DE102016106181A1 - Shut-off - Google Patents

Abstract

The invention relates to a shut-off valve comprising a housing (3), a shut-off element (7) arranged inside the housing (2) and a drive shaft (6) connected to the shut-off element (7) for moving the shut-off element (7) between a blocking position and an open position , In order to monitor the position of the shut-off element, a device (22) for detecting the rotation and direction of rotation of the drive shaft (6) is arranged on the drive shaft (6).

Description

The invention relates to a shut-off valve according to the preamble of claim 1.

Such shut-off valves are used in fluid lines for limiting or interrupting the fluid flow. They usually contain a fitting housing provided with a passage opening and a shut-off element arranged inside the fitting housing with which the passage opening can be opened or closed within the fitting housing. The actuation of the shut-off usually takes place via a drive shaft which is mounted on a bearing bush in a hood or other housing part of the valve body.

A shut-off valve of the type mentioned is from the DE 33 02 979 A1 known. There, a bushing provided with an external thread is screwed into an opening provided with an internal thread on a housing head of the fitting housing. The bearing bush serves for rotatably supporting a drive spindle, via which a shut-off wedge disposed within the housing can be displaced between a lower closed position and an upper open position. A disadvantage of such a shut-off valve is that in the installed position can not be seen from the outside, whether the shut-off is in an open or closed position.

The object of the invention is to provide a shut-off valve of the type mentioned, in which the position of the shut-off can be detected and monitored.

This object is achieved by a shut-off valve with the features of claim 1. Advantageous embodiments of the invention are specified in the subclaims.

In the shut-off valve according to the invention, a device for detecting the rotation and direction of rotation of the drive shaft is arranged on the drive shaft. As a result, the position of the shut-off element can also be detected and monitored on shut-off valves without an electrical actuating device.

In a particularly expedient embodiment, the device for detecting the rotation and direction of rotation of the drive shaft has a signal transmitter arranged on the drive shaft and a signal sensor assigned to the signal transmitter with two sensors arranged next to one another. For simple and non-contact detection of the signal generator can be at least one arranged in a transverse bore of the drive shaft permanent magnet. The two sensors of the signal pickup, which are magnetic field sensors as signal transmitters in the case of a permanent magnet, can be arranged in a holder which is placed on a bearing bush serving for supporting the drive shaft. As a result, the shut-off valves can be retrofitted in a simple manner with a device for detecting the position of the shut-off element.

Instead of using magnetic field-sensitive sensors, as which, in addition to Hall sensors and magnetoresistive sensors and reed switch into consideration, the rotation of the drive shaft can also be detected by means of inductive proximity sensors or by means of optical sensors. In this case, the drive shaft has a suitable shape or a suitable optical reflection pattern.

In an advantageous embodiment, the holder may be attached by a kind of clip connection with a latching into a receiving groove in the bearing bush holding web on the bearing bush. The holder may also have a e.g. trained as a threaded pin securing element to be secured against rotation on the bearing bush.

The device for detecting the rotation and direction of rotation of the drive shaft is preferably connected to an evaluation unit. The evaluation unit can be provided with a display device. The rotational position of the drive shaft can be detected by the evaluation device in a simple manner by counting pulses that are emitted by the sensors upon rotation of the drive shaft, wherein two sensors are provided for determining the direction of rotation and based thereon determination of the counting direction.

The evaluation device preferably has a memory for recording detected position data of the shutoff element and an interface for wired or wireless communication with an external evaluation unit.

Other features and advantages of the invention will become apparent from the following description of a preferred embodiment with reference to the drawings. Show it:

1 a shut-off valve designed as a gate valve in a perspective;

2 : a longitudinal section through the in 1 Shut-off valve shown;

3 : a longitudinal section through a hood with a bearing for a drive shaft of the 1 Shut-off valve shown;

4 a cross section along the line AA of 3 and

5 : a shut-off valve with an extension.

In 1 is shown here as a gate valve shut-off, the one with connection flanges 1 and a through hole 2 provided housing 3 and one by means of screws 4 on the case 3 attached hood 5 for storage of a drive shaft designed here as a drive spindle 6 contains.

How out 2 is apparent inside the case 3 a shut-off element designed here as a shut-off wedge 7 movably guided between a lower closed position and a raised open position. The movement of the shut-off element 7 between the in 2 shown lower closed position and a raised open position is carried out by the drive shaft designed as a drive shaft 6 , which in its upper area over a bearing bush 8th rotatable and secured in the axial direction in the hood 5 is mounted and in its lower part an external thread 9 having. The shut-off element 7 includes in a conventional manner a spindle nut, not shown here, with the external thread 9 the drive shaft 6 so interacts that the shut-off 7 by rotation of the drive shaft 6 can be moved between the lower blocking position and an upper opening position. For sliding guide within the housing 3 has the shut-off element 7 on two opposite sides two here with plastic sliding shoes 10 provided guidance 11 on. The shut-off element designed here as a shut-off wedge 7 contains in a conventional manner an existing metal body, which is surrounded by an existing rubber or other suitable plastic sheath.

In 3 is an enlarged view of the hood 5 with the bearing bush 8th for the rotatable mounting of the adjustment of the shutoff 7 serving drive shaft 6 shown. From this representation it is apparent that the drive shaft 6 a lower threaded shaft 12 with the external thread 9 , an upper cylindrical area 13 with a ring collar 14 and one opposite the hood 5 outwardly projecting square end 15 for mounting a key, a handwheel or another actuator contains. The hood 5 has a passage opening 16 with an internal thread 17 and a lower annular shoulder 18 on. In the internal thread 17 is the one with a corresponding external thread 19 provided bearing bush 8th screwed. The ring collar 14 the drive shaft 6 is about upper and lower disc-shaped sliding elements 20 respectively. 21 between the ring heel 18 the hood 5 and a lower end surface of the bearing bush 8th clamped. This is the drive shaft 6 rotatably mounted and secured in the axial direction in the hood 5 guided. By further further screwing or unscrewing the bearing bush 8th can the axial bearing clearance of the drive shaft 6 be set.

From the 3 and 4 It can also be seen that the shut-off valve is a device 22 for detecting the rotation and direction of rotation of the drive shaft 6 and an evaluation unit 23 for monitoring the position of the shut-off element 7 based on by the institution 22 having supplied signals. In the embodiment shown, the device contains 22 for detecting the rotation and direction of rotation of the drive shaft 6 one on the drive shaft 6 arranged signal generator 24 which is formed in the embodiment shown as a permanent magnet. The trained in the form of a permanent magnet signal generator 24 is in a cross hole 25 in the upper cylindrical area 13 the drive shaft 6 used.

The device 22 for detecting the direction of rotation and number of revolutions of the drive shaft 6 also contains a signaler 24 associated stationary signal pickup, the two juxtaposed sensors 26 includes. The sensors 26 are in one on the bearing bush 8th mounted bracket 27 arranged and via a signal line 28 with the evaluation unit 23 connected. As sensors 26 Magnetic field sensors such as Hall sensors or magnetoresistive sensors are used. The sensors 26 They act as incremental encoders, ie they each deliver a pulse-shaped signal when viewed from the pole face of the permanent magnet at the circumference of the drive shaft 6 to be passed.

The transverse bore 25 could also be continuous, so that the second pole of the permanent magnet also up to the peripheral surface of the drive shaft 6 would extend. In this case would be on the sensors 26 per revolution of the drive shaft 6 a double number of pulses occur. Also, a plurality of permanent magnets could be arranged in a plurality of radial bores to the number of the sensors 26 per revolution of the drive shaft 6 supplied pulses and thus to increase the resolution of the sensors.

Reed switches are also suitable as magnetic field sensors, in which case the field of one or more of the permanent magnets would have to extend in the longitudinal direction of the reed contacts. which could be achieved by a rod-shaped permanent magnet in a longitudinal groove on the circumference of the drive shaft 6 is arranged and the two reed switches are arranged parallel to this permanent magnet.

In principle, other types of non-contact sensors such as inductive proximity sensors are also suitable for use. In this case, the drive shaft could 6 at the height of the sensors 26 be provided with one or more radial projections and / or recesses when passing the sensors 26 each trigger a pulse-shaped temporal change of the sensor signal. Also, optical sensors, in particular in the form of reflection light sensors come into question. So could the scope of the drive shaft 6 in this case at the height of the sensors 26 have one or more sectors deviating optical reflectance, when passing the sensors 26 at each of these would cause a pulse-shaped measurement signal.

The evaluation of the signals of the sensors 26 through the evaluation unit 23 includes a count of that from the sensors 26 delivered impulses. From the phase relationship, ie the chronological order of the two sensors 26 delivered pulses is the direction of rotation of the drive shaft 6 and thus also the axial direction of movement of the shutoff element 7 seen. Depending on the direction of rotation of the drive shaft 6 counts the counter of the evaluation unit 23 when pulses occur either up or down. This is a counting step, if both sensors 26 together give each a pulse.

The counter of the evaluation unit 23 must be calibrated once, which can be done in a simple manner by that he in a known position of the shut-off 7 is reset to zero at one of the two ends of the travel and the Absprerrelement 7 then moved to the other end of the travel, the counter counting up. The final state of the counter then represents the other end position of the shutoff element 7 , On this basis, any position lying between the two end positions can be determined by the evaluation unit 23 be determined from the count in a simple manner by a proportionality calculation. To reset the counter is at the evaluation 23 provided an actuator.

The executed in the form of an annular cap mount 27 is in the manner of a clip connection on one opposite the hood 5 upwards protruding part 29 the bearing bush 8th set up and instructs accordingly 3 on the inside a flexible retaining bar 30 for engagement in an annular receiving groove 31 at the top of the bearing bush 8th on.

In 4 is apparent that the opposite the hood 5 upwardly projecting part 29 the bearing bush 8th has a hexagonal shape. The on this part 29 attached bracket 27 contains a fuse element designed here as a threaded pin 32 in a cross-threaded hole provided with an internal thread 33 is arranged. About this fuse element 32 can the holder 27 secured against rotation on the bearing bush 8th be fixed.

The evaluation unit 23 has in the embodiment shown an example designed as a light indicator display 34 for indicating a position of the shut-off element 7 on. In a simple embodiment, the display device 34 Illuminating elements for indicating an open or closed position of the shut-off element 7 contain. The display device 34 For example, it can be designed as an LED display with one or more light-emitting diodes. For example, not only can the open and closed positions of the shut-off element 7 , but also intermediate positions are displayed. Further information about the operation of the shut-off valve can be detected and stored in the evaluation and read out as needed or transmitted via a suitable interface to a computer or other external evaluation. The data transmission could also be wireless via a cable, for example via a USB or a Bluetooth interface.

It can except the current position of the shut-off 7 also stored in a memory of the evaluation unit previous positions and the times at which they were set, ie a time protocol of the use of the shut-off valve are transmitted. To create such a temporal protocol is the evaluation unit 23 equipped with a real time clock. Furthermore, in addition, in the evaluation unit 23 stored identification data of the shut-off valve such as type and serial number are transmitted.

At the in 1 The embodiment shown is the evaluation unit 23 at the hood 5 arranged. But you can also attend an in 5 shown extension 35 be arranged. Such an extension 35 contains one on the hood 5 attachable pipe 36 in which one with the square end 15 detachable operating rod 37 is arranged. The evaluation unit 23 can be at the top of the extension 35 arranged and over a longer signal line 28 with the device 22 for detecting the direction of rotation and number of revolutions of the drive shaft 6 be connected.

The invention is not limited to the embodiment shown in the drawing and described in detail above. she is applicable not only for gate valve, but also for plunger valves, hydrants or other shut-off valves with a movable within a housing between a closed position and an open position shut-off.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• DE 3302979 A1 [0003]

Claims (16)

Shut-off valve with a housing ( 3 ), one inside the housing ( 2 ) arranged shut-off element ( 7 ) and one with the shut-off element ( 7 ) connected drive shaft ( 6 ) for moving the shut-off element ( 7 ) between a blocking position and an open position, characterized in that on the drive shaft ( 6 ) An institution ( 22 ) for detecting the rotation and direction of rotation of the drive shaft ( 6 ) is arranged. Shut-off valve according to claim 1, characterized in that the device ( 22 ) for detecting the rotation and direction of rotation of the drive shaft ( 6 ) one on the drive shaft ( 6 ) arranged signal transmitter ( 24 ) and the signal transmitter ( 24 ) associated signal sensor with two juxtaposed sensors ( 26 ). Shut-off valve according to claim 2, characterized in that the signal transmitter ( 24 ) at least one in a transverse bore ( 25 ) of the drive shaft ( 6 ) arranged permanent magnet and that the sensors ( 26 ) Are magnetic field sensors. Shut-off valve according to claim 3, characterized in that the sensors ( 26 ) Hall sensors or magnetoresistive sensors are. Shut-off valve according to claim 2, characterized in that the signal transmitter at least one in a longitudinal groove of the drive shaft ( 6 ) arranged permanent magnet, and that the sensors ( 26 ) Reed switches are. Shut-off valve according to claim 2, characterized in that the signal generator at least one radial projection and / or recess in the drive shaft ( 6 ), and that the sensors ( 26 ) are inductive proximity sensors. Shut-off valve according to claim 2, characterized in that the signal generator at least one peripheral portion of the drive shaft ( 6 ) is deviating from the rest of the peripheral surface of the drive shaft optical reflectance, and that the sensors ( 26 ) are optical reflection sensors. Shut-off valve according to one of claims 2 to 7, characterized in that the two sensors ( 26 ) of the signal receiver in a holder ( 27 ) are arranged, which on a for the storage of the drive shaft ( 6 ) bearing bush ( 8th ) can be placed. Shut-off fitting according to claim 8, characterized in that the holder ( 27 ) by a clip connection with a in a receiving groove ( 31 ) in the bearing bush ( 8th ) latching retaining bar ( 30 ) on the bearing bush ( 8th ) is attached. Shut-off fitting according to claim 8 or 9, characterized in that the holder ( 27 ) a fuse element ( 32 ) to the rotationally secured holder on the bearing bush ( 8th ) contains. Shut-off fitting according to one of claims 1 to 10, characterized in that the device ( 22 ) for detecting the rotation and direction of rotation of the drive shaft ( 6 ) with an evaluation unit ( 23 ) for monitoring the position of the shut-off element ( 7 ) on the basis of the 22 ) is supplied. Shut-off valve according to claim 11, characterized in that the evaluation unit ( 23 ) a display device ( 34 ) contains. Shut-off fitting according to claim 12, characterized in that the display device ( 34 ) on a hood ( 5 ) or on an extension ( 35 ) is arranged. Shut-off valve according to one of claims 11 to 13, characterized in that the evaluation unit ( 23 ) a counter for counting a number of revolutions of the drive shaft ( 6 ) based on the sensors ( 26 ) delivered pulses and a computing device for converting a counted number of revolutions in a position of the shut-off element ( 7 ) having. Shut-off valve according to one of claims 11 to 14, characterized in that the evaluation unit ( 23 ) has a memory in which position data of the shut-off element ( 7 ) and other data can be stored. Shut-off valve according to one of claims 11 to 15, characterized in that the evaluation unit ( 23 ) has an interface unit, via which it is wired or wirelessly connected to an external evaluation unit for transmitting detected position data of the shut-off element (FIG. 7 ) and / or other stored data is connectable.

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