KR0130214Y1 - Assembly structure of stirling cycle - Google Patents

Abstract

The present invention relates to an assembly structure of a sterling cycle machine, and since the sealing structure in the conventional sterling cycle machine is generally a rubber material of the O-ring used as the sealing material (7) (8) (9) (10), the internal cylinder ( 3) and the sealing material (7) (8) (9) and (10) of the sealing material in the corners (a) (b) (c) of the outer cylinder (5) during the assembly process of the outer cylinder (4) (5) Since there is a problem that burnout is frequently caused, stepped portions 13a, 13b, 13c, and 13d are formed to reduce the outer diameter of the inner cylinder, and the inner diameters of the cooler and the drive case of the outer cylinder are lowered. Steps 14a, 14b, 15a, and 15b are formed to be smaller and smaller, and accordingly, the stepped portion of the outer diameter of the inner cylinder is 13a13b13c13d, and the inner diameter of the outer cylinder is formed of a size of 14a14b15a15b to 14a13a, 14b13b, 15a13c, Provided with the present invention formed by 15b13b to prevent the leakage of cooling water and working fluid By preventing damage during the assembly process, assembly is simplified, and leakage of the sealing material is prevented in advance.

Description

Assembly structure of Stirling cycle machine

1 is a partial longitudinal cross-sectional view showing the structure of a conventional sterling cycle machine.

Figure 2 is a partial longitudinal cross-sectional view showing a structural sealing structure of the Stirling cycle machine according to the present invention.

* Explanation of symbols for main parts of the drawings

13: internal cylinder 13a, 13b, 13c, 13d: stepped portion

14: cooler 14a, 14b: stepped portion

15: drive unit case 15a, 15b: stepped portion

17,18,19,20: Sealing material

The present invention relates to the assembly structure of the Stirling cycle machine, and in particular, during the assembly process to prevent the sealing agent interposed between the inner and outer cylinders in contact with the corners of the outer cylinder to damage the inner and outer cylinders of the lower It relates to an assembly structure of the Stirling cycle machine formed step by step increasingly.

In general, the structure of the Stirling cycle machine is composed of an inner cylinder (3) in which the displacer 1 and the piston (2) is driven up and down, and the outer cylinder coupled to the outside of the inner cylinder, as shown in FIG. It is.

The outer cylinder is composed of a cooler (4) and the driving unit case (5), the cooler (4) is provided with a cooler tube (6) for moving the working fluid, the inner cylinder (3) and the cooler (4) Coolant is accommodated in between, and the cooler 4 is provided with the coolant inlet 4a and the coolant outlet 4b, respectively.

Sealing materials (7) (8) are provided between the inner cylinder (3) and the cooler (4) to prevent the leakage of cooling water and working fluid, and the upper and lower parts are also provided between the inner cylinder (3) and the drive case (5). Sealing materials 9 and 10 are provided in the chamber.

In the figure, the upper side of the displacer forms a high temperature space (A), the space between the displacer and the piston is a low temperature space (B), and the lower side of the piston forms a buffer space (C).

The Stirling cycle device configured as described above has the displacer 1 being moved up and down by the flow of the working fluid, and the piston 2 is also moved up and down by the up and down movement of the displacer 1 so that the piston 2 is moved. The engine is driven by the driving mechanism connected to the lower part.

However, the sealing structure in the conventional sterling cycle machine as described above is the inner cylinder (3) and the outer cylinder (4) because the O ring used as the sealing material (7) (8) (9) (10) is generally made of rubber material. During the assembly process of (5), the sealing material (7) (8) (9) (10) hit the edges (a) (b) (c) of the outer cylinder (5) frequently occurred when the sealing material burned out.

In particular, in the case of the sealing member (9) (10) installed between the inner cylinder (3) and the drive case (5) it is inevitable to contact the corner (a) (b) (c) three times during the assembly process As the probability of damage is increased, the assembly process of the inner and outer cylinders is difficult due to the damage of the sealing material due to the contact of the sealing material and the edge of the outer cylinder.

