formed therein; A cover for closing or opening the opening of the case; A filter installed in the housing space of the case for filtering impurities of the refrigerant moving through the inlet to the outlet; And a working valve mounted to the inlet and the outlet, respectively.
According to the present invention, it is possible to replace the strainer or the filter that removes impurities without removing the refrigerant contained in the refrigerating line, thereby preventing the waste of the refrigerant and reducing the replacement cost of the strainer or the filter, And it is possible to prevent environmental pollution due to discharge of refrigerant.

Description

Dexterity frozen strainer

The present invention relates to a strainer for a refrigerator, and more particularly, to a strainer for removing impurities without removing refrigerant contained in a refrigeration line and a strainer for a refrigerator which can replace or clean the filter.

BACKGROUND ART Generally, a refrigeration apparatus includes a compressor that changes a low-temperature and low-pressure gas refrigerant into a high-temperature and high-pressure gas refrigerant, a condenser that converts gas refrigerant of high temperature and high pressure changed in the compressor into liquid refrigerant of room temperature and high pressure, Pressure liquid refrigerant that has been dehumidified by the dehumidifier through the dryer to a low-temperature and low-pressure liquid refrigerant, and a low-temperature low- As the compressor operates, it performs heating and cooling operations through condensation and evaporation processes in which heat radiation and heat absorption are continuously performed.

A refrigerant circulating through the piping connecting between the components and performing heat exchange is accommodated in the refrigerating device.

The operation principle of such a general refrigeration apparatus will be described as follows.

First, the gas refrigerant, which is changed into a low-temperature and low-pressure state while passing through an evaporator that absorbs heat and cools the periphery, is sucked into the compressor and is compressed to change into a gas refrigerant of high temperature and high pressure, To the condenser.

Subsequently, the high-temperature and high-pressure gas refrigerant introduced into the condenser undergoes heat exchange with the surrounding water or air to be converted into a high-pressure saturated liquid refrigerant of a room temperature or higher and then flows into the capillary, Pressure low-temperature liquid refrigerant, and then flows into the evaporator again.

When the refrigerant circulates in the refrigeration cycle with the impurities such as dust, metal debris, scale or the like mixed in the refrigerant in the refrigerant circulation structure in such a refrigerating apparatus, such foreign matter is circulated in the capillary tube of the inflator or the expansion valve It may be caught by the orifice to cause a clogging phenomenon, or may adhere to a discharge valve or a suction valve of the compressor to inhibit its operation and damage the bearing or shaft barrel device inside.

Therefore, a strainer (liquid filter) for filtering foreign substances in the refrigerant is separately installed between the refrigerant tubes of the refrigeration cycle.

1 shows a strainer for a refrigeration apparatus according to the prior art.

As shown in the drawing, the conventional strainer 160 for a refrigerating apparatus is installed between a tube body to be connected such as a suction pipe 142 which is a part of a refrigerant circulation pipe, and has a strainer body 161 having a relatively large diameter, A ring 162 and an assembled filter net body 163 are fixedly installed.

An axial pipe section 165 is formed at both ends of the strainer body 161 so as to have a diameter smaller than the diameter of the strainer body 161. The axial pipe sections 165 are inserted into the both inlet pipes 142, Respectively.

At this time, on the inner circumferential surface of the both axial pipe portions 165, there is formed a hypotenuse 164 capable of supporting an end portion of the both suction pipes 142, and a connection portion between the ends of the both axial pipe portions 165 and the suction pipe 142 And is welded and fixed by a solder 166 around the periphery.

However, since the conventional refrigerant strainer 160 is required to discharge all the refrigerant stored in the refrigerant line to the outside during the replacement operation due to breakage or damage to the components, the refrigerant is wasted, There is a problem that the refrigerant needs to be replenished at the time of re-use after the installation, resulting in a double cost.

In addition, the conventional strainer 160 for a refrigeration apparatus requires a skilled worker by separating or fixing the connecting portion by welding, and also requires a long working time and requires replacement of the entire refrigeration line at the time of reuse.

Korean Patent No. 10-0667692 Korean Patent No. 10-0347157

SUMMARY OF THE INVENTION It is an object of the present invention to provide a strainer for removing impurities without removing refrigerant contained in a freezing line or a strainer for a refrigerator in which a filter can be replaced do.

