KR100480122B1 - Capacity variable device for scroll compressor - Google Patents

Abstract

The present invention relates to a variable capacity device of a scroll compressor, the present invention is to form a wrap to form a compression chamber on one side and to form at least one through-pass bypass flow passage from the compression chamber to the outside to be fixed in the casing An exhaust control valve installed in the middle of the fixed scroll and the fixed side bypass flow path to open and close the fixed side bypass flow path, a valve control unit electrically connected to the exhaust control valve to control the opening and closing operation of the exhaust control valve; At least one swing side bypass flow path is formed to engage with the power mechanism and form a wrap on one side to engage with the wrap of the fixed scroll to form a compression chamber together and to periodically communicate with the outlet of the fixed side bypass flow path. By constructing the rotating scroll which is formed through the above, it is possible to use the expensive parts such as the inverter motor without using Since the capacity of the compressor can be varied, the manufacturing cost of the variable scroll compressor can be reduced.

Description

CAPACITY VARIABLE DEVICE FOR SCROLL COMPRESSOR}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a variable capacity apparatus of a scroll compressor, and more particularly, to a variable capacity apparatus of a scroll compressor for bypassing a part of the compressed gas of the compression chamber so as to change the capacity.

In general, a compressor converts mechanical energy into compressive energy of a compressive fluid, and is generally classified into reciprocating type, scroll type, centrifugal type, and vane type.

Unlike a reciprocating type using a linear motion of a piston, a scroll type compressor is a compressor that sucks and discharges gas by using a rotating body like a centrifugal type or a vane type.

Most of these scroll compressors are applied to an air conditioner such as an air conditioner. In order to meet the multi-functionality of the air conditioner, the scroll compressor is also in demand for a product that can vary in capacity. To this end, a method of varying the compressor capacity by controlling the number of revolutions of the compressor is mainly known. However, since a complicated controller must be provided, it is a factor that increases the product price. Therefore, it is necessary to provide an inexpensive and stable capacity variable device. There is. The present invention is directed to this.

1 is a longitudinal sectional view showing an example of a conventional scroll compressor.

As shown in the drawing, a conventional scroll compressor includes a casing 1 having a gas suction pipe SP and a gas discharge pipe DP, a main frame 2 fixed to upper and lower sides of the inner circumferential surface of the casing 1, and A sub-frame (not shown), a drive motor 3 mounted between the main frame 2 and a sub-frame (not shown), and a driving motor 3 inserted into the center of the drive motor 3 and driven through the main frame 2 Drive shaft (4) for transmitting the rotational force of the motor (3), the turning scroll (5) coupled to the drive shaft (4) on the upper surface of the main frame (2), coupled to the turning scroll (5) a plurality of compression A fixed scroll (6) fixed to the upper surface of the main frame (2) to form a seal, and a discharge plate for engaging the back of the fixed scroll (6) to partition the inside of the casing (1) into a suction pressure region and a discharge pressure region. A check valve assembly 8 coupled to the back surface of the hard plate portion of the fixed scroll 6 to prevent the reverse flow of the discharged gas. It includes.

In the swinging scroll 5 and the fixed scroll 6, wraps 5a and 6a, which are engaged with each other and form a plurality of compression chambers P, are formed in an involute shape, respectively, and the wraps 5a and 6a. Tip seal grooves (unsigned) are formed in the tip end surfaces of the wraps 5a and 6a so as to prevent the leakage of compressed gas between the tip end surface of the wrapper and the flat plate portions 5b and 6b facing it. And an involute tip seal member 5c and 6c are inserted and coupled to move up and down.

In the figure, 6d, which is not described, represents an intake port, and 6e represents an outlet port.

The conventional scroll compressor as described above operates as follows.

That is, while the drive shaft 4 is rotated together with the drive motor 3 by the applied power source, the turning scroll 5 turns by an eccentric distance, and the turning scroll 5 is wrapped with the fixed scroll 6. A plurality of compression chambers (P) are formed between (5a, 6a), and the compression chamber (P) is moved to the center by the continuous turning movement of the turning scroll (5), and the volume decreases to suck and compress the refrigerant gas. It was to repeat a series of processes after the discharge.

However, the conventional scroll compressor as described above should vary the capacity of the compressor from low to high capacity or from high to low capacity according to the utilization of the air conditioner as mentioned above, in which case the scroll compressor typically uses an inverter motor to rotate the scroll scroll. Inverter method is applied to increase or decrease the number of revolutions of (5), but this has a problem that the manufacturing cost of the compressor is excessively increased by using an expensive inverter motor with a wide range of variable capacity and excellent performance.

The present invention has been made in view of the problems of the conventional variable capacity of the scroll compressor, it is an object of the present invention to provide a variable variable capacity of the scroll compressor while being able to effectively vary the compressor capacity.

