NO772107L - VALVE CONTROL DEVICE. - Google Patents

Description

"Device for valve regulation".

The present invention relates to a device for valve regulation and in particular such a device which comprises means for selectively regulating the opening area of a through-flow opening. More particularly, the invention relates to a valve control device which produces a selective transition with a buffer effect in a system when it opens or closes the flow of fluid in the system.

In many applications, it is desirable to provide

a buffering transition when a fluid system is removed from or returned to different selected fluid flow conditions. When, for example, filtering a gas flow using textile bags, it is desirable to avoid a sudden change in the gas flow when a regulating device for a gas valve or damper is activated, as sudden changes in the gas flow cause the filter bags to "pop", which weakens the textile material., This weakening of the textile is reinforced when it is a material that contains glass fibre.

Previously known control devices, such as round dampers and vane dampers, can only function satisfactorily by using an expensive time activation device which causes them to act relatively slowly. Nevertheless, vane dampers are particularly difficult to use because the speed of the fluid flow does not change linearly in relation to the change in position of the damper blade since most of the fluid can be regulated when the damper blade is moved to a position which is mainly parallel to the direction of flow. The round (bullseye) device is less prone to damage since its flow rate changes linearly over the entire blade stroke.

In order to produce a regulating device for a valve to selectively regulate the opening and closing of a through-flow opening in order to produce a selective transition with a buffer effect in a system at the start or stop of the fluid flow, in US patent no. 3,898,997 it has been proposed to use electrical actuation devices to actuate the damper device for movement of the damper blade from one position to another. When the damper blade in this reference is in the open position, a solenoid must be energized. When the device according to this reference is further used, in combination with a filter system using a baghouse and the damper device is arranged in the air inlet system of the baghouse, and the damper is closed while one compartment is being cleaned and one solenoid is de-energized, but a second solenoid must be energized. When the system is to be brought back into the air stream and gentle inflation is required, one solenoid is energized and the other is de-energized until a predetermined distance or time period has been met; Then the energized solenoid is de-energized. After the low flow rate condition can be removed, the de-energized solenoid is re-energized to open valves and remains in the energized position during normal operation of the system.

According to the present invention, it is realized that it is desirable to provide a control device for a valve to selectively control the opening and closing of a flow opening, and it is further realized that it is desirable to provide a control device for a valve that is simple , cheap, easy to construct and easy to maintain.

According to the invention, a simple arrangement is provided for a valve control device which. includes means for regulating the opening and closing of flow through an opening. According to the invention, a valve control system is also provided which is compact, robust, with light and fast operation which is nevertheless effective. The present invention provides a valve control device which is useful where, for example, a gas filter bag to be returned to the air stream is gently inflated, using solenoid valves to hold the damper in a closed position when the solenoids are energized and in a fully open or normal working position when both solenoids are de-energized, and in an intermediate holding position of the valve arrangement when one solenoid is energized and the other is de-energized.

Various other features of the present up-

the invention will appear from the following description.

The present invention provides more particularly a device for valve regulation which comprises: a housing with an opening in the wall, a valve or damper blade which can be selectively moved between at least an open position and a closed position in relation to the opening, a device in connection with the valve blade to move the blade in relation to the wall of the housing, an influencing device which can influence the movement device to move the valve blade from one position to another, the influencing devices comprising a control device for the blade movement device which is influenced in response to a first control circuit and a second control circuit where the first the control circuit comprises means for de-energizing the actuating device to a position which causes the selective opening of the orifice by moving the valve blade a predetermined distance, means for energizing the acting device when the valve blade has been moved over the predetermined distance, and a timing device so m is arranged to maintain the valve blade at the predetermined distance for a predetermined period of time before the actuating device is de-energized, whereby the valve blade is actuated to move to a second open position, and wherein the second control circuit comprises means for energizing the actuating device to a position which leads for closing the valve blade.