The purpose of the present invention devised in view of such a problem is to prevent the sealing material installed in the inner and outer cylinders from being damaged during the assembly process of the inner and outer cylinders.

In order to achieve the object of the present invention, the outer diameter of the inner cylinder is formed to be smaller toward the lower, the inner cylinder of the outer cylinder consisting of a cooler and a drive case to which the inner cylinder is coupled is smaller toward the lower so that the inner cylinder can be molded There is provided an assembly structure of the Stirling cycle machine, characterized in that formed.

Hereinafter, the present invention as described above will be described in more detail on the basis of one embodiment shown in the accompanying drawings.

2 is a partial longitudinal sectional view of the Stirling cycle machine showing the sealing structure according to the present invention, as shown in this, the assembly structure of the Stirling cycle machine according to the present invention is in the process of assembling the inner cylinder and the outer cylinder It is characterized in that the structure of the inner and outer cylinders is improved so that the sealing material installed between the inner and outer cylinders is not damaged.

That is, the inner diameter of the cooler 14, which acts as the outer cylinder, and the driving unit case 15 is made smaller from the upper side to the lower side (D1D2D3D4), and the outer diameter of the inner cylinder 13 is formed of the sealing material 17, 18. (19) (20) It is characterized in that the inner cylinder 13 is formed smaller from the top to the lower so that the inner cylinder 13 can be easily molded to the outer cylinder in the state.

Here, the inner and outer cylinders according to the embodiment of the present invention formed the stepped portions having a difference in the width of the outer diameter and the inner diameter, respectively, for such a configuration. Stepped portions 13a, 13b, 13c, and 13d were formed to reduce the inner diameter of the inner cylinder. ) 15b was formed. Accordingly, the step portion of the outer diameter of the inner cylinder is 13a13b13c13d, and the inner diameter of the outer cylinder is formed to have a size of 14a14b15a15b, and is formed of 14a13a, 14b13b, 15a13c, and 15b13b.

Reference numeral 11 is a displacer, 12 is a piston, and 16 is a cooler tube.

According to the assembly structure of the Stirling cycle machine according to the present invention configured as described above, since the inner diameter of the outer cylinder becomes smaller toward the bottom, and the structure of the inner cylinder also becomes smaller toward the bottom, the assembly process of inserting the inner cylinder into the outer cylinder The outer diameter of the lower end of the inner cylinder 13 is not in contact with the inner diameter of the upper end of the outer cylinder, it is easily inserted and the lower sealing material 20 of the inner cylinder is also not in contact with the top edge (a) of the outer cylinder.

When the inner cylinder 13 is continuously inserted into the inner diameters of the outer cylinders 14 and 15, the upper and lower sealing materials 19 and 20 interposed between the inner cylinder 13 and the driving part case 15. ) And the lower sealing member 17 and 18 interposed between the cooler 14 and the cooler 14 are not in contact with the outer cylinders, that is, the corners (a) (b) and (c) of the cooler 14 and the drive case 15. Without assembly.

As described above, the assembly structure of the Stirling cycle machine according to the present invention improves the structure of the internal and external cylinders to prevent damage to the sealing material during the assembly process of the internal and external cylinders to prevent leakage of cooling water and working fluid. By doing so, the assembly becomes simple, and there is an effect of preventing the occurrence of leakage due to damage of the sealing material.

Claims (3)

The outer diameter of the inner cylinder is formed to be smaller toward the bottom, the inner diameter of the outer cylinder consisting of a cooler and a drive case coupled to the inner cylinder is formed smaller toward the bottom so that the inner cylinder can be formed of the Stirring cycle device, Assembly structure. The structure of claim 1, wherein an outer diameter of the inner cylinder and an inner diameter of the cooler and the driving part case which are the outer cylinders are formed of several stepped portions whose width decreases toward the lower side. The assembly structure of a stirling cycle device according to claim 2, wherein the stepped portions of the inner and outer cylinders are four.