JPS62176531A - Apparatus for increasing pressure of high pressure container - Google Patents

Abstract

PURPOSE:To reduce the generation of the annular shape cutting of a high pressure container, by constituting a main ram of a lower lid lifting and falling cylinder, the spacer interposed between the aforementioned cylinder and the high pressure container and the pressure medium introducing pipe piercing through a lower lid. CONSTITUTION:A lower lid lifting and falling cylinder 93 is raised to push up a spacer 93 and the cylindrical main body 10 of a high pressure container and the upper surface of the cylindrical main body 10 is pressed to the lower surface of an upper surface table 40. Subsequently, a pressure increasing process is taken and a pressure fluid is supplied to the pressure chamber under a piston rod 91 and the piston rod 91 is raised to increase the pressure of the container interior 1a A check valve 96 is operated in matching relation to the rising operation of the piston rod 91 to cut off the communication of a pressure medium introducing pipe 92 and the container interior 1a and the increased pressure of the container interior 1a does not backwardly flow to the pressure medium introducing pipe 92 and the internal pressure of the pressure medium introducing pie 92 is held to initial one. The piston 91 rises in a range of l4.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to a pressure increasing device for a high-pressure container, which is commonly used in warm isostatic pressurizing devices, hydrostatic pressurizing devices, and the like.

(Prior art) The pressure increase device for the high pressure container of the conventional warm isostatic pressurization device was
．． To explain using Figure 5, (1) is a high-pressure vessel, (10
) is the cylindrical body of the high pressure vessel (1), (la) is the inside of the high pressure vessel (1), and (11) is the cylindrical body (10) of the high pressure vessel (1).
), and (20) is an upper lid that is inserted into the upper part of the cylindrical body (10) to seal the upper end opening of the interior (1a) of the high-pressure container (1). A gasket (21) is attached around the upper lid (20), and a furnace (22) is installed at the lower end of the upper lid (20) to consolidate the workpiece (or join dissimilar materials) under high pressure and medium and low temperatures. installed. (30) is the cylindrical body (10)
A lower lid seals the lower end opening of the interior (1a) of the lower lid (30), and a gasket (21) is attached around the lower lid (30). Also, (31) is the lower lid holder that supports the lower M (30), and (40) is the upper table with a rectangular plan view.

The above upper M (20) is placed on the lower surface of the same upper table (40).
is fixed. Also, (60) is the upper table (
Multiple rods are fixed to (40), (60) is a supram.

The supram (60) is connected to multiple upper hydraulic cylinders (62).
), a plurality of lower hydraulic cylinders (63), and each of the rods (61). Further, (90) is the yoke frame, (81) is the ram bottom cover fixed on the lower part of the yoke frame (90), (80) is the main ram, and the main ram (80) is the lower lid holder ( 31), the lower part 1i (30), the cylindrical main body (10), and the lower table (70) are moved up and down. The lower table (70) is held between the lower lid holder (31) and the cylindrical body (10), and each rod (61) is slidably fitted into a through hole provided in the lower table (70). It is inserted.

When pressurizing the inside of the high-pressure vessel (1) using the pressure increase device for the high-pressure vessel, the workpiece is placed in the furnace (22), then the upper cylinder (62) and the lower cylinder (6
3) to remove the rod (61) and top table (40).
) from the A3 position to the A2 position in Figure 4.5 (the upper part of the yoke frame (90) and the upper table (4)
Distance (m) that allows the spacer (50) to be inserted between
form). At this time, the upper lid (20).

Only β1 is inserted inside the container (1a), and the remaining 12 are outside the container. Also, at this time, the spacer (50).

It is moved from the B1 position to the B2 position, and is moved from the BZ position to the B1 position by a moving device (not shown). Further, in this state, a pressure medium is supplied from a pressure medium supply device (not shown) to the inside of the container (1a), and an initial pressure is applied within the furnace (22).

Next, a pressure increase step begins, in which pressure fluid is supplied to the main ram (80) from the pressure fluid supply path provided in the ram bottom cover (81), and one main ram (80) is pushed up. Also, when the main ram (80) is pushed up, the lower lid (30), flange (11), lower table (70) and high pressure vessel (
The cylindrical body (10) of 1) is guided by the rod (61) and pushed up in the vertical direction. The amount of push-up at this time varies depending on the amount of pressure increase, but! , is pushed up within the range of . Further, the workpiece is removed from the furnace (22) in the reverse manner to the above.

