CN207070076U - A kind of power communication interface switching device with automatic switching function - Google Patents

Abstract

The utility model discloses a kind of power communication interface switching device with automatic switching function, including micro-chip processor, MBUS communication modules, uplink communication module and automatic switch-over circuit, automatic switch-over circuit can select different input signals according to the signal of micro-chip processor；The input of uplink communication module electrically connects with micro-chip processor；MBUS communication modules include input, cathode output end and cathode output end, and the input of MBUS communication modules electrically connects with micro-chip processor；MBUS communication modules electrically connect with automatic switch-over circuit.When the utility model reads MBUS bus datas, the automatic connection disconnected between gas recovery device and MBUS buses so that combustion gas meter can receive correct level signal, the data of feedback collection, complete the read action to MBUS buses.Compared with using signal switching apparatus, the utility model directly has the function of signal switching, and the volume of overall hardware is more convenient, and hardware cost is lower, and operation is simpler.

Description

A kind of power communication interface switching device with automatic switching function

Technical field

Power communication interface switching device field is the utility model is related to, has more particularly, to one kind and automatically switches The power communication interface switching device of function.

Background technology

It is all if gas meter, flow meter has built acquisition system well in electricity-water-gas multilist collection copies the process of construction of project Gas meter, flow meter is linked into the collector of combustion gas by MBUS buses, and the communication interface converter of multilist centralized meter-reading system is incorporated to MBUS Bus, the both ends of bus are arranged in gas recovery device, gas meter, flow meter is gathered by MBUS buses.

Communication interface converter accesses gas recovery MBUS buses simultaneously with gas recovery device, when communication interface converting means Put to combustion gas meter in MBUS buses send meter reading order when, can to MBUS bus transmission level signals, due to being adopted by combustion gas The interference of storage internal circuit, cause the level signal that communication interface converter is sent to be disturbed, produce signal distortion.MBUS The combustion gas meter accessed in bus can not receive correct level signal, no useful signal return communication interface switching device, from And meter reading is caused to fail.

Utility model content

The utility model overcomes above-mentioned existing communication interface converter and is connected with gas recovery device and MBUS buses The defects of, there is provided a kind of new power communication interface switching device with automatic switching function.The utility model can be When reading MBUS bus datas, the connection between MBUS buses and gas recovery device is cut off, makes both simultaneously total to MBUS Line carries out digital independent, causes to read the failure of data.

In order to solve the above technical problems, the technical solution of the utility model is as follows：

A kind of power communication interface switching device with automatic switching function, including micro-chip processor, MBUS communication mould Block, uplink communication module and automatic switch-over circuit, wherein,

Described automatic switch-over circuit has the first order, the second level and the third level, and automatic switch-over circuit can be according to micro- place The signal of chip is managed, selects the first order or the second level to carry out two-way electrically connect with the third level；

Described uplink communication module is uploaded the data that power communication interface switching device is collected, uplink communication mould The input of block electrically connects with micro-chip processor；

Described MBUS communication modules include input, output end, positive pole bidirectional end and negative pole bidirectional end, MBUS communication moulds Block positive pole bidirectional end and negative pole bidirectional end composition MBUS communication modules transmitted in both directions level, the input of MBUS communication modules with Micro-chip processor electrically connects, and the output end of MBUS communication modules electrically connects with micro-chip processor；

The transmitted in both directions level of described MBUS communication modules with the first order of automatic switch-over circuit is two-way electrically connects；

The second level of described automatic switch-over circuit electrically connects with gas meter, flow meter collector.

Utility model works flow is as follows：

Gas recovery device electrically connects with the second level, and the third level electrically connects with MBUS buses, the second level and the normally closed company of the third level Connect.When communication interface converter does not read MBUS buses, the second level and the normally closed connection of the third level, gas recovery device collect MBUS Data in bus.When communication interface converter reads MBUS buses, micro-chip processor sends control signal and passes through MUBS Communication module reaches automatic switch-over circuit, and automatic switch-over circuit disconnects the second level and the third level, the first order according to control signal It is connected with the third level, micro-chip processor reads the data in MBUS buses.Uplink communication module fills power communication interface conversion The data for putting reading MBUS buses are uploaded.

