Electricity: conductors and insulators – Boxes and housings
Reexamination Certificate
1999-03-10
2001-09-25
Reichard, Dean A. (Department: 2831)
Electricity: conductors and insulators
Boxes and housings
C220S003200
Reexamination Certificate
active
06294732
ABSTRACT:
BACKGROUND OF THE INVENTION
The present invention is directed to an electrical field device of the pressure-resistant encapsulation type of protection for use in areas at risk of explosion.
Many field devices are used in areas at risk of explosion wherein, for example, combustible liquids or gasses are stored, transported and/or processed, so that the risk of an explosive atmosphere is present Special protective measures are therefore required in order to avoid a possible explosion. Two fundamentally different concepts that require both different field devices and electrical signals as well as a different installation of the lines are thereby essentially applied in the installation of field devices in such areas at risk of explosion.
Field devices according to a first concept, namely that of the self-protected type of protection having the European code system or designation and “EEx i” are mainly employed in Europe. This type of device measures, such as, for example, casting out or removing electronic components of the protective circuits of, typically, diodes and resistors assured that no energy that could trigger an explosion can arise locally even in case of damage. The energy transported on the signal lines is therefore likewise limited. The separation of the circuit into a secure area and an area at risk of explosion is realized with safety barriers or feed separators that are arranged in the secure area.
The use of field devices according to a second concept is also standard, namely that of the pressure-resistant encapsulation having the European code system “EEx d”, which is widespread particularly in the USA, in Arabia and in Italy as well. A self-protected field device is thereby constructed by design measures of essentially the housing so that a spark or, respectively, a flame within the housing would also not be in the position to trigger damage outside the housing. Field devices of this second type of protection therefore usually comprise solid housings whose joints are characterized by screw threads or long, narrow gaps, and comprise displays that are protected by correspondingly thick windows of, for example, bullet-proof glass. Housings for the type of protection of pressure-resistant encapsulation “EEx d” are thus generally heavy as well as expensive and dare not be opened during operation. The installation of lines in the area at risk of explosion is thereby often provided in pipelines, whereby the pipes are then screwed to the field devices. A general limitation of the energy on the lines or a separation of the circuits into a secure area and an area at risk of explosion, however, is not required.
It is generally not desirable to utilize field devices according to the two concepts described above, namely field devices of the self-secured type of protection on the one hand and field devices of the type of protection of the pressure-resistant encapsulation on the other hand, with an area of an industrial system at
1
risk of explosion since these two different field devices, in particular, require a different installation of the lines, control boxes or, respectively, terminal housing and an operator is usually only familiar with one type of installation. Deriving therefrom for manufacturers of field devices is the difficult situation that essentially two field device types differing completely in terms of electronics and housing must be developed and manufactures, namely one per type of protection. Disadvantageously, many user-friendly properties with possibilities of paramertization and control—as known from self-secured field devices—are thereby often not realized in the design of field devices of the type of protection of the pressure-resistant encapsulation “EEx d” since operating and adjustment devices lying within the housing are generally not accessible.
Further, housings for meeting the explosion-protection demands “EEx d”, i.e. of the type of protection of the pressure-resistant encapsulation “Ex d”, are known for the installation of commercially available controls or electrical devices such as, for example, switches, even with the possibility for flanged attachment.
SUMMARY OF THE INVENTION
An object of the present invention is to improve the field device of the species of the type of protection of the pressure-resistant encapsulation so that it overcomes the disadvantages of the Prior Art, for example, also comprises properties of the self-secured field device, and a part of the field device can be opened for setting and maintenance purposes in the area at risk of explosion as well.
This object is inventively achieved in that the field device is composed of at least two mechanically and electrically coupled modules, whereby a first module comprises a connection space for the connection of the field device in an explosion-hazard area with safety barrier arranged therein and comprises a housing of the type of protection of the pressure-resistant encapsulation, the second module comprises a field device of the self-secured type of protection, the electrical connection between the two modules comprises an arc-over-proof lead bushing, and the electrical signal connections of the second module are realized via the lead bushing.
It can thereby be provided that the mechanical connection of the two modules is composed of a screwed connection that preferably comprises an anti-twist protection.
It is thereby inventively proposed that the lead bushing and the screwed connection are fashioned as one.
It can also be provided according to the invention that the screwed connection is realized as a pipe with an outside thread and leads are conducted through the pipe.
The lead bushing of the invention can comprise three leads, preferably three through seven leads.
One embodiment of the invention is characterized by a connecting cable for connecting the field device to a control room in a safe area and by a first connection unit in the first module for the connection of the connecting cable.
It can thereby be inventively provided that the first connection unit and the safety barrier as cast inside the first module.
It is also inventively provided that a second connection unit is arranged in the second module, and the second connection unit is connected to an electronics and operating unit.
The second module can inventively represent a position controller.
A development of the invention is characterized in that the second module contains at least one limit signal generator of the self-secured type of protection, and each limit signal generator is connected via two leads of the lead bushing.
The invention also proposes that the field device is designed for bidirectional communication via the electrical terminals in the connection space of the first module.
It can be inventively provided that the communication with the field device ensues with an average-free digital signal that can be superimposed on an analog signal, particularly ensuing according to the HART field communication protocol wherein Hart stands for Highway Addressable Remote Transducer.
Finally, it can also be inventively provided that the field device is designed as a digital process device, and the communication ensues via a digital field bus.
The invention is thus based on the surprising perception that the advantages of a field device of the type of protection of the pressure-resistant encapsulation can be united with those of a field device of the self-secured type of protection in that the field device is composed of two mechanically and electrically coupled modules, whereof the one module comprises a housing of the type of protection of the pressure-resistant encapsulation and the other module comprises a field device of the self-secured type of protection.
The inventive field device for use in explosion-hazard areas according to the type of protection of the pressure-resistant encapsulation thus makes it possible that a part of the field device can be opened for adjustment and maintenance purposes in the explosion-hazard area as well, namely the part realized as second module of the self-secured t
Hoffmann Heinfried
Kemmler Lothar
Estrada Angel R.
Reichard Dean A.
Samson Aktiengesellschaft
Schiff & Hardin & Waite
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