KR830001948B1 - Fluid Suction Device - Google Patents

Abstract

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Description

Fluid Suction Device

1 is a known device cross-sectional view.

FIG. 2 is a cross-sectional view showing a state in which a suction valve is pushed through a gasket between cylinder blocks in FIG.

3 is a cross-sectional view of the valve plate of FIG.

4 is an enlarged view of a portion A of FIG.

5 is a cross-sectional view of one embodiment according to the present invention.

6 is a cross-sectional view showing a state in which a suction valve is attached to a cylinder block with a gasket interposed therebetween in FIG.

7 is a cross-sectional view showing a state in which the suction valve is removed in FIG.

8 is a cross-sectional view of the intake valve of FIG.

9 is a cross-sectional view showing a state in which the intake valve is pushed by sandwiching a gasket in the cylinder block according to the embodiment of the present invention.

10 is a cross-sectional view taken along the line 10-10 of FIG.

11 is a cross-sectional view taken along the line 11-11 of FIG.

12 is a cross-sectional view showing a state in which the suction valve of FIG.

13 is a cross-sectional view of the intake valve of FIG.

The present invention relates to a fluid intake and drainage device having a cylinder block having a plurality of cylinders and a piston reciprocating in these cylinders, in particular in such a device, an airtight structure between adjacent cylinders.

Known fluid absorbing devices of this type include the formation of a plurality of cylinders 2 parallel to the cylinder block 1, as shown in FIGS. 1 to 3, on the circumference and the pistons in these cylinders 2. Each of the valves (3) is tightly inserted so that these pistons (3) can be reciprocated by a suitable driving device not shown in the drawing. A thin plate gasket (10) on a cylinder block (1) is provided with a valve plate assembly (9) formed by overlapping and fixing the discharge valve (6) and the stop plate (7) made of metal sheets with a bolt and a nut device (8). It is known that the cylinder heads (11) common to each of the cylinders (2) are placed on the cylinder blocks (1) and are fixed to the cylinder block (1) by bolts (12).

Here, the valve plate 4 has an inlet port 4a and an outlet port 4b corresponding to each of the cylinders 2, and the inlet valve 5 is disposed between the valve plate 4 and the gasket 10. In the fitted central portion 5a, it has a plurality of leads 5b extending outward in the radial direction to correspond to each inlet 4a, and a hole 5c is provided corresponding to the outlet 4b, and a discharge valve ( The lead of 6) is provided on the surface opposite to the inlet valve attaching surface of the valve plate 4 so as to correspond to each outlet 4b, and the gasket 10 is located at the position corresponding to the cylinder 2 at the opening 10a. Have In addition, between the cylinder block 1 and the valve plate 4, a portion where the suction valve 5 and the gasket 10 overlap and a portion where only the gasket 10 is placed may be formed, and thus the gap between these two differences may occur. In order to eliminate the problem, a shallow groove 13 is provided in the portion corresponding to the center portion 5a of the intake valve 5 among the openings of the cylinder 2 of the cylinder valve 10.

As described above, according to the fluid suction and drain apparatus shown in FIGS. 1 to 3, the airtightness is maintained regardless of a complicated structure requiring the use of a plurality of O-rings, and the suction port Since the fluid can be sucked into the cylinder 2 through 4a) and at the same time, the fluid suction and discharge action can be precisely discharged through the discharge port 4b, it is suitable for use as a pressure gauge of a cooling device using a refrigerant as a fluid. It is suitable.

However, the following problem arises here. That is, as shown in FIG. 4, the space 14 is formed at the edge of the groove 13, and the space 14 is connected between the cylinders 2 fitted together through the space 14. The fluid leaks through and the absorption efficiency is lowered.

The lead 5b of the intake valve 5 enters the opening 10a of the gasket 10 in substantially the same plane as the gasket 10, but corresponds to the lead 5b in the opening 10a of the gasket 10. There is also a problem that the volume is lowered because the portion that is not is a space, which increases the volume of re-expansion of the compressed fluid.

Accordingly, an object of the present invention is to provide a fluid intake and drainage device in which a plurality of cylinders are installed in one cylinder block, to be easily manufactured at a reasonable cost, and to ensure more airtight to improve the intake and drainage efficiency. .

Still another object of the present invention is to provide a fluid intake and drainage device which can easily improve volumetric efficiency.

Hereinafter, the present invention will be described in detail with reference to the drawings.

One embodiment according to the invention of FIGS. 5 to 8 is a compressor for use in a cooling device, in which the intake valve 5 'is a plurality of leads 5'b extending radially in the radial direction from the center 5'a. ), Each of the protruding pieces 5'd extends from the central portion 5'a to the radial pillow.