In a kind of preferable scheme, described automatic switch-over circuit includes the first rectifying and wave-filtering sub-circuit, the second rectification Sub-circuit, matching capacitance, current-limiting resistance and dpdt relay are filtered, wherein,

It is defeated that the first described rectifying and wave-filtering sub-circuit includes the first positive terminal, the first negative pole end, cathode output end and negative pole Go out end, the first order of the first positive terminal and the first negative pole end of the first rectifying and wave-filtering sub-circuit as automatic switch-over circuit；

It is defeated that the second described rectifying and wave-filtering sub-circuit includes the second positive terminal, the second negative pole end, cathode output end and negative pole Go out end, the second level of the second positive terminal and the second negative pole end of the second rectifying and wave-filtering sub-circuit as automatic switch-over circuit；

Described dpdt relay include the first control terminal, the second control terminal, the first output end, the second output end, First movable end, the second movable end, the 3rd movable end and the 4th movable end, the first movable end and the second movable end are double as double-pole Throw the first activity level of relay, the first activity level with the first order is two-way electrically connects；3rd movable end and the 4th movable end conduct Second activity level of dpdt relay, the second activity level with the second level is two-way electrically connects；First control terminal and the second control Hold the control pole as dpdt relay；The output of first output end and the second output end as dpdt relay Pole, the third level of the output stage of dpdt relay as automatic switch-over circuit, under the control of control pole, DPDT after The output stage selection of electrical equipment electrically connects with the first activity level or the second activity level；

The cathode output end of the first described rectifying and wave-filtering sub-circuit electrically connects with one end of current-limiting resistance；

The cathode output end of the first described rectifying and wave-filtering sub-circuit electrically connects with one end of matching capacitance；

Inductance in described matching capacitance and dpdt relay matches;

The other end of described matching capacitance electrically connects with the other end of current-limiting resistance；

The other end of described matching capacitance electrically connects with the second control terminal；

One end of described matching capacitance electrically connects with the first control terminal.

Output stage of the output stage of described dpdt relay as automatic switch-over circuit.

First rectifying and wave-filtering sub-circuit and the second rectifying and wave-filtering sub-circuit provide stable direct current signal so that DPDT Relay will not ceaselessly switch.Current-limiting resistance carries out current limliting to the output current of the first rectifying and wave-filtering sub-circuit, prevents double-pole The control pole overload of double-throw relay.Dpdt relay is according to the control signal of the first input stage, dpdt relay Output stage be attached with the first activity level or the second activity level.

In a kind of preferable scheme, described automatic switch-over circuit also includes the first illuminating circuit, the second illuminating circuit, Wherein,

The cathode output end of the first described rectifying and wave-filtering sub-circuit electrically connects with one end of the first illuminating circuit, and first is whole The cathode output end of stream filtering sub-circuit electrically connects with the other end of the first illuminating circuit；

The cathode output end of the second described rectifying and wave-filtering sub-circuit electrically connects with one end of the second illuminating circuit, and first is whole The cathode output end of stream filtering sub-circuit electrically connects with the other end of the second illuminating circuit.

First illuminating circuit and the second illuminating circuit are used to show current, power communication interface switching device and gas recovery Device which read MBUS buses on data.

In a kind of preferable scheme, described uplink communication module is that carrier communication module or serial ports turn 4G modules. Carrier communication module or serial ports turn 4G modules and are adapted to different scenes so that power communication interface switching device has higher fit The property used.

In a kind of preferable scheme, described power communication interface switching device also includes RS485 communication modules, RS485 communication modules are used for the data of water-meter reading, and the output end of described RS485 communication modules is electrically connected with micro-chip processor Connect.RS485 communication modules cause power communication interface switching device in addition to the MUBS buses for reading gas meter, flow meter, also to have Read the function of RS485 data of water meter.

In a kind of preferable scheme, described power communication interface switching device also includes power supply, and power supply leads to electric power Letter interface switching device is powered.

In a kind of preferable scheme, described power communication interface switching device also includes LCD display, described The output end of LCD display electrically connects with micro-chip processor.LCD display is used to show copying for power communication interface switching device Table data.

In a kind of preferable scheme, described power communication interface switching device also includes data storage card, and data are deposited The input of card storage electrically connects with micro-chip processor.Data storage card is used for the meter reading for storing power communication interface switching device pair Data.

In a kind of preferable scheme, described micro-chip processor is single-chip microcomputer.

