CN201488759U - Ultrasonic gas meter - Google Patents

Abstract

The utility model belongs to the field of instruments and relates to a gas meter. The ultrasonic gas meter is characterized in that an ultrasonic detection device is arranged in the gas meter for measuring the flow of gas, the gas flow is displayed on a display module, and the whole ultrasonic detection device is substantially integrated on a circuit board, so that the volume is very small, and an ultrasonic sensor is also small, therefore, the gas meter can be compacted and conveniently installed, and more choices are provided when a pipeline is designed; since measurement is carried out respectively through electronic components, the circumstance that the precision is reduced due to the aging of the components; meanwhile, since no mechanical structure runs in the gas meter, no noise is caused; and the instantaneous flow and the cumulative flow of gas can be obtained by continuously sending the ultrasonic signals through the ultrasonic sensor.

Description

Ultrasonic wave gas meter

Technical field

The utility model belongs to the instrument field, particularly a kind of gas meter, flow meter.

Technical background

Gas meter, flow meter is a kind of metering device that uses combustion gas that is used to measure.Common gas meter, flow meter connected mode is that an end connects gas pipeline, and the other end is connected on the kitchen range, and when the user used combustion gas, combustion gas entered kitchen range from gas pipeline through gas meter, flow meter, connecting tube; General diaphragm gas meter is by being arranged on the mechanical type meter in the gas meter, flow meter to the metering of using combustion gas, be that mechanical counter of gear train drive that combustion gas promotes to be arranged on through gas meter, flow meter the time in the gas meter, flow meter is beated, when combustion gas stops to flow, counter also stops to beat, finally be to determine what of gas consumption by the numeral of the demonstration on the counter, but this gas meter, flow meter has following shortcoming: at first be that volume is bigger, it is very inconvenient to take bigger space during installation, secondly this mechanical gas meter, flow meter service time of a specified duration after the precision degradation phenomena can appear, catabiosis can appear in the gear train that is gas meter, flow meter, and measuring accuracy is reduced; Be exactly that some noises appear in mechanical type transmission meeting in addition, influence indoor environment.

Summary of the invention

The utility model provides at the problems referred to above that a kind of volume is little, precision is high, noiseless ultrasonic wave gas meter.

The technical solution of the utility model is: ultrasonic wave gas meter, comprise the table body, be provided with ultrasonic detection device in the described table body, ultrasonic detection device comprises main control module, data acquisition module, display module, power module and ultrasonic sensor one, ultrasonic sensor two;

Described ultrasonic sensor one, ultrasonic sensor two all link to each other with data acquisition module, and being separately positioned on the upstream and downstream in pipeline cavity internal combustion air communication path of table body, ultrasonic sensor one, ultrasonic sensor two are respectively applied for to the other side to be launched ultrasonic signal and receives the other side's ultrasonic signal;

Data acquisition module is used to gather the signal that ultrasonic sensor one, ultrasonic sensor two receive, and converts signal data to digital quantity and passes to main control module;

Display module is connected with main control module, is used to show the flow information and the warning message of gas meter, flow meter;

Main control module is used for data that the deal with data acquisition module sends and the flow that obtains combustion gas, controls the demonstration of display module simultaneously.

As preferably, described main control module also is connected with the calibration module that is used to calibrate gas flow; By calibration module the gas flow that obtains is calibrated and to make the degree of accuracy of gas flow higher.

As preferably, described main control module is connected with the data memory module that is used for storing subscriber information and gas meter, flow meter information parameter.

As preferably, described main control module is connected with and is used for gas meter, flow meter and carries out the infrared communication module that information is transmitted with outside.

As preferably, described main control module is connected with the IC-card module for reading and writing.

As preferably, be provided with the multilayer demarcation strip of horizontal parallel in the pipeline cavity of described table body.

As preferably, described main control module is connected with alarm module.

As preferably, described main control module is connected with the valve driving module, and the valve driving module connects valve; When gas meter, flow meter measures gas flow when unusual, can stop air feed by valve-off.

As preferably, described main control module connects the voltage detection module that is used to detect power module voltage.

As preferably, described main control module connects the super capacitor as standby power supply.

Ultrasonic wave gas meter of the present utility model is measured the flow of combustion gas by ultrasonic detection device is set in gas meter, flow meter, and be presented on the display module, whole ultrasonic ripple pick-up unit mostly is integrated on the circuit board, volume is very small and exquisite, ultrasonic sensor is also very little, so very little that gas meter, flow meter just can be done is just very convenient in the time of installation, just a lot of selections can be arranged in the time of the design pipeline; Owing to be to measure by electronic component all, the situation of precision reduction can not appear making owing to component ageing; Simultaneously owing to there not being physical construction in gas meter, flow meter, to move, so can not produce noise; And ultrasonic sensor can be by constantly sending ultrasonic signal, thereby obtain the instantaneous delivery and the integrated flux of combustion gas.

