CN1800792A - Heat conduction sensor and measuring method thereof - Google Patents
Heat conduction sensor and measuring method thereof Download PDFInfo
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- CN1800792A CN1800792A CN 200510034727 CN200510034727A CN1800792A CN 1800792 A CN1800792 A CN 1800792A CN 200510034727 CN200510034727 CN 200510034727 CN 200510034727 A CN200510034727 A CN 200510034727A CN 1800792 A CN1800792 A CN 1800792A
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Abstract
The invention relates to a heat-conduction liquid level sensor to compose a liquid level measurement apparatus or named liquid level gage with a SCM different to prior art. Wherein, heating the full-sealing probe contained an electric heater and a thermal resistance, detecting the resistance variation and calculating with the SCM to achieve measurement purpose. It can also fit to non-contact measurement by changing the sensor structure. This invention has high performance-price ratio, well security and stability, strong anti-interference ability and resistance to acid and base, and wide application.
Description
Technical field
The invention belongs to a kind of sensor of level gauging, and the measuring method of utilizing this sensor.
Background technology
At present generally be used for industrial liquid level in respect of kind more than ten.It mainly is the liquid level gauge of float-ball type pressure transformation approach physical construction.The stability of this liquid level gauge, reliability all can not satisfy the needs of industrial automation, and degree of accuracy is also lower, the long-term use, and error usually is more than the 2-5%.Become today of the main target that current techniques transforms in industrial automation, it is satisfactory to press for a kind of that can link to each other with computer network, stability, reliability, degree of accuracy, the old-fashioned mechanical type liquid level gauge of liquid level gauge replacement that cost performance is high.
Introduce multiple contactless fluid level measuring instrument from external in recent years, utilized the liquid level gauge of principles such as ultrasound wave, radar, laser, magnetostriction.Range is big, precision is high, use face width is their advantage, but complex structure, problem of ultra-high price are also arranged.
Domestic a kind of external intelligent alarm supersonic liquid level switch of invention in recent years still can not be replaced mechanical float-ball type liquid level gauge on universal significance.
The expert points out that level gauging still is headachy.
Exist a large amount of large, medium and small flow process enterprise, a large amount of tap water, sewage disposal system in China.These industries need generally that a kind of digital that can link to each other with computer network, stability, reliability, degree of accuracy meet the requirements, cheap and good-quality fluid level measuring instrument.Aspect family expenses, along with electronic technology is penetrated in the household electrical appliances day by day, washing machine, dish-washing machine, solar water heater need digital simple and easy liquid level sensor equally.
The present invention is controlled by single-chip microcomputer, and output total digitalization is at the liquid level gauge of several respects above float-ball type pressure transformation approach physical construction such as can link to each other with computer network, long-time stability, reliability, degree of accuracy meet the requirements.Cost performance also aims at (for example ultrasound wave, radar, magnetostriction) liquid level gauge of the advanced person of some import significantly better than the liquid level gauge of the float-ball type of the physical construction of some import, and some index should reach the level of these liquid level gauges.For the liquid level gauge of China's process industry selects to increase new kind.
Be in and use, a good selection is provided also for the liquid level control electronization of washing machine, dish-washing machine, solar water heater.
Summary of the invention
One, the basic structure of radiant heat method fluid level transmitter probe
Transmitter as herein described, probe, sensor in field of industrial automatic control, do not have substantial difference, and this paper is also in addition not strict the differentiation in the narration process.
A kind of built-in radiant heat method liquid level sensor, form by electrothermal devices such as platinum resistance or thermistor, heating wire or PTC and housing, it is characterized in that in housing by insulation course sealing electric heater, in housing, also sealing temperature sensitive resister, electric heater and temperature sensitive resister are separated by heat-barrier material, and housing is installed on the mount pad.As shown in Figure 1.To pop one's head in and (immerse liquid and leave liquid) heating in both cases, and by platinum resistance (or thermistor) two kinds of situations be surveyed its temperature respectively, the temperature difference is very big as can be known, and original reason experiment is seen Fig. 7.Heat if probe is put on the liquid level of container, alternating current raises the temperature of heating wire in the probe rapidly, liquid level is raise cross probe again, and the heat transfer of liquid descends the temperature of probe rapidly.This phenomenon shows, can be by the monitoring temperature of probe being judged the lifting of liquid level.
Because liquid level and not mutated further studies show that, interval between drawing hour, adopt the speed of probe local temperature lifting to monitor and can improve the sensitivity that probe is monitored for liquid level change.
In addition, form by electric constant-heat source, copper pedestal heat transfer plate, one group of platinum resistance, it is characterized in that electric constant-heat source is arranged on an end of copper pedestal heat transfer plate, on copper pedestal heat transfer plate body, arrange the external radiant heat method liquid level sensor (seeing Figure 15) of platinum resistance at interval, can carry out external radiant heat method level gauging.
The angle that probe is installed on the probe socket is installed or the oblique angle installation for vertical.
Because the sealing of probe and high temperature resistant, the corrosion resistance of metal material (being generally stainless steel), it can be used for the occasion of the High Temperature High Pressure and the liquid that is corrosive.
Description of drawings
Fig. 1 is the structural drawing of heat conduction formula liquid-level probe, title and sequence number: cover 10, divider resistance 11, probing shell 12, insulation course 13 in probe 1, heating wire 2, heat-barrier material 3, platinum resistance 4, precision DC pressure-wire 5,24-220V alternating current wires 6, signal wire 7, signal ground 8, probe socket 9, the copper heat conduction;
Fig. 2 is a probe heating curve synoptic diagram;
Fig. 3 is a probe temperature lowering curve synoptic diagram;
Fig. 4 is the temperature lowering curve synoptic diagram of meeting water between the probe temperature raising period;
Fig. 5 is the temperature lowering curve synoptic diagram of meeting water between the probe cooldown period;
Fig. 6 is that probe is interrupted heating-up temperature curve synoptic diagram (basic temperature differential method);
Fig. 7 is radiant heat method fluid level transmitter ultimate principle lab diagram (Newton's law of cooling experiment), wherein (a) represents the structural drawing of probe, heating wire 2, probing shell 12, (b) the expression probe does not enter in the water, container 14, the water surface 15, position when (c) the expression probe short time enters in the water also keeps heated condition, and position and temperature when (d) expression is popped one's head in the leaving water are gone up rapidly;
Fig. 8 is the probe socket synoptic diagram with high full level alarm probe: high-order probe 16, high-order probe 17, probe socket 18, liquid level control probe 19, low level probe 20;
Fig. 9 is that the probe synoptic diagram is installed in the segmentation of superelevation container: go up liquid-level probe seat 21, go up liquid level 22, container 23, liquid-level probe seat 24, liquid level 25 down down;
Figure 10 is dislocation and puts formula high pressure container liquid level gage probe block synoptic diagram: high-order probe socket 26, low level probe socket 27, down dislocation line 28, probe 29, go up dislocation line 30, coupling probe seat 31;
Figure 11 is built-in external hybrid probe socket synoptic diagram: probe 32, built-in probe socket 33, liquid level can be surveyed district 34, external copper pedestal 35, electrothermal tube 36 continuously;
Figure 12 is the probe positions scheme of installation of measuring container: probe 37, down liquid level 38, metering height 39, go up liquid level 40, probe socket 41;
Figure 13 is that high-precision liquid measures servo probe radiant heat method liquid level instrument synoptic diagram: fixed pulley 42, fixed correction rod 43, container 44, liquid 45, weight 46, probe socket 47, step motor drive line 48, liquid level instrument 49, cable wheel 50, cable 51, calibrating signal line 52, cable wire and cable wire wheel 53;
Figure 14 is contactless radiant heat method level gauging experiment synoptic diagram: copper Connection Block 54, galvanized iron conduit 55, plug 56, bucket 57, tap water 58, liquid level 59, boiling water 60, electrothermal tube 61, tin 62;
Figure 15 is an external radiant heat method level sensor probe socket synoptic diagram: electrothermal tube 63, cable pillar 64, copper base extension plate 65, platinum resistance 66, copper heat conduction core 67, copper pedestal 68;
Figure 16 is the three probe socket synoptic diagram that are used for household electrical appliances: probe socket 69, lower limit alarm probe 70, liquid level control probe 71, upper limit alarm probe 72;
Figure 17 is the connection line synoptic diagram of single-chip microcomputer and probe: probe heating wire district 73, stube cable 74, single-chip microcomputer 75, isolated amplifier 76, signal ground 77, controllable silicon 78, probe thermal resistance district 79, signal wire 80 are to isolated amplifier 76, high-precision power (using for platinum resistance) 82;
Figure 18 is servo-type level gauging principle experiment synoptic diagram (the built-in probe radiant heat method experiment synoptic diagram of accurately measuring): a touches liquid level for probe, and b enters liquid level for probe, probe 83, probe socket 84, liquid level 85.
