JPH0664170B2 - Safety rod drive - Google Patents

Description

Description: TECHNICAL FIELD OF THE INVENTION The present invention relates to an improvement in a device for driving a safety rod of a nuclear reactor or a criticality experiment device.

[Prior art]

For example, in a criticality experiment device in which a nuclear fuel in a solution state such as plutonium nitrate is filled in a core vessel, a safety rod is inserted into the nuclear fuel to stop the nuclear reaction. In a conventional safety rod drive device, a female screw is provided on a support portion having an electromagnet for supporting the safety rod, and a screw rod for driving the support portion is driven by an electric motor to move the safety rod up and down.

However, this electric drive device has a drawback that it becomes large and heavy. As described above, in a criticality experiment device using a small nuclear reactor, a large safety rod driving device may not be structurally installed, which is not a safety rod driving device suitable for a small nuclear reactor.

In order to solve the above-mentioned problems, the present inventor has filed a patent application for "a safety rod drive device comprising a cylinder device using a safety rod as a piston rod and providing an electromagnet for fixing the safety rod at a predetermined position". Proposed as Sho 60-284267,
This device is extremely advantageous as a critical experiment device in terms of downsizing.

By the way, in the critical experimental device for experimenting the supercritical phenomenon, when the same phenomenon occurs, an impact pressure is generated, but this impact pressure acts as an impact load on the surrounding structure, and this propagates to the safety rod drive device, If the magnetic force of the electromagnet was weak, the safety rod could fall unexpectedly. It was found that the dropping of the safety rod naturally made it impossible to continue the experiment, and the experiment apparatus had to be restarted.

[Object of the Invention]

The present invention has been achieved in order to solve the drawbacks of the conventional safety rod drive device, and an object thereof is to provide a device in which vibration does not act on the support portion of the safety rod.

[Outline of Invention]

In order to achieve the above object, the present invention comprises a cylinder device using a safety rod as a piston rod, an electromagnet provided with the safety rod fixed at a predetermined position, and the electromagnet elastically supported with respect to the cylinder. It is a thing.

That is, the safety rod raises or lowers the inside of the cylinder by air pressure or hydraulic pressure to operate or stop the reactor. The safety rod is configured to be attracted and fixed by an electromagnet at a raised position.

In the present invention, in particular, the electromagnet is supported by the elastic supporting structure with respect to the cylinder, and as a result, the safety rod is structured so that vibration acting on the cylinder does not directly act on the cylinder. It has its characteristics.

The anti-vibration support structure is one in which anti-vibration rubber is provided above and below to support the electromagnet in the cylinder, one in which anti-vibration rubber is provided in the other side to support the electromagnet in the cylinder, and one in which a spring is provided above and below the electromagnet to support the electromagnet. There are things to support.

Whatever the structure, the present invention requires that the electromagnets that support the safety rod be bufferedly supported on the cylinder. By adopting such a structure, the support of the safety rod is ensured, and even if an impact force acts on the criticality experiment device,
This impact is not transmitted to the support portion of the safety rod via the cylinder, and therefore the safety rod can be prevented from being accidentally dropped.

Even in the device already proposed by the present inventor, if the magnetic force of the electromagnet is increased, the safety rod can be supported reliably, but in this case, there is a problem that the electromagnet is slightly enlarged.

〔Example〕

 Next, embodiments of the present invention will be described with reference to the drawings.

In FIG. 1, reference numeral 1 denotes a safety rod drive device, in which a piston 3 is slidably provided inside a cylinder 2 and a safety rod 4 serving as a piston rod is fixed to the lower side of the piston 3. Upper and lower ends of the cylinder 2 are closed by lids 5 and 6, and a flange 7 is fixed to a lower portion of the lower lid 5 so that the flange 7 can be attached to and detached from a core vessel 8.

Further, sealing members 9 and 10 are provided around a portion of the hole of the lid body 5 that contacts the safety rod 4 and around the piston 3. A cushioning material 11 is provided on the upper surface of the lid body 5 to cushion the impact when the piston 3 and the lid body 5 collide.