The present invention further provides

more particularly, a device for valve regulation comprising a housing wall, with an opening, a valve blade which can be selectively moved between at least an open position and a closed position relative to the opening, a movement device for the valve blade in connection therewith to move the blade relative to the housing wall , an influencing device which can influence the movement device for movement of the valve blade from one position to another, the influencing device comprising a control device for the movement device which is influenced in response to a first control circuit and a second control circuit, where (1) the first control circuit comprises a normally open coupling device. closed to a first position), the switching device in the first closed position being in series with two circuit branches in parallel, which first circuit branch comprises a normally open first switch contact and a first contactor influencing device whereby the first contactor influencing device influences the influencing device to a first position on closing

of the normally open first switch contact, and where the second circuit branch comprises a normally open limit switch and a first contact relay which operates the normally open first switch contact, the normally open limit switch being operated in response to selected movement of the valve blade whereby the power switch when the valve blade moves a preselected distance, is actuated to a closed position thereby energizing the contactor relay which closes the normally open first switch contact and activates the first contactor actuation device which in turn actuates the actuation device to its original position, and (2) the second control circuit comprises the normally open switching device closed to a second position, the first core actuator actuation device and a second contactor actuation device whereby the first and second contactor actuation devices actuate the actuation device to a second position by closing the normally open switching device to the second position.

It should be understood that the description of examples of the invention given below is not intended to limit the scope of protection and that many modifications within the scope of the invention will be possible for professionals in the field when reading the following description.

The figure in the drawing is an elevation in partial section

of a preferred embodiment of the invention, including an electrical diagram of the circuit driving the embodiment.

The figure illustrates the structure of a valve device 2 which operates in response to the operation of the movement device for the valve blade, exemplified as fluid cylinder 4, the fluid being generally either hydraulic or pneumatic. However, it should be noted that the movement device may be other mechanical devices such as a motor-driven device with a suitable ratio. Fluid pressure for operation of the fluid cylinder 4 in the example is provided from the impact device, shown as a single coil, three positions with spring return. to the center, and an air remote controlled solenoid valve assembly 6 arranged to bring air to chamber A of cylinder 4 through conduit 8 and into the second chamber, chamber B, of fluid cylinder 4 through a suitable conduit 10, chambers A and B in cylinder 4 is delimited by the position of the piston device array 82, as discussed below.

Supply of fluid to the cylinder 4 is determined by the position of the sliding valve part 20 in the valve device 6 in response to the operation of the solenoid valves 12 and 14. The solenoids 12 and 14 comprise biasing devices 16 and 18 whereby the position setting of the sliding valve part 20 which is arranged inside the housing 24, upon energization, determines which conduits carry fluid to the selected chamber in the cylinder 4, as discussed below. It should also be noted that the influencing device 6 in the example can for example be a reversible starter if the valve movement device 4 is, for example, a motor-driven device with an appropriate gear ratio. It will be clear to those skilled in the art that the impact device and the movement device which operate in response to electrical circuits can be replaced by additional devices without deviating from the scope and idea of the invention.

The valve device 6 comprises five flow-through openings 26, 28, 30, 32 and 34 in the housing part 24. The openings 26 and 28 communicate with lines 8 and 10, the openings 30 and 34 are respectively in connection with outlet lines 36 and 38, and the opening 32 is

in fluid connection with a fluid supply line 40, the line 40 conveying fluid under pressure to the fluid cylinder 4 by means of the control valve 6. In the figure, the solenoid 14, which comprises a biasing device 18, is further provided with a sliding valve device 15 which comprises three through-flow openings 1.7, 19 and 21. The opening 17 communicates with a supply line 29, the line 29 conveying pressurized fluid to a fluid cylinder 27 by means of valve devices 15 and the line 25. When the solenoid 14 is de-energized, the opening 21 is in flow-through connection with the line 25 which thus conveys pressurized fluid from the supply line 29 through the flow opening 17 to the fluid cylinder 27.

It should be noted that when the solenoids 12 and 14 are de-energized, a flow passage 48 is arranged for flow-through connection with the line 40, the supply line, and the line 10 with current through the passage 46 is arranged between the openings 26 and 34 to provide for the discharge of fluid from the fluid cylinder 4 through the fluid line 8 and the outlet line 38. Energization of the solenoids 12 and 14 forces the valve part 20 to a position in the control valve device 6 which causes the flow passage 44 to be aligned with the opening 32 and the opening 26 to thereby bring fluid from the line 44 to the fluid cylinder 4 through the line 8 with the flow opening 42 aligned with the openings 28 and 30 to provide flow communication between the line 10 and the discharge line 36. When the solenoid 12 is de-energized and the solenoid 14 is energized, the sliding valve assembly 20 is locked in its original position, as shown in the figure, and - all openings for the control valve device no 6 is closed.

