DE1763660U - ROTARY VALVE DEVICE. - Google Patents

Description

United Kingdom Atomic Energy Authority, Patents Branch, Bedford Chambers, Covent Garden, London, WC 2 <, England, and Pleaaey Company Limited, 1 Broad Street, London, E. 0. 2., England. England For this filing, the priority will be from the UK Patent application No. 30133/56 dated October 3, 1956 in Availed. Rotary valve device. The innovation relates to Dreh-b'zv. Umlauf-A-uewahl- valves / rotary selector valves / of the type in which a circulation or. Rotary connection device for coupling any passage or outlet or inlet slot / porte / aue of a series of such passages with a single passage. It is particularly suitable for nuclear reactor operation.

One purpose of the innovation is to provide a selection valve of the aforementioned To create a class which, based on the number of outlets or outlets or Inlet slots, or bores, have a small diameter the innovation created a selection valve of the aforementioned type, which is used for maintenance purposes is accessible without disconnecting any pipe connection after the selector valve would have to be.

A selection valve according to the innovation is composed of a housing or body part, a head piece, which can be removed from the housing part, Al or inlet slots in the housing part, which are arranged in two sets of banks that are offset from one another in a triangular shape, and a rotary connecting arm , which is attached to one end of a drive shaft which passes through the head piece, and which has double mouthpieces or openings at its other end, which can be closed against the housing part and with the passages for the passage of a Are to be connected to the flow of work equipment in such a way that each because a Durohlass is alternately connected to the mouthpieces at a point in time when the arm is rotating.

The invention will now be based on the example reproducing it Drawing will be explained in more detail, namely shows! Fig. 1 is a sectional view, Fig. Fig. 2 is a perspective plan view of part of the device, while Fig. 3 shows a sectional view of a hook latch.

Fig. 1 illustrates a rotary selector valve having a rotary joint arm 15, which is adapted to be coupling connection with each of the fifty-four passages or bores 14 in a cylindrical body portion 10 can produce. The passages 14 are offset from one another in a triangular shape arranged in two ring or bank sets 14b, 14c, as indicated by the tips or Corners of the triangle is illustrated, which is indicated by the line 14a. The housing part 10 is through a cover or cover plate 11, which by the Nuts 12 is held locked. A locking pin 8 between the housing part 10 and the cover plate 11 and suspension eyes 7 are provided.

Three, ; and fifty of the fifty-four passages lead through the Housing part 10 through into pipe receiving openings or

- recesses 9. The remaining passage 14d is inclined in a Bore 14e drilled into it, thereby opening the slot 14d to the contents or the interior of the housing part 10 to be exposed or to be connected to the interior of the housing part 10. The outer surface of the bore 148 is closed by a plug 13.

The arm 15 sits on a partially hollow shaft 16 and is through a screw bolt 17, which is held in place by a wire 18, is secured. The hollow section of the shaft 16. which is indicated by the number 15a, is in connection with a nozzle 15b, which leads into two bellows 21, each of which has a mouthpiece in the form of a carbon locking ring 19 assigned. The rings 19 are held in a sleeve 20, which according to one end of the bellows 21 extend or clamp. The sleeve 20 is slidably seated in a socket 22 which has a flange 23 which extends one after the other The end of the bellows 21 extends or clamps.

A spring 24, which between the sleeve 20 and the flange 23 to Effect comes, presses the locking ring 19 against the wall of the housing part 10 or around a passage 14, which depends on the position of the arm 15 in each case. A shoulder piece 25 provided with a screw thread limits the dimensions or the Degree of outward movement of the ring 19.

The hollow section 15a is also connected to a pipeline connection 42 in the base of the housing part 10 via a bore or a shaft / well / 27 and an outlet duct 26. The shaft 16 is at its lower end d'roh a carbon bu. eyelet 28, which sits in a frame 29 which is secured by screw bolts 30. The rings 31 allow a slight rotary movement of the shaft without any substantial leakage occurring from the housing part 10 into the bore 27 and into the outlet channel 26. The upper or massive end of the shaft 16 extends through the head plate 11 into a heat housing 33. The shaft 16 is equipped with piston rings 34 and a stuffing box 35 located in asbestos, which is compressed or compressed by a spring 36. is pressed, which is between a stepped shoulder CD piece 37 and a curved shoulder piece 38 acts. Between the piston rings 34 and the stuffing box 35 there is an intermediate or spacer stuffing box 39, which is also compressed or compressed by the spring 36 and an intermediate tap 40 / interspace bleed /, which comes out of the pipe through a connecting piece 31a and a pipe coupling 32 in the housing 10 leads out. A protective ring 41 sits on the shaft 16 above the stepped shoulder piece 37.

A son corner pinion 44 is keyed on the shaft 16 by a key 45, between a washer 46 and a thrust bearing 48 on a sleeve 49. The bearing 48 holds the shaft 16 and is secured by a locking nut 55 and a Lock washer 50 held in the correct position. Above the locking nut 55 is a housing plate 52 on which a drive motor 53 is arranged Screw bolt 54 is attached. The arrangement of the motor 53 is so dropped that he set off the arm 15 sharply or precisely from a passage 14 to the next moves, and that he by means of the arrangement shown in Fig. 8 over every passage comes to a halt.