In order to achieve the object of the present invention, a casing for communicating the suction pipe and the discharge pipe, and a wrap to form a compression chamber on one side and at least one of the fixed side bypass flow passage from the compression chamber to the outside through the casing An exhaust control valve fixedly installed in the inside, an exhaust control valve installed in the middle of the fixed side bypass flow path and opening and closing the fixed side bypass flow path, and electrically connected to the exhaust control valve to control the opening and closing operation of the exhaust control valve. Swivel side bypass flow path is formed in one side to engage the valve control unit and the electric mechanism, and to engage with the lap of the fixed scroll to form a compression chamber together and to periodically communicate with the outlet of the fixed side bypass flow path. Variable capacity of the scroll compressor, characterized in that consisting of a rotating scroll to form at least one through Provide the device.

Hereinafter, a variable displacement device of a scroll compressor according to the present invention will be described in detail with reference to an embodiment shown in the accompanying drawings.

Figure 2 is a longitudinal sectional view showing an example of the scroll compressor of the present invention, Figure 3 is a perspective view showing the fixed scroll and the scroll scroll of the scroll compressor of the present invention, Figure 4 is a main part of the variable capacity device of the scroll compressor of the present invention Figure 5 is a schematic view, Figure 5 is a detailed view showing the exhaust state of the compressed gas during low capacity operation of the scroll compressor of the present invention.

As shown in the drawing, the scroll compressor including the variable capacity device according to the present invention includes a casing 1 having a gas suction pipe SP and a gas discharge pipe DP, and upper and lower sides of an inner circumferential surface of the casing 1, respectively. A main motor 2 and a subframe (not shown) to be fixed, a drive motor 3 which is mounted between the main frame 2 and the subframe (not shown) and rotates at a constant rotational speed at all times, and a drive motor 3 Drive shaft (4) press-fitted to the center of the main frame (2) and transmits the rotational force of the drive motor (3), and a turning scroll (20) coupled to the drive shaft (4) and mounted on the upper surface of the main frame (2). 5), a fixed scroll (6) fixed to the upper surface of the main frame (2) to be coupled to the swinging scroll (5) to form a plurality of compression chambers, and coupled to the fixed scroll (6) according to the operation state of the compressor By supplying a part of the suction gas or a part of the discharge gas to the tip chamber groove 6c to be described later, the tip chamber member ( And a back pressure gas supply unit 10 that adds or subtracts the airtightness of 6d).

The orbiting scroll 5 forms a disk portion 5b in the shape of a disk, and the upper surface of the rigid plate portion 5b is engaged with the wrap 6a of the fixed scroll 6 to be described later to form a plurality of compression chambers P. (5a) is formed in an involute shape. A tip seal groove (not shown) is formed in the tip end surface of the wrap 5a to slide the tip seal member 5c up and down.

In addition, the outer side of the hard plate portion 5b of the turning scroll 5, and the outer edge of the wrap 5a, which is an edge, as shown in FIG. A turning side bypass passage 11 capable of periodically communicating with the outlet end 12 of the side bypass passage is formed. It is preferable that the turning side bypass passage 11 penetrates perpendicularly to a position outside the diameter range of the main frame 2 when communicating with the fixed side bypass passage 12.

The fixed scroll 6 engages with the wrap of the swinging scroll 5 on the bottom of the hard plate portion 6b to form a wrap 6a to form a compression chamber in an involute shape, and the hard plate portion of the swinging scroll 5 ( 5b) A tip seal groove (unsigned) is formed in the tip end face of the wrap 6a of the fixed scroll 6 corresponding to the upper surface so as to slide the tip seal member 6c up and down.

In the compression chamber P formed between the lap 6a and the lap 6a, the outer surface of the lap 6a of the fixed scroll 6, that is, the lap of the turning scroll 5, in the plane portion corresponding to the intermediate pressure. As the surface in contact with the outer plane, as shown in FIG. 3, the turning side bypass of the turning scroll 5 in consideration of the turning trajectory of the turning scroll 5 so as to periodically communicate with the turning side bypass flow passage 11 described above. An exhaust control valve 13 is formed through the fixed side bypass passage 12 at a position where the passage passage 11 can periodically meet, and controls the exhaust of the compressed gas in the middle of the fixed side bypass passage 12. Install it.

The fixed side bypass passage 12 may penetrate into the curved plate portion 6b of the fixed scroll 6 in a number of times bent, but considering the convenience of manufacturing, the plane between the wraps 6a as shown in FIG. And a first fixed side bypass flow passage 12a penetrating to the outer circumferential surface of the hard plate portion 6b, and independently of the first fixed side bypass flow passage 12a, the outer circumferential surface of the hard plate portion 6b of the fixed scroll 6 is formed. The second fixed side bypass passage 12b penetrating at the middle of the wrap outer plane, i.e., at the point where it periodically meets the turning side bypass passage 11 of the turning scroll 5 during the turning movement of the turning scroll 5 described above. ) May be formed to connect the first fixed side bypass passage 12a and the second fixed side bypass passage 12b to the connecting pipe 14. The exhaust control valve 13 described above is provided in the middle of the connecting pipe 14.