Two, radiant heat method fluid level transmitter principle
Normally used is built-in radiant heat method fluid level transmitter, and its sensitivity is higher.Its utilizes is the situation that the rate of change of the variation relative time of the temperature difference on thermal resistance that produced by electric heater is judged liquid level, just hot speed.For example when 25 ℃ environment, thermistor is 100K Ω.The temperature difference becomes 40 ℃ from 30 ℃, resistance be changed to 27.63K Ω; The temperature difference becomes 110 ℃ from 100 ℃, resistance be changed to 1.16K Ω.When we compare difference variation with corresponding transformation period, just can obtain corresponding rate of change, we are referred to as hot speed.We sample to the change in voltage of thermal resistance in popping one's head in single-chip microcomputer, and write down the time interval that changes, and can obtain its hot speed through calculating.For example: produced 10 ℃ the temperature difference in 20 seconds, then hot speed is 0.5 ℃/second, (computing formula=Δ T/ Δ t, wherein Δ T is the temperature difference, Δ t is the interval mistiming).Through the experiment, under the condition of normal temperature and pressure, the temperature difference reach 35 ℃~40 ℃ proper.This temperature difference can remedy the bigger shortcoming of time constant of radiant heat method.
As liquid-immersed probe, the temperature difference will be minimum, and the hot speed that calculates is also minimum.Otherwise hot speed is then very big.These two speed exist great difference, representing liquid level not arrive and liquid level crossed these two kinds extreme.More than be exactly static analysis to the analysis of these two kinds of extreme situations.
This shows, when we to a probe by heating wire and temperature-sensing element (by stainless steel casing to its seal protection and conduct heat) heating makes it keep certain temperature difference, do not having under the situation of liquid, its temperature variation is very little; Make liquid to its submergence, its temperature variation is very big.This method can be used for judging whether liquid level exists, and Fig. 7 is seen in experiment.This method is called the built-in probe radiant heat method of non-thermostatic type.
Yet generally can not suddenly change in industrial liquid level.Therefore we will do performance analysis.
To electric heater heating probe temperature is risen,, reach the summit of temperature gradient, see Fig. 2 from starting point through of short duration a period of time.After stopping heating, probe temperature descends, and gets back to starting point, and a temperature gradient is arranged equally, sees Fig. 3.We can regard the rising temperature difference as and the decline temperature difference is equal when identical with fall time in the rise time.For the rising temperature difference, we analyze in two kinds of situation again.When liquid level does not arrive, the speed of its climbing speed when static is consistent.If at probe temperature between the rising stage, be subjected to the influence of liquid level and descend, that is to say that liquid level has arrived, probe temperature will stop to rise, and can descend rapidly on the contrary, because the ratio of heat capacities of liquid is bigger, under the big condition of the temperature difference, can produce effects of reduced temperature fast to the metal shell of probe.The speed that descends depends on the liquid level effect, sees Fig. 4.
In fact, we should take to improve the way of the basic temperature difference in order to keep certain sensitivity.(the basic temperature difference is exactly the lowest temperature difference of radiant heat method liquid level gauge probe heating.There has been the basic temperature difference just can improve performances such as sensitivity, can be decided to be at normal temperatures and pressures+20 ℃).Needn't be as the curved line relation of Fig. 4, and when as long as cooling reaches basic temperature difference point, promptly begin to reheat, the temperature difference of can popping one's head in is as follows for the curved line relation of time, sees Fig. 6 (synoptic diagram).
Fig. 6 has showed the difference curve of this built-in fluid level transmitter probe under no liquid level effect.
We constantly sample to it between the rising stage at probe temperature, just can calculate its hot speed, dynamically measure whether to be subjected to influence and the effect that liquid level rises, thereby judge the state of liquid level.Single-chip microcomputer can be judged exactly to this, can set a threshold values and speed during calculating and compare.
Equally, we also can carry out performance analysis in the probe temperature last transition, see Fig. 5, the conclusion basically identical, and only hot speed is bigger.Analyze slightly.
We experimental results show that above inference with one.
Do a simple probe, observe the situation of its temperature variation in water.Experiment as shown in Figure 7.
(a) is structural drawing among Fig. 7
When (b) expression probe does not enter in the water among Fig. 7, the heating temperature difference to 40 ℃.
Position when (c) expression probe short time enters in the water among Fig. 7 also keeps heated condition.
Position and temperature when (d) expression is popped one's head in the leaving water among Fig. 7 are gone up rapidly.
This experiment shows that under the condition of heating continuously water can make probe cooling rapidly.Leave the water surface when the temperature difference that still has 20 ℃, in only several seconds, the probe temperature difference returns to 40 ℃ again.This shows that it is very big that the thermal conductivity of gas and liquid differs; (just mean when certain thermal capacity is arranged also) when being further illustrated in the certain basis temperature difference that under the effect of electric heater, it is big that the temperature difference becomes rapidly, the speed of heat transfer is just bigger.For probe provides enough sensitivity.
Because industrial liquid level can not suddenly change, and the degree of accuracy of liquid level is had certain requirement, but the diameter of probe is often greater than the control accuracy of liquid level.We will draw little to the time interval of probe temperature sampling, make the part of probe just can feel the cooling effect of liquid in this small time interval, thereby make the judgement that liquid level has arrived.Here it is, and built-in probe radiant heat method is used for the accurately method of measurement, is the conclusion that is drawn by performance analysis, and Figure 18 is seen in experiment.A figure expression probe bottom surface is S with the distance that contacts of liquid level among Figure 18, and Tan Tou temperature has 40 ℃ of constant temperature difference for liquid level before this.Touch liquid level after 5 seconds, to the probe temperature sampling, temperature descends to some extent, but not obvious, illustrates that hot rate variation is little.B figure expression probe further gos deep into the Δ S degree of depth under the liquid level.Probe temperature is sampled once more, and temperature decline reaches more than 10 ℃ in the identical time, the existence that this explanation probe has recorded liquid level.And industrial liquid level changes the situation of 1mm in 5 seconds is seldom.
Above inference has also proved the heat transfer capacity and thermal capacity, thermal conductivity, heat transfer area, the relevant correctness of the temperature difference of Newton's law of cooling explanation.
The Newton's law of cooling formula:
During the fluid heating: dQ=hdA (tw-t)
During the fluid cooling: dQ=hdA (t-tw)
In the formula: dA is the infinitesimal heat transfer area, and unit is square metre; DQ is the localized heat flow by heat transfer area dA, and unit is W; T is the temperature of arbitrary cross section heat or cold fluid, and unit is ℃; Tw is the temperature of arbitrary section heat conductive wall, and unit is ℃; H is a scale-up factor, is called convection current surface coefficient of heat transfer or heat transfer coefficient, and unit is Wm-2 ℃-1 (2 ,-1 is subscript).
Following formula draws from (" fluid mechanics and heat transfer " P153 page or leaf of Zou Huasheng, Zhong Li, Wu Qin chief editor, publishing house of South China Science ﹠ Engineering University publishes).
When this paper quotes, because to the probe heating, formula in the time of should adopting the fluid heating, can be interpreted as tw is the temperature end temperature, t is the low-temperature end temperature, dA is the area element of probe with the surface of contact of liquid heat transfer, and h is the comprehensive thermal conductivity of heat transfer medium in the probe, and dQ is the heat flux infinitesimal of heat transfer contact face.
Modern heat transfer theory is told us, and regularly the temperature difference is big more when the thermal resistance one of conducting heat, and hot speed is just big more.
Must there be enough big hot speed just can make single-chip microcomputer tell the influence whether hot speed is subjected to liquid.Enough big hot speed comes from enough big heat flux.Thermal resistance constant condition under, increase heat flux and can improve the temperature difference, thereby the hot speed in the unit interval is improved.
Above-mentioned theory can be formulated as follows:
One dimension heat conduction formula:
When above-mentioned formula is stable state, the heat conducting integration type of one dimension planomural.λ m is that the arithmetic mean of t1, t2 calculates.Also can use average coefficient of heat conductivity λ m=0.5 (λ 1+ λ 2) to try to achieve.By following formula as can be known, heat flux is similar to the Ohm law in the electricity, is expressed as the form of expulsive force divided by resistance, and the heat conduction expulsive force is a heat transfer temperature difference, and thermal resistance is b/ (λ mA).The transfer rate of chemical process all can be expressed as the form of expulsive force divided by resistance.Draw from (" fluid mechanics and heat transfer " P146 page or leaf of Zou Huasheng, Zhong Li, Wu Qin chief editor, publishing house of South China Science ﹠ Engineering University publishes).
B is the wall thickness of heat conductive wall in the formula, and λ m is the comprehensive thermal conductivity of heat transfer medium, and A is a heat transfer area.
In short, improve the temperature difference and just can improve hot speed.From actual, we there is no need infinitely to improve the temperature difference, and the needs that only satisfy on the engineering are just passable.Reach this temperature difference, single-chip microcomputer just can correctly be judged, also can improve the serviceable life of device.This temperature difference point, we are referred to as the basic temperature difference.
On this temperature difference point, we continue heating, will produce our the needed rising temperature difference; Stop heating, will produce our the needed decline temperature difference.
The selection of the basis temperature difference gets final product between 20 ℃-40 ℃ according to different situations.
How utilizing this conclusion, is the important theoretical foundation of software control of the present invention, is the foundation of this liquid level instrument software programming by the monitoring of hot speed being judged the state of liquid level.Measurement to the temperature difference of platinum resistance needs certain time interval, this time interval is short more, and temperature approach is big more, and the hot speed of mensuration is just big more, also just help judging the influence of liquid level more, thereby improve sensitivity, resolution, antijamming capability normal heat transfer.