The tip of these protruding pieces 5'd has a radius larger than the distance l between the line segment connecting the centers of the cylinders 2 which meet each other in the circumferential direction and the center O ₁ of the cylinder block 1. A circle follows the circle of (γ).

On the other hand, on the surface between the center O ₁ of the cylinder block 1 'and the cylinder opening, the circular groove 13 having a radius γ' slightly larger than the radius γ of the circle defining the protruding length of the protruding piece 5'd. Form '). The depth of this groove 13 'is made to correspond almost to the thickness of the intake valve 5'.

A valve tube combination 9 'including such a suction valve 5' is brought into close contact with the gasket 10 between the cylinder block 1 'with the cylinder mechanism.

At this time, the protruding piece 5'd of the intake valve 5 'corresponds to the portion between the cylinders 2 of the cylinder block 1'. At this time, the relative position between the cylinder block 1 'and the valve tube combination 9' can be accurately made by using the positioning pins.

In addition, the cylinder head 11 is overlapped with the valve tube assembly 9 'and these are fastened and fixed to the cylinder block 1' by the bolt 12. In this case, since the portion corresponding to the intake valve 5 'of the gasket 10 is pushed into the groove 13', the gasket 10 is substantially disposed between the cylinder block 1 'and the valve tube 4. There is no gap in the tightly tightened state.

Thus, the airtightness of the outer edge portion and the peripheral portion of the hole 16 for inserting the bolt 12 is maintained without using an O-ring.

In any case, however, the space 14 'is formed at the edge of the circular groove 13' as shown in FIG. 4, but since the radius of the groove 13 'is sufficiently larger than the distance l, this space 14' The width between the cylinders is considerably larger than the width between the cylinders in the radius l portion, so that there is little fear of fluid (refrigerant gas) leaking between each cylinder 2 through this space 14 '. In addition, there is almost no decrease in absorption efficiency. However, when the radius of the groove 13 'is smaller than the distance l, the shape of the groove 13' is increased to increase the width between cylinders in relation to the width of the lead 5'b of the intake valve 5 '. It must be designed into a curved shape other than circular, which makes machining extremely difficult. In addition, the radius γ must be determined so that the groove 13 'does not touch the hole 16.

9 to 13 show the second embodiment, in which the protruding piece 5 " d of the intake valve 5 " is widened to a position opposite to the circular mechanism of the cylinder 2. As shown in FIG. Further, the lead 5''b of the intake valve 5 '' is formed deeper than that of the first embodiment above, and the protrusion 5''d has a protrusion (5''b) in the shape of conforming to the lead 5''b. Form 5''e).

The opening 10''a of the gasket 10 '' accepts the tip of the lead 5''b and the projection 5''e (10''b) (10''c). The cylinder block 1 "is provided with the groove 17 which receives the front-end | tip of the lead 5" b corresponding to the cylinder 2, respectively. Thus, during the compression operation, the lead 5''e and the protruding piece 5''e of the intake valve 5 '' are in the same plane so that the opening is not substantially blocked in the cylinder 2. It is supposed to be arranged.

According to this, the volume of re-expansion of the compressed fluid (refrigerant gas) can be made smaller, thereby improving the volumetric efficiency. In the suction operation, the groove 17 is in contact with the wall of the portion near the tip of the lead 5''b, so that the shaking of the lead 5''b is limited to some extent.

Claims (1)

In the cylinder block 1, a plurality of cylinders 2 are formed in a circumference parallel to each other, and a groove 13 connecting all the cylinders is dug in the center of one side thereof, and the inlet ( The valve plate 4 having the 4a) and the discharge port 4b is fixed to the cylinder block, and the suction valve 5 made of the metal sheet has a smaller radius than the valve plate and corresponds to the central portion 5a and the respective intake ports 4a. It consists of a plurality of leads (5b) extending in the radial direction, the suction valve is received in the groove (13) described above and fixed between the cylinder block (1) and the valve plate (4), and similar size to the valve plate In the fluid suction device wherein the gasket 10 is disposed between them, and the discharge valve 6 is installed on the other side of the valve plate, the suction valve 5 'is provided between the center portion 5'a between the leads 6'. ) And protrusions 5'd extending radially in the direction of The tip of the convenience forms an arc along a circle with a radius greater than the distance l between the line segment connecting the centers of adjacent cylinders and the center of the cylinder block (O ₁ ), and slightly smaller than the radius (γ) on the opening of the cylinder block. Forming a large radius circular groove (13 '), the depth of the groove being corresponding to the thickness of the suction valve.

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