Means for energizing the solenoids 12 and 14 are made up of the electrical circuits which are hereinafter referred to as first and second control circuits. Each of the circuits comprises the three-way main control switch 50 and the first control circuit is energized by bringing the switch 50 to the closed position at a contact 53, and the second control circuit is energized by bringing the switch 50 to the closed position at 52 and 54.

The first regulation circuit consists of two circuit branches, the first branch comprises a first contactor influencing device, exemplified as solenoid coil winding 78, the winding 78 being the activation winding for the solenoid 14. The first circuit branch further comprises a normally open relay contact switch 56 which is operable in response to energization of contact relay 62. The contact relay 62 which includes the winding 66 is energized through the second branch circuit's electrical conductor 64 which includes a normally open limit switch 68 and the normally open switch contact 53. When the control switch 50 is thus closed to position 53, the coil 78 is kept energized provided that the control relay 62 is energized.

When the contact relay 62 is de-energized, the normally open switch contact 56 is opened and breaks the circuit that carries electrical energy to the coil winding 78. Furthermore, the limit switch 68 must also be closed to keep the contact relay 62 in an energized state.

Also arranged in the first electrical circuit is a normally closed switch contact 7 2 which is operated in response to energization of the timing device 73 in the timing device 74, the device 73 and the switch 72 being in parallel with the contact relay coil 66.

When the normally open limit switch 68 is closed, electrical energy is fed to the coil 66 and thus activates the contact relay 62 which closes the normally open switch contact 56, which then energizes the coil 78 and the time setting device 73. The time setting device 73 opens after a predetermined time the normally closed time setting switch 72. Opening the switch contact 72 de-energizes the solenoid 14 through the coil 78.

The second electrical control circuit comprises the main control switch 50 arranged in the closed positions 52 and 54 and the electric coils 78 and 60 which respectively bring electrical energy to operate the solenoids 14 and 12. When the main control switch 50 is in the closed position at 52 and 54 , the solenoids 12 and 14 are operated to bring fluid to the cylinder 4, as discussed above.

In the first electrical control circuit, the normally open limit switch 68 is operable in response to movement of a transverse. arm 80 which is attached to the connecting rod 84 which is arranged between and attached to the valve assembly 2 at one end and the piston 82 at the other end for sliding movement through and in fluid tight connection with an opening in the housing 4. Movement of the arm 80 towards and in contact with the limit switch contact arm 81 brings the limit switch 68 to a closed position thereby energizing the first electrical control circuit as discussed earlier.

In the figure, the valve blade 92 is shown in the closed position in fluid-tight connection with the seal 93 which surrounds the opening 86 and the plate 87. The blade 92 is held in place and is supported by the support frame 85, and the transverse rod 84 connects the blade 92 with the piston 82 in the cylinder 4. Cylinder 4 is usually a pneumatic or hydraulic cylinder which, explained earlier, is influenced by means of the control valve 6 and which is attached to the frame 85 outside the fluid channel. A protruding cylindrical portion 90 is attached to the opening side of the valve blade 92 to provide a fluid passage of constant cross-sectional area over a predetermined portion of the stroke length of the valve blade 92. This can be seen by the dashed line in the figure. During a predetermined period of the impact movement, the protruding cylindrical portion 90 passes through the opening 86 and thus defines an annular opening between the side walls and the opening 86. As can also be seen from the figure, during the first part of the opening stage of the valve devices 2, the valve blade will be moved upwards from its fluid-tight position on the seal 93. When this happens, the protruding cylindrical part 90 will remain in the opening 86 and a constant flow of fluid will be allowed to pass through valve devices 2 between the annular opening which is delimited between the protruding part 90 and the plate which defines the opening 86. The protruding cylindrical part 90 therefore acts as a buffer which causes a smooth transition when, for example, textile bag filters are to return to the air stream after cleaning. During normal operation of, for example, a bag house which includes a number of textile filter bags, the first opening is off

the opening 86 only an inch or two before the contact arm 81 is brought into contact with the transverse arm 80 which stops the movement of the valve assembly 2. It should further be noted that by accurately adjusting the valve blade away from the opening 86, a cylindrical member 90 is not necessary.

The valve device can also have other shapes and constructions, such as those described in US patent 3 752 439. However, it should be noted that as previously described when using the valve device 2, a variable opening is defined during the upper part of the movement of the valve device 2. The varying opening is then stopped at a predetermined distance or partially open position relative to the opening 86 in the wall 87. The preferred valve device 2 remains in this partially open position until the actuating device becomes operable and forces the valve device to its fully open position .

Claims (5)

1. Device for valve regulation, characterized by: a. a house wall that has an opening, b. a valve blade that can be moved between at least one open position and one closed position in relation to the opening, c. a movement device for the valve blade in connection with the blade to move it in relation to the housing wall, d. influencing device which can be operated to influence the movement device to move the valve blade from one position to another, the influencing device comprising a control device for the movement device which is activated in response to a first control circuit and a second control circuit, where (1) the first control circuit comprises a normally open switch device closed to a first position which switch device in the first closed position is in series with two branch circuits in parallel, where the first of the branch circuits comprises a normally open first switch contact and a first contactor actuation device, whereby the first contactor actuation device brings the actuation device to a first position upon closing the normally open first switch contact, and where the second branch comprised a normally open limit switch and a first contact relay which operates the normally open first switch contact, the normally open first switch contact, the normally open limit switch is operated in response to a selected movement of the valve blade such that when the valve blade moves a predetermined distance the limit switch is actuated to a closed position which energizes the contactor relay which in turn closes the normally open first switch contact and activates the first contactor actuation device which in turn brings the actuation device to the original position, and (2) the second control circuit comprises the normally open switch device closed to a second position, the first contactor on- the action device and a second contactor action device, whereby the first and the second contactor action device activate the action device to a second position by closing the normally open switch device to the second position. 2. Device according to claim 1, characterized in that said first branch circuit in the first regulation circuit comprises a timing device and a normally closed second switch contact which can be brought to the open position in response to energization of the timing device, the timing device and the second switch contact being in parallel with the first contact relay, whereby the second influencing device is deactivated upon opening the normally closed second switch contact. 3. Device according to claim 1, characterized in that the valve blade movement device comprises a housing with a number of openings and a sliding piston arranged therein with a rod which extends across and is attached to the piston at one end and at its other end is attached to the valve blade, the rod extending through one of the openings in the housing for sliding movement therethrough in a substantially fluid-tight manner, which piston has substantially the same geometric shape and cross-sectional area as the interior of the housing, whereby the piston divides the housing into two chambers which do not have flow-through connection with each other, and at least two of the openings are arranged at substantially opposite ends of the housing in fluid communication with a fluid pressure device, whereby fluid pressure on one side of the piston activates the valve blade for movement in one direction and fluid pressure on the other side of the piston activates the valve blade for movement in the opposite direction. 4. Device according to claim 1, characterized in that the valve blade includes a screen device placed on the blade in cooperation with the opening to produce a flow opening which is delimited by the edge of the opening and the screen device, which flow opening has a constant cross-section over part of the valve blade's stroke length. 5. Device for valve regulation, characterized by: a. a house wall provided with an opening, b. a valve blade arranged to move between at least one open position and one closed position in relation to the opening, c. ;-a be <y> control device for the valve blade which is in connection with the blade to move the valve blade in relation to the housing wall, d. an influencing device which can be brought to influence the movement device for the valve blade from one position to another, which influencing device comprises a control device for the movement device which is activated in response to a first control circuit and a second control circuit, where (1) the first control circuit comprises means for energizing the actuator to a position which causes selective opening of the orifice by moving the valve blade a predetermined distance, and a timing device arranged to hold the valve blade at the predetermined distance for a predetermined period of time before the actuator is again energized to actuate the valve blade to move to a second open position, and (2) the second control circuit includes means for energizing the actuator to a position which causes the valve blade to close.