Under the certain condition of heat flux, the characteristics of thermal resistance are that the temperature difference is big more, and thermal resistance is big more.But the temperature difference is too little, and hot speed is also little, influences the resolution of single-chip microcomputer, easily causes erroneous judgement.
We are divided into two parts with thermal resistance, just the temperature difference is divided into two parts, a part is kept supplying heating zone and is used, a part is for cooling area use down, both kept the big advantage of the temperature difference comparatively speaking, avoided the increase of thermal resistance again, improved hot speed (the hot speed that is equivalent to be doubled), improved the purpose of sensitivity thereby reached.The middle part of the temperature difference at this moment is exactly our needed basic temperature difference.The definite of the basis temperature difference also will have the prerequisite that satisfies resolution, interference free performance.Application on the engineering can draw this basic temperature difference by experiment.
Experiment points out, is the temperature difference+20 ℃ (normal temperature) for the basic temperature difference of electric heater in the shell probe of 20W.
In fact, the gentle temperature of the liquid in the container is an amount that can change along with the time, and therefore the basic temperature difference also must change along with the lifting of liquid temperature synchronously.To the sampling of liquid temperature,, keep the constancy of the basic temperature difference by regularly with respect to the liquid temperature again by the adjusting of single-chip microcomputer to electric heater.The sensitivity that could keep probe.
Because industrial liquid level can not suddenly change, and the degree of accuracy of liquid level is had certain requirement, but the diameter of probe is often greater than the control accuracy of liquid level.
When us to a probe of forming by heating wire and temperature-sensing element (by stainless steel casing to its seal protection and conduct heat; as Fig. 1) the energising heating; make probe for liquid Wen Youyi the substantially invariable temperature difference; under this prerequisite; though probe diameter is greater than the control accuracy of liquid level, and do not mean that measuring accuracy can not be less than probe diameter.
The measuring method of built-in radiant heat method liquid level sensor probe:
A. pass through the platinum resistance of probe to container and liquid thermometric by single-chip microcomputer;
B. determine the basic temperature difference by single-chip microcomputer according to the temperature of the temperature of liquid or container and to probe heating wire heat time heating time, and keep probe difference curve constant or that certain fluctuation is arranged;
C. in a time interval, the temperature difference of probe is carried out continuous sampling by single-chip microcomputer, and calculate hot speed respectively, compare, find out maximum hot speed, it is decided to be threshold values by the constituent parts time interval of segmentation;
D. make single-chip microcomputer be in the state of temperature continuous sampling, and sampled result is constantly compared with threshold values, note unit interval interval above threshold values to probe;
E. single-chip microcomputer will be judged according to each the hot rate value that has write down, if be adjacent interval cooling continuously of unit interval, prove that then liquid level arrives.
Otherwise be exactly to disturb.
Utilize threshold values, single-chip microcomputer can check probe whether to possess enough sensitivity.
Utilize threshold values, single-chip microcomputer can judge whether liquid level arrives.
Utilize adjacent one or more hot speed, can improve the judgment accuracy of liquid level gauge or can be used for screening disturbing factor (is the hot rate value in optional adjacent two or more intervals.)
The basis temperature difference refers to the minimum temperature difference of the relative liquid of probe.The minimum of the hot speed between the adjacent region that the monolithic function distinguishes will be subjected to the restriction of the basic temperature difference, improves sensitivity, resolution, antijamming capability that basic temperature approach can improve level gauging significantly.
When the long-term use of probe is influenced by dirt, proofread and correct basic temperature approach.(proofread and correct and carry out automatically) by software
Utilize this method, can make high-resolution level gauging instrument.
This method is commonly used to measure accurate liquid level, and for example chemical reactor, common vessel, pressure vessel, basin utilize acidproof, alkaline-resisting, the resistant to elevated temperatures characteristic of built-in probe, can solve the problem of the accurate measuring liquid level under the rugged surroundings.
Three, the structure of radiant heat method fluid level transmitter probe socket and use
Experiment shows that the speed of probe cooling and the degree of fluctuation of liquid level are very big to the influence relation of probe, rather than sudden change, arranged a retardation time, we are referred to as time constant.The basic temperature difference that we keep is+20 ℃, and the temperature difference is+40 ℃ eventually, and in this temperature range, time constant only is the several seconds, and therefore, sensitivity is very high.
As long as we monitor the violent change of hot speed, just can be judged as liquid level and arrive the liquid level control line.Just do this judgement and needn't wait the temperature difference to disappear.Like this, just can keep under the certain basis temperature difference condition, keep sensitivity for level gauging.
Perhaps the someone can worry that the electricity charge meeting of this method is very high.We carried out measuring and calculating to the power consumption that a common this probe carries out long-time uninterrupted high-acruracy survey at normal temperatures and pressures, and heating power is 20W, only consumed the many electric weight of 1 degree 24 hours every days.Be used on the household electrical appliances hour coming, per hour only several electricity charge of sharing money (0.7 yuan of every degree electricity charge) can be accepted fully.And in many cases, fluid to be measured itself needs heating, and this probe places in the container, and the electric energy of use can't consume in vain.The consumption of electric energy is as the criterion with actual product).
The general observing and controlling that just can win any liquid level control line of this built-in probe.But in fact also will take on the task of early warning and warning to the requirement of probe, in different occasions, the quantity of probe is different, but probe to be in the container be sealing state, each probe links to each other with the external world pipeline will be arranged, we are referred to as probe socket.In order to narrate conveniently, be divided into: single probe socket, two probe socket, three probe sockets, four probe sockets, many probe sockets, movable probe seat, segmentation probe socket, motor-driven probe socket, dislocation probe socket, servo probe socket etc. by different application scenarios:
A. single probe socket only has a probe to be fixed on the probe socket, it is characterized in that popping one's head in and container between stationkeeping constant;
Two probes of B. two probe sockets are fixed on the probe socket side by side, it is characterized in that popping one's head in and container between stationkeeping constant (as Figure 10, shown in Figure 12);
C. three of three probe sockets probes with equidistantly or equidistant mode be fixed on side by side on the probe socket, it is characterized in that popping one's head in and container between stationkeeping constant (as shown in figure 16);
D. four probes of four probe sockets are fixed on the probe socket side by side in equidistantly or equidistant mode, it is characterized in that popping one's head in and container between stationkeeping constant (as shown in Figure 8);
E. each probe of many probe sockets is fixed on the probe socket side by side, it is characterized in that popping one's head in and container between stationkeeping constant;
F. dynamic sealing device and the locking device of movable probe seat by being fixed on container top makes probe socket move up and down in certain vertical range, it is characterized in that popping one's head in and container between the position can regulate;
G. segmentation probe socket: two groups of probes are set in container, wherein one group is last liquid-level probe, liquid-level probe under another is organized and is, this probe socket of two groups is split up and down in container according to the liquid level control line, it is characterized in that there is not association between the probe socket, and two probe sockets respectively and the stationkeeping between the container constant (as shown in Figure 9);
H. motor-driven probe socket: in certain distance, two probes are set, survey the speed that liquid level rises between these two probes, just can estimate the time that liquid level arrives next liquid level, it is characterized in that popping one's head in not on the liquid level control line and and container between stationkeeping constant;
I. probe socket misplaces: two groups of probes are set in container, wherein one group is the master control probe, another group is auxiliary probe, the horizontal level that it is characterized in that two groups of probes has a fixing deviation, form the dislocation state, when liquid level change did not also cover the auxiliary probe sensitive volume fully, can pop one's head in to master control simultaneously (this probe is as liquid level working control probe) exerted an influence (as shown in figure 10);
J. servo probe socket: the lower end of probe socket is connected a weight, and the upper end links to each other with the stepper motor servo control mechanism by wire rope, it is characterized in that probe can move (as shown in figure 13) by easy on and off in container.
These probes have acid-fast alkali-proof, the common feature of high temperature high voltage resistant.
External radiant heat method liquid level sensor is made up of electric constant-heat source, copper pedestal heat transfer plate, one group of platinum resistance, it is characterized in that electric constant-heat source is arranged on an end of copper pedestal heat transfer plate, is arranging platinum resistance on copper pedestal heat transfer plate body at interval.This is an external radiant heat method liquid level sensor probe socket (as shown in figure 15).
Hybrid probe socket is seen Figure 11.Hybrid probe socket gets up the advantages of built-in, external two kinds of probe sockets, is adapted at using on the chemical experiment device, and it has acid-fast alkali-proof, the performance of high temperature high voltage resistant.Its advantage is the position that need not to move feeler lever, and only by the debugging of software, the demarcation of combined standard liquid level gauge promptly can be finished the setting of new liquid level.Be applicable to the commerical test occasion that frequently changes the liquid level control line among a small circle.
The applied in any combination of probe socket is not to immobilize as mentioned above, but can define and select according to actual conditions and needs.In a word, the form of probe socket is varied, how to select how to use according to actual conditions to make a decision.
When this probe is done very for a short time (present technology can accomplish that external diameter is below 6mm), we just can judge the liquid level change that many littler than 6mm (liquid level line in the probe bottom upwards 1mm place).The precision of this fluid level transmitter can reach ± 3mm, if liquid fluctuating is minimum, the level gauging precision can also be higher, can reach ± 1.5mm.Measuring accuracy for static relatively liquid level can reach ± 1mm.The calculating here is not with the percentage method, but a kind of absolute error, no matter liquid level is 50cm, or 5m, 10m, or even 50m, it can reach this precision, therefore liquid level difference hour precision is just low, and precision was just high when liquid level difference was big, was big characteristics of this fluid level transmitter.