Compared with prior art, the beneficial effect of technical solutions of the utility model is：

When the utility model reads MBUS bus datas, the automatic company disconnected between gas recovery device and MBUS buses Connect so that combustion gas meter can receive correct level signal, feedback collection data, complete the read action to MBUS buses. Directly there is the function of switching device relative to using switching device, the utility model, the volume of overall hardware is more convenient, hardware Cost is lower, and operation is simpler.

Brief description of the drawings

Fig. 1 is the structure chart of embodiment 1.

Fig. 2 is the structure chart of embodiment 2.

Fig. 3 is automatic switch-over circuit figure.

Label declaration：1. the first illuminating circuit；2. the second illuminating circuit.

Embodiment

Accompanying drawing being given for example only property explanation, it is impossible to be interpreted as the limitation to this patent；

To those skilled in the art, it is to be appreciated that some known features and its explanation, which may be omitted, in accompanying drawing 's.

The technical solution of the utility model is described further with reference to the accompanying drawings and examples.

Embodiment 1

As shown in figure 1, a kind of power communication interface switching device with automatic switching function, including power supply, single-chip microcomputer, RS485 communication modules, serial ports turn 4G modules, automatic switch-over circuit, MBUS communication modules, LCD display and data storage card, its In,

Automatic switch-over circuit has the first order, the second level and the third level, and automatic switch-over circuit can be according to micro-chip processor Signal, select the first order or the second level and third level progress be two-way electrically connects；

Serial ports turns 4G modules and is uploaded the data that power communication interface switching device is collected, and serial ports turns the defeated of 4G modules Enter end and monolithic mechatronics；

MBUS communication modules include input, output end, positive pole bidirectional end and negative pole bidirectional end, and MBUS communication modules are just The transmitted in both directions level of pole bidirectional end and negative pole bidirectional end composition MBUS communication modules, the input and single-chip microcomputer of MBUS communication modules Electrical connection, the output end of MBUS communication modules and micro- monolithic mechatronics；

The transmitted in both directions level of MBUS communication modules with the first order of automatic switch-over circuit is two-way electrically connects；

The second level of automatic switch-over circuit electrically connects with gas meter, flow meter collector；

RS485 communication modules are used for the data of water-meter reading, output end and the monolithic mechatronics of RS485 communication modules；

Power supply is powered to power communication interface switching device；

The output end of LCD display and monolithic mechatronics；

The input of data storage card electrically connects with micro-chip processor.

As shown in figure 3, automatic switch-over circuit includes the first rectifying and wave-filtering sub-circuit, the second rectifying and wave-filtering sub-circuit, first Illuminating circuit 1, the second illuminating circuit 2, matching capacitance, current-limiting resistance and dpdt relay, wherein,

First rectifying and wave-filtering sub-circuit includes the first positive terminal, the first negative pole end, cathode output end and cathode output end, the The first order of the first positive terminal and the first negative pole end of one rectifying and wave-filtering sub-circuit as automatic switch-over circuit；First rectifying and wave-filtering The cathode output end of sub-circuit electrically connects with one end of the first illuminating circuit 1, the cathode output end of the first rectifying and wave-filtering sub-circuit Electrically connected with the other end of the first illuminating circuit 1；

Second rectifying and wave-filtering sub-circuit includes the second positive terminal, the second negative pole end, cathode output end and cathode output end, the The second level of the second positive terminal and the second negative pole end of two rectifying and wave-filtering sub-circuits as automatic switch-over circuit；Second rectifying and wave-filtering The cathode output end of sub-circuit electrically connects with one end of the second illuminating circuit 2, the cathode output end of the second rectifying and wave-filtering sub-circuit Electrically connected with the other end of the second illuminating circuit 2；

Dpdt relay includes the first control terminal, the second control terminal, the first output end, the second output end, the first work Moved end, the second movable end, the 3rd movable end and the 4th movable end, the first movable end and the second movable end are as DPDT relay First activity level of device, the first activity level with the first order is two-way electrically connects；3rd movable end and the 4th movable end are double as double-pole Throw the second activity level of relay, the second activity level with the second level is two-way electrically connects；First control terminal and the second control terminal conduct The control pole of dpdt relay；The output stage of first output end and the second output end as dpdt relay, double-pole The third level of the output stage of double-throw relay as automatic switch-over circuit, under the control of control pole, dpdt relay Output stage selection electrically connects with the first activity level or the second activity level；

The cathode output end of first rectifying and wave-filtering sub-circuit electrically connects with one end of current-limiting resistance；

The cathode output end of first rectifying and wave-filtering sub-circuit electrically connects with one end of matching capacitance；

Matching capacitance matches with the inductance in dpdt relay;

The other end of matching capacitance electrically connects with the other end of current-limiting resistance；

The other end of matching capacitance electrically connects with the second control terminal；

One end of matching capacitance electrically connects with the first control terminal.