Another object of the present invention is to provide a strainer for a refrigerator which can control a flow of a refrigerant by installing a valve at an inlet through which the refrigerant flows and at an outlet through which the refrigerant is discharged.

It is another object of the present invention to provide a strainer for a refrigerator in which a transparent window or a level gauge is mounted on the case to visually confirm the flow of the refrigerant.

In accordance with an aspect of the present invention for achieving the above object, the present invention provides a refrigerant compressor comprising a compressor for compressing a refrigerant, a condenser for liquefying the compressed gas refrigerant, an evaporator for vaporizing the liquid refrigerant through an expansion valve, A strainer mounted on a freezer having a filter drier for removing impurities of a refrigerant to remove impurities in the refrigerant, the strainer having an accommodating space formed therein, an opening formed therein, an inlet through which the refrigerant flows, A case in which a discharge port through which refrigerant is discharged is formed; A cover for closing or opening the opening of the case; A filter installed in the housing space of the case for filtering impurities of the refrigerant moving through the inlet to the outlet; And a working valve mounted to the inlet and the outlet, respectively.

A first separation case having a first open coupling part formed on one side thereof with a spiral and an inlet port formed on the opposite side of the first separation case; And a second separating case having a discharge opening formed on the opposite side of the second separating case.

A valve or a solenoid valve may be mounted on the inlet and the outlet.

A transparent window or a level gauge may be mounted on the lid so that the flow of the refrigerant passing through the accommodation space can be visually confirmed.

A transparent window or a level gauge may be mounted on the first and second separation cases so that the front and rear states of the refrigerant passing through the filtration filter can be visually confirmed.

In addition, a filter filter mounting groove having a position mounting groove may be formed at an interval inside the case.

According to the present invention, it is possible to replace the strainer or the filter that removes impurities without removing the refrigerant contained in the refrigerating line, thereby preventing the waste of the refrigerant and reducing the replacement cost of the strainer or the filter, And it is possible to prevent environmental pollution due to discharge of refrigerant.

In addition, it is possible to control the flow of the refrigerant by installing a valve at an inlet through which the refrigerant flows and at a discharge port through which the refrigerant is discharged, and it is also easy to replace the strainer for the refrigerator and the filter.

In addition, since a transparent window or a level gauge is mounted on the case to visually confirm the flow of the refrigerant, the refrigerator can be operated in an optimal state while checking the flow of the refrigerant moving along the refrigerating line.

1 is a cross-sectional view of a conventional refrigerator strainer.
2 is a view illustrating a refrigerator in which a strainer for a refrigerator according to the present invention is installed.
3 is a cross-sectional view of a strainer for a refrigerator according to the present invention.
4 is a view showing a case constituting a strainer for a refrigerator according to the present invention.
5 is a perspective view showing a lid constituting a strainer for a refrigerator according to the present invention.
6 and 7 are sectional views showing still another embodiment of a strainer for a refrigerator according to the present invention.

The terms or words used in the present specification and claims are intended to mean that the inventive concept of the present invention is in accordance with the technical idea of the present invention based on the principle that the inventor can appropriately define the concept of the term in order to explain its invention in the best way Should be interpreted as a concept.

Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the structure of an embodiment of a refrigerator strainer according to the present invention will be described in detail with reference to the drawings.

A refrigerator strainer (10) according to the present invention comprises a compressor (2) for compressing a refrigerant, a condenser (3) for liquefying the compressed gas refrigerant, an evaporator (4) for vaporizing the liquid refrigerant through an expansion valve (5) (1) having a filter drier (6) for removing impurities of the liquid refrigerant, thereby removing impurities from the refrigerant moving along the refrigeration line.

Here, the compressor 2, the condenser 3, the expansion valve 5, the evaporator 4 and the filter drier 6 constituting the refrigerator 1 may have a known configuration.

The refrigerator strainer 10 includes a case 20, a lid 30, a filtering filter 40, a working valve 50, a transparent window 60, a liquid level meter, and the like.

The case 20 is formed with an accommodation space 21 with an opening 22 formed therein and an inlet 23 through which the refrigerant flows and a discharge port 24 through which the refrigerant is discharged. . At this time, the case 20 is formed in various shapes besides the drawings.