Above-mentioned probe socket (not comprising dislocation probe socket and external radiant heat method liquid level gauge probe socket), generally can only adapt to pressure is 1Mpa to 10Mpa, temperature is at 5 ℃ of liquid below-150 ℃.Should adopt titanium alloy or other alloys to do probing shell during High Temperature High Pressure, and probing shell be carried out coating handle, should match the material of probe for different application scenarios, with thin but also durable difficult contamination not only for well, the general stainless steel of generalized case.The industrial platinum resistance that should adopt is made temperature-sensing element.
Four, the application of radiant heat method fluid level transmitter in steam generator system
Four probes of four probe sockets are fixed on the probe socket side by side in equidistantly or equidistant mode, it is characterized in that popping one's head in and container between stationkeeping constant, four probe sockets can be used for industrial High Temperature High Pressure occasion, as boiler etc., it has acid-fast alkali-proof, and the performance of high temperature high voltage resistant is seen Fig. 8.
Because boiler water level does not have the requirement of accurate measurement, this probe has used the built-in probe radiant heat method of non-thermostatic type for saving the energy and eliminating the incrustation scale influence.When we to a probe by heating wire and temperature-sensing element (by stainless steel casing to its seal protection and conduct heat) heating makes it keep certain temperature difference, do not having under the situation of liquid, its temperature variation is very little; Make liquid to its submergence, its temperature variation is very big.This method can be used for judging whether liquid level exists, and Fig. 7 is seen in experiment.This method is called the built-in probe radiant heat method of non-thermostatic type.
The process that any probe of four probe sockets carries out level monitoring is:
A. pass through the platinum resistance of probe to container and liquid thermometric by single-chip microcomputer;
B. determine the basic temperature difference by single-chip microcomputer according to the temperature of the temperature of liquid or container and to probe heating wire heat time heating time, and keep probe difference curve (see figure 6) constant or that certain fluctuation is arranged;
C. in a time interval, the temperature difference of probe is carried out continuous sampling by single-chip microcomputer, and calculate hot speed respectively, compare, find out maximum hot speed, it is decided to be threshold values by the constituent parts time interval of segmentation;
D. make single-chip microcomputer be in the state of temperature continuous sampling, and sampled result is constantly compared with threshold values, note unit interval interval above threshold values to probe;
E. single-chip microcomputer will be judged according to each the hot rate value that has write down, if be adjacent interval cooling continuously of unit interval, prove that then liquid level arrives.
This method has the characteristics of energy-conservation and anti-incrustation scale.
This method is commonly used to measure not too accurate liquid level, for example water level of boiler, pond, water tower, solar water heater, washing machine, dish-washing machine etc.
Need to prove, be not that four probes are worked simultaneously, but make decision according to actual conditions by single-chip microcomputer.That generally works simultaneously is no more than two.
Have a talk the incrustation scale problem below.
Incrustation scale is a boiler, particularly do not have the very important problem of the arcola of softening water treating apparatus, the bulk thermal conductivity constants of incrustation scale is very low, only is 1/tens (estimated values) of steel, it increases the fuel of boiler consumption greatly, has also caused some mechanical liquid level gauges malfunctioning.Can't eliminate the influence of incrustation scale fully with present technology.Therefore, we will provide our measure to the influence of incrustation scale.
The time lag that incrustation scale causes conducting heat strengthens, and the hot speed that causes popping one's head in reduces, and the sensitivity of probe just reduces, and this will cause the error of measurement.Because our thermometric is means, purpose is to judge liquid level according to hot speed.Need take to eliminate the measure of this error.
Analyze this situation, we can take a kind of random test, and the method for follow-up alternating temperature just can overcome the problem that this situation is brought.Specific as follows:
Probe is in complete submerged state in level measuring, its principle can be used the method for static analysis.Be the experiment of Fig. 7 and the curve of Fig. 6, before measurement, utilize single-chip microcomputer to calculate threshold values, when incrustation scale order probe threshold values changes, increase the heat time heating time of probe heating wire by single-chip microcomputer, make new threshold values near Initial Hurdle, new threshold values has guaranteed the permanent as new sensitivity of probe.
The parameter setting operation of this decision heat generally be to carry out once every day, and fouling can not suddenly change in one day.
Except the solution of software, can select some anti-incrustation scale stainless steel materials to do the probe shell, also can carry out special processing, for example use " Te Fulong " this type coating or other coated materials or electronickelling, chromium, scaling rate is reduced greatly at detecting head surface to the probe material.
Along with long use, when the thickness of incrustation scale can seriously influence the measurement (time of probe heating is oversize) of water level, will clear up (generally can carry out simultaneously) to incrustation scale with boiler clear water dirt.This cycle is very long, because our materials are stainless steels of water-fast dirt, and general boiler vessel material must serious earlier fouling.Because probe is sealing fully, can clean with acid solution simultaneously with boiler vessel.This also is a big advantage that is different from other fluid level transmitter.Acid solution is cleaned and is made probe recover its original state, and software also will be adjusted parameter automatically.This means that maintenance does not need to remove probe, make this probe have great practical value.
This fluid level transmitter we can say also that owing to having used this method to become a kind of adaptive transmitter this transmitter has intelligently solved the problem of incrustation scale to probe sensitivity influence basically.
Five, the application of radiant heat method fluid level transmitter in chemical reactor
Four probes of four probe sockets are fixed on the probe socket in equidistantly or equidistant mode side by side, it is characterized in that popping one's head in and container between stationkeeping constant, four probe sockets can be used for industrial High Temperature High Pressure occasion, for example various chemical reactors, it has acid-fast alkali-proof, the performance of high temperature high voltage resistant is seen Fig. 8.Can certainly adopt many probe sockets according to actual conditions.
The process that any probe of four probe sockets carries out level monitoring is:
A. pass through the platinum resistance of probe to container and liquid thermometric by single-chip microcomputer;
B. determine the basic temperature difference by single-chip microcomputer according to the temperature of the temperature of liquid or container and to probe heating wire heat time heating time, and keep probe difference curve (see figure 6) constant or that certain fluctuation is arranged;
C. in a time interval, the temperature difference of probe is carried out continuous sampling by single-chip microcomputer, and calculate hot speed respectively, compare, find out maximum hot speed, it is decided to be threshold values by the constituent parts time interval of segmentation;
D. make single-chip microcomputer be in the state of temperature continuous sampling, and sampled result is constantly compared with threshold values, note unit interval interval above threshold values to probe;
E. single-chip microcomputer will be judged according to each the hot rate value that has write down, if be adjacent interval cooling continuously of unit interval, prove that then liquid level arrives.
Need to prove, be not that four probes are worked simultaneously, but make decision according to actual conditions by single-chip microcomputer.That generally works simultaneously is no more than two.
Because industrial liquid level can not suddenly change, and the degree of accuracy of liquid level is had certain requirement, but the diameter of probe is often greater than the control accuracy of liquid level.We will draw little to the time interval of probe temperature sampling, make the part of probe just can feel the cooling effect of liquid in this small time interval, thereby make the judgement that liquid level has arrived.Here it is, and built-in probe radiant heat method is used for the accurately method of measurement, is the conclusion that is drawn by performance analysis, and Figure 18 is seen in experiment.A figure expression probe bottom surface is S with the distance that contacts of liquid level among Figure 18, and Tan Tou temperature has 40 ℃ of constant temperature difference for liquid level before this.Touch liquid level after 5 seconds, to the probe temperature sampling, temperature descends to some extent, but not obvious, illustrates that hot rate variation is little.B figure expression probe further gos deep into the Δ S degree of depth under the liquid level.Probe temperature is sampled once more, and temperature decline reaches more than 10 ℃ in the identical time, the existence that this explanation probe has recorded liquid level.
This method has used the basis of constant temperature difference and hot speed to carry out level gauging, is called the measuring method of built-in radiant heat method liquid level sensor probe.
Because chemical reactor has several materials to need to mix usually, for accurate measurement, this probe has used the measuring method of built-in radiant heat method liquid level sensor probe.The basis temperature difference is selected between 20 ℃-40 ℃ according to actual conditions.With measuring error minimum, the most durable in use being as the criterion.
When this probe was used for chemical reactor, because hermetically sealed, the attonity parts of probe and high temperature high voltage resistant, corrosive liquids such as acid and alkali-resistance were added the advantage that it can the long-term non-fault in hermetically sealed ground ground be measured in container, and it is suitable to show especially.
But, also be necessary to adopt adaptive way because the reaction warm area of each reactor is inconsistent.Therefore can higher requirement be proposed to this transmitter.Because the possibility of different medium thermal conductivity generation nonlinearities change under different temperature pressure increases greatly in the reactor, simultaneously, the long-time use also can might influence the basic temperature difference at detecting head surface accumulation dirt.Adaptive method is exactly with current data and initial raw data contrast, revise new data according to raw data, practical step is exactly to determine new heat time heating time, makes the temperature difference remain on 35 ℃~40 ℃ (according to the actual conditions decisions), and so probe just has enough sensitivity.Single-chip microcomputer to the processing of this situation be used for boiler on identical, difference be here revise more frequent.This work is carried out automatically by single-chip microcomputer.