The exhaust control valve 13 is composed of a solenoid valve, so that the valve control unit 15 for controlling the opening and closing of the valve 13 electrically is provided outside the casing 1 to stably control the valve 13. desirable.

In the drawings, the same reference numerals are given to the same parts as in the prior art.

In the drawings, reference numeral 6d denotes an inlet port, 6e a discharge port, 7 a discharge plenium, and 8 a check valve assembly.

The variable capacity device of the scroll compressor of the present invention as described above has the following effects.

That is, while the drive shaft 4 rotates together with the drive motor 3 by the applied power source, the turning scroll 5 rotates by an eccentric distance, and together with the wrap of the turning scroll 5 and the fixed scroll 6 A plurality of compression chambers (P) are formed in pairs between 5a and 6a, and the compression chamber (P) moves to the center by the continuous rotational movement of the turning scroll (5) and decreases in volume, thereby sucking and compressing the refrigerant gas. The process of discharging is repeated.

Here, when the system control unit for controlling the air conditioner senses the temperature of the heat exchanger and commands the compressor to be in normal operation, the exhaust control valve 13 is connected to the connection pipe (exactly fixed) by the valve control unit 15 which receives the command. The side bypass flow passage 14 is blocked to prevent the compressed gas inside the compression chamber P from being exhausted so that the compressor operates normally.

On the other hand, when the system control unit senses the temperature of the heat exchanger and commands the compressor to require low volume operation, the valve control unit 15 that received the power is applied to the exhaust control valve 13 to open the connecting pipe 14 and compress it. A part of the compressed gas of the seal P is exhausted. In this case, as shown in FIG. 4, the fixed side bypass passage 12 and the turning side bypass passage 11 form an inlet and outlet on a wrap outer surface of the scroll contacting with each other, even though the exhaust control valve 13 is opened. Instead of being continuously exhausted, the turning scroll 5 rotates with respect to the fixed scroll 6 and periodically exhausts compressed gas only when the two bypass passages 11 and 12 communicate with each other.

In this way, when the compressor has a low capacity operation, as shown in FIG. 5, a part of the compressed gas in the compression chamber passes through the fixed side bypass flow passage, passes through the swing side bypass flow passage through the open exhaust control valve, and is compressed into the casing. The pressure in the seal can be lowered to an appropriate pressure. In this case, the rotational speed of the turning scroll is kept the same as in the normal operation, so that the pressure of the discharged gas is not excessively reduced, but it is not necessary to have an expensive controller for controlling the rotational speed of the turning scroll. Can reduce the manufacturing cost.

The variable capacity of the scroll compressor according to the present invention, when the compressor is low-capacitance operation to reduce the pressure in the compression chamber by periodically exhausting a part of the compressed gas while maintaining the rotational speed of the swing scroll to the same as in normal operation In this configuration, the capacity of the compressor can be varied without using expensive components such as an inverter motor, thereby reducing the manufacturing cost of the variable scroll compressor.

1 is a longitudinal sectional view showing a part of a conventional scroll compressor.

Figure 2 is a longitudinal sectional view showing an example of the scroll compressor of the present invention.

3 is an exploded perspective view showing a fixed scroll and a scroll scroll of the present invention scroll compressor;

4 is a schematic view showing the main operation of the variable displacement device of the scroll compressor of the present invention;

Figure 5 is a detailed view showing the exhaust state of the compressed gas during low capacity operation of the scroll compressor of the present invention.

** Description of symbols for the main parts of the drawing **

5: turning scroll 6: fixed scroll

10: back pressure gas supply unit 11: the turning side bypass flow path

12: fixed side bypass passage 12a, 12b: first and second fixed side bypass passage

13 exhaust control valve 14 connector

15: exhaust control unit

Claims (3)

A casing which connects the suction pipe and the discharge pipe to each other; A fixed scroll which forms a wrap to form a compression chamber on one side and penetrates at least one fixed side bypass flow path from the compression chamber to the outside to be fixedly installed in the casing; An exhaust control valve installed in the middle of the fixed side bypass flow path for opening and closing the fixed side bypass flow path; A valve control unit electrically connected to the exhaust control valve to control the opening and closing operation of the exhaust control valve; At least one swing side bypass flow path is formed to engage with the power mechanism and form a wrap on one side to engage with the wrap of the fixed scroll to form a compression chamber together and to periodically communicate with the outlet of the fixed side bypass flow path. A variable displacement device of a scroll compressor, characterized by comprising a swinging scroll formed through the above. The method of claim 1, The exhaust control valve is a variable displacement device of the scroll compressor, characterized in that the solenoid valve. The method of claim 1, A variable capacity device of a scroll compressor, characterized in that the valve control unit is installed outside the casing.