(Problems to be Solved by the Invention) In the pressure intensifying device for a high-pressure container shown in FIG. 40), so the inside of the cylindrical body (10) is brought to an extremely high pressure and
9 cylindrical body (10
) was cut into a ring shape, there was a danger that the upper cover (2o) would fly upwards. Furthermore, it is necessary to vertically move the cylindrical main body (1o) up and down, and the lower table (70) guided by the rod (61) is essential, complicating the structure of the pressure booster.

(Means for Solving the Problems) The present invention addresses the above-mentioned problems, and includes a supram provided upright around the four circumferences of a yoke frame, and an upper table supported movably up and down by the supram.

an upper lid of a high-pressure container supported by the same upper table;
A high pressure device comprising a stopper/spacer for regulating the upward movement of the upper table, a main ram installed on the lower part of the yoke frame, and a lower lid of a high pressure container that is movably supported by the main ram. In the pressure increase device for a container, the main ram is a lower lid lifting cylinder having a piston rod that raises and lowers the lower lid of the high pressure container;
A spacer interposed between the lower lid lifting cylinder around the lower lid and the high pressure container, a pressure medium introduction pipe passing through the piston rod and the lower lid, and a high pressure of the pressure medium introduction pipe. Relating to a pressure increase device for a high-pressure container characterized by comprising a check valve provided at the end of the container,
The purpose of this is to prevent the upper lid from flying off even if the high-pressure container is cut into rings. It also eliminates the need for a bottom table.

An object of the present invention is to provide an improved pressure increase device for a high-pressure vessel that can simplify the structure of the pressure increase device.

(Function) The pressure increase device for a high-pressure container of the present invention is configured as described above, and is used when the inside of the high-pressure container is made to have an extremely high pressure.

Since the upper part of the high-pressure container is fixed by the upper lid and the upper table, and the lower part of the high-pressure container is fixed by the spacer and the cylinder for raising and lowering the lower lid, the tensile stress generated in the high-pressure container is reduced, and the high-pressure container is Ring cutting is less likely to occur. Furthermore, even if a ring-shaped cut occurs in the high-pressure container, the upper lid will not fly off because the high-pressure container is fixed as described above. Furthermore, the lower part of the high-pressure container is fixed by the spacer and the cylinder for raising and lowering the lower lid, eliminating the need for a lower table and simplifying the structure of the pressure booster.

(Example) Next, the pressure increase device for a high-pressure vessel of the present invention will be explained using an example shown in Fig. 1.2゜3. (la) (10) (
22) (40) (50) (60) (61) (
62) (63) (90) is the same part as above, (
25) is the upper lid, (21) is the packing attached around the upper M (25), and the upper part 1 [(25) is the gasket attached to the inside of the container (1a) from the upper part of the cylindrical body (10) of the high-pressure container.
inserted into. In addition, at the tip of the upper lid (25), there is a furnace (
22). Also (95) is the yoke frame (90)
Hydraulic chamber bottom 11 fixed to the lower upper surface of the. (93) is a cylinder for raising and lowering the lower lid, which is attached to the bottom lid (95) of the hydraulic chamber so that it can be raised and lowered.

(94) is a spacer fixed to the upper surface of the lower lid lifting cylinder (93), (91) is the piston rod of the lower lid lifting cylinder (93), (35) is the piston (
91) a lower lid fixed to the upper end; (92) a pressure medium introduction pipe passing through the piston (91) and the lower part M (35); (96) the inside of the container of the pressure medium introduction pipe (92); This is a check valve provided at the side end.

Next, the operation of the pressure increase device for the high pressure vessel shown in FIG. 1.2.3 will be specifically explained. The workpiece is housed in the furnace (22), and then the upper cylinder (62) and the lower cylinder (63
) to lower the rod (61), the upper table (40), and the upper M (25) (the upper table (40)
) from position A1 to position A2).

