JPH0333075B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a material wave processing device, and more particularly to a material explosive processing device.

The invention can be used in machines for explosive welding of materials, in strengthening materials by shock waves, and in compaction solidification of powder materials.

[Conventional technology]

Conventionally known explosive processing equipment for materials is
An explosion chamber consisting of a movable part and a stationary part interconnected by a locking device, a processing table installed within the explosion chamber and attached to the movable part, and a locking member communicating with the explosion chamber. the main pipe of the ventilation system for the explosion chamber containing the explosion chamber; (See, for example, U.S. Pat. No. 4,100,783, Class 72-56, issued July 18, 1978).

In this device, the main body of the locking member is installed outside the explosion chamber. The gate valve movably provided inside the main body of the locking member is provided with a drive device.

In order to perform safe explosive processing using explosive energy, i.e. to eliminate the risk of explosion of explosive materials, the above device indicates the "open/close" status of the gate valve when the main part of the ventilation system is opened. Means shall be provided to prevent explosive material from detonating when the main pipe of the ventilation system is open.

These drawbacks not only reduce the operational reliability of the explosive processing device but also complicate its detonation process.

[Problem that the invention seeks to solve]

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus for explosive processing of materials in which a locking member of the main part of a ventilation system is formed so as to eliminate the risk of the explosive material being detonated when the main pipe of the ventilation system is opened. The objective is to improve equipment reliability and simplify maintenance.

[Means for solving problems]

The above purpose is to provide an explosion chamber having a body consisting of a movable part and a stationary part connected to each other by a locking device, and a process installed in said explosion chamber and attached to the movable part of the body of the explosion chamber. table and
A main pipe of a ventilation system for the explosion chamber communicates with the explosion chamber and houses a locking member, and the main body of the locking part is installed within the main pipe of the ventilation system and moves to block the main pipe of the ventilation system. In an apparatus for explosive processing of materials containing a gate valve therein, the main body of the locking member is mechanically coupled to a stationary part of the main body of the explosion chamber, and the gate valve is movably disposed within the main body of the locking member. is mechanically connected to a movable part of the main body of the explosion chamber, and the main pipe of the ventilation system is blocked by attaching the movable part of the main body of the explosion chamber to the stationary part. This is achieved by explosive processing equipment for materials.

Preferably, the body of the locking member is mounted inside the explosion chamber on a stationary part of the chamber body, and the movable gate valve located within the body of the locking member is mounted on the processing table.

The explosive processing device according to the invention is operationally reliable and easy to maintain.

〔Example〕

The invention will now be described in detail with reference to embodiments with reference to the accompanying drawings.

The explosive processing device for materials according to the present invention includes an explosion chamber 1 (FIG. 1), and the explosion chamber main body has a movable part 2.
and a stationary part 3 integrally connected to the movable part by a bayonet-type locking device 4. The explosion chamber 1 accommodates a processing table 5 connected to the movable part 2 of the explosion chamber body. The explosion chamber 1 communicates with the main pipe 6 of the ventilation system of the explosion chamber. A locking member 7 is also provided within the main portion 6 of the ventilation device.

The locking member 7 has a main body 8 provided in the main pipe 6 of the ventilation device which is provided inside the explosion chamber 1 and is mechanically fixed to a stationary part of the explosion chamber body. In this embodiment, the body 8 of the locking member is fixed to the stationary part 3 of the explosion chamber body inside the explosion chamber.

A gap 9 (FIG. 2) in the body 8 of the locking member 7 receives a gate valve 10 which is movable to occlude the main pipe 6 of the ventilation device. A gate valve 10 (FIG. 1) disposed so as to be movable into the gap 9 of the main body 8 of the locking member 7 is mechanically fixed to the movable part 2 of the main body of the explosion chamber 1. As is clear from Figure 1, the main pipe 6 of the ventilator is closed when the movable part 2 and stationary part 3 of the main body of the explosion chamber 1 are connected. In this embodiment, the gate valve 10 (FIGS. 1 and 2) is fixed to the processing table 5. As shown in FIGS.

The stationary part of the main body of explosion chamber 1 (Fig. 1) is the foundation 1.
It is supported by a support frame 11 provided on 2. A hydraulic cylinder 13 is provided on the foundation 12 for moving the movable part 2 of the explosion chamber body.
The rod 14 (Fig. 3) of the fluid pressure cylinder 13 is
It is mechanically coupled to a trolley 15 which moves along the foundation 12 and to which the movable part 2 of the explosion chamber body is attached.

A locking member 7 is provided with two bent pipes 16 in the main pipe 6 of the ventilation system in the explosion chamber 1. This bent pipe 16 serves to discharge the explosion products from various parts inside the explosion chamber 1.

The operating principle of the material explosive processing apparatus of the present invention will be explained below.

When the movable part 2 and the stationary part 3 of the explosion chamber body are in the open state, the explosive material to be processed and the explosive (both shown together at 17 in the figure) are placed on the processing table 5. Next, the movable part 2 of the explosion chamber body placed on the trolley 15 is moved to the hydraulic cylinder 13 together with the processing table 5 and the material 17 to be processed.
along the foundation 12 until it comes into contact with the stationary part 3 of the explosion chamber body, as shown in FIG. In this position, the movable part 2 of the explosion chamber body
and the stationary part 3 are connected in one motion by means of a locking device 4. When the parts 2 and 3 of the explosion chamber body occupy the above-mentioned positions, the gate valve 10 of the locking device 7 is inserted into the gap 9 of the body 8 of the locking member 7 and is approximately 1-2
The main pipe 6 of the ventilation system is closed leaving a certain gap δ of mm (FIG. 2).

