KR100918949B1 - Reciprocating compressor - Google Patents

Abstract

The present invention relates to a reciprocating compressor, the present invention comprises a reciprocating motor having a reciprocating mover; At least two cylinders formed parallel to the same frame so as to be located in one of the two moving directions of the mover, and at least two coupled to the cylinders to be independently inserted into the respective cylinders to reciprocate linearly By including a compression unit having at least two pistons, at least two suction valves independently installed to open and close the respective suction flow paths provided in the respective pistons, and a discharge valve for opening and closing the compression space of each cylinder, When the operator of the reciprocating motor reciprocates once, a plurality of compression units are formed by the number of cylinders to simultaneously compress the refrigerant gas, thereby greatly increasing the capacity of the compressor compared to the same input.

Description

Reciprocating Compressor {RECIPROCATING COMPRESSOR}

1 is a cross-sectional view showing an example of a conventional reciprocating compressor,

2 is an exploded perspective view of a part of a conventional compression mechanism,

3 is a cross-sectional view showing an example of the reciprocating compressor of the present invention;

4 is an exploded perspective view showing a part of the compression mechanism of the present invention;

5 is a schematic view showing an example of the position of each cylinder of the present invention;

6 is a front view showing a discharge cover of the compression mechanism of the present invention,

7 is a perspective view showing a modification of the discharge cover of the compression mechanism of the present invention.

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

10 casing 20 frame unit

21: Front frame 21a, 21b, 21c: Cylinder hole

30: reciprocating motor 31,32: stator

33: mover 50: resonant spring unit

52,53: resonant spring 100: compression unit

111,121,131: Cylinder 112,122,132: Piston

113,123,133: intake valve 150: discharge valve assembly

151,161,162,163: discharge cover 152: discharge valve                 

153: valve spring P1, P2: compression space

The present invention relates to a reciprocating compressor, and more particularly to a multi-cylinder reciprocating compressor having a plurality of cylinders and pistons in one reciprocating motor.

In general, reciprocating compressors inhale and compress gas while the piston moves linearly. These reciprocating compressors convert the rotational motion of the drive motor into reciprocating motion of the piston to suck and compress gas and the drive motor reciprocates linearly. There is a way to inhale and compress the gas by reciprocating the piston during the movement.

1 is a longitudinal sectional view showing an example of a conventional reciprocating compressor belonging to the latter, Figure 2 is a perspective view showing the conventional compression mechanism portion separated.

As shown in the drawing, the conventional reciprocating compressor includes a casing 10 for communicating the gas suction pipe SP and the gas discharge pipe DP, and a frame unit 20 elastically installed in the casing 10. And the frame unit 20 fixed to the frame unit 20 and coupled to the mover 33 of the reciprocating motor 30 and the reciprocating motor 30 in which the mover 33 reciprocates linearly. 20 and a resonant spring unit 50 which induces a resonant movement by elastically supporting the mover 33 of the reciprocating motor 30 in the movement direction.

The frame unit 20 includes a front frame 21 supporting the compression unit 40, an intermediate frame 22 coupled to the front frame 21 to support the front side of the reciprocating motor 30, and an intermediate The rear frame 23 is coupled to the frame 22 to support the rear side of the reciprocating motor 30. In the center of the front frame 21, as shown in Fig. 2, one cylinder hole 21a for inserting the cylinder 41 of the compression unit 40 to be described later is formed.

The reciprocating motor 30 is coupled to the outer stator 31 installed between the intermediate frame 22 and the rear frame 23 and the outer stator 31 at a predetermined interval to insert and fix the rear frame 21. The inner stator 32, the outer stator 31 and the inner stator 32 is provided between the movable member 33 to reciprocate in a straight line.

The compression unit 40 is coupled to the cylinder 41 coupled to the cylinder hole 21a of the front frame 21, and the compression space P of the cylinder 41 coupled to the mover 33 of the reciprocating motor 30. Piston 42 for reciprocating motion in (), suction valve 43 for limiting the suction of refrigerant gas while opening and closing the suction flow path (F) of the piston 42, the cylinder And a discharge valve assembly 44 mounted on the discharge side of 41 to limit the discharge of the compressed gas while opening and closing the compression space P.

The resonant spring unit 50 includes a spring support 51 coupled to the connecting portion of the mover 33 and the piston 42, and a front resonant spring 52 supporting the front side of the spring support 51. And a rear resonant spring 53 supporting the rear side of the spring support 51.

In the figure, reference numeral 44A denotes a discharge cover, 44B denotes a discharge valve, 44C denotes a valve spring, and M denotes a magnet.

The conventional reciprocating compressor as described above operates as follows.

That is, when a flux is formed between the outer stator 31 and the inner stator 32 by applying power to the reciprocating motor 30, the gap between the outer stator 31 and the inner stator 32 is formed. As the placed mover 33 moves in the direction of the flux, it continuously reciprocates by the resonant spring unit 50, with one piston 42 reciprocating inside one cylinder 41. The volume of the compression space P was changed to repeat a series of processes of sucking and compressing the refrigerant gas into one of the compression spaces P described above.