In the present invention, the case 20 has a receiving space 21 formed therein, an opening 22 formed at a lower portion thereof, and an inlet 23 communicating with the receiving space 21 is formed at one side thereof And an outlet 24 communicating with the accommodation space 21 is formed at an upper portion thereof.

In addition, the case 20 may be configured to supply the refrigerant to the receiving space 21 through the inlet 23 and then to transfer the refrigerant received in the receiving space 21 to the outside through the outlet 24 will be.

The opening 22 is formed in consideration of insertion or discharge of the filtration filter 40 accommodated in the accommodation space 21 and a spiral 22a is formed on the inner surface for smooth engagement or separation with the lid 30. [ So that the bottom surface of the filtration filter 40 is exposed while the bottom surface of the filtration filter 40 is exposed to the surface of the receiving space 21 while being exposed.

A filtering filter mounting groove 25 having a position mounting groove 25a for fixing the filtering filter 40 is formed in the receiving space 21 so as to be fixed to or separated from the filtering filter 40. [ have.

In addition, the filter filter mounting groove 25 penetrates the inside of the filter filter mounting groove 25, and on one side thereof, a position mounting groove 25a is formed so that the filter filter 40 can be inserted or discharged. So that the filtration filter 40 can be inserted or discharged.

At this time, the filtration filter mounting groove 25 may be combined with the filtration filter by a known spiral coupling structure or a fitting coupling structure in addition to the insertion structure.

The lid 30 has a predetermined size to be engaged with the opening 22 of the case 20 and a spiral 32 is formed on one side so as to be coupled with the opening 22.

The lid 30 has a size corresponding to the opening 22 so that the lid 30 can be engaged with or separated from the opening 22 of the case 20 and a spiral 32 is formed on the outer surface thereof, (22) is closed or opened.

A transparent window (60) or a liquid level meter is mounted inside the lid (30) so that the flow of the refrigerant passing through the accommodating space (21) of the case (20) can be visually confirmed.

That is, the transparent window 60 or the liquid level meter is installed inside the lid 30 so that the flow of the refrigerant passing through the accommodation space 21 of the case 20 can be visually confirmed in real time.

In addition, the transparent window 60 or the level gauge is installed inside the lid 30 so that the flow of the refrigerant passing through the accommodation space 21 of the case 20 in real time can be visually confirmed, The strainer 10 and the filtration filter 40, and the refrigeration line status of the refrigerator.

The filtration filter 40 filters the impurities contained in the refrigerant which is mounted in the receiving space 21 of the case 20 and moves to the discharge port 24 through the inlet 23.

The filter 40 includes a hollow filter case 41 and a net-like filter net 42 mounted inside the filter case 41.

The filtration filter 40 is installed in the filtration filter mounting groove 25 to filter the impurities contained in the refrigerant flowing to the discharge port 24 through the inlet 23.

The operating valve 50 is mounted on the case 20 to shut off or move the refrigerant moving into the case 20.

That is, the operating valve 50 is installed in the inlet 23 and the outlet 24 of the case 20 so as to block the refrigerant flowing into or out of the case 20.

At this time, the case 20 can be easily disassembled or coupled through a coupling structure with a working valve 50 mounted to the inlet 23 and the outlet 24, respectively.

The case 20 and the operating valve 50 can be fixed through a nut coupling structure so as to overcome the problem of the conventional strainer for refrigerator according to welding.

Here, the actuating valve 50 mounted on the case 20 may be composed of a solenoid valve so as to control the operation at the same time.

6 and 7, that is, the refrigerator strainer 10 is installed in the separating case 70 instead of the case 20 and the lid 30, ≪ / RTI >

The separating case 70 includes a first separating case 72 having a first open engaging portion 72a having a spiral formed on one side thereof and an inlet 23 formed on the opposite side thereof, And a second separation case 74 having a discharge port 24 formed on the opposite side of the second separation case 74. The second separation case 74 is formed on the opposite side of the second separation case 74,

That is, the separating case 70 is divided into a first separating case 72 and a second separating case 74, and the first separating case 72 and the second separating case 74 are connected to or separated from the connecting portion, To form a helix.

At this time, a filtration filter mounting groove 76 is formed in the connection portion between the first separation case 72 and the second separation case 74 to mount the filtration filter 40.