The size of the gap δ is chosen such that after detonation of the explosive material in the explosion chamber 1, the explosion products move with a limited speed of 8 to 12 m/s. Main pipe 6 of the ventilation system for discharging the explosion products from the explosion chamber 1
is provided with a fan (not shown).

After the explosion of the explosive material, a surplus pressure of the explosion products is generated in the explosion chamber, which causes the explosion products to be discharged through the gap δ in the main pipe 6 of the ventilation system, and finally in the explosion chamber main body. The pressure becomes equal to atmospheric pressure.

The locking device 4 is then opened (FIG. 3) and the movable part 2 of the explosion chamber body is moved by the hydraulic cylinder 13 by a length B which is slightly longer than the length of the gate valve 10. At the same time, the gate valve 10 of the locking member 7 comes out of the gap 9 of the main body 8 of the locking member 7, opening the main pipe 6 of the ventilation system over the entire cross-sectional area. The dimensions of this cross-sectional area are determined in relation to the time required to clean the explosion products from the explosion chamber. That is, the larger the cross-sectional area of the main pipe 6 of the ventilation system, the shorter the time required to clean the explosion chamber.

A fan installed in the main pipe 6 of the ventilation system is used to exhaust the explosion products from the main body of the explosion chamber. Clean air is supplied in the direction of arrow C through the gap between the movable part 2 and the stationary part 3 of the explosion chamber body. After a period of cleaning, the movable part 2 of the explosion chamber body is moved along the foundation 12 by means of a hydraulic cylinder 13 equipped with a trolley 15 towards the open position shown in FIG. The processed material 17 is taken out from the processing table 5, a new material is placed on the processing table 5, and the operating cycle is repeated in the same manner.

〔Effect of the invention〕

The apparatus for explosive processing of materials according to the invention eliminates the risk of explosive material being exploded in the explosion chamber when the main pipe of the ventilation system is opened. This also means that immediately after the explosion, when the explosion products are released from the explosion chamber body over the entire cross-sectional area of the main pipe at a faster than permissible travel speed, the fan may be destroyed or the explosion wave from the explosion chamber may be released. This eliminates the risk of leakage. Furthermore, there is no need to provide a separate drive for moving the gate valve of the locking member. This is because, to move the gate valve, a hydraulic cylinder is used that moves the movable part of the explosion chamber body. This hydraulic cylinder is also used as a means to indicate the ``open'' and ``close'' positions of the gate valve, to prevent detonation of explosive material within the explosion chamber when the main pipe of the ventilator is ``open''.

The above advantages increase the operational reliability of the explosive processing equipment and also simplify maintenance.

[Brief explanation of drawings]

FIG. 1 is a cross-sectional view showing the entire apparatus for explosive processing of materials according to the present invention, showing the movable part and stationary part of the explosion chamber body in the closed position, and FIG. 2 is a section A of FIG. 1. Figure 3 is a cross-sectional view similar to Figure 1 showing ventilation inside the explosion chamber, Figure 4 is an enlarged view of Figure 1.
5 is a sectional view similar to FIG. 1 showing the movable and stationary parts of the explosion chamber body in the open position; FIG. 1... Explosion chamber, 2... Moving part, 3... Stationary part, 4... Locking device, 5... Processing table, 6...
... Main part of ventilation system, 7 ... Locking member, 8 ... Main body, 9 ... Gap, 10 ... Gate valve, 11 ... Support frame, 12 ... Foundation, 13 ... Fluid pressure cylinder,
14...rod, 15...trolley, 16...bent pipe, 17...material to be processed, explosive material, explosive.

Claims (1)

[Claims] 1. Movable parts 2 connected to each other by a locking device 4
an explosion chamber 1 having a main body consisting of and a stationary part 3;
is installed in the explosion chamber 1, and the explosion chamber 1 is installed inside the explosion chamber 1.
A processing table 5 is attached to the movable part 2 of the main body of the explosion chamber 1, and a ventilation system is arranged outside the explosion chamber 1, and a part of the main pipe 6 of the ventilation system is inserted into the explosion chamber 1. A main body 8 of a locking member 7 is formed in the insertion portion of the main pipe 6 and communicates with the inside thereof, and a gate valve 10 is housed inside the main body 8 and is movable to close the main pipe 6 of the ventilation system. In the apparatus for explosive processing of materials provided in The gate valve 10 is the explosion chamber 1.
is mechanically coupled to the movable part 2 of the main body of the explosion chamber 1, and the main pipe 6 of the ventilation system is blocked by attaching the movable part 2 of the main body of the explosion chamber 1 to the stationary part 3. Equipment for explosive processing of materials. 2. The main body of the locking member 7 is attached to the stationary part 3 inside the explosion chamber of the main body of the explosion chamber 1, and the gate valve 10, which is placed in the main body 8 of the locking member 7 and is movable, is attached to the processing table 5. An apparatus for explosive processing of materials according to claim 1, wherein the equipment is installed.