KR920000702B1 - Air-conditioner - Google Patents

Abstract

The main body (1) includes an air compression section (11) in its middle and a power generating section (12) on the right side. A rotary shaft (2) is mounted to pass through the center of the body (1) and protrude out of the body at both ends. The power generating means includes a stator (31) mounted on the inner wall of the body (1) and a rotor (32) mounted on the shaft (2). The compression generating means (4) includes an ecentric piston (41) mounted on the shaft (2) with rotary pump.

Description

Blowing / compression power generator of air conditioner

1 is a schematic cross-sectional view showing the configuration of a blowing / compression power generating device for an air conditioner according to the present invention.

2 is an enlarged cross-sectional view of a portion A-A of FIG.

* Explanation of symbols for the main parts of the drawings

1: main body 2: rotating shaft

3: power generating means 4: pressure generating means

5: blowing member

The present invention provides a variety of air conditioners that are air-conditioning by using a cooling cycle such as cooling or freezing, refrigerator, etc., air blowing for the heat exchange between the evaporator and the condenser and the compression of the refrigerant to operate as a single drive source It relates to a compression power generator.

As an air conditioner using a cooling cycle such as a freezer or a refrigerator for cooling a room or storing foods, air conditioning is generally performed continuously and repeatedly by four steps of compressing, condensing, expanding, and evaporating a refrigerant. By the way, the compression process of the refrigerant and the condensation and evaporation process for performing each process, that is, the compression means for the compression and the blowing means for heat exchange in the condensation and evaporation, and the corresponding process is driven by a separate means that is dualized.

In more detail, the compression of the refrigerant is achieved by installing a compression means with a built-in power generator on the refrigerant circulation circuit, and turning the rotational force from the power generator into a reciprocating motion to achieve suction and compression of the refrigerant. Evaporation is performed by drawing the same rotating shaft outwards in front and rear of a separate power generator and installing blower fans of the blower type and the propeller type in the front and rear rotating shafts, respectively.

As a result, two sets of power generators are used for the compression, condensation and evaporation of the refrigerant, which increases the volume and weight of the air conditioner and increases the manufacturing cost of the power generator. In addition, each power generator was driven separately, so power consumption was high, and there was an uneconomical defect. The additional facilities for installation were unnecessarily narrowed, reducing the use space and operating noise of two sets of power generators simultaneously. There is a defect that occurs and degrades the productability, such as noise pollution.

The present invention has been made in consideration of the above circumstances, and provides an air conditioner / compression power generating device for an air conditioner that has an excellent manufacturing ability, product quality, and economic feasibility, and at the same time reduces the number of parts to reduce the size and weight of a product. Is in. That is, in the present invention, the power generating chamber and the compression generating chamber are partitioned in the longitudinal direction inside the rectangular main body, and on the horizontal center line of the main body, the rotating shaft passes through the compression generating chamber and the power generating chamber and protrudes outward to the left and right ends of the main body. And freely rotated, and at the same time the compression generating means and the power generating means are installed on the rotating shaft located in the compression and power generating chamber, and the transmission means for reducing the rotating force transmitted from the rotating shaft to both ends of the rotating shaft, respectively. After installation, it is connected to the air blow member for the indoor convection and air cooling to each of the transmission means.

In particular, the present invention is divided into the power generating chamber and the compression generating chamber in the interior of the main body after passing through the power and compression generating chamber in the horizontal direction to install the rotating shaft protruding to the left and right ends of the main body to be freely rotated By installing a blower member at both ends, the compression, condensation, and evaporation are driven by a single power generator, thereby reducing the number of electronic components and providing economic efficiency.

Next, embodiments of the present invention will be described in detail with reference to the drawings. The figure shows a blower / compression power generator of an air conditioner used in an air conditioner, in which 1 is the main body of the power generator. The main body 1 is formed in a rectangular shape by enclosing the circumference of the body in a hermetic shape, and at least one partition wall 1A is provided with a predetermined length in a longitudinal direction intersecting with the longitudinal direction of the body. Moreover, each space part separated into the inside of the main body 1 as 1 A of said partitions is arbitrarily selected, and is comprised from the pressure generating chamber 11 and the power generating chamber 12. As shown in FIG.

In the present invention, as shown in FIG. 1, the power generating chamber 12 is used at the inside right side of the main body 1, and the pressure generating chamber 11 is used at the central portion thereof. In addition, the rotating shaft 2 penetrates through the power generating chamber 12 and the pressure generating chamber 11 on the inner horizontal direction of the main body 1, that is, on the longitudinal center line of the main body 1, and protrudes outward from the left and right ends of the main body 1. It is installed to rotate freely. In addition, each part located in the power generating chamber 12 and the pressure generating chamber 11 in the rotating shaft 2 will be described again according to the function performance. The power generating chamber 12 includes the power generating means 3. In the pressure generating chamber 11, pressure generating means 4 were provided, respectively.

In addition, the power generating means 3 is composed of a stator 31 fixedly installed on the inner circumferential wall of the main body 1 and separated by a rotor 32 coupled to the rotation shaft 2 and an interference fit. When the stator 31 is supplied to the rotor 32, the polarity is sequentially changed in each part, thereby rotating the rotor 32, thereby generating the rotational force while the rotation shaft 2 cooperates. Moreover, the pressure generating means 4 is comprised by the piston 42 of the eccentric on the rotating shaft 2, and the cylinder 42 surrounding it by the rotor pump type.

Thus, when a rotational force is generated in the power generating means 3, the pressure generating means 4 is driven at the same time to perform the compression process. On the other hand, on both ends of the rotating shaft 2 protruding outwardly from the left and right ends of the main body 1, the speed of rotation of the compression drive is reduced to transfer the power to the blower member 5 to be described later. Means 6 are provided.

The transmission means 6 is composed of a main gear 61 and a driven gear 62 having a diameter larger than the outer diameter of the main gear 61 by cutting the end peripheral wall of the rotation shaft 2. Is covered with a lid (63). In addition, the driven gear 62 of each transmission means 6 is installed to extend the power transmission shaft (7) in a directional direction and a blowing fan (5) for condensation and evaporation is installed at the end of the power transmission shaft (7), At this time, the blowing fan (5) is composed of a blower type or a propeller type suitable for condensation and evaporation.

Therefore, the power generating means 3 and the pressure generating means 4 are installed on the same center line in the main body 1 so that two functions can be driven simultaneously using one rotating shaft 2 and at the same time By drawing the both ends of the coaxial (2) outward to the main body (1) to transmit the driving force of the blowing fan (5) in a trend, by using a single power generating means (3) to enable compression and blowing, that is, condensation and evaporation Therefore, it has the advantage of completely eliminating the problems caused by the use of two power generators in the past, reducing the number of electronic components, miniaturizing and lightening the product, and reducing the manufacturing cost, and at the same time, reducing operating noise and reducing operational noise. There is an effect to increase the productability.

Claims (1)

A compression generating device of an air conditioner having a main body, the compression generating means being driven by a rotating shaft of the power generating means and the power generating means, the power generating means and the pressure generating means in the main body. Is arranged appropriately in the transverse direction on the same center line, and the rotation axis of the power generating means is installed over the entire length of the main body on the horizontal center line of the main body so that both ends of the rotation shaft are cut out to both ends of the main body, A blower / compression power generating device for an air conditioner, characterized in that the blower member cooperates with the transmission means at both ends of the rotating shaft.

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