Six, the application of radiant heat method fluid level transmitter in liquid meter
We adopt two probe sockets to be used for the metering of industrial large-rolume container, and two probes of two probe sockets are fixed on the probe socket side by side, it is characterized in that popping one's head in and container between stationkeeping constant.
The experiment that repeats to be Fig. 7 shows that when the parameter of two probes was in full accord, liquid level was also in full accord to the cooling effect of probe.We make liquid level to the dipping position of two probes up and down identical (this moment, probe still should have the temperature difference about 20 ℃ with the liquid temperature), as shown in figure 12:
This shows that the length that liquid drops between the liquid level from last liquid level can be definite by the distance between accurate probe, can on-demand customization.If the shape of container is standard very, just can reach the purpose that liquid is accurately measured.
The process that any probe of two probe sockets carries out level monitoring is:
A. pass through the platinum resistance of probe to container and liquid thermometric by single-chip microcomputer;
B. determine the basic temperature difference by single-chip microcomputer according to the temperature of the temperature of liquid or container and to probe heating wire heat time heating time, and keep probe difference curve (see figure 6) constant or that certain fluctuation is arranged;
C. in a time interval, the temperature difference of probe is carried out continuous sampling by single-chip microcomputer, and calculate hot speed respectively, compare, find out maximum hot speed, it is decided to be threshold values by the constituent parts time interval of segmentation;
D. make single-chip microcomputer be in the state of temperature continuous sampling, and sampled result is constantly compared with threshold values, note unit interval interval above threshold values to probe;
E. single-chip microcomputer will be judged according to each the hot rate value that has write down, if be adjacent interval cooling continuously of unit interval, prove that then liquid level arrives.
Because industrial liquid level can not suddenly change, and the degree of accuracy of liquid level is had certain requirement, but the diameter of probe is often greater than the control accuracy of liquid level.We will draw little to the time interval of probe temperature sampling, make the part of probe just can feel the cooling effect of liquid in this small time interval, thereby make the judgement that liquid level has arrived.Here it is, and built-in probe radiant heat method is used for the accurately method of measurement, is the conclusion that is drawn by performance analysis, and Figure 18 is seen in experiment.A figure expression probe bottom surface is S with the distance that contacts of liquid level among Figure 18, and Tan Tou temperature has 40 ℃ of constant temperature difference for liquid level before this.Touch liquid level after 5 seconds, to the probe temperature sampling, temperature descends to some extent, but not obvious, illustrates that hot rate variation is little.B figure expression probe further gos deep into the Δ S degree of depth under the liquid level.Probe temperature is sampled once more, and temperature decline reaches more than 10 ℃ in the identical time, the existence that this explanation probe has recorded liquid level.
This method has used the basis of constant temperature difference and hot speed to carry out level gauging, is called the measuring method of built-in radiant heat method liquid level sensor probe.
For accurate measurement, this probe has used the measuring method of built-in radiant heat method liquid level sensor probe.The basis temperature difference is selected between 20 ℃-40 ℃ according to actual conditions.With error in dipping minimum, the most durable in use being as the criterion.
In addition, carry out variable frequency control, so that accurately enter liquid level line to feeder pump.When discharging liquid, require again when approaching time liquid level line, the aperture of control electromagnetic valve makes liquid level slowly drop to liquid level line down.At present, single-chip microcomputer can carry out variable frequency control and regulate solenoid valve, is mature technology.And on entering when liquid level line and following liquid level line, probe can in time be delivered to host computer with liquid level information by monitoring hot speed, makes host computer in time regulate and control feeder pump and solenoid valve.Finally reach the purpose that liquid is flowed out metering.
Distance between last liquid level and the following liquid level is big more, and the degree of accuracy of metering is just high more.More than 3 meters, when the control accuracy of probe was 1mm, error in dipping was no more than 0.05% when highly.Particularly evident for the basin that diameter is big.So, can this transmitter probe reach the measuring accuracy of 1mm? if liquid level obviously fluctuates or ripples, must not reach.Yet (precondition is the slow lifting of liquid level, during particularly near liquid level control line up and down can not produce fluctuation above 0.5mm during the slow lifting of liquid level.Reach this purpose and only need prolong the time of charging discharging slightly).Had this prerequisite measuring accuracy just can be controlled at 1mm, error in dipping is no more than 0.05%.
This metering method is suitable for the entrucking outward transport, also can be used for the supplied materials metering.But the shape need to container is relatively stricter, otherwise error can strengthen.
If certain container is main application with the metering, but at this moment shape standard not too will demarcate (or other modes) by means of other flowmeter of precision.
For platinum resistance and the electric heater manufactured meticulously, repeatable accuracy is very high.In order not influence repeatable accuracy, be not useable for the higher liquid of viscosity.This kind metering method can replace flowmeter in some occasion, reduces cost.The metering of the entry and exit factory of particularly a large amount of liquid.
Seven, the application of radiant heat method servo-type liquid-level tracking instrument in the basin metering
Here the method for Jie Shaoing is fit to the basin metering, and has more ubiquity.
The basin metering is one of important application of industries such as oil, chemical industry, food.It also is the occasion that various liquid level instrument is exhibited one's skill to the full.Basin belongs to the normal pressure scope basically, and in this case, it is very important that measuring accuracy then seems.Float-ball type liquid level instrument is widely applied in this occasion.
We adopt servo probe socket to be used for the metering of industrial high capacity basin, and it has the performance of acid-fast alkali-proof.Each probe of servo probe socket here is and works alone.
The lower end of probe socket is connected a weight, and the upper end links to each other with the stepper motor servo control mechanism by wire rope, it is characterized in that popping one's head in moving by easy on and off in container, Here it is servo probe socket.
The present invention can reach better effect with replacing traditional ball float to the servo probe socket of liquid surface lifting servo-actuated.Degree of accuracy height, reliability height are applicable to any liquid that viscosity is low.Simple in structure, non-maintaining, the digital control of single-chip microcomputer.
The process that any probe of servo probe socket carries out level monitoring is:
A. pass through the platinum resistance of probe to container and liquid thermometric by single-chip microcomputer;
B. determine the basic temperature difference by single-chip microcomputer according to the temperature of the temperature of liquid or container and to probe heating wire heat time heating time, and keep probe difference curve (see figure 6) constant or that certain fluctuation is arranged;
C. in a time interval, the temperature difference of probe is carried out continuous sampling by single-chip microcomputer, and calculate hot speed respectively, compare, find out maximum hot speed, it is decided to be threshold values by the constituent parts time interval of segmentation;
D. make single-chip microcomputer be in the state of temperature continuous sampling, and sampled result is constantly compared with threshold values, note unit interval interval above threshold values to probe;
E. single-chip microcomputer will be judged according to each the hot rate value that has write down, if be adjacent interval cooling continuously of unit interval, prove that then liquid level arrives.
Because industrial liquid level can not suddenly change, and the degree of accuracy of liquid level is had certain requirement, but the diameter of probe is often greater than the control accuracy of liquid level.We will draw little to the time interval of probe temperature sampling, make the part of probe just can feel the cooling effect of liquid in this small time interval, thereby make the judgement that liquid level has arrived.Here it is, and built-in probe radiant heat method is used for the accurately method of measurement, it is the conclusion that draws by performance analysis, in order to understand built-in radiant heat method liquid level sensor probe more intuitively is the metering that how to be used for servo type liquid, our experiment, and Figure 18 is seen in experiment.The a bottom surface of representing to pop one's head in is S with the distance that contacts of liquid level among Figure 18, and Tan Tou temperature has 40 ℃ of constant temperature difference for liquid level before this.Touch liquid level after 5 seconds, to the probe temperature sampling, temperature descends to some extent, but not obvious, illustrates that hot rate variation is little.B represents that probe further gos deep into the Δ S degree of depth under the liquid level among Figure 18.Probe temperature is sampled once more, and temperature decline reaches more than 10 ℃ in the identical time, the existence that this explanation probe has recorded liquid level.
This method has used the basis of constant temperature difference and hot speed to carry out level gauging, is called the measuring method of built-in radiant heat method liquid level sensor probe.
According to experiment, we as can be seen the probe movement of servo-type level meter also exist same phenomenon.Details are as follows:
Probe touches liquid level by wire rope in the process that step motor drive descends, shown in a among Figure 18.The fluctuation of liquid level can cause the reduction of probe temperature, but not obvious, because surface of contact is little, and fluctuation is arranged.When the distance of probe continuation, shown in b among Figure 18 to decline Δ S.Probe temperature is subjected to the obvious influence of liquid level, can record in 5 seconds temperature and descend more than 10 ℃.The double cooling of popping one's head among Figure 18 a, Figure 18 b is big time by time, and just hot rate variation is quite big, just can locate the physical location of liquid level through the calculating of threshold values.The said process explanation, the servo-type probe can improve the sensitivity of measurement greatly.When Δ S is 1mm, experiment showed, liquid level to the influence of probe temperature more than 10 ℃, so liquid level can be differentiated fully.Therefore proved that more the level gauging to basin can be accurate to 1mm.
The deduction of this experiment and servo-type probe measurement liquid level has proved that further the basic temperature difference of built-in radiant heat method institute foundation and hot rate method can reach higher precision in the basin metering, possessed the practicality on the engineering.When applying to different liquids, must measure the value of the S of a among Figure 18.