Output stage of the output stage of dpdt relay as automatic switch-over circuit.

The workflow of embodiment 1：

When embodiment 1 is connected with gas meter, flow meter, gas recovery device electrically connects with the second level, and the third level is electrically connected with MBUS buses Connect, the second level and the normally closed connection of the third level.When communication interface converter does not read MBUS buses, the second level is normal with the third level Connection is closed, gas recovery device collects the data in MBUS buses, and the second illuminating circuit 2 is luminous.When communication interface converter is read When taking MBUS buses, single-chip microcomputer sends control signal and reaches automatic switch-over circuit, automatic switch-over circuit by MUBS communication modules According to control signal, the second level and the third level are disconnected, the first order is connected with the third level, and single-chip microcomputer reads the number in MBUS buses According to.Meter reading data is turned 4G modules by serial ports and uploads data by single-chip microcomputer, and meter reading data is shown by LCD display, is deposited Storage is in data storage card, so as to complete the meter reading action to gas meter, flow meter.

When embodiment 1 is attached with RS485 water meters, the RS485 interfaces connection of RS485 communication modules and water meter, it will copy The data transfer of water meter is to single-chip microcomputer.Meter reading data is turned 4G modules by serial ports and uploads data by single-chip microcomputer, and by meter reading data It has been shown that, be stored in data storage card by LCD display, so as to complete the meter reading action to RS4854 water meters.

Embodiment 2

As shown in Fig. 2 a kind of power communication interface switching device with automatic switching function, including power supply, single-chip microcomputer, RS485 communication modules, carrier communication module, automatic switch-over circuit, MBUS communication modules, LCD display and data storage card, its In,

Automatic switch-over circuit has the first order, the second level and the third level, and automatic switch-over circuit can be according to micro-chip processor Signal, select the first order or the second level and third level progress be two-way electrically connects；

Carrier communication module is uploaded the data that power communication interface switching device is collected, carrier communication module it is defeated Enter end and monolithic mechatronics；

MBUS communication modules include input, output end, positive pole bidirectional end and negative pole bidirectional end, and MBUS communication modules are just The transmitted in both directions level of pole bidirectional end and negative pole bidirectional end composition MBUS communication modules, the input and single-chip microcomputer of MBUS communication modules Electrical connection, the output end of MBUS communication modules and micro- monolithic mechatronics；

The transmitted in both directions level of MBUS communication modules with the first order of automatic switch-over circuit is two-way electrically connects；

The second level of automatic switch-over circuit electrically connects with gas meter, flow meter collector；

RS485 communication modules are used for the data of water-meter reading, output end and the monolithic mechatronics of RS485 communication modules；

Power supply is powered to power communication interface switching device；

The output end of LCD display and monolithic mechatronics；

The input of data storage card electrically connects with micro-chip processor.

As shown in figure 3, automatic switch-over circuit includes the first rectifying and wave-filtering sub-circuit, the second rectifying and wave-filtering sub-circuit, first Illuminating circuit 1, the second illuminating circuit 2, matching capacitance, current-limiting resistance and dpdt relay, wherein,

First rectifying and wave-filtering sub-circuit includes the first positive terminal, the first negative pole end, cathode output end and cathode output end, the The first order of the first positive terminal and the first negative pole end of one rectifying and wave-filtering sub-circuit as automatic switch-over circuit；First rectifying and wave-filtering The cathode output end of sub-circuit electrically connects with one end of the first illuminating circuit 1, the cathode output end of the first rectifying and wave-filtering sub-circuit Electrically connected with the other end of the first illuminating circuit 1；

