KR20070025712A - Receiver driver - Google Patents

Abstract

An air-conditioner receiver dryer is provided to prevent a drying agent from disturbing the smooth flow of the refrigerant by installing the drying agent at an inner end part of the long cylindrical case, and to allow all refrigerant to pass through the filters by installing filters on first and second baffles. An air-conditioner receiver dryer comprises a cylindrical case(20), first and second baffles(24,27), a drying agent(29), a drying room(28), and an inlet pipe(23). The long cylindrical case has an inlet(21) and an outlet(22) independently formed at one side of the case. The first baffle is installed at the inner end part of the case. The drying room with the drying agent is formed at the end part of the case. The second baffle is installed inside the case near the inlet. The inlet pipe having a preset length is formed to extend from the inlet, with the exit part of the inlet pipe passing through the second baffle. An upper filter(26) and a lower filter(27) are installed on the upper part of first and second baffles allowing the refrigerant to pass through all the filters.

Description

Air conditioner receiver dryer {Receiver driver}

1 is a view showing a cooling cycle mounted on a vehicle.

Figure 2 is a cross-sectional view showing a conventional air conditioner receiver dryer.

3 is a cross-sectional view showing an air conditioner receiver dryer of the present invention.

Explanation of symbols for main parts of the drawings

3: receiver drier, 20: case,

21: inlet, 22: outlet,

23: inlet pipe, 24: first baffle,

25: second baffle, 26: upper filter,

27: lower filter, 28: drying chamber,

29: desiccant,

The present invention relates to an air conditioner receiver dryer, and in particular, the desiccant formed at the inner end of the receiver dryer absorbs the moisture contained in the initial refrigerant injection and does not act as a resistance to the flow of the refrigerant after the loss of moisture absorption function. To improve the reliability of the product as the refrigerant flows smoothly and the pressure inside the air conditioner system is lowered to extend the life of the air conditioner system and all refrigerant passes through the filter formed in the baffle. will be.

1 shows an air conditioning system mounted on a vehicle,

The refrigerant compressed at high and high pressure in the compressor (1) is condensed in the condenser (2) and then supplied to the expansion valve (4) through the receiver dryer (3), and passes through the expansion valve (4) at low pressure and low temperature. After the refrigerant converted to the state of cooling passes through the evaporator (5) to cool the outside air is recycled back to the compressor (1).

Among the components, the receiver dryer has a function of storing a predetermined amount of the refrigerant discharged from the condenser 2 and a function of filtering out foreign substances contained in the system and the refrigerant circulation system while absorbing moisture contained in the refrigerant.

2 shows a conventional receiver drier,

An inlet 12 and an outlet 13 are formed at one side of the case 11 formed in a cylindrical shape, and the inlet pipe 14 is formed to extend from the inlet 12 to the inner end of the case 11. In the case 11, two baffles 15 and 16 are formed at a predetermined interval so that a drying chamber 17 in which a desiccant 18 is embedded is formed in the inner space.

In addition, a filter 19 is formed on the inner surfaces of the baffles 15 and 16 to filter foreign matter.

In the conventional receiver dryer configured as described above, the refrigerant supplied from the condenser 2 flows into the inlet 12 and flows into the inner end of the case 11 through the inlet pipe 14, and the introduced refrigerant flows into the outlet 13. While moving toward the side, it passes through the desiccant 18 of the drying chamber 17, and passes through the filter 19 formed in each baffle 15, 16, and discharges it to the outlet 13 in the state which the foreign material was removed. To be moved toward the expansion valve (4).

The desiccant 18 embedded in the drying chamber 17 absorbs moisture present in the system due to unstable vacuum during initial refrigerant injection, thereby preventing the inside of the air conditioner system from freezing by moisture, as described above. After absorbing the initial moisture, it loses its function.

However, in the prior art, since a desiccant that absorbs moisture during initial refrigerant injection is formed at the inner middle end of the receiver dryer case, the refrigerant continues to pass through the desiccant even after the desiccant loses water absorption function. It acts as a resistance to, and due to the internal pressure of the air conditioning system to increase the problem caused to act as a cause of damage to the air conditioning system.

Therefore, the present invention for solving the above problems has a case formed in a cylindrical shape elongated independently formed on one side of the inlet and the outlet, the first baffle is formed on the inner end of the case is a drying chamber with a drying agent built-in A second baffle is formed on the inner inlet side of the case, and the outlet side of the inlet pipe extending from the inlet penetrates through the second baffle, and upper surfaces of the first and second baffles. By forming the upper filter and the lower filter, respectively, the desiccant formed at the inner end of the receiver dryer absorbs the moisture contained in the initial refrigerant injection and does not act as a resistance to the refrigerant flow after the loss of moisture absorption function. The refrigerant flows smoothly and the pressure inside the air conditioner system is lowered to extend the life of the air conditioner system. Lock box, as well as all the coolant is passed through a filter formed in the baffle is for the purpose of providing air conditioning to a receiver-drier to improve confidence in the product performance.

The present invention for achieving the above object,

According to claim 1,

In the air-conditioning receiving dryer including a case formed in a cylindrical elongated inlet and outlet independently formed on one side,

A first baffle is formed at the inner end of the case so that a drying chamber containing a drying agent is formed at the end of the case, a second baffle is formed at the inner inlet side of the case, and a length of inlet pipe is formed from the inlet. It is formed to extend, the outlet side of the inlet pipe is characterized in that it is formed so as to pass through the second baffle.

According to claim 2,

An upper filter and a lower filter are formed on the upper surfaces of the first and second baffles, respectively, so that the refrigerant flowing into the case can pass through the filter.

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

According to the drawings, the air conditioner receiver dryer of the present invention has a case 20 formed in a cylindrical shape, the inlet 21 through which the refrigerant is introduced into one opening of the case 20 and the outlet 22 through which the refrigerant is discharged. Form independently.

In addition, the inlet pipe 23 having a predetermined length is formed to extend from the inlet 21 to allow the refrigerant to directly flow into the case 20 through the inlet pipe 23.

Meanwhile, a first baffle 24 is formed at the inner end of the case 20 so that the upper space of the first baffle 24 forms a drying chamber 28, and the moisture absorbing inside the drying chamber 28. A plurality of desiccants 29 for embedding.

A second baffle 25 is formed inside the lower end of the case 20, and an upper filter 26 and a lower filter 27 are formed on upper surfaces of the first and second baffles 24 and 25, respectively. To filter the foreign matter contained in the refrigerant.

In addition, the outlet side of the inlet pipe 23 passes through the second baffle 25, so that all refrigerant introduced through the inlet pipe 23 passes through the lower filter 27.

It is noted that the first and second baffles 24 and 25 described above are formed with porous holes allowing the flow of refrigerant.

Referring to the operation of the present invention configured as described above is as follows.

The refrigerant introduced into the inlet 21 is introduced into the case 20 through the inlet pipe 23, and a part of the introduced refrigerant passes through the first baffle 24 through the interior of the drying chamber 28 and the rest It is discharged to the outlet 22 through the lower filter 27 directly without passing through the drying chamber 28.

In the receiver dryer of the present invention operating as described above, even though the desiccant 29 is formed at the end of the case 20, the desiccant 29 does not absorb moisture by contact with the refrigerant, but rather as a home moisture absorber. By absorbing the moisture inside, it is possible to realize the same level of water absorption as in the prior art.

When the desiccant 29 is formed at the inner end of the case 20 as in the present invention, since the desiccant 29 does not act as a resistance to the flow of the refrigerant, the pressure inside the air conditioner system is lowered to damage the system. It can be prevented.

In addition, as all the refrigerant passes through the lower filter 27, the effect of removing foreign matters can be expected.

As described above, the present invention has a cylindrically formed case having an inlet and an outlet formed on one side thereof independently, and a first baffle is formed at the inner end of the case to form a drying chamber having a drying agent at the end of the case. A second baffle is formed on the inner inlet side of the case, and the outlet side of the inlet pipe extending from the inlet penetrates through the second baffle, and is respectively formed on the upper surfaces of the first and second baffles. By forming a filter and a lower filter, the desiccant formed at the inner end of the receiver dryer absorbs the moisture contained in the initial refrigerant injection, and then does not act as a resistance to the refrigerant flow after loss of moisture absorption function. Water and the pressure inside the air conditioner system is lowered to extend the life of the air conditioner system. As all the refrigerant passes through the filter formed in the baffle, it can be expected to provide an air conditioner receiver drier that improves the reliability of the product performance.

Claims (2)

In the air conditioner receiving dryer including a case 20 formed in a cylindrical shape formed on the one side of the inlet 21 and the outlet 22 independently, The first baffle 24 is formed at the inner end of the case 20 so that the drying chamber 28 containing the desiccant 29 is formed at the end of the case 20, and the inner inlet of the case 20 is formed. The second baffle 25 is formed on the side, and the inlet pipe 23 having a predetermined length is formed to extend from the inlet 21, but the outlet side of the inlet pipe 23 is formed to penetrate the second baffle 25. Air conditioner receiver dryer characterized in that. The method of claim 1, The upper filter 26 and the lower filter 27 are formed on the upper surfaces of the first and second baffles 24 and 25, respectively, so that the refrigerant flowing into the case 20 can pass through the filter. Air conditioner receiver dryer characterized by the above.

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