The structure of servo-type liquid-level tracking instrument is shown in 13 figure:
Structure explanation: three probes are arranged on the servo probe socket, can take turns changing jobs, reduce the influence of dirt to the degree of accuracy of long-term use.
Adjustable stem is used for the correction to the probe positions degree of accuracy.Get rid of the influence in cable wire and mechanical transmission structure gap.Adopt tongue tube or other device.
The dynamic displacement of probe is by step motor drive.
The correction work principle: the adjustable stem head is equipped with tongue tube, and another root is then adorned permanent magnet.Adjustable stem is fixed on the tank deck, determines its exact position when mounted.Before the probe action, advanced line position is confirmed to proofread and correct, and by single-chip microcomputer its parameter is preserved.
When formally surveying liquid level, to the first probe heated at constant temperature, make its maintenance 35 ℃-40 ℃ the temperature difference be arranged to surrounding environment by electric heater in the probe.The step motor drive probe causes the sudden change of the probe temperature difference up to liquid level constantly downwards simultaneously.In this process, probe movement speed can reduce the stand-by period soon.When arriving liquid level, need through vibration up and down several times, the control by single-chip microcomputer just can make the probe bottom touch liquid level.Enter liquid, leave liquid, half impregnation state, the hot speed of probe of touching state be different.Judge by software.
The probe touch state with maintaining heat speed a sensitivity that is beneficial to resolution, make probe the highest to the sensitivity of temperature variation.With 1 step/second, every 0.2mm/ goes on foot and moves up and down probe.With the hot speed of the time period detection probe of 2-4 second (electric heater remains certain temperature difference of relative probe shell in the probe during this period).And provide feedback letter command stepper motor follow-up by computed in software, just can reach the purpose of probe tracking liquid surface lifting.Single-chip microcomputer adds that according to the positive and negative stepping data of stepper motor during this corrected value just can calculate the physical location of liquid level.Owing to be FEEDBACK CONTROL, a point tolerance must be arranged, the speed of available minimizing mobile probe solves.
Error correction can be done once every day, prevents the cumulative errors that long-term operation causes, and accomplishes intellectuality.
Each probe can take turns to operate, and prevents that heated liquid from producing dirt on the probe wall, can accomplish non-maintaining for a long time.
Eight, the principle of external contactless radiant heat method fluid level transmitter and application
Used probe of external radiant heat method fluid level transmitter and various probe socket noted earlier have tangible structural difference, but their used ultimate principles are the same, all be to have utilized radiant heat method, probe is heated, not heating, just it doesn't matter measures, and this is the general character of various probes mentioned in this article.
As everyone knows, heat transmission has three kinds of modes: conduction, convection current, radiation.We look back its content.
Heat is always transmitted toward the low temperature place from high temperature.The temperature difference is big more, and the heat conductor thermal conductivity is big more, and heat conduction is fast more; Thermal conductivity has great difference for different media, and copper is bigger several times than iron, and iron is bigger several times than water, and water is than big several times again of gases.
Heat conduction is only carried out between adjacent media, when adjacent medium has gas or liquid, will produce convection current.Heated liquid or air or other steam will rise, and heat interchange is carried out continuously.
High temperature substrate cognition is directly outwards carried out heat radiation.
Hot transmission meeting stops when temperature reaches balance between object.
We utilize these ultimate principles to do an experiment, and purpose is the application in practice of simulation contactless radiant heat method liquid level sensor (external radiant heat method fluid level transmitter), thereby seek its heat conduction rule.It is few to test required equipment, and one in plastics bucket, tin, copper plumbing spare one cover, galvanized iron conduit one (about 30cm), one, 100 ℃ thermometers of 600W electric heater are arranged.As shown in figure 14:
Experiment is divided into twice, gets liquid level at the following 17cm of copper plumbing spare place for the first time, and the 7cm that for the second time liquid level raise repeats to try again.
Experimental procedure is as follows:
1. earlier various equipment are connected by diagram, bucket is injected water and make liquid level arrive the 17cm place.
2. with the tin fills with water, and the energising heating.
3. kept 10 minutes after the water boiling, make heat interchange enter stable state (heat-conduction coefficient of material and the quality of material square, the temperature difference is directly proportional, adding three kinds of thermaltransmission modes all needs certain passing time).
The record galvanized conduit vertical everywhere temperature and with the respective distances of liquid level.
5. write down temperature, temperature record in liquid level temperature, the water.
Experimental result:
By mapping of length corresponding point and line to the temperature of the above each point of the liquid level iron pipe corresponding with it, we find, the 10cm interval more than liquid level, and temperature is linear change, about 7 ℃ of the temperature difference.
With the liquid level 7cm that raises, do above experiment once more, though we find that once more temperature all descends to some extent, temperature still is linear change, just foreshortens to 7cm, about 8.5 ℃ of the temperature difference is can find out slope generation significant change.
Interpretation of result:
Heat is delivered in beginning and presented complicated the variation in 10 minutes, and multiple factor is with three kinds of heat interchange form reciprocations, and after this irregular saying arrive stable state.After arriving stable state, we are from recording data as can be seen, and the water temperature of bucket and the temperature of constant-heat source are constant, and one minimum, and one the highest, and we are called low-temperature space with water temperature, and constant-heat source is called the high-temperature region.The heating zone of a 7cm-10cm is arranged more than the liquid level, and temperature is linear change, is called linear warm area.About the about 1cm in liquid level place, temperature is uncertain, and we are called indefinite warm area.These 4 warm areas have constituted a complete integral body, and we will it list in wherein to ignoring although indefinite sometimes warm area is little, must face because this is an engineering reality.More than 4 subregions and constant-heat source radiant heat method just constituted the level measuring method of our this external radiant heat method fluid level transmitter.
On this basis, the linear warm area of selective analysis, reach a conclusion for: when liquid level changes, linear warm area each point temperature also can change, and sets up the funtcional relationship of distance and temperature variation on the liquid level, as can be seen, this is a linear function, and its slope will change along with liquid level variation.According to the variation of this slope, concern in slope and liquid level and can determine the position of liquid level under the indication of the table of comparisons.
Determining of linear warm area scope, it is positioned at the above place of liquid level 1cm (being as the criterion with liquid level temperature microlitre); Distance between the high-end and low side is being determined (under the normal temperature condition) according to field condition between the 7cm-17cm.
The using method of linear warm area: certain section in selected linear warm area is determined 4 points, it at first is the liquid level control line, below apart from the liquid level certain distance is the liquid level lower control limit, and certain distance is exactly the liquid level upper control limit on it, and most significant digit is the overload alarm position.Particular location is decided by the actual conditions analysis.
We, also need carrying out temperature sampling under constant-heat source, liquid level top air zone, liquid level, the liquid as supporting not only to linear warm area controlling of sampling.
Constant-heat source be one can be by monolithic processor controlled electric calorifie installation, thermal value is determined according to field condition (as the length of the wall thickness of canister, the thermal capacity of copper pedestal, linear warm area, the size of scene temperature), and is kept that liquid level top air zone temperature is had a constant temperature difference.
In engineering site, above-mentioned all devices all must heat insulation processing, the particularly influence of isolated outside air temperature.
According to the method that experimental result derives, can produce the fluid level transmitter that uses at some special occasions.
The linear warm area that experiment is determined can be us and solves a part of practical problems on the engineering.We can utilize platinum resistance to note its situation of change exactly and utilize single-chip microcomputer to set up corresponding slope and analyze it and the relation of liquid level, thus definite liquid level.
The liquid level rising can cause linear warm area each point decrease of temperature, and can make linearity steepening, enters the high temperature difference district.In other words, changing can appear in slope, and liquid level change is big more, and slope variation also can be big more.Relation between liquid level that Here it is in the Linear Temperature district and the slope.
Above-mentioned test is to be exposed in the air fully, and the thermal capacity that makes water carries out under the condition of galvanized iron conduit, and liquid level is steady.Actual conditions are understood the many of complexity.In the time of temperature acute variation in more special reactors, liquid level changing, obviously is not all right in this way also, because heat conduction needs the time of a hysteresis.In a word, we utilize variation of temperature to calculate liquid level, if the rate temperature change in the container can't be controlled, are variablees, just can not be in this way.
Testing us by this can derive, liquid level top outside constant-heat source is placed in container, and the heat that it sends just can be at linear warm area of formation between it and the liquid level.We are provided with a string platinum resistance by the linear warm area outside container, and when liquid level changed, the temperature of linear warm area also can change, by the platinum resistance string can monitor temperature variation, thereby can calculate the situation of change of its slope, determine liquid level then.
