JP2013235361A - Adapter for field device and field device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To accurately detect a position where a field device is attached.SOLUTION: An adapter for a field device (pipe side joint) 1 is attached to a pipe 100. Position information of a measurement point of pressure is set by combinations of on/off of contact points formed on contact substrates 1 to 3 of the pipe side joint 1. When a pressure transmitter 200 is attached to the pipe side joint 1, a CPU 21 of a pressure transmitter body 2 reads the position information of the measurement point of pressure set to the pipe side joint 1, and transmits the position information to a host device.

Description

  The present invention relates to an adapter for a field device such as a pressure transmitter and a field device.

  Conventionally, in wired instrumentation of 4 to 20 mA, a field device such as a pressure transmitter that measures a physical quantity and a host device that receives a measurement value of a physical quantity sent from the field equipment are physically paired. Since the connection is determined as 1, it is clear which slot of the higher-level device measures the physical quantity at which location.

  On the other hand, in wireless instrumentation, it is difficult to specify which physical quantity is measured by a physical quantity measurement value sent from a field device. For this reason, for example, in the field device search system disclosed in Patent Document 1, a radio wave is received from a field device, and the position of the field device is estimated from a path along which the radio wave has been transmitted.

JP 2009-139328 A

  However, in the field device search system disclosed in Patent Document 1, the approximate position of the field device can be known from the path through which the radio wave has been transmitted, but it cannot be determined where the adjacent pipe is attached.

  The above-described example shows the case of wireless instrumentation. However, in the case of multi-drop wiring such as a field bus, one segment connected to the field bus looks the same. The position cannot be specified in detail, and the same problem is included.

  The present invention has been made to solve such problems, and an object of the present invention is to provide a field device adapter and a field device capable of accurately knowing a position where the field device is attached. There is to do.

  In order to achieve such an object, the present invention is a field device adapter that is attached to a physical quantity measurement point and to which any field device can be detachably attached in the state of being attached to the physical quantity measurement point. The position information setting means for setting the position information of the measurement point of the physical quantity and the position where the set position information can be read from the attached field device when an arbitrary field device is attached. And an information output means.

  The field device adapter of the present invention includes the position information setting means and the position information output means. As an example of the position information setting means, a plurality of contact points where the position information is set in an on / off combination are used. It is possible. Further, as an example of the position information output means, it is conceivable to use a conduction path that connects a plurality of contacts and attached field devices.

  The field device adapter of the present invention is attached to a physical quantity measurement point, and position information of the attached physical quantity measurement point is set in the position information setting means. When the field device is attached to the field device adapter, the position information set in the field device adapter is read as the position information of the physical quantity measurement point of the field device.

  The field device attached to the field device adapter of the present invention includes position information reading means for reading position information set in the attached field device adapter, and a measurement point to which the attached field device adapter is attached. It is assumed that a physical quantity measuring means for measuring the physical quantity and a transmitting means for sending the read position information and the measured physical quantity to the host device. As a result, the positional information of the measurement point of the physical quantity and the measured physical quantity are sent from the field device to the host device, and it is possible to accurately know where the field device is attached in the host device.

  According to the present invention, when an arbitrary field device is attached to the field device adapter to which an arbitrary field device is detachably attached, the position information setting means for setting the position information of the measurement point of the physical quantity and the arbitrary field device are attached. Since the position information output means for enabling reading of the set position information from the attached field device is provided, when the field device is attached to the field device adapter, the position set in the field device adapter The information is read as the position information of the physical quantity measurement point of the field device, and the position where the field device is attached can be accurately known from the read position information.

It is sectional drawing which shows one Embodiment of the adapter for field devices which concerns on this invention. It is a figure which shows the contact currently formed in the contact board of this adapter for field devices (piping side joint). It is a figure which shows the state which attached this piping side joint to piping. It is a figure which shows the state which attached the pressure transmitter to the piping side joint attached to this piping. It is a figure which shows the outline of the electric circuit in the state which attached the pressure transmitter to the piping side joint.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. FIG. 1 is a sectional view showing an embodiment of a field device adapter according to the present invention.