Second rectifying and wave-filtering sub-circuit includes the second positive terminal, the second negative pole end, cathode output end and cathode output end, the The second level of the second positive terminal and the second negative pole end of two rectifying and wave-filtering sub-circuits as automatic switch-over circuit；Second rectifying and wave-filtering The cathode output end of sub-circuit electrically connects with one end of the second illuminating circuit 2, the cathode output end of the second rectifying and wave-filtering sub-circuit Electrically connected with the other end of the second illuminating circuit 2；

Dpdt relay includes the first control terminal, the second control terminal, the first output end, the second output end, the first work Moved end, the second movable end, the 3rd movable end and the 4th movable end, the first movable end and the second movable end are as DPDT relay First activity level of device, the first activity level with the first order is two-way electrically connects；3rd movable end and the 4th movable end are double as double-pole Throw the second activity level of relay, the second activity level with the second level is two-way electrically connects；First control terminal and the second control terminal conduct The control pole of dpdt relay；The output stage of first output end and the second output end as dpdt relay, double-pole The third level of the output stage of double-throw relay as automatic switch-over circuit, under the control of control pole, dpdt relay Output stage selection electrically connects with the first activity level or the second activity level；

The cathode output end of first rectifying and wave-filtering sub-circuit electrically connects with one end of current-limiting resistance；

The cathode output end of first rectifying and wave-filtering sub-circuit electrically connects with one end of matching capacitance；

Matching capacitance matches with the inductance in dpdt relay;

The other end of matching capacitance electrically connects with the other end of current-limiting resistance；

The other end of matching capacitance electrically connects with the second control terminal；

One end of matching capacitance electrically connects with the first control terminal.

Output stage of the output stage of dpdt relay as automatic switch-over circuit.

The workflow of embodiment 2：

When embodiment 2 is connected with gas meter, flow meter, gas recovery device electrically connects with the second level, and the third level is electrically connected with MBUS buses Connect, the second level and the normally closed connection of the third level.When communication interface converter does not read MBUS buses, the second level is normal with the third level Connection is closed, gas recovery device collects the data in MBUS buses, and the second illuminating circuit 2 is luminous.When communication interface converter is read When taking MBUS buses, single-chip microcomputer sends control signal and reaches automatic switch-over circuit, automatic switch-over circuit by MUBS communication modules According to control signal, the second level and the third level are disconnected, the first order is connected with the third level, and single-chip microcomputer reads the number in MBUS buses According to.Meter reading data is uploaded data by single-chip microcomputer by carrier communication module, and meter reading data is shown by LCD display, is deposited Storage is in data storage card, so as to complete the meter reading action to gas meter, flow meter.

When embodiment 2 is attached with RS485 water meters, the RS485 interfaces connection of RS485 communication modules and water meter, it will copy The data transfer of water meter is to single-chip microcomputer.Meter reading data is uploaded data by single-chip microcomputer by carrier communication module, and by meter reading data It has been shown that, be stored in data storage card by LCD display, so as to complete the meter reading action to RS4854 water meters.

Embodiment contrasts：

Embodiment 1 is more suitable for the scene that surrounding environment is not suitable for cabling, and high speed number is carried out by way of 4G transmission According to transmission.

Embodiment 2 is more suitable for around the scene of cabling, or the scene of shadow effect be present, is led to by carrier wave The mode of letter carries out data transmission.

Same or analogous label corresponds to same or analogous part；

Term the being given for example only property explanation of position relationship described in accompanying drawing, it is impossible to be interpreted as the limitation to this patent；

Obviously, above-described embodiment of the present utility model is only intended to clearly illustrate the utility model example, and It is not the restriction to embodiment of the present utility model.For those of ordinary skill in the field, in described above On the basis of can also make other changes in different forms.There is no need and unable to give all embodiments It is exhaustive.All made within spirit of the present utility model and principle all any modification, equivalent and improvement etc., should be included in Within the protection domain of the utility model claims.

Claims (9)

1. a kind of power communication interface switching device with automatic switching function, it is characterised in that described power communication connects Mouth conversion equipment includes micro-chip processor, MBUS communication modules, uplink communication module and automatic switch-over circuit, wherein,

Described automatic switch-over circuit has the first order, the second level and the third level, and automatic switch-over circuit can be according to microprocessor core The signal of piece, the first order or the second level is selected to carry out two-way electrically connect with the third level；

Described uplink communication module is uploaded the data that power communication interface switching device is collected, uplink communication module Input electrically connects with micro-chip processor；

Described MBUS communication modules include input, output end, positive pole bidirectional end and negative pole bidirectional end, MBUS communication modules The transmitted in both directions level of positive pole bidirectional end and negative pole bidirectional end composition MBUS communication modules, the input and Wei Chu of MBUS communication modules Chip electrical connection is managed, the output end of MBUS communication modules electrically connects with micro-chip processor；

The transmitted in both directions level of described MBUS communication modules with the first order of automatic switch-over circuit is two-way electrically connects；

The second level of described automatic switch-over circuit electrically connects with gas meter, flow meter collector.