The piston 3 constitutes a kind of armature, and is constructed so that it can be attracted and desorbed by an electromagnet 12 provided on the upper portion of the cylinder 2.

A compressed air pipe 13 is connected to the lower portion of the cylinder 2, and is configured so that compressed air is supplied into the cylinder 2 by a compressed air supply valve 14 to raise the safety rod 4 via the piston 3. A back pressure relief valve 15 and a back pressure relief valve 16 are connected to the compressed air pipe 13, and a vent pipe 17 is provided at the upper end of the cylinder 2.

A ring-shaped support portion 18 is provided on the upper end of the cylinder 2, and an electromagnet 21 is provided on the support portion 18 via an elastic support member 20.
Is supported, and the upper portion of the electromagnet 21 is pressed against the lid 6 by the elastic support member 22. Therefore, the electromagnet 21 is supported via the elastic support members 20 and 22 arranged in the vertical direction.

In the present embodiment, the vibration-proof rubber is suitable for the elastic support member 20, and the coil spring is suitable for the other elastic support member 22.

When the piston 3 moves up to the uppermost position, electric power is supplied to the electromagnet 21 by the wiring 23 penetrating the lid body 6, and the safety rod 4 is attracted and fixed on the upper portion of the cylinder 2.

In this embodiment, the structure is such that the safety rod 4 is held in the raised position while the electromagnet 21 is supplied with power.

FIG. 2 shows an elastic support structure for four types of electromagnets.

FIG. A shows a support structure similar to that of FIG. 1, and FIG. B shows an elastic support member 22 which is a coil spring provided on the lower side and an elastic support member 20 made of vibration-proof rubber provided on the upper side. .

FIG. C shows the elastic support members 2 on both sides of the flange 21a of the electromagnet 21.
0 is provided, and FIG. D shows an elastic support member 22 provided on both sides of the flange 21a.

Therefore, according to the device of the present invention, the electromagnet 21 is vertically supported by the elastic supporting members 20 and 22,
Even if the vibration is transmitted to the cylinder 1, the electromagnet 21 can be isolated from vibrations and the safety rod 4 does not fall off.

[Effect of device]

As described above, the safety rod driving device according to the present invention constitutes a cylinder device using the safety rod as a piston rod, and is provided with an electromagnet for fixing the safety rod at a predetermined position and elastically attaching the electromagnet to the cylinder. Since it is supported, the following effects can be achieved.

That is, the electromagnet is supported by the elastic support member in the direction in which the vibration is transmitted, and even if the vibration is propagated to the cylinder, the vibration does not propagate in a state where the safety rod falls off from the electromagnet, It is possible to reliably support the safety rod.

Therefore, there is no possibility that the safety rod is accidentally dropped and the experimental apparatus is stopped, and the experiment cannot be continued.

Further, the device according to the present invention has a structure suitable for downsizing, and it is possible to provide a downsized critical experiment device.

[Brief description of drawings]

FIG. 1 is a sectional view of a safety rod drive device according to the present invention, and FIG.
FIGS. A to D show the elastic support structure of the electromagnet, where FIG. A shows a vibration damping rubber provided on the lower side of the flange of the electromagnet, and FIG. B shows a vibration damping rubber provided on the upper side. Fig. C shows the one provided with vibration-proof rubber on both sides of the flange portion, and Fig. D shows the one provided with coil springs on both sides. 1 ... Safety rod drive device, 2 ... Cylinder, 3 ... Piston, 4 ... Safety rod, 5, 6 ... Lid, 7 ... Flange,
8 ... Reactor, 9, 10 ... Sealing material, 11 ... Buffer material, 13
... Pneumatic piping, 14 ... Air supply valve, 15 ... Back pressure relief valve,
20,22 ... Elastic support member, 21 ... Electromagnet.

Claims (1)

[Claims] 1. A safety rod drive characterized in that a cylinder device is constituted by using a safety rod as a piston rod, an electromagnet for fixing the safety rod at a predetermined position is provided, and the electromagnet is elastically supported with respect to the cylinder. apparatus.