  This field device adapter (hereinafter referred to as a pipe-side joint) 1 includes a pedestal part 1-1 on a disk and a pipe part 1-2 extending from the central part of the pedestal part 1-1 to the lower surface side. Yes. The pedestal part 1-1 and the pipe part 1-1 are made of metal, and screw parts are formed on the outer peripheral part 1a of the pedestal part 1-1 and the lower end part 1b of the pipe part 1-2. Further, a ring-shaped groove 1d is formed around the pipe section 1-2 on the lower surface 1c of the pedestal section 1-1, and the contact board 1-3 is fixed to the bottom surface of the ring-shaped groove 1d. Yes.

  As shown in FIG. 2, contacts S <b> 1 to S <b> 4 are formed on the contact board 1-3, and one end of each of the contacts S <b> 1 to S <b> 4 is connected in common with the pedestal portion 1-1 being GND. The other ends of the contacts S1 to S4 are connected to the lead pins LP1 to LP4. The lead pins LP1 to LP4 are soldered on the circuit of the contact board 1-3, and protrude further upward than the upper surface 1f of the pedestal part 1-1 through the through holes 1e1 to 1e4 formed in the pedestal part 1-1. ing. A plurality of positioning studs 1g are provided on the upper surface 1f of the pedestal part 1-1 in combination with a sensor side joint 4 (FIG. 4) described later. Further, a step hole 1h is formed in the center portion of the upper surface 1f of the pedestal portion 1-1 so that the opening of the pipe portion 1-2 faces.

  FIG. 3 shows a state where the pipe side joint 1 is attached to the pipe 100. The pipe 100 is provided with an attachment portion 100a of the pipe-side joint 1 at each position determined as a pressure measurement point. The pipe side joint 1 is attached by screwing a screw part formed at the lower end 1b of the pipe part 1-2 of the pipe side joint 1 to the attachment part 100a of the pipe side joint 1. At this time, the position information of the measurement point of the pressure to which the pipe side joint 1 is attached is set by the on / off combination of the contacts S1 to S4 formed on the contact board 1-3. In this example, since the four contacts S1 to S4 are formed on the contact board 1-3, it is possible to set position information of a maximum of 16 points.

  As shown in FIG. 4, an arbitrary pressure transmitter 200 is attached to the pipe side joint 1 attached to the pipe 100. The pressure transmitter 200 includes a pressure transmitter body 2 having a built-in CPU 21 and a sensor side joint 4 electrically connected to the pressure transmitter body 2 via a flexible cable 3. The sensor side joint 4 includes a sensor body 41, a union nut 42 that is loosely fitted on the outer periphery of the sensor body 41, and a stopper 43 that is welded to the sensor body 41 and prevents the union nut 42 from falling off. The sensor body 41, the union nut 42, and the stopper 43 are made of metal.

  The sensor body 41 is provided with a pressure sensor 44, and a sealing liquid 46 is sealed as a pressure transmission medium between a sensor diaphragm (not shown) of the pressure sensor 44 and a pressure receiving diaphragm 45. A strain resistance gauge is formed on the sensor diaphragm of the pressure sensor 44, and a signal corresponding to a change in resistance value of the strain resistance gauge is output from the pressure sensor 44. A signal output from the pressure sensor 44 is sent to the pressure transmitter body 2 through the flexible cable 3 connected to the relay board 47. Further, socket contacts SC <b> 1 to SC <b> 4 are embedded in the sensor body 41, and end portions of the socket contacts SC <b> 1 to SC <b> 4 are soldered on the circuit of the relay substrate 47. The socket contacts SC1 to SC4 and the sensor body 41 are insulated.

  The sensor body 41 is assembled to the pipe side joint 1 by a union nut 42. That is, the lead pins LP1 to LP4 are inserted into the socket contacts SC1 to SC4, and the sensor body 41 and the pipe side joint 1 are combined while being aligned by the positioning stud 1g, and the union nut 42 is connected to the pipe side joint 1. The sensor body 41 is assembled to the pipe-side joint 1 by screwing with the outer peripheral portion 1a of the base portion 1-1. At this time, an O-ring 48 is interposed around the pressure receiving diaphragm 45 so that the fluid from the pipe 100 via the pipe portion 1-2 does not leak.

  FIG. 5 shows an outline of an electric circuit in a state where the pressure transmitter 200 is attached to the pipe side joint 1. In this example, the base part 1-1 and the pipe part 1-2 of the pipe-side joint 1 are metallic, and the sensor body 41, the union nut 42 and the stopper 43 of the sensor-side joint 4 are metallic, and are electrically connected to GND. I am allowed to double.