Interference factor analysis: the variation of environment temperature also can make the temperature of linear warm area change, but it also can cause entire container metal layer at top, air layer temperature generation wide variation (and the variation of liquid level can not cause corresponding variation) simultaneously, the thermal conductivity of air is come much smaller compared with liquid and metal material, its thermal capacity is come also much smaller compared with liquid and metal material in practice.And because this rate of change is little, while gas and liquid level large tracts of land heat-shift, so this variation is very slowly.By the temperature sampling of respective points, can tell the influence of this factor, can it be filtered with correction coefficient, can make constant-heat source follow the tracks of this variation apace.As a same reason, the metal of container top is subjected to the influence of external environment and temperature changes, its influence also comprehensively, can differentiate the temperature gradient that the rate of change that environmental factor causes the container upper temp can produce far below constant-heat source at short notice all the time.The temperature gradient that constant-heat source produces is much larger than the influence of these factors, as long as the temperature gradient that constant-heat source produces is constant, heat is just constant to the direction of heat flow that the low temperature place forms from high temperature.On the contrary, liquid fluctuating relatively these factors makes linear warm area more responsive, as long as make constant-heat source follow the tracks of interference apace by software, just can retention wire district warm in nature stablize maintains the tracking of enough linear warm areas to level change.Thereby keep relative sensitivity.
When we adopted this kind method measuring liquid level to on-the-spot container, we also needed to demarcate with the liquid level gauge of accurate standard.And periodic calibration.
We have a look indefinite warm area in addition.Indefinite warm area is meant about the liquid level ± temperature of 1cm scope.On-the-spot reality often is not a liquid level that not have fluctuation, and constant-heat source works long hours and also can cause liquid level to heat up, and needs only us it is differentiated out, just can not influence our judgement to liquid level.Because the linear warm area of our indication is indicated by the above platinum resistance of 5-10, if about the liquid level ± temperature of 1cm scope is judged out with linear zone contradictoryly, and we just list it in indefinite warm area.Simultaneously, judge that whether slope changes, and just can determine the situation of liquid level.Everything can be finished automatically by software.
The constant-heat source problem.The theoretical foundation of constant-heat source is come self forcing heat transfer method.Constant-heat source can provide a stable linear warm area, and condition is that it must change along with the variation of temperature of air zone in the container.This variation may be the influence of ambient air temperature, also may be material in the container chemical reaction institute extremely, also may comprise the influence of heat that other Conversion of energy forms to wall temperature.Constant-heat source should be followed usually to variation of temperature, keeps the constant thermograde to air zone in the container all the time indirectly.Automatically carry out according to actual conditions by single-chip microcomputer.As long as stable linear warm area has been arranged, just can judge the situation of liquid level change reliably.
Constant-heat source still can be kept a stable linear warm area after reducing thermograde, just can have influence on the sensitivity of measurement.But we can utilize this point to cut down the consumption of energy, and some occasion does not need to survey continuously liquid level.
More than our explanation be external radiant heat method fluid level transmitter principle, below we illustrate the method that realizes it.
At first we adopt external radiant heat method liquid level sensor, are made up of electric constant-heat source, copper pedestal heat transfer plate, one group of platinum resistance, it is characterized in that electric constant-heat source is arranged on an end of copper pedestal heat transfer plate, are arranging platinum resistance on copper pedestal heat transfer plate body at interval.As shown in figure 15:
The function of transmitter is data acquisition, is summed up as primary instrument.What single-chip microcomputer was handled is the various data that the transmitter collection comes, and is summed up as secondary instrument.Connect by transmission line and electric wire.
Replenish a bit: copper base plate and vessel surface should coincide as far as possible, and the bottom radian should be consistent with the vessel surface radian.Reduce thermal resistance, be beneficial to heat transfer.The thickness of copper pedestal heat transfer plate, width, length need be according to an ancient piece of jade, round, flat and with a hole in its centre needs decision of thick and internal tank temperature, production, below the general desirable 1cm.
Workflow: we realize to the collection of temperature with to the control and the fluid level condition transmission of Information of constant-heat source with single-chip microcomputer.At first with constant-heat source heating and make it enter steady state (SS).The temperature variant electric signal that platinum resistance is transmitted is directly sent into the isolated amplifier input end of secondary instrument.After multi-way switch gating, A/D converter conversion, single-chip microcomputer processing, thereby obtain liquid level data, it can observe the present situation of liquid level intuitively on display screen, also liquid level information can be sent into host computer by RS-232 or RS-485 standard interface through network.Host computer to the liquid level information processing after, can obtain the deviation situation of liquid level apart from control line, control again.Can also be that the aperture of control center's by-pass valve control, the start-stop of pump class, the electric heater of container etc. form an independently control system with the single-chip microcomputer.
The advantage of this transmitter is to be used in the more abominable occasion of more industrial environment, and all the other relative merits are in the explanation of this section afterbody.
How " the contactless radiant heat method fluid level transmitter of explosion-proof anti-interference type " is used in the production reality? the following describes points for attention:
1. confirm at first whether field condition is fit to this instrument.
2. connect at the appropriate location of container installation code liquid level sensor probe (non-probe), and with its necessary instrument.
3. again this transmitter probe seat (seeing Figure 15) is installed and connects with necessary instrument.
4. make container enter the ordinary production state, its liquid level variation is tested and monitored by standard liquid level instrument.
5. after standard liquid level instrument operate as normal, again with this transmitter input debugging (non-monitoring), in the process of debugging, solve problems such as the corresponding relation of slope data, slope data and the liquid level of the size of constant-heat source stability, linear warm area, linear warm area, indefinite warm area, the normal fluctuation zone of liquid level, the improper fluctuation zone of liquid level, overload alarm, level gauging degree of accuracy and reliability, repeatability.Below all can carry out automatically by software.
6. through 24 hours parallel running,, this fluid level transmitter independently can be come into operation as no abnormal.Standard liquid level instrument is dismountable in monitoring expiration back, generally needs to keep probe or probe position.So that periodic calibration.
The Installation and Debugging method of external radiant heat method liquid level sensor is characterized in that being installed in after the container outer wall when external radiant heat method liquid level sensor, and the concrete steps that begin to debug are as follows:
A. at first to set up a linear warm area and keep this linear warm area and continue to exist, Here it is by debugging constant-heat source~debug according to wall of a container is thick, determine heating power, and observe, make the active length of linear warm area be enough to satisfy on-the-spot requirement by single-chip microcomputer;
B. by single-chip microcomputer linear warm area is set up mathematical model (linear equation with one unknown);
C. set up " liquid level and the slope table of comparisons " that certain resolution is arranged by single-chip microcomputer and standard liquid level gauge;
That D. utilizes probe socket surveys the liquid temperature by next platinum resistance, and this platinum resistance is away from the liquid level control line, and liquid can form stable temperature effect to it;
E. utilize the nearer platinum resistor temperature measuring of liquid level control line below, its data are as the pre-actuation signal of further work;
F. when liquid level has been determined near the liquid level control line, begin each platinum resistance in the linear warm area is scanned temperature sampling;
G. by single-chip microcomputer the temperature data of linear warm area is utilized mathematical model (linear equation with one unknown) slope calculations;
H. the slope data that comes out with latest computed compares with " liquid level and the slope table of comparisons ", finds liquid level data;
I. these data are shown and transmit or as control signal to host computer at this machine;
J. continue said process, controlled until liquid level.
After above work is finished, promptly can formally come into operation, using method is as follows:
That A. utilizes probe socket surveys the liquid temperature by next platinum resistance, and this platinum resistance is away from the liquid level control line, and liquid can form stable temperature effect to it;
B. utilize the nearer platinum resistor temperature measuring of liquid level control line below, its data are as the pre-actuation signal of further work;
C. when liquid level has been determined near the liquid level control line, begin each platinum resistance in the linear warm area is scanned temperature sampling;
D. by single-chip microcomputer the temperature data of linear warm area is utilized mathematical model (linear equation with one unknown) slope calculations;
E. the slope data that comes out with latest computed compares with " liquid level and the slope table of comparisons ", finds liquid level data;
F. these data are shown and transmit or as control signal to host computer at this machine;
G. continue said process, controlled until liquid level.
The shortcoming of this fluid level transmitter is sensitive inadequately to the reacting condition of liquid level, and this is because heat conduction is subjected to the influence of thermal resistance that the time of a hysteresis is arranged on chamber wall.So occasion that incompatibility liquid level change rate is higher.In addition because the electrical heating of constant-heat source long term maintenance will increase operating cost, the occasion that also is not suitable for need not the heating situation of liquid level (can intermittently survey except).Utilize the limitation of method on measurement range of linear warm area bigger, can only survey the change of liquid level among a small circle.
The size of linear warm area has determined the scope that liquid level change is controlled, the temperature that increases constant-heat source can strengthen the length of linear warm area, but also can cause bigger non-linear warm area, causes the aggravation of heat radiation, convection current, increasing use cost, is conditional so linear warm area is strengthened.
Although so many defectives are arranged, but because it does not contact with liquid, reliable long-term working is good, stability is higher, antijamming capability strong (particularly be not stressed change influence one in container the conversion of all energy all can be summed up as the increase and decrease of temperature), simple in structure, make easily, do not have mechanical parts, can be by Single-chip Controlling, can network with central control computer, debugging is simple with maintenance, is not subjected to the influence of corrosive liquids or other rugged surroundings, can be used in normal temperature and pressure, have a meeting, an audience, etc. well under one's control in medium temperature and medium pressure and some high temperature and close, it can solve some special demands, and cost performance is higher.It can be used for some and not need continuity measuring liquid level and the occasion not too high to the measuring accuracy requirement, that other liquid level sensors are fragile or costly on a large scale.
