KR20090028065A - Air conditioner - Google Patents

Abstract

An air-conditioner is provided to improve the measurement accuracy of the pressure sensor for measuring the coolant pressure in the accumulator by reducing the influence of coolant flow on the pressure sensor. An accumulator(470) of an air-conditioner comprises a main body(472) in which a coolant storage space is formed, an inlet pipe(474) and an outlet pipe(476) which are connected to the inside of the main body and guide in and out of coolant, and a pressure sensor(480) which is installed in the main body and measures the low pressure side coolant pressure of the air-conditioner.

Description

Air Conditioner {AIR CONDITIONER}

The present invention relates to an air conditioner, wherein a pressure sensor is provided on one surface of a main body of an accumulator and configured to measure a low pressure side refrigerant pressure.

In general, an air conditioner is a cooling / heating system that cools a room by a repetitive action of inhaling hot air in a room, exchanging heat with a low temperature refrigerant, and then discharging it into the room. -Condenser-Expansion valve-Evaporator which forms a series of cycles.

As is well known, an air conditioner may be classified into a separate type air conditioner in which an outdoor unit and an indoor unit are separately installed, and an integrated air conditioner in which the outdoor unit and the indoor unit are integrally installed.

In addition, recently, a multi-type air conditioner has been released that can be effectively applied when installing two or more air conditioners in a home or when installing an air conditioner in each office in a building having several offices. This multi-type air conditioner is connected to a plurality of indoor units in one outdoor unit, it is possible to obtain the same effect as installing a plurality of separate air conditioner.

On the other hand, a number of pressure sensors are installed in these various types of air conditioners. The pressure sensor measures the pressure of the refrigerant flowing through the pipe. In particular, the pressure sensor for measuring the refrigerant pressure on the low pressure side of the air conditioner is installed in the pipe near the inlet end of the accumulator.

However, the pressure sensor installed in the pipe near the inlet end of the accumulator has a problem of inferior accuracy. That is, a hot gas pipe is generally connected to the pipe near the accumulator inlet end or connected to the refrigerant used in the supercooler. Therefore, there is a problem in that the pressure of the refrigerant changes according to the presence or absence of refrigerant in the surroundings, thereby degrading the accuracy of the pressure sensor.

An object of the present invention for solving the above problems is to enable a more accurate measurement of the refrigerant pressure.

The present invention provides an air conditioner equipped with an accumulator,

The accumulator includes a main body having a refrigerant receiving space formed therein, and an inlet pipe and an outlet pipe which are formed to communicate with the inside of the main body to guide the entrance and exit of the refrigerant; The main body, characterized in that the pressure sensor for measuring the low pressure side refrigerant pressure of the air conditioner is installed.

In the air conditioner according to the present invention, a pressure sensor is provided in the main body of the accumulator. Therefore, since the refrigerant pressure inside the accumulator is measured, the measurement accuracy of the pressure sensor is improved.

That is, compared with the case where the pressure sensor is installed in the pipe near the inlet end of the accumulator as in the prior art, since the flow of the surrounding refrigerant is less, the measurement accuracy of the pressure sensor is improved.

Thus, according to this invention, the measurement precision of refrigerant pressure improves. Therefore, the more accurate operation of the air conditioner is possible by the improvement of the measurement accuracy, and as a result, there is an effect that the performance of the entire air conditioner is improved.

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

1 is a perspective view of an outdoor unit constituting a preferred embodiment of the air conditioner according to the present invention. That is, FIG. 1 shows an example of an outdoor unit of a top discharge type air conditioner of a type in which air is discharged upward.

As shown therein, the outdoor unit 10 has a rectangular cylindrical shape, but is not shown but is connected by a plurality of indoor units and pipes, such that the outdoor unit and the indoor units have a flow of refrigerant therebetween.

The outdoor unit 10 has a lower appearance by the base assembly 100, and the cabinet 200 is provided on the upper side of the base assembly 100 to form an overall appearance. And, the upper side of the cabinet 200, the discharge grill (G) of the octagonal shape (when viewed from above) is formed to protrude upward, the air is discharged through the discharge grill (G).

2 is an exploded perspective view of the outdoor unit 10.

As shown in the cabinet 200 is composed of a plurality of panels. In more detail, the front end of the base assembly 100 is provided with a pair of front panels 210 and 212 to form a front appearance. That is, the front left panel 210 and the front right panel 212 of the rectangular flat plate are installed in pairs on the left and right, and the front center frame 220 is vertically disposed between the front left panel 210 and the front right panel 212. It is provided with a long.

The pair of front upper panels 230 and 232 are further provided on the pair of front panels 210 and 212. The front upper panels 230 and 232 form a front upper appearance, and are made of a front upper left panel 230 and a front upper right panel 232 on the left and right sides, such as the front upper left panel 230 and the front upper end. The upper front frame 240 is further provided between the right panel 232. The front upper frame 240 has a shape corresponding to the front center frame 220 to support the pair of front upper panels 230 and 232.

The left and right ends of the base assembly 100 are provided with a left panel 250 and a right panel 260 to form left and right exteriors. The left grill 252 is integrally formed on the left panel 250, and the right grill 262 is integrally formed on the right panel 260. Accordingly, outside air may be introduced into the outdoor unit 10 through the left grill 252 and the right grill 262.

A pair of rear grills 270 are provided at the rear end of the upper surface of the base assembly 100. The rear grill 270 forms a rear exterior, and air is introduced from the rear side of the outdoor unit 10 through the rear grill 270.

A rear center frame (not shown) corresponding to the front center frame 220 is further provided at the center of the rear grill 270 to support the pair of rear grills 270.

A pair of top panels 280 and 282 are provided between the upper side of the left panel 250 and the right panel 260 to form an upper appearance. That is, the upper surface of the outdoor unit 10 is formed by the rectangular upper left panel 280 and the upper right panel 282, the discharge port 284 penetrates vertically through the pair of upper panels (280, 282), respectively. Is formed.

In addition, a discharge grill G is installed at the discharge port 284. The discharge grill G serves to prevent foreign matter from flowing in from the outside through the discharge port 284 and to discharge the internal air upward.

The pair of rear top panels 290 and 292 are further provided on the pair of rear grills 270. The upper rear upper panels 290 and 292 form a rear upper appearance and have a shape corresponding to the upper upper upper panels 230 and 232.

Accordingly, the upper rear upper panels 290 and 292 are formed of a rear upper left panel 290 and a rear upper right panel 292, and the upper rear upper panel 290 and the upper upper right panel 292. Between the rear upper frame 294 is further provided. The rear upper frame 294 has a shape corresponding to the front upper frame 240 to support the pair of rear upper panels 290 and 292.

The frame assembly 300 is provided inside the cabinet 200. The frame assembly 300 is for supporting components such as the shrouds 420 and 422 and the blowing fan 400 to be described below, and is installed on the top of the front panels 210 and 212.

On the upper side of the frame assembly 300, a pair of blowing fans 400 and a fan motor 410 are installed. In addition, the pair of blowing fans 400 are surrounded by a pair of shrouds 420 and 422. That is, the left side shroud 420 and the right shroud 422 having the same shape are installed above the frame assembly 300, and the blowing fan 400 is positioned inside the pair of shrouds 420 and 422. Done.

The heat exchanger 450 is installed inside the cabinet 200. The heat exchanger 450 is configured to exchange heat between the refrigerant flowing inside and the outside air, and is installed over the upper left end, the rear end, and the right end of the base assembly 100. That is, as shown, the heat exchanger 450 has a '∩' shape (as viewed from above).

Meanwhile, various components such as a compressor and an accumulator are installed above the base assembly 100. An example of the accumulator 470 installed in the base assembly 100 is illustrated in FIG. 3.

The accumulator 470 as shown serves to filter the liquid refrigerant in the refrigerant flowing into the compressor (not shown).

The accumulator 470 may include a main body 472 having a refrigerant accommodating space therein, and an inlet pipe 474 and an outlet pipe configured to communicate with the inside of the main body 472 to guide the in and out of the refrigerant. 476).

The main body 472 is formed in a cylindrical shape is installed upright and upright, and is installed through the upper surface of the main body 472 of the inlet pipe 474, the lower end of the inlet pipe 474 is bent It is formed to face laterally.

The reason why the lower end of the inlet pipe 474 is formed toward the side (wall surface) as described above is to allow the cyclone flow to be formed inside the main body 472 of the refrigerant flowing through the inlet pipe 474. to be. When the refrigerant is spirally moved by the cyclone flow in the main body 472, the liquid refrigerant and the gas refrigerant are more easily separated.

The outlet pipe 476 is also installed to penetrate the upper surface of the main body 472 like the inlet pipe 474, the upper end of the predetermined portion protrudes upward.

In addition, a plurality of (three or four) support legs 478 are formed at the lower end of the main body 472. The support leg 478 supports the accumulator 470 to be fixed to an upper surface of the base assembly 100.

On the other hand, the pressure sensor 480 is installed on the body 472 of the accumulator 470. The pressure sensor 480 serves to measure the low pressure side refrigerant pressure of the air conditioner, and the pressure value of the refrigerant measured by the pressure sensor 480 is transmitted to a controller (not shown). It is a reference for controlling operation.

In more detail, a sensor guide tube 482 protruding laterally is formed on an outer circumferential surface of the body 472 of the accumulator 470, and the pressure sensor 480 is installed at an end of the sensor guide tube 482. . That is, the sensor guide tube 482 has a shape bent one time to have an 'L' shape when viewed from the side as shown, the pressure sensor 480 on the top of the sensor guide tube 482 Is fitted.

In addition, the sensor guide tube 482 communicates with the interior of the accumulator 470 so that the refrigerant pressure inside the accumulator 470 is transmitted to the pressure sensor 480. That is, the sensor guide tube 482 is made of a thin pipe (pipe) is formed so as to communicate with the interior of the accumulator 470.

Accordingly, the pressure inside the accumulator 470 is measured by the pressure sensor 480, and the pressure measurement value is transmitted to a controller (not shown) to become a low pressure side refrigerant pressure value of the air conditioner. When the low pressure side refrigerant pressure value is transmitted to the control unit as described above, the control unit controls the air conditioner operation with reference to such data.

The scope of the present invention is not limited to the above-exemplified embodiments, and many other modifications based on the present invention will be possible to those skilled in the art within the above technical scope.

For example, in the above embodiment, the pressure sensor 480 is installed at the end of the sensor guide tube 482, but in addition to this configuration, the pressure sensor 480 is the accumulator 470 main body ( Of course, it is also possible to be configured to be directly fixed to the side or the upper surface of the 472.

1 is a perspective view showing the appearance of an outdoor unit constituting a preferred embodiment of the air conditioning according to the present invention.

Figure 2 is an exploded perspective view showing the configuration of an outdoor unit constituting a preferred embodiment of the air conditioner according to the present invention.

3 is a perspective view showing a configuration of an accumulator constituting an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10. Outdoor unit 100. Base assembly

200. Cabinet 210. Front left panel

212. Right front panel 220. Front center frame

250. Left panel 260. Right panel

300. Frame assembly 400. Blower fan

410. Fan motor 420. Left shroud

422. Right shroud 450. Heat exchanger

470. Accumulator 480. Pressure sensor

Claims (3)

In an air conditioner equipped with an accumulator, The accumulator is A main body having a refrigerant accommodating space formed therein, and an inlet pipe and an outlet pipe which are formed to communicate with the inside of the main body to guide the in and out of the refrigerant; The main body, the air conditioner, characterized in that the pressure sensor for measuring the refrigerant pressure of the low pressure side of the air conditioner. The main body outer peripheral surface of the accumulator, A sensor guide tube protruding to the side is formed, wherein the pressure sensor is installed on the end of the sensor guide tube. The method of claim 2, wherein the sensor guide tube, In communication with the interior of the accumulator, the air conditioner characterized in that the refrigerant pressure inside the accumulator is transmitted to the pressure sensor.

Images