DE3047098A1 - Remote handling device for neutron start-up source - in high temp. reactor has winch housed in shielded zone of stand-pipe - Google Patents

Abstract

A remote handling device for introducing reaction elements, especially a start-up neutron source into a high-temp. reactor, comprises a cable winch , mounted inside a standpipe in the top slab of the concrete reactor vessel in a radiation-shielded and gastight and airtight position: the neutron source is attached to the winch and lowered by it through feed ducts into the side reflector (not shown) of the reactor. The winch is remotely operated from outside. Used lap for introducing a start-up neutron source into a high-temp. nuclear reactor. Appts. is simple and easy to assemble and dismantle.

Description

Transport device for a neutron approach source in

a high temperature nuclear reactor The invention relates to a transport device for introducing reaction elements, in particular a start-up neutron source in a high temperature nuclear reactor.

The invention is based on the object of a device this Generate with simple means the radiation-protected as well as simple and is safe to use.

According to the invention, this object is achieved by an armored pipe in the concrete container ceiling, protected from radiation and gas- and airtight, externally operated cable winch to which the neutron source is attached and through Feed channels can be introduced into the side reflector of the reactor.

In an advantageous embodiment of the subject matter of the invention, provision can be made be a cable drum in the armored pipe built into the concrete container ceiling is arranged, which cable drum from a drive shaft via a detachable so connected worm gear can be driven, the conveying channel for the The neutron source hanging from the cable drum is arranged laterally offset from the canal and in a lower radiation shield plug held by a sealing sleeve is arranged, and the drive shaft in one above the cable drum in the sealing sleeve arranged, upper radiation shielding plug is arranged and one above the centering plate arranged on the upper radiation shielding plug and one on the centering plate placed on the flow restriction cover, the drive shaft with a concentrically arranged by a centering plate and a flow restriction cover passed through, manually rotatable coupling shaft piece against the force of a Spring is releasably connected, and one from the coupling shaft piece by a toothed belt driven revolution counter.

The advantages of the device according to the invention and its arrangement in particular, the reactor is easy to assemble and dismantle, and its radiation-protected and gastight and airtight installation position or arrangement, as well as their easy handling.

The following is an exemplary embodiment of the subject matter of the invention described in more detail using the accompanying drawing.

1 shows a schematic overall view of the installation site the device according to the invention in the nuclear reactor, FIG. 2 shows an overall view of the device according to the invention in the concrete ceiling, Fig. 3 is an enlarged Individual representation of the upper part of the device (at point A) in Fig. 2, Fig. 4 is an enlarged individual view of the lower part of the device (on the point B) in Fig. 2.

The transport device according to the invention is in one in the ceiling 10 of the concrete tank of the reactor built armored pipe 18 housed and consists essentially from a cable winch drum 30, which is driven by a drive shaft 34 is rotatable with self-locking via a worm gear 84, 86.

The neutron source required for starting up the reactor 36 is attached to the wire rope 31 wound around the rope drum 30 and can through the feed channels 35, 37, 20, 22, 24 into the side reflector 16 of the reactor are introduced or lowered. For reasons of radiation protection the channel section 22 under the thermal upper shield 15 is curved. The cable winch drum 30 is mounted in a lower shielding plug 40, the in turn enclosed in a sealing sleeve 42 built into the armored tube 18 is. The sealing sleeve 42 is provided with a sealing shoulder 44 and the feed channel 35 and has a base plate 46 in which the feed channel 37 opens and is attached; the latter forms the continuation of the feed channel 35 and joins them.

With the lower shield plug 40 is an upper shield plug 50 centered by a sealing and centering insert 51 and by means of screws 52 firmly connected. The upper shield plug 50 is with the one with a sealing shoulder 54 provided bore 56 for receiving the drive shaft 34, the latter has a correspondingly designed sealing shoulder 55.

Concentric with and axially spaced from the upper shield plug 50 a centering plate 60 is arranged, which is connected to the flow restriction cover 62 is screwed.

The drive shaft 34 is down in an upper shield plug 50 arranged slide bearing 70 and engages with a square-shaped Stub shaft 72 in an inner square 74 of the worm shaft 76, which in turn sliding bearings arranged in a bearing piece 75 of the lower shielding plug 40 80.82 is stored. The single-flight worm 84 engages in the worm wheel 86, which is in operative connection with the cable drum 30. At its top is that Drive shaft 34 mounted in a plain bearing 90 and engages with a square Stub shaft 92 from below into a coupling socket 94 with a square socket. In the Coupling socket 94 engages from above a likewise with a square shaft stub 96 formed coupling shaft 98, which is in two plain bearings 99 and 101 in the flow restriction cover 62 is stored. The uppermost end of the coupling shaft 98 has a conical drive shaft 102 and drives a revolution counter 106 via a toothed belt 104. Means of a retaining ring 110 are flow restriction covers 62 including centering plate 60 in the Armored pipe 18 or sealing sleeve 42 held. The upper shielding plugs are used for sealing 50 and the centering plate 60 with piston sealing rings 120; 122 provided. To record from the measuring lines is the upper shielding plug 50 and the armored tube 18 with an axially parallel bore 130 is provided.

One not locked with a shielding rod not shown The hole shown enables the introduction of an endoscope for inspection the winch including wire rope for operationally necessary extensions. With the endoscope can also ensure the correct position of the neutron source in the inlet channels during assembly, be checked in particular in the channel 35 of the lower shielding plug 40.

Claims (7)

Claims 1. Transport device for introducing reaction elements, in particular a start-up neutron source in a high-temperature nuclear reactor protected from radiation by an armored pipe (18) in the concrete container ceiling (10) and a cable winch (30) which is arranged gas-tight and airtight and can be operated from the outside which attaches the neutron source (36) and through Iufleitkanäle (20,22,24) in the side reflector (16) of the reactor can be inserted. 2. Apparatus according to claim 1, characterized by a) a cable drum (30), which are arranged in the armored pipe (18) installed in the container ceiling (10) is, which b) from a drive shaft (34) via a worm gear detachably connected to it (84,86) can be driven, with c) the conveyor channel t35) for the on the cable drum hanging neutron source (36) opposite the channel (24) arranged laterally offset and in a lower radiation shielding plug held by a sealing sleeve (42) (40) is arranged, and d) the drive shaft (34) in one above the cable drum in the sealing sleeve (42t arranged, upper jet AMschlrmur.gsstopfen (50) is arranged, as well e) one over the top radiation shield plug (50) arranged centering plate (60) and f) one placed on the centering plate Flow restriction cover (62), wherein g) the drive shaft 34 with a concentric arranged for this, by centering plate (60) and flow restriction cover (62) passed through, manually rotatable coupling shaft piece (98) against the force a spring (95) is detachably connected, and h) one of the coupling shaft piece (98) revolution counter (106) driven by a toothed belt (104). 3. Apparatus according to claim 1 and 2, characterized in that the drive shaft (34) is provided with shoulders (55). 4. Apparatus according to claim 1 to 3, characterized in that the worm shaft (84), the drive shaft (34) and the coupling shaft (98) in slide bearings (80,82,70,90,99,101) are stored. 5. Apparatus according to claim 2, characterized in that the coupling shaft piece (98) and the drive shaft (34) with their correspondingly designed ends (92,96) engage in a coupling piece (94) provided with two inner square. 6. Apparatus according to claim 2, characterized in that the drive shaft (34) at its lower end by means of a square (72) with the worm gear (84.86) is in operative connection. 7. Apparatus according to claim 2, characterized in that the upper Shielding plug (50), the centering plate (60) and the flow restriction cover (62) are sealed by means of sealing rings (120, 122).