DE2648493A1 - SERVO-OPERATED THREE-WAY DRAIN VALVE OR SWITCHING VALVE FOR GASES OR LIQUIDS - Google Patents

Description

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Rennerle 10 ■ P.O. Box 3160

October 22, 1976 Sergio LATTUADA, Via strada Vecchia, 19 / D, 24loo BERGAMO / Italy

Servo-operated three-way diverting or switching valve for gases or liquids

The present invention relates to a servo operator Three-way valve for diverting or redirecting a gas or liquid flow, especially usable in drainage or conditioning systems for gas or liquids.

As is known, the drainage systems essentially have two containers for a desiccant, one of which is alternately one is in the adsorption state and works under operating pressure and the other is in refreshment / State of regeneration and working under atmospheric pressure. To reverse the function of the two containers,

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cone or ball valves are usually used, which carry out the switching due to the rotation of a body, which in turn by means of an outside of the valve Servo motor is effected, so that other defects appear after a certain period of time wear and tear, which are due, among other things, to impurities present in the liquid to be treated.

In order to prevent pressure drops after the drainage system, as well as shaking the adsorbent in the regenerated container at the moment when the reversal occurs, i.e. when the container is put back into operation it must first be pressurized again. To check the pressure build-up that has taken place Usually buttons (for example pressostats) are used, which indicate this failure if the pressure does not build up and possibly also prevent the subsequent reversal.

This well-known, production "and training" pretty much costly solution, shows the main shortcomings that quite sensitive devices «* with foreign energy sources must be used to protect the systems, which in and of themselves should be simple and economical.

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The present invention therefore provides a valve for the above purposes which is simpler and more economical Training is and works safely, with the aforementioned deficiencies being remedied and a safe and long-term one Working is guaranteed.

This is achieved in that a Valve is created, which is characterized in that it has a T-shaped body with three connections for the alternate flow of a fluid that has a closure piece within the body, which according to one or the other end can be adjusted, and with this adjustable locking piece inside a small, has cylinder acting in two directions, which can be connected to an external control source.

When a control pulse is sent to one of the two chambers of the small cylinder, the T-shaped cylinder is adjusted Body mounted closure piece, so that a discharge of the flow takes place at the inlet of the valve.

Taking into account that the valve according to the invention is provided in such a way that it operates under the same pressure conditions works on all three connections, the effort required to adjust the locking piece is very low, after only the frictions of the system have to be overcome. The miniature servo drive is therefore more axial in the lock Training housed, without side training with

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End seals, without stuffing boxes and without necessity a lubrication.

The small cylinder or lock, which acts as a servomotor, which is mounted in the T-shaped three-way body, has such dimensions that for its adjustment when entering the pulses the same pressure level as that of the liquid flowing through the valve, the equilibrium between the pressures present in the three paths must exist.

This feature is particularly suitable, for example, for protecting the drainage systems for gases in the event of failure the rebuilding of pressure.

The main advantage of the solution according to the invention lies in the fact that the three-way valve itself locks the switchover, i.e. does not allow any switchover, if the pressure build-up is not complete * without the need for expensive protective devices and external energy sources.

These and other purposes, features and special features as well as advantages of the valve according to the invention are evident for the person skilled in the art from the following brief description relating to a training example that only by way of example and not in a restrictive manner and with reference to the accompanying drawings is taken, wherein r

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Fig. 1 is a schematic view of a gas drainage system is equipped with the valve according to the invention;

2 shows a section of the valve according to the invention.

Referring to Fig. 1, 1 and 2 each designate the container of the absorbent, for example activated one Allumin (activated clay), silica gel, molecular sieves, for a gas drainage system. In its entirety, 3 denotes a valve according to the invention, in which the adjustable closure piece 4 is adjusted to the left, which indicates that the container 1 is in the reconstruction stage (at atmospheric pressure) is, while the too dry gas is introduced into the container 2 under operating pressure. The reference numerals 5 and 6 denote the decompression valves of the containers. As can be seen, the valve is 5 of the container closed since this container 2 is in the drying state while the valve 6 relating to the container 1 is in communication with the outside air. The diverting or bypass valve 3, which is the subject of the present Connection is, is of such dimensions that the switching, so the adjustment of the locking piece 4 can be achieved by means a pneumatic signal, which is entered into the interior of the chamber 9 via the channels 7 u or other side of the piston Io, only occurs when a

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Equilibrium under the respective pressures on the three Connections of the valve. This means that to adjust the locking piece 4 from the position on the left, According to FIG., In the position on the right of the container 1 on the Pressure of the container 2 must be brought. If the pressure does not build up, the locking piece 4 does not move to the right adjusted, even if the switchover signal should arrive via channel 8, and the signal coming from channel 7 is deleted. The valve according to the invention prevents switching from one container to the other, if the pressure has not been built up on the regenerated container beforehand. This avoids sudden pressure drops behind the drainage system, as well as a vibration / shock of the bed of desiccant material in the regenerated container.

Referring to Fig. 2 it can be seen that the inventive Valve has a three-way body 11, in the interior of which a closure piece 4 is adjustably arranged is formed by a small cylinder. This locking piece is axially adjustable on a rigid rod 15, on which, also rigid, a piston Io sits. On the body 11 of the valve there are channels 7 and 8, which correspond to the mouth of the lines 7 and 8 in FIG. These grooves are connected to a further channel 12 and 12, which is provided on the inside of the rod 15 in the axial direction of the valve. The channel 12 and 12 'opens

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in each case at 13 and 13 'in the chamber 9 of the closure piece

If now, in the state shown in FIG. 2, a pneumatic control pulse is issued via the channels 7, 12 and 13 of the chamber 9 is, so if, for example, 9 compressed air is introduced into the chamber the pressure that builds up here acts on the inner walls, as this does not adjust the piston Io can, which sits rigidly on the rod 15, the locking piece 4 is adjusted to the left, which thus the left Branch of the T-shaped body closes. Against it will the switching of the valve from the left position to the right is achieved in that the previously given to channel 7 Pulse is diverted to the outside air and by giving a pulse to duct 8.

Although the valve according to the invention has been described with regard to the use in gas drainage, it is the same can be used advantageously in all those cases where it is a question of switching or deriving processes for a gaseous or liquid flow relevant.

Any additions and / or changes to the training, as explained and shown here, which relate to the Supporting inventive ideas fall within the scope of protection.

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Claims (5)

F a 1.e Jj ^ t ^ aj ^ ojD ^ r ^ ü ^ c ^ h ^ e ^ rl. Drainage or switchover valve for gas or liquids with servo drive, characterized in that it has a T-shaped three-way body for the alternate passage of a fluid, a closure piece which can be adjusted between two of the three ways is arranged in the interior of this body, which has a cylinder adjustable in two directions, which can be adjusted by an external control source. 2. Valve according to claim 1, characterized in that the servo drive in the Closure is installed in the axial direction with an end seal. 3. Valve according to claim 1 and 2, characterized in that the thrust cross-section of the in the movable closure piece used servo drive smaller than the sealing cross-section of the flow on the two lateral Connections is. 4. Valve according to claims 1, 2 and 3, characterized in that the adjustable closure piece with servo drive consists of a cylinder adjustable along a rigid rod, with one in the cylinder on the rod located piston is attached. - 9- 709820/0670 5. Valve according to claim 4, d a d u r ch characterized in that the rod on each side of the piston is provided with a ^ minneren channel, one of which End opens into the cylinder caitimer and the other end is connected to a source of the control fluid. 709820/0670