However, in the conventional reciprocating compressor as described above, as described above, only one cylinder 41 and one piston 42 each have a problem in that the compressor capacity is limited by configuring one compression unit per motor.

The present invention has been made in view of the problems of the conventional reciprocating compressor as described above, it is an object of the present invention to provide a reciprocating compressor that can increase the compressor capacity while controlling the stroke of the piston constant.

In order to achieve the object of the present invention, a reciprocating motor having a stator and a mover to reciprocate in both directions between the stator; At least two cylinders formed parallel to the same frame so as to be located in one of the two moving directions of the mover, and at least two coupled to the cylinders to be independently inserted into the respective cylinders to reciprocate linearly A compression unit having at least two pistons, at least two suction valves independently installed to simultaneously open and close the respective suction flow paths provided in the pistons, and a discharge valve for opening and closing the compression space of each cylinder; And it provides a reciprocating compressor including a resonant spring unit for inducing a resonant movement by supporting the mover of the reciprocating motor and the piston of the compression unit together.

Hereinafter, the reciprocating compressor according to the present invention will be described in detail based on the embodiment shown in the accompanying drawings.

Figure 3 is a cross-sectional view showing an example of the reciprocating compressor of the present invention, Figure 4 is a perspective view showing a part of the compression mechanism of the present invention, Figure 5 is a schematic view showing an example of the position of each cylinder of the present invention, Figure 6 Is a front view showing the discharge cover of the compression mechanism of the present invention.

As shown in the drawing, the reciprocating compressor according to the present invention includes a casing 10 for communicating gas suction pipes SP and gas discharge pipes DP, and a frame unit elastically installed in the casing 10. 20), the reciprocating motor 30 fixed to the frame unit 20 and the mover 33 reciprocates in a straight line, and the frame 33 coupled to the mover 33 of the reciprocating motor 30. A compression unit 100 supported by the unit 20 and having a plurality of compression units, and a resonant spring unit 50 which induces a resonant movement by elastically supporting the mover 33 of the reciprocating motor 30 in the movement direction. Include.

The frame unit 20 includes a front frame 21 supporting the compression unit 40, an intermediate frame 22 coupled to the front frame 21 to support the front side of the reciprocating motor 30, and an intermediate The rear frame 23 is coupled to the frame 22 and supports the rear side of the reciprocating motor 30.

In the center of the front frame 21, a plurality of cylinder holes 21a, 21b, 21c for inserting each of the cylinders 111, 121, 131 of the compression unit 100 are shown. Each cylinder hole 21a, 21b, 21c is formed on the same circumference of the cylinder circumferentially with respect to the center O of the mover 33 in consideration of the stability of the compression mechanism as shown in FIG. It is preferable to form so that the center of (21a) (21b) (21c) may be located.

In addition, each cylinder hole 21a, 21b, 21c can be formed so that it may be formed to the same diameter, but may have a different diameter depending on a case.

The reciprocating motor 30 is coupled to the outer stator 31 installed between the intermediate frame 22 and the rear frame 23 and the outer stator 31 at a predetermined interval to insert and fix the rear frame 21. The inner stator 32, the outer stator 31 and the inner stator 32 is provided between the movable element 33 to reciprocate in a straight line.

The compression unit 100 includes a plurality of cylinders 111, 121, 131 coupled to respective cylinder holes 21a, 21b, 21c of the front frame 21, and a mover of the reciprocating motor 30. A plurality of pistons 112, 122, 132 coupled to the 33 and reciprocating in the compression spaces P1, P2 (not shown) of each of the cylinders 111, 121, 131; A plurality of pistons 112, 122, and 132 attached to the tip of the piston 112, 122, 132 to open and close the suction flow path (F1) (F2) (not shown) of the piston 112, limiting the suction of the refrigerant gas Two suction valves 113, 123 and 133 and the discharge side of each of the cylinders 111, 121 and 131 to open and close the respective compressed spaces P1 and P2 (not shown). It consists of one discharge valve assembly 150 that limits the discharge.

The cylinders 111, 121 and 131 are provided with plural numbers so as to be inserted into the respective cylinder holes 21a, 21b and 21c independently, and the diameters of the cylinders 111, 121 and 131 are It is preferable to form the same diameter as described above, but in some cases, the diameter may be formed differently so as to change the volume of the compression spaces P1 and P2 (not shown).

In addition, the lengths of the cylinders 111, 121, and 131 are generally the same, but may be formed differently depending on the volume design of each compression space.

The pistons 112, 122, and 132 may be formed in the same diameter or length in accordance with the diameters and lengths of the cylinders 111, 121 and 131, or may be formed differently. In addition, even if the lengths of the cylinders 111, 121, and 131 are the same, the lengths of the pistons 112, 122, and 132 may be formed differently according to the volume design of the compression space.

Suction valves 113, 123, and 133 are independently installed at the front end surfaces of the pistons 112, 122, and 132, respectively.