The upper part of the yoke frame (90) and the upper table (40)
An insertion gap (m) for the spacer (50) is formed between the two.

At this time, almost the entire upper lid (25) and the furnace (22) are inserted into the container interior (1a). Also at this time, the spacer (50) moves to B, -Bt. Next, spacer (
50) to Bz-83, and then the pressure medium was supplied from the pressure medium introduction pipe (92) to the inside of the container (la).

An initial pressure is applied in the furnace (22), and then pressurized fluid is supplied to the lower end of the lower lid lifting cylinder (93) to raise the lower lid lifting cylinder (93), and the spacer (94) is raised.
) and the cylindrical body (10) of the high-pressure vessel.

The upper surface of the cylindrical body (10) is pressed against the lower surface of the upper table (40). Next, a pressure increase step is started, and pressure fluid is supplied to the pressure chamber below the piston rod (91).

Raise the piston rod (91) to remove the inside of the container (1a
). In addition, the check valve (96) operates in accordance with the upward movement of the piston rod (91), and the communication between the pressure medium introduction pipe (92) and the inside of the container (1a) is cut off. The increased pressure flows through the pressure medium introduction pipe (92
), and the inside of the pressure medium introduction pipe (92) is maintained at the initial pressure even during the pressure increase process. The piston (91) is.

! , increases in the range of . In other words, the lower lid (35) rises in the range β4 depending on the required pressure. Further, the workpiece is removed from the furnace (22) in the reverse manner to the above.

(Effects of the Invention) The pressure increase device for a high-pressure container according to the present invention is configured as described above, and is used when the inside of the high-pressure container is made to have an extremely high pressure.

Since the upper part of the high-pressure container is fixed by the upper lid and the upper table, and the lower part of the high-pressure container is fixed by the spacer and the cylinder for raising and lowering the lower lid, it is possible to reduce the tensile stress generated in the high-pressure container, and Cutting is difficult to occur. Furthermore, even if a ring-shaped cut occurs in the high-pressure container, the upper lid will not fly off because the high-pressure container is fixed as described above. In addition, the lower part of the high-pressure container is fixed by a spacer and a cylinder for raising and lowering the lower lid, which eliminates the need for a lower table and has the effect of simplifying the structure of the pressure booster.

Although the present invention has been described above with reference to embodiments, the present invention is, of course, not limited to such embodiments, and may be modified in various ways without departing from the spirit of the present invention.

[Brief explanation of drawings]

FIG. 1 is a longitudinal side view showing an embodiment of the pressure increase device for a high-pressure vessel according to the present invention, FIG. 2 is a longitudinal side view showing an enlarged part of the device, and FIG. FIG. 4 is a side view showing a conventional pressure increase device for a high-pressure vessel, FIG. 5 is a longitudinal side view taken along the line V--V in FIG. 4, and FIG. 6 is an explanatory diagram of its operation. (10)...High pressure vessel (cylindrical body), (25)...
・Top M, (35) ...Lower lid, (40)
...Top table, (50)...Stopper and spacer, (60)...Supram, (90)...
- Yoke frame, (91) ... Piston rod, (92) ... Pressure medium introduction pipe. (93)...Lower lid lifting cylinder, (94)
...Spacer, (96) ...Check valve. Sub-Agent Patent Attorney Okamoto (2 persons) Figure 1 v-1 Figure 4 V-i Figure 5

Claims (1)

[Claims] A supram installed around the four circumferences of the yoke frame, an upper table supported by the supram so that it can be raised and lowered, an upper lid of a high-pressure container supported by the upper table, and a stopper that restricts upward movement of the upper table. A pressure increase device for a high pressure container, which includes a spacer, a main ram installed on the lower part of the yoke frame, and a lower lid of the high pressure container supported by the main ram so as to be movable up and down,
The main ram includes a lower lid lifting cylinder having a piston rod for lifting and lowering the lower lid of the high pressure container, and a spacer interposed between the lower lid lifting cylinder and the high pressure container around the lower lid. A pressure increase device for a high-pressure vessel, comprising a pressure medium introduction pipe passing through the piston rod and the lower lid, and a check valve provided at the end of the pressure medium introduction pipe on the high pressure vessel side. .