According to FIG. 2, the arm 15 is driven by the motor 53 via the shaft 16, the worm pinion 44, a worm 56, which on a wave 70 sits, a sprocket 599 which is attached to the shaft 70, (the sprocket 59 can be driven in one direction while it can be driven in the other direction freewheels) and a chain 58 is driven. which the sprocket 59 with a sprocket 57 connects. which sits on the shaft 71 of the motor 53. Seated on the shaft 70 a two-stroke or.

Doppelhub- / two-lift / switch cam 60, which has a microswitch 61 operated to thereby stop and start the motor 53.

On the opposite end of shaft 70 is a cam pawl 62, which is shown in Fig. 3 in detail.

In FIG. 3, two diametrically opposed rollers 63 are pressed against a two-nose cam 64 (which sits on the shaft 70) by springs 65 which are supported in the housings 66 and come into effect through the plunger or plunger piston 67 each of which has a pair of parallel noses or lugs 68 carries on which the rollers 63 are attached. Pins 69 echo the rollers 63 in the lugs 68. When operating the valve for the purpose of taking a sample Pressurized gas enters the gas under a pressure of several atmospheres into the valve body through the passages 14, and samples are taken by the fact that the corresponding inlet passage or bores 14 is tightly closed or connected to the closures 19, so that a sample through the nozzle 15b, the bore 15a and the outlet 26 goes. A leech leakage of the gas out of the valve body is thereby reduced. that a pressure of about 5 lbs / sq. in.

(0.35 kg / om2) is maintained in the intermediate tap 40, while siCh the heat housing 33 is at atmospheric pressure. The motor 53 moves the arm 15 sharply separated from one passage 14 to the next and holds it for a long time Precisely enough over each Durohlass that a representative sample for the purpose of examination can be deducted. When the motor 53 starts up and thus rotates the arm 15, the cam 64 is also rotated, forcing the rollers 63 as it rotates from the position shown in Fig. 3 against the loading of the springs 65 after Outside. With a little more than a quarter turn, the rollers 63 interfere with the Approaches the cam 64, and the springs 65 snap the cam 64 back to thereby the shaft 70 and the shaft 16 and thus the arm 15 to advance the drive motor 53. Thus, the arm 15 is snapped to the next passage 14 while the wave 70 freewheels within the sprocket 59. When the arm 15 is in its new position snaps in, the switching cam 60 is rotated with the shaft 70, which the microswitch 61 to switch off the motor 53. This stops the motor 53, before the drive is again transmitted to the shaft 70, whereby the continued running of the Arm 15 is prevented. The passage 14d gives a sample of that contained in the tubular body Gases and represents a representation of the gas, which by all Passages 14 enters.

It can therefore be used for determination purposes.

Because the passages 14 are offset from one another in a triangular shape are arranged, and that the arm 15 has two mouthpieces (Lock rings 19), the diameter of the valve body 10 is kept to a minimum.

All pipe couplings 9, 32 and 42 are in the valve body 10 provided, whereby the removal of the head piece 11, the shaft 16 and the arm 1'5 for routine examinations and repairs is made possible without the Pipelines would have to be switched off and reconnected, the valve possesses the property or the characteristic that a dilution of the to be tested Gas can only occur in two places at any given time, namely on the Vorsohlussring 19 and on the ring 31. This can be compared with alternative systems, for example a series of fifty-three poppet valves with fifty-two leaks occur in the sample.

Protection claims.

Claims (4)

Protection claims. 1.) Rotary or selector valve with a rotatable connecting device for coupling any outlet or inlet base or passage a series of such passages with a single outlet or inlet slot or Passages characterized in that the valve is composed of one Housing part, from a head piece, which is to be removed from the housing part, from passages or holes in the housing part, which are offset from one another in a triangular shape in two rows of rings or banks are arranged, and from a swivel arm, which sits on one end of a drive shaft which passes through the head piece and which at its other end has double mouthpieces, which against the To close the housing part and with the passages for the purpose of passage 'of a working medium are to be connected, in such a way that there is always a slot with the aforementioned Mouthpieces alternately connected as the arm rotates. 2.) Selection valve according to claim 1, characterized in that the Rotary link arm by a motor in choppy or abrupt and precisely measured Rotational steps is moved by a spring in the initial step of the movement the shaft is made to compress, and that the energy in the spring is exploited in such a way that it releases the shaft in the final step of the shaft's movement to the engine accelerates into a predetermined position, and that a switch provided for switching off the motor during the aforementioned final step of the movement is. 3 <) Selection valve according to claim 1, characterized in that an outlet or inlet slot or passage with a bypass or shunt line is provided, which is open to the chamber, which through the housing part and the head piece is formed. 4.) Rotary or selector valve with a rotatable connecting device for the coupling of any outlet or inlet socket or passage a series of such passages with a single outlet or inlet slot or Passage, in particular according to claims 1 to 3, as shown and described.