Description of drawings

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the vertical view of Fig. 1;

Fig. 4 is arranged on synoptic diagram in the pipeline cavity for ultrasonic sensor;

Fig. 5 is the theory diagram of ultrasonic detection device.

Embodiment

Shown in Fig. 1～3, ultrasonic wave gas meter comprises the table body that upper shell 5 and lower house 6 are formed, and forms the pipeline cavity 3 that combustion gas is passed through on the table body, and fire proof motor valve 8 is arranged in the pipeline cavity 3.

As shown in Figure 4, ultrasonic sensor 1, ultrasonic sensor 22 are arranged on the upstream and downstream in breather line cavity 3 internal combustion air communication paths, the ultrasonic sensor 1 of upstream sends the ultrasonic sensor 22 that ultrasound wave is given the downstream, can obtain delivery time T ₁Send ultrasound wave by reverse direction from the ultrasonic sensor 22 upstream ultrasonic sensors 1 in downstream then, can obtain delivery time T ₂Can obtain the flow velocity U of combustion gas then by the following method:

On swim over to delivery time in downstream: ${\mathrm{<figure-callout\; id="1"\; label="T"\; filenames="H2009201917347E00021.png"\; state="\{\{state\}\}">T</figure-callout>}}_1=\frac{L}{C+U\cos \mathrm{\&theta;}},$

Swim over to the delivery time of upstream down: ${\mathrm{<figure-callout\; id="2"\; label="T"\; filenames="H2009201917347E00021.png"\; state="\{\{state\}\}">T</figure-callout>}}_2=\frac{L}{C-U\cos \mathrm{\&theta;}},$

Then gas flow rate U is:

$U=\frac{\mathrm{<figure-callout\; id="2"\; label="L"\; filenames="H2009201917347E00021.png"\; state="\{\{state\}\}">L</figure-callout>}}{2\cos \mathrm{\&theta;}}(\frac{1}{T_1}-\frac{1}{T_2}),$

Wherein L is hyperacoustic propagation distance between ultrasonic sensor 1 and the ultrasonic sensor 22,

C is the velocity of propagation in the breather line cavity of ultrasound wave when not having gas flow,

θ is the angle that transmits the ultrasound wave path direction between the flow direction of combustion gas and ultrasonic sensor 1 and the ultrasonic sensor 22.

If the sectional area of breather line is S, the gas flow time is T

Then the flow Q of gas meter, flow meter is: Q=U*S*T.

Because the mobile resistance that be subjected to cavity inner wall of gas in stream is slow near the gas flow rate of chamber wall so flowing velocity is inhomogeneous, and be fast near the gas flow rate of central authorities.And be a mean speed by ultrasound wave conversion by the flow velocity U that formula calculates, unit cross-sectional area S and flow velocity U are multiplied each other can not reflect reality gas flow accurately simply.So in cavity 3, be provided with the demarcation strip 9 of multilayer horizontal parallel; The demarcation strip 9 of multilayer horizontal parallel will be divided into independently multilayer chamber in the cavity 3, when gas-flow is crossed cavity 3, the combustion gas stream is divided into the multilayer of horizontal parallel, pass through from the multilayer independent cavity respectively, make gas mobile in stream be subjected to identical relatively resistance, flowing velocity is even relatively, and then the flow velocity U that obtains can reflect gas flow speed more exactly.

As shown in Figure 5, ultrasonic sensor 1, ultrasonic sensor 22 all link to each other with data acquisition module,

Data acquisition module is used to gather the signal that ultrasonic sensor 1, ultrasonic sensor 22 receive, and converts signal data to digital quantity and passes to main control module;

Display module is connected with main control module, shows the information of gas meter, flow meter as required; Main displaying contents has: flow information, instantaneous delivery and integrated flow, valve switch state, supply voltage state, gas flow state, and warning message etc.

After ultrasonic sensor 1 and ultrasonic sensor 22 are received the ultrasonic signal that the other side sends respectively, send the data of gathering to main control module by data acquisition module, main control module obtains ultrasonic sensor 1 according to the data that send and transmits the delivery time T that ultrasonic signal arrives ultrasonic sensor 22 ₁Transmit the delivery time T of ultrasonic signal with ultrasonic sensor two to ultrasonic sensor one ₂, obtain the flow Q of combustion gas then by the computing formula of gas flow.Display module adopts LCDs, can comparatively make things convenient for the flow information of dexterous demonstration gas meter, flow meter, comprises instantaneous delivery and integrated flux.