2. power communication interface switching device according to claim 1, it is characterised in that described automatic switch-over circuit bag The first rectifying and wave-filtering sub-circuit, the second rectifying and wave-filtering sub-circuit, matching capacitance, current-limiting resistance and dpdt relay are included, its In,

The first described rectifying and wave-filtering sub-circuit includes the first positive terminal, the first negative pole end, cathode output end and cathode output end, The first order of the first positive terminal and the first negative pole end of first rectifying and wave-filtering sub-circuit as automatic switch-over circuit；

The second described rectifying and wave-filtering sub-circuit includes the second positive terminal, the second negative pole end, cathode output end and cathode output end, The second level of the second positive terminal and the second negative pole end of second rectifying and wave-filtering sub-circuit as automatic switch-over circuit；

Described dpdt relay includes the first control terminal, the second control terminal, the first output end, the second output end, first Movable end, the second movable end, the 3rd movable end and the 4th movable end, the first movable end and the second movable end as DPDT after First activity level of electrical equipment, the first activity level with the first order is two-way electrically connects；3rd movable end and the 4th movable end are as double-pole Second activity level of double-throw relay, the second activity level with the second level is two-way electrically connects；First control terminal and the second control terminal are made For the control pole of dpdt relay；The output stage of first output end and the second output end as dpdt relay, it is double The third level of the output stage of dpdt double-pole double-throw (DPDT) relay as automatic switch-over circuit, under the control of control pole, dpdt relay Output stage selection electrically connected with the first activity level or the second activity level；

The cathode output end of the first described rectifying and wave-filtering sub-circuit electrically connects with one end of current-limiting resistance；

The cathode output end of the first described rectifying and wave-filtering sub-circuit electrically connects with one end of matching capacitance；

Inductance in described matching capacitance and dpdt relay matches;

The other end of described matching capacitance electrically connects with the other end of current-limiting resistance；

The other end of described matching capacitance electrically connects with the second control terminal；

One end of described matching capacitance electrically connects with the first control terminal；

Output stage of the output stage of described dpdt relay as automatic switch-over circuit.

3. power communication interface switching device according to claim 2, it is characterised in that described automatic switch-over circuit is also Including the first illuminating circuit, the second illuminating circuit, wherein,

The cathode output end of the first described rectifying and wave-filtering sub-circuit electrically connects with one end of the first illuminating circuit, the first rectification filter The cathode output end of marble circuit electrically connects with the other end of the first illuminating circuit；

The cathode output end of the second described rectifying and wave-filtering sub-circuit electrically connects with one end of the second illuminating circuit, the first rectification filter The cathode output end of marble circuit electrically connects with the other end of the second illuminating circuit.

4. the power communication interface switching device according to any claim in claims 1 to 3, it is characterised in that institute The uplink communication module stated is that carrier communication module or serial ports turn 4G modules.

5. power communication interface switching device according to claim 4, it is characterised in that described power communication interface turns Changing device also includes RS485 communication modules, and RS485 communication modules are used for the data of water-meter reading, described RS485 communication modules Output end with micro-chip processor is two-way electrically connects.

6. according to the power communication interface switching device described in claim 1,2,3 or 5, it is characterised in that described electric power leads to Letter interface switching device also includes power supply, and power supply is powered to power communication interface switching device.

7. power communication interface switching device according to claim 6, it is characterised in that described power communication interface turns Changing device also includes LCD display, and the output end of described LCD display electrically connects with micro-chip processor.

8. according to the power communication interface switching device described in claim 1,2,3,5 or 7, it is characterised in that described electric power Communication interface converter also includes data storage card, and the input of data storage card electrically connects with micro-chip processor.

9. power communication interface switching device according to claim 8, it is characterised in that described micro-chip processor is single Piece machine.