The discharge valve assembly 150 has one discharge cover 151 covering the discharge side of the cylinders 111, 121 and 131 and a detachable side on the discharge side of the cylinders 111, 121 and 131. Discharge valve 152 and a valve spring 153 supporting the discharge valve 152.

Discharge cover 152 may be provided with one to cover the discharge side of all the cylinders 111, 121, 131 collectively as shown in Figures 4 and 6, but in some cases as shown in Figure 7 A plurality of discharge covers 161, 162, and 163 are provided to independently cover each of the cylinders 111, 121, and 131, so that each gas discharge pipe (exactly, a loop pipe) DP1 ( DP2) DP3 may be in communication with each other.

Discharge valve 152 and the valve spring 153 is preferably provided with the number of cylinders 111, 121, 131 so as to open and close each cylinder 111, 121, 131 independently.

The resonant spring unit 50 includes a spring support 51 coupled to the connecting portion of the mover 33 and the pistons 112, 122, 132, and a front supporting the front side of the spring support 51. It consists of a side resonance spring 52 and the back side resonance spring 53 which supports the back side of the spring support 51. As shown in FIG.

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

In the drawings, reference numeral M denotes a magnet.

The conventional reciprocating compressor as described above operates as follows.

That is, when a flux is formed between the outer stator 31 and the inner stator 32 by applying power to the reciprocating motor 30, the gap between the outer stator 31 and the inner stator 32 is formed. The movable mover 33 is continuously reciprocated by the resonant spring unit 50 as it moves in the direction of the flux, with each piston 112, 122, 132 being each cylinder 111, 121. The volume of the compression spaces P1 and P2 (not shown) is changed while reciprocating in the inside of 131, so that the refrigerant gas is sucked and compressed into one of the compression spaces and then discharged. .                     

Here, each of the pistons 112, 122, 132 described above when the mover 33 moves to the rear side as all of the pistons 112, 122, 132 couple to one mover 33. At the same time, while moving to the rear side, the refrigerant gas inside the casing 10 passes through each of the cylinders 111 and 121 through the suction flow paths F1 and F2 (not shown) of the pistons 112, 122, and 132 (not shown). Suction into the compression space P1 (P2) (not shown) of the 131, and then the pistons 33, 122, 132 together with the mover 33 are moved when the mover 33 moves forward. The refrigerant gas filled in each of the compression spaces P1 and P2 (not shown) is compressed while moving to the front side. As soon as the refrigerant gas pressure in each compression space rises to a certain pressure and reaches a critical pressure, one or each discharge valve 152 (not shown) is opened, and one discharge cover 151 or each discharge cover 161 is opened. 162, 163 are discharged to the refrigeration cycle apparatus at the same time through the gas discharge pipe (DP) (DP1) (DP2) (DP3).

In this way, the capacity of the compressor can be dramatically increased by forming a plurality of compression parts by the number of cylinders each time the mover of the reciprocating motor makes one reciprocating motion.

In the reciprocating compressor according to the present invention, by coupling a plurality of pistons to one mover and a cylinder to each of the pistons independently, the number of cylinders each time the mover of the reciprocating motor reciprocates once As the plurality of compression units are formed, as the refrigerant gas is compressed at the same time, the capacity of the compressor can be dramatically increased compared to the same input.

Claims (8)

A reciprocating motor having a stator and a mover for reciprocating in both directions between the stator; At least two cylinders formed parallel to the same frame so as to be located in one of the two moving directions of the mover, and at least two coupled to the cylinders to be independently inserted into the respective cylinders to reciprocate linearly A compression unit having at least two pistons, at least two suction valves independently installed to simultaneously open and close the respective suction flow paths provided in the pistons, and a discharge valve for opening and closing the compression space of each cylinder; And Reciprocating compressor including a resonant spring unit for inducing a resonant movement by supporting the piston of the compression unit and the mover of the reciprocating motor. The method of claim 1, The discharge valve is a reciprocating compressor is provided with one to open and close the compression space of each cylinder collectively. The method of claim 2, The compression unit has one valve spring for elastically supporting the discharge valve, and one discharge coupled to the frame to support the other end of the valve spring and selectively communicating with the respective compression spaces by opening and closing the discharge valve. A reciprocating compressor further comprising a discharge cover provided with a space. The method of claim 1, The discharge valve is a reciprocating compressor is provided with two or more to open and close the compression space of each cylinder independently. The method of claim 4, wherein The compression unit is coupled to the frame so as to support two or more valve springs each of which elastically supports the discharge valve, and the other end of each valve spring, and selectively with the respective compression spaces by opening and closing operations of the respective discharge valves. A reciprocating compressor further comprising two or more discharge covers provided with two or more discharge spaces to communicate with each other. The method of claim 1, Wherein each cylinder is formed to be different in diameter from each other. The method of claim 1, And each of the pistons is formed to be different from each other in length. The method according to any one of claims 1 to 7, And three or more cylinders and pistons, respectively.

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