Correction module is set simultaneously in order to proofread and correct the gas-flow value on the gas meter, flow meter, because when actual flow was measured, several factors all can have influence on measurement result, so be necessary the theory measurement value is proofreaied and correct, updating formula is Q _t=KQ+B, wherein Q _tFor proofreading and correct later flow, the theoretical delivery value of Q for calculating according to formula, K, B are correction parameter, determining of K, B value can be in calibrating table tool, to the different gas flow of the many groups of gas meter, flow meter input, measure many group calculated values, after obtaining organizing the actual value and calculated value of gas flows, can pass through the value of correction parameter K, a B of definite the bests such as least square method or curve fitting method more.

Main control module connects the infrared communication module; When the gas meter, flow meter measurement and calibration, it all is to be undertaken by the infrared communication module that the setting of table number and measuring parameter are set, and promptly gas meter, flow meter is by infrared communication module and external information transmission.

Main control module connects the data storage module, and the data-storing module adopts eeprom memory, is used for various gas meter, flow meter information and user profile such as storing subscriber information data, table number information, measuring parameter information, use information, abnormal alarm information.

Main control module connects alarm module, and when gas meter, flow meter takes place when unusual, or power down or storage tolerance sends buzzer warning sound when not enough, submits to the user to note.

Main control module connects the IC-card module for reading and writing, the IC-card module for reading and writing is used for IC-card and gas meter, flow meter carries out the information transmission, the user can pay the combustion gas expense in advance by gas company, gas company writes the information of paying the fees to IC-card then, the user realizes the break-make of combustion gas by IC-card and gas meter, flow meter message exchange, thereby realizes the pre paid functionality of gas meter, flow meter.

Main control module connects the voltage detection module that is used to detect power module voltage; Voltage detection module detects the voltage of power module, when supply voltage drops to under-voltage value, send under-voltage signal and give main control module, main control module sends alarm command, valve closing order, data storage command and stops the IC-card read write command, and each functional module is according to command execution.

Main control module connects the super capacitor as standby power supply; Behind power supply power-fail, adopt standby super capacitor power supply, be mainly used in the command execution of main control module order issue and each performance element this moment.

Be connected with the valve driving module on main control module, the valve driving module connects valve, and when gas meter, flow meter detected the unusual or power module under-voltage of gas flow, main control module just by valve driving module controls valve closing breather line, stopped air feed; After gas flow and supply voltage recovery normally, main control module is opened breather line with regard to by-pass valve control, recovers air feed.

Claims (10)

1. ultrasonic wave gas meter, comprise the table body, it is characterized in that be provided with ultrasonic detection device in the described table body, ultrasonic detection device comprises main control module, data acquisition module, display module, power module and ultrasonic sensor one, ultrasonic sensor two;

Described ultrasonic sensor one, ultrasonic sensor two all link to each other with data acquisition module, and being separately positioned on the upstream and downstream in pipeline cavity internal combustion air communication path of table body, ultrasonic sensor one, ultrasonic sensor two are respectively applied for to the other side to be launched ultrasonic signal and receives the other side's ultrasonic signal;

Data acquisition module is used to gather the signal that ultrasonic sensor one, ultrasonic sensor two receive, and converts signal data to digital quantity and passes to main control module;

Display module is connected with main control module, is used to show the flow information and the warning message of gas meter, flow meter;

Main control module is used for data that the deal with data acquisition module sends and the flow that obtains combustion gas, controls the demonstration of display module simultaneously.

2. ultrasonic wave gas meter according to claim 1 is characterized in that described main control module also is connected with the calibration module that is used to calibrate gas flow.

3. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that, described main control module is connected with the data memory module that is used for storing subscriber information and gas meter, flow meter information parameter.

4. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that, described main control module is connected with and is used for gas meter, flow meter and outside infrared communication module of carrying out the information transmission.

5. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that described main control module is connected with the IC-card module for reading and writing.

6. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that, is provided with the multilayer demarcation strip of horizontal parallel in the pipeline cavity of described table body.

7. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that described main control module is connected with alarm module.

8. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that described main control module is connected with the valve driving module, and the valve driving module connects valve.

9. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that, described main control module connects the voltage detection module that is used to detect power module voltage.

10. ultrasonic wave gas meter according to claim 1 and 2 is characterized in that, described main control module connects the super capacitor as standby power supply.

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