In addition, a transparent window 60 or a liquid level meter is mounted on the first and second separation cases 72 and 74 to visually check the state of the refrigerant passing through the filter 40.

That is, the separation case 50 has a transparent window 60 and a liquid level surface mounted on the first separation case 72 and the second separation case 74, respectively, so that the flow of the refrigerant before passing through the filtration filter 40, The flow of the refrigerant after passing through the filter 40 is visually confirmed so that the replacement time of the filter 40 can be confirmed.

The state of use of the strainer for a refrigerator structured as described above will be described below.

The compressor (P) compresses the refrigerant at a high temperature and a high pressure, a condenser (C) for liquefying the compressed refrigerant gas by heat exchange with the cooling water or air, and a condenser And an evaporator E for evaporating a liquid refrigerant of low pressure by exchanging heat with cold water or air is sequentially installed in the freezer disposed through the refrigerant line L. [

At this time, the inlet port 23 constituting the refrigerating machine strainer 10 and the operating valve 50 mounted to the discharge port 24 are opened.

When the refrigerator is operated, the refrigerant circulates along the refrigerant line, and the refrigerator strainer 10 filters the impurities contained in the refrigerant.

At this time, the worker grasps the flow of the refrigerant with the naked eye through the transparent window 60 mounted on the lid 30 coupled with the case 20 or the liquid level gauge to replace the refrigerant strainer 10, It is possible to judge whether or not to replace it.

Next, in order to replace the refrigerating machine strainer 10 or the filtration filter 40, an inlet port 23 constituting the refrigerating machine strainer 10 and a working valve 50 mounted to the discharge port 24 The strainer 10 for refrigerator is connected to the inlet 23 and the outlet 24.

After replacing the refrigerant strainer 10 or replacing the filtration filter 40, the refrigerant strainer 10 may be coupled to the inlet 23 and the discharge port 24.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. This is possible.

Therefore, the scope of the present invention should not be limited by the described embodiments, but should be determined by the equivalents of the appended claims, as well as the appended claims.

10: strainer for freezer, 20: case,
21: accommodation space, 22: opening portion,
23: inlet, 24: outlet,
25: Filtration filter mounting groove, 30: Cover,
40: filtration filter, 41: filter case,
42: filter net, 50: actuating valve,
60: Transparent window,

Claims (6)

A condenser for liquefying the compressed gas refrigerant, an evaporator for evaporating the liquid refrigerant through an expansion valve, and a filter dryer for removing impurities of the liquid refrigerant, thereby removing impurities in the refrigerant, In the strainer,
A housing having a housing space formed therein with an opening formed therein, an inlet through which refrigerant is introduced into one side wall of the housing space, and a discharge port through which refrigerant is discharged from the housing space;
A cover for closing or opening the opening of the case;
A filter installed in the housing space of the case for filtering impurities of the refrigerant moving through the inlet to the outlet;
And a working valve mounted on the inlet and outlet, respectively,
Wherein the filtering valve is closed when the filtration filter is exchanged, so that the refrigerant gas in the strainer can be discharged to the outside of the strainer,
Wherein a filter filter mounting groove having a mounting groove formed on an inner circumferential surface thereof for fixing the filter filter is recessed adjacent to the outlet so that the filter filter fixed or separated to the filter filter mounting groove is formed in the filter case, Lt; / RTI >
Wherein the filtering filter is installed in a state where it is embedded in the filter filter mounting groove and the bottom surface exposed while only the bottom surface is exposed when fixed is flat with the top surface of the accommodation space. The method according to claim 1,
A separating case is mounted instead of the case and the cover,
The separation case
A first separating case formed with a first opening / closing part provided with a spiral on one side and an inlet port formed on the opposite side, and a second opening / closing part provided with a spiral on one side so as to be coupled with the first separating case And a second separation case having a discharge port formed on the opposite side thereof. The method according to claim 1,
And a valve or an electromagnetic valve is mounted on the inlet and the outlet. The method according to claim 1,
Wherein a transparent window or a liquid level meter is mounted on the lid so that the flow of the refrigerant passing through the accommodation space can be visually confirmed. 3. The method of claim 2,
Wherein the first separating case and the second separating case are equipped with a transparent window or a liquid level gauge so that the front and back states of the refrigerant passing through the filtration filter can be visually confirmed. delete

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