  In the attachment state of the pipe-side joint 1 and the pressure transmitter 200, the CPU 21 of the pressure transmitter body 2 is an on / off combination of the contacts S1 to S4 formed on the contact board 1-3 of the pipe-side joint 1. Is read by the path (conduction path) of the lead pins LP1 to LP4, the socket contacts SC1 to SC4, and the flexible cable 3. That is, the position information set in the pipe side joint 1 is read as the position information of the pressure measurement point of the pressure transmitter 200.

  Further, the CPU 21 of the pressure transmitter body 2 takes in a signal output from the pressure sensor 44 through the flexible cable 3 and obtains a pressure value at a measurement point where the pipe side joint 1 is attached.

  Then, the CPU 21 of the pressure transmitter body 2 transmits the read position information of the measurement point and the measured pressure value to a higher-level device (not shown). In this case, it may be transmitted wirelessly to the host device, or may be transmitted to the host device via the fieldbus.

  In the host device, when the pipe-side joint 1 is attached to the pipe 100, the relation between the position of the pipe-side joint 1 and the position information set by the combination of ON / OFF of the contacts S1 to S4 formed on the contact board 1-3. Is set. Thereby, the host device can accurately know the position where the pressure transmitter 200 is attached based on the position information sent from the pressure transmitter 200.

  In the present embodiment, since the position information of the measurement point is set in the pipe side joint 1, it is not necessary to set the position information of the measurement point in the pressure transmitter 200 one by one. For example, when it is desired to replace the pressure transmitter 200, the pressure transmitter 200 can be attached to the pipe-side joint 1 without setting the position information of the measurement point in the new pressure transmitter 200. The position information of the measurement point is read and notified to the host device. Thereby, the exchange operation of the pressure transmitter 200 is simplified.

  In the above-described embodiment, the number of contacts formed on the contact board 1-3 is four, but it is needless to say that the number is not limited to four. Further, it is not always necessary to set position information by a combination of contact ON / OFF, and it is possible to recognize the tag information by embedding a memory for serial communication. Moreover, although the contact signal which contacts is demonstrated as an example, a non-contact tag may be sufficient.

In the above-described embodiment, the pressure transmitter is described as an example of the field device. However, a field device such as a thermometer or a flow meter may be used. In the case of a thermometer, the temperature is the physical quantity referred to in the present invention, and in the case of a flow meter, the flow rate is the physical quantity referred to in the present invention.
[Extension of the embodiment]
The present invention has been described above with reference to the embodiment. However, the present invention is not limited to the above embodiment. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the technical idea of the present invention.

  DESCRIPTION OF SYMBOLS 1 ... Field device adapter (pipe side joint) 1-1 ... Pedestal part 1-2 ... Pipe part 1-3 ... Contact board 2 ... Pressure transmitter body 3 ... Flexible cable 4 ... Sensor side joint , 21 ... CPU, 41 ... sensor body, 42 ... union nut, 43 ... stopper, 44 ... pressure sensor, 45 ... pressure receiving diaphragm, 46 ... filled liquid, 47 ... relay substrate, S1 to S4 ... contact, LP1 to LP4 ... lead pin , SC1 to SC4, socket contacts, 100, piping, 200, pressure transmitter.

Claims (3)

It is a field device adapter that is attached to a physical quantity measurement point, and in a state where it is attached to the physical quantity measurement point, any field device can be detachably attached,
Position information setting means in which position information of the measurement point of the physical quantity is set;
A field device adapter comprising: a position information output unit that enables reading of the set position information from the attached field device when the arbitrary field device is mounted. In the field device adapter according to claim 1,
The position information setting means includes
A plurality of contact points where the position information is set in a combination of on / off;
The position information output means includes
An adapter for a field device, wherein the field device adapter is a conduction path connecting the plurality of contacts and the attached field device. A field device detachably attached to the field device adapter according to claim 1 or 2,
Position information reading means for reading position information set in the attached field device adapter;
A physical quantity measuring means for measuring a physical quantity at a measuring point to which the attached field device adapter is attached;
A field device comprising: transmission means for transmitting the read position information and the measured physical quantity to a host device.

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