Regular meeting requires liquid level that certain adjusting leeway is arranged during chemical experiment device, and is fixing as the position of will popping one's head in, and can't reach this effect.According to advantage built-in, external probe socket, they are combined, form hybrid probe socket, the range of adjustment of 8cm-15cm can be arranged.The system that can form continuous coverage liquid level among a small circle.Its advantage is the position that need not to move feeler lever, and only by the debugging of software, the demarcation of combined standard liquid level gauge promptly can be finished the setting of new liquid level.Be applicable to the commerical test occasion that frequently changes the liquid level control line among a small circle.As shown in figure 11: this is built-in another the later new usage of external probe socket.
Nine, the application of radiant heat method fluid level transmitter in household electrical appliances
Three probes of three probe sockets are fixed on the probe socket in equidistantly or equidistant mode side by side, it is characterized in that popping one's head in and container between stationkeeping constant, three probe sockets can be used for the liquid level monitoring of solar water heater inlet on household electrical appliances, the effect of three probes is respectively upper limit alarm position, liquid level control, lower limit alarm bit on water heater.As shown in figure 16:
Because water level does not have the requirement of accurate measurement, this probe has used the built-in probe radiant heat method of non-thermostatic type for saving the energy and eliminating the incrustation scale influence.When we to a probe by heating wire and temperature-sensing element (by stainless steel casing to its seal protection and conduct heat) energising heating makes it keep certain temperature difference, do not having under the situation of liquid, its temperature variation is very little; Make liquid to its submergence, its temperature variation is very big.This method can be used for judging whether liquid level exists, and Fig. 7 is seen in experiment.This method is called the built-in probe radiant heat method of non-thermostatic type.
The process that any probe of three probe sockets carries out level monitoring is:
A. pass through the platinum resistance of probe to container and liquid thermometric by single-chip microcomputer;
B. determine the basic temperature difference by single-chip microcomputer according to the temperature of the temperature of liquid or container and to probe heating wire heat time heating time, and keep probe difference curve (see figure 6) constant or that certain fluctuation is arranged;
C. in a time interval, the temperature difference of probe is carried out continuous sampling by single-chip microcomputer, and calculate hot speed respectively, compare, find out maximum hot speed, it is decided to be threshold values by the constituent parts time interval of segmentation;
D. make single-chip microcomputer be in the state of temperature continuous sampling, and sampled result is constantly compared with threshold values, note unit interval interval above threshold values to probe;
E. single-chip microcomputer will be judged according to each the hot rate value that has write down, if be adjacent interval cooling continuously of unit interval, prove that then liquid level arrives.
Usually be in easy fouling under the high temperature hard water environment and influence the problem of long-term measurement stability for this class of solar water heater probe, this fluid level transmitter is because hermetically sealed, attonity parts of probe and can take measure at detecting head surface coating " Te Fulong " this type coating, and effect can be better.Can certainly adopt intellectual software processing method.This method is a kind of random test, the method for follow-up alternating temperature, and it can overcome the problem that incrustation scale brings.Specific as follows:
Probe is in complete submerged state in level measuring, its principle can be used the method for static analysis.Be the experiment of Fig. 7 and the curve of Fig. 6, before measurement, utilize single-chip microcomputer to calculate threshold values, when incrustation scale order probe threshold values changes, increase the heat time heating time of probe heating wire by single-chip microcomputer, make new threshold values near Initial Hurdle, new threshold values has guaranteed the permanent as new sensitivity of probe.
The parameter setting operation of this decision heat generally can carry out once every day, is finished automatically by software by single-chip microcomputer.And fouling can not suddenly change in one day.
This class water container of dish-washing machine is little for resembling, and the household electrical appliances that liquid level change speed is very big can adopt easy two probe socket, and its probe operation principles is consistent with this section " solar water heater ", is solved by software, no longer applies and states.This is because household electrical appliances are less demanding to liquid level control.
Upper limit alarm means that feed pathway is not controlled, and lower limit is reported to the police and meaned that liquid outlet channel is not controlled.Embodied the good comprehensive performances of this fluid level transmitter.Just can realize that with easy method liquid level monitoring and fault alarm are big advantages of this fluid level transmitter, improve the intelligent level of household electrical appliances greatly, and realize that cost is not high.The cost determination of household electrical appliances it can not select some high-precision fluid level measuring instruments, and it need not to consider anti-interference, high-precision problem under home environment, sonde configuration and control circuit can be simplified.And the pressure change type fluid level transmitter that generally adopts is because a variety of causes all is difficult to reach the long-term non-fault target of (referring to sensor itself).This fluid level transmitter principle and structure prove that all it can be competent at the demand of washing machine, dish-washing machine, solar water heater, it will overcome a bottleneck of these household electrical appliances Electronic Controlization, thoroughly solve the short-life disadvantage of mechanical type liquid level sensor, realize that the control of household electrical appliances liquid level is electronic, non-maintaining, the target of high performance-price ratio.
Ten, single-chip microcomputer is in the application of radiant heat method fluid level measuring instrument
Above we have illustrated principle and its application process under industrial various conditions of built-in radiant heat method fluid level transmitter.Especially the measure of being taked on plain cylindrical furnace and general chemical reactor is equally applicable to the similar application of other industry.Also illustrated in the simplification usage of family expenses washing machine, dish-washing machine, solar water heater and two kinds of methods that are used to measure.This fluid level transmitter can only with the supporting use of single-chip microcomputer, below its designing requirement of summary description.
We with single-chip microcomputer realize to probe temperature collection, to control and the fluid level condition transmission of Information of judging liquid level and each probe electric heater.Servo-type liquid-level tracking instrument is also realized the servocontrol of probe socket by single-chip microcomputer in the basin metering.
The function of transmitter is data acquisition, and the power supply of platinum resistance and electric heater is provided.And the control of each electric heater is summed up as primary instrument by single-chip microcomputer decision in the secondary instrument.
Why to control the power-on time of electric heater?
The basic temperature difference of keeping work probe (we are called the work probe with in running order probe) is with regard to the continuous measuring sonde temperature of needs, fluid temperature, and these two numerical value are asked poor, as long as difference is less than or equal to the basic temperature difference, will the electric heater of work probe be heated.The time of heating is decided according to experimental data by software.This heating is fast, also is interrupted, thereby is energy-conservation.
Whether the energising heating also is subjected to the location of liquid level gauge to the function of certain probe.For example, " work at present probe " is upper limit probe, and then other probes not necessarily need heating, or implements long heating interval time.When liquid level begins to descend, " work at present probe " transfers to the lower limit probe, then only lower limit popped one's head in and heats.Reach not only energy-conservation but also can monitor the purpose of liquid level.
The time of energising heating also is subjected to the influence of incrustation scale.Probe is in complete submerged state in level measuring, its principle can be used the method for static analysis.Be the experiment of Fig. 7 and the curve of Fig. 6, before measurement, utilize single-chip microcomputer to calculate threshold values, when incrustation scale order probe threshold values changes, increase the heat time heating time of probe heating wire by single-chip microcomputer, make new threshold values near Initial Hurdle, new threshold values has guaranteed the permanent as new sensitivity of probe.
Single-chip microcomputer in the secondary instrument is also handled the various data that the transmitter collection comes, and converts the fluid level condition signal to and passes to host computer.And accept the control of host computer.Transmission line between secondary instrument and the host computer is cable or optical fiber, and signal all is digital.This implementation is the simplest, also is normally used.
Circuit structure is: popping one's head in is the Sensor section of primary instrument, and remaining circuit is concentrated and placed in the secondary instrument.The circuit relationships synoptic diagram of single-chip microcomputer and probe is seen Figure 17:
Comprise in the secondary instrument each probe electric heater correspondence control circuit of bidirectional thyristor, high-precision power (for platinum resistance with), platinum resistance input signal cable and output to probe electric heater power lead, multi-way switch, signal input isolated amplifier, A/D converter, single-chip microcomputer and peripheral electron device, photoelectricity be coupled scrambler, photosignal ballistic device, display screen, control panel, transmission interface device etc.
More than be consisting of the principle of radiant heat method fluid level measuring instrument with secondary instrument and realizing function, the structure of circuit of built-in radiant heat method fluid level transmitter.
This fluid level measuring instrument also have the function that the electric heater of each probe is controlled, and other is generally the function of secondary instrument except the function that acquired signal is arranged.Both accepted the control signal of long-range host computer, also can under the situation that host computer breaks down, carry out the intellectual fluid level measuring instrument of independent measurement according to manual setting value.
11, the movable probe bar is in the application that changes flexibly in the measuring liquid level
Usually, probe socket of the present invention is fixed in the container by feeler lever, liquid level change and probe socket invariant position.In some cases, technological process has become, and the controlled liquid level of inevitable requirement changes.We adopt the movable probe seat, by dynamic sealing device and the locking device that is fixed on container top, probe socket are moved up and down in certain vertical range, it is characterized in that popping one's head in and container between the position can regulate.And can therefore not leak (being mature technology) under the mesolow condition.Probe carries out position adjustments according to working condition requirement and becomes possibility in certain scope, increased the dirigibility of this liquid level gauge greatly.It can be used in the chemical reactor of low temperature in the normal pressure, and it can be used in the accurate measurement of container with combining of static probe seat.
12, the Air conditioner box of radiant heat method fluid level measuring instrument outdoor mounted
In some cases, need be at outdoor mounted radiant heat method fluid level measuring instrument.The outdoor climate environment has wind, rain, snow, ice, severe cