DE102014103708A1 - INTELLIGENT VALVE DEVICE WITH AUTOMATIC DETECTION AND REPAIR FUNCTION - Google Patents

Abstract

Intelligent valve device with automatic recognition and repair function comprising a valve (10) with a valve plate (12); a valve switch (14) which is connected via a spindle to the valve plate (12); a drive (16) connected to the valve switch (14); a position detector (20) which detects the positions of the valve plate (12) as a function of time; a near field controller (40) connected to the drive (16) and the position detector (20) and comprising a logic unit (42) and a comparator (44), wherein in the logic unit (42) rules for detecting the valve status' stored are; a far-field control unit (50) receiving the data via the valve (10), said far-field control unit (50) being monitored with monitoring elements; and a debugging unit (69) in which the rules for automatically eliminating the errors are stored via the valve (10) or which notifies the errors to the far-field monitoring elements to take the necessary action with the latter. The comparator (44) compares a position-time path of the valve plate (12) with the standard path of the status' of the valve (10).

Description

TECHNICAL ENVIRONMENT

The present invention relates to a monitoring and repair of a valve, in particular an automatic detection and repair of an intelligent valve instrument.

STATE OF THE ART

In modern industries, liquids are routed through pipelines, with valves also being commonly installed in these pipelines to control the liquid. To regulate the flow, flow meters are generally installed in the piping to measure the fluids flowing through the piping. In addition, the valves are electrically controlled to regulate the flow. In the prior art embodiment, all flow messages through the valves are sent to a control center, whereupon these valves are then monitored by certain elements. After a thorough analysis, a controller sends the flow control messages to a valve driver to move the valve plate to control the opening of the valve. With the above method, the user must adjust the status of the valve and perform some necessary operations. The situation can sometimes be misjudged, resulting in accidents. What is needed, therefore, is a novel valve control system that can automatically adjust the status of the valve and automatically eliminate simple valve failures.

OBJECT OF THE INVENTION

To achieve the above-mentioned object, the present invention is intended to provide a valve apparatus with automatic recognition and repair function.

This object is achieved by a valve device with automatic recognition and repair function with the features of claim 1. Advantageous embodiments are the subject of the dependent claims.

In a valve device according to the invention near the valve, a near field regulator is installed, with which the valve switch is monitored, so that with this the data on the position-time path of the valve plate are received, with which then a comparison with the standard paths is made. Furthermore, a logic unit is built in which the rules for determining the status of the valve are stored. With a debugging unit, the errors in the valve are eliminated by the movement of the valve plate. With the present invention, therefore, for the control of a valve without operations by the far-field monitoring elements, the solutions for automatic near-field maintenance and repair are provided.

BRIEF DESCRIPTION OF THE DRAWINGS:

1 shows a schematic view of the structure of the present invention.

2 shows a block diagram of the structure of the present invention.

3 shows another block diagram of the structure of the present invention.

4A to 4E show different ways of different errors that can occur in a valve.

EMBODIMENTS

With reference to the 1 Let the structure of the present invention be described below.

A valve 10 is with a pipeline 60 to regulate the flow in this pipeline 60 connected. The valve 10 includes a valve plate 12 , With the movement of the valve plate 12 opening will allow the flow through the pipeline 60 Regulates to regulate the amount of fluid passing through the valve 10 flows. The valve plate 12 is about a spindle 30 with a valve switch 14 in the valve 10 connected.

A drive 16 is with the valve switch 14 connected. The drive 16 is controlled electrically or pneumatically. With the drive 16 becomes the movement of the valve switch 14 and thus the opening of the valve plate 12 controlled.

An electric drive is operated with an electromagnetic valve or with a motor to work with the valve switch 14 the spindle for automatically controlling the opening of the valve plate 12 or with the valve switch 14 the spindle automatically in the near field or far field to control the fluid passing through the valve 10 flowing, driving.

A position detector 20 is in the valve switch 14 installed to with this position detector 20 the position of the valve switch 14 to recognize as a function of time. The detection results are sent to a specific additional component to open the valve plate 12 with time to absorb and the fluid passing through the valve 10 flows, regulate. In the usual designs of the valves is a valve switch 14 (not shown) installed. Opening the valve plate 12 is measured with the resistance of the resistor body.

The 1 and 2 show that the present invention further consists of the following elements.

A near field controller 40 is with the drive 16 and with a position detector 20 connected. The near field controller 40 includes a logic unit 42 and a comparator 44 ,

In the logic unit 42 are the rules for determining the status of the valve 10 saved.

The comparator 44 is with the logic unit 42 connected. The comparator 44 includes a location database 441 , Every time you press the drive 16 takes the position database 441 the positions of the valve plate 12 as a function of time, a position-time path for opening the valve plate 12 to create. In the position database 441 The standard routes are also saved. The standard path is an ideal way for the positions of the valve plate 12 as a function of time, these standard paths advance in the position database 441 be stored. The position-time path of the valve plate 12 is based on the positions and the time (see 4 ) as a way. The comparator 44 compares the position-time path of the valve plate 12 with the recordings of the standard paths in the position database 441 , The comparison results are recorded and sent to other dedicated elements in the system.

A far-field control unit 50 is at one of the valve 10 installed remote position to the data from the near field controller 40 over the valve 10 to recieve. The far-field control unit 50 is monitored with the monitoring elements. These monitoring elements can be the near field controller 40 prompt the drive 16 to drive to operate.

A debugging unit 69 is in the near field controller 40 Installed. In this troubleshooting unit 69 The rules for automatically eliminating the errors are stored or the debugging unit 69 communicates the errors to the far-field monitoring elements in order to take the necessary measures with the latter.

The 2 shows that the structure described above does not have to have a positioning device. In 3 an embodiment is shown in which the drive 16 a positioning device 65 is attached to the driver 16 Precise positioning to open the valve plate 12 to facilitate.

The present invention has three control modes.

In the first control mode, the above-mentioned position-time path is used.

When operating the drive 16 compares the comparator 44 the position-time path of the valve plate 12 with the standard path to the status of the valve 10 determine. With the difference between the position-time path and the standard path is an aging of the valve 10 or a fault in the valve 10 detected. In case of an error, its extent can be determined. The 4A shows that the position-time path of the valve plate 12 almost identical to the standard way. This means that the current status of the valve 10 okay. If like in the 4B shown between the position-time path of the valve plate 12 and the standard way a big difference, this indicates an aging or obstruction of the valve 10 through obstacles. The greater the difference between them, the more advanced the aging or the more serious the mistake. The near field controller 40 then sends this message to the far-field control unit 50 ,

In the second control mode are in the logic unit 42 some rules for determining the status of the valve 20 saved. The near field controller 40 represents with the aid of the position-time path of the valve plate 12 the status based on the in the logic unit 42 fixed rules. With the debugging unit 69 then the ones with the logic unit 42 detected errors eliminated, if an occurrence of errors in the valve 10 was determined. For example, the one with the position detector 20 detected position-time path of the valve plate 12 like in the 4C shown a broken line or as in the 4D shown a truncated line or as in the 4E shown a step line. The in the logic unit 42 stored rules assume that the broken line because of small obstacles in the path of movement of the valve plate 12 on an unstable movement of the valve plate 12 points. A cut off line indicates that the valve switch 14 is hindered by a large obstacle. The stepped line means that the valve seat has been destroyed. These messages are then sent to the far-field control unit 50 sent to notify such incidents to the monitoring elements.

The third control mode of the present invention is the combination of the first and second control modes, ie the comparator 44 becomes the position-time path of the valve plate 12 compared to the standard path to the status of the valve 10 based on the one in the logic unit 42 determine stored rules. If it is determined that the valve plate 12 is blocked or prevented by unwanted foreign matter drives the debugging unit 69 the drive 16 for actuating the valve switch 14 to turn on with this valve switch 14 the valve plate 12 to actuate the repeated rotation and thus the blocking of the valve 10 to eliminate or rust in the valve 10 to remove. Next is the status of the far-field control unit 50 communicated. The amplitude of movement of the valve plate 12 based on the practical requirement. If the operation of the entire pipeline is not affected, the valve can 10 be pressed again to a new position-time path of the valve plate 12 and thus to preserve the effect of the debugging unit 69 determine.

In the present invention is a near-field controller 40 close to the valve 10 installed to the valve switch 14 to monitor and thus the data on the position-time path of the valve plate 12 to be used for comparing with the standard paths. Next are in the logic unit 42 the data for determining the status of the valve 10 saved. With a debugging unit 69 the error is in the valve 10 by moving the valve plate 12 eliminated. With the present invention, therefore, for the control of a valve without operations by the far-field monitoring elements, the solutions for automatic near-field maintenance and repair are provided. This saves both cost and effort to do the job more efficiently.

Despite the description of the present invention, it will be apparent that these may be varied in many ways. Such changes are not to be regarded as a departure from the spirit and scope of the present invention, and all such modifications will become apparent to those skilled in the art and are intended to be included within the scope of the following claims.

Claims (12)

Intelligent valve device with automatic detection and repair function, comprising: one with a pipeline ( 60 ) connected valve ( 10 ) for regulating the flow in this pipeline ( 60 ), whereby the valve ( 10 ) a valve plate ( 12 ), wherein the movement of this valve plate ( 12 ) an opening for a flow through the pipeline ( 60 ) is adjusted to the amount of liquid passing through the valve ( 10 ) flows, to regulate; one via a spindle with the valve plate ( 12 ) associated valve switch ( 14 ); one with the valve switch ( 14 ) connected drive ( 16 ), whereby by the drive ( 16 ) the movement of the valve plate ( 12 ) and thus the opening of this valve plate ( 12 ) is controlled; one in the valve switch ( 14 ) installed position detector ( 20 ), with which a position of the valve plate ( 12 ) is detected as a function of time; a near field controller ( 40 ), with the drive ( 16 ) and the position detector ( 20 ), this near-field controller ( 40 ) a logic unit ( 42 ) and a comparator ( 44 ), wherein in the logic unit ( 42 ) the rules for determining the valve status' are stored, wherein the comparator ( 44 ) with the logic unit ( 42 ), the comparator ( 44 ) a position database ( 441 ), which with the position detector ( 20 ) recognized positions in the position database ( 441 ) to determine a position-time path with respect to the opening of the valve plate ( 12 ), whereby in the position database ( 441 ) also the standard paths are stored, whereby a standard path is an ideal way for the positions of the valve plate ( 12 ) are dependent on the time during the opening, these standard paths being pre-determined in the position database ( 441 ) are stored; a far-field control unit ( 50 ) connected to one of the valve ( 10 ) remote position is installed to read the data through the valve ( 10 ), the far-field control unit ( 50 ) is monitored with monitoring elements; and a debugging unit ( 69 ), in which the rules for automatically eliminating the errors are stored or which notifies the errors to the far-field monitoring elements in order to take the necessary measures with the latter. Valve device according to claim 1, wherein the comparator ( 44 ) the position-time path of the valve plate ( 12 ) compares with the standard path to check the status of the valve ( 10 ) with the difference of the two paths according to the rules of the logic unit ( 42 ) an aging of the valve ( 10 ) or fault in the valve ( 10 ). Valve device according to claim 2, wherein the fault elimination unit ( 69 ) by a single or repeated movement of the valve plate ( 12 ) the error is eliminated, if such in the valve ( 10 ) occured. Valve device according to claim 1, wherein the near-field regulator ( 40 ) according to the rules of the logic unit ( 42 ) Error in the valve ( 10 ) or aging of the valve ( 10 ). Valve device according to claim 4, wherein the fault elimination unit ( 69 ) by a single or repeated movement of the valve plate ( 12 ) the errors are eliminated, if such in the valve ( 10 ). Valve device according to claim 2, wherein a large difference between the position-time path of the valve plate ( 12 ) and the standard way of aging the valve ( 10 ) or that the valve ( 10 ) is hindered by other obstacles, the greater the difference, the more advanced the aging or the more serious the error. Valve device according to claim 3, wherein the logic unit ( 42 ) assumes that the movement of the valve plate ( 12 ) through small obstacles in the path of movement of the valve plate ( 12 ) becomes unstable when connected to the position detector ( 20 ) recognized position-time path of the valve plate ( 12 ) is a broken line, after which the error elimination unit ( 69 ) the valve plate ( 12 ) drives to repeated forward and backward movements to remove the small obstacles. Valve device according to claim 3, wherein the logic unit ( 42 ) assumes that the movement of the valve plate ( 12 ) by a large obstacle in the path of movement of the valve plate ( 12 ) is prevented when the with the position detector ( 20 ) recognized position-time path of the valve plate ( 12 ) is a truncated line, after which the debugging unit ( 69 ) the valve plate ( 12 ) to move forward and backward to remove the obstacle. Valve device according to claim 3, wherein the logic unit ( 42 ) assumes that the valve seat has been destroyed when 20 ) recognized position-time path of the valve plate ( 12 ) is a step line, this message being sent to the far-field control unit ( 50 ) is sent. Valve device according to claim 1, wherein as drive ( 16 ) a pneumatic drive or an electric drive is used. Valve device according to claim 1, wherein in the drive ( 16 ) a positioning device ( 65 ) is attached to the drive ( 16 ) precise positioning to open the valve plate ( 12 ) to facilitate. Valve device according to claim 1, wherein the valve switch ( 1 ) comprises a resistance body and the opening of the valve plate ( 12 ) is measured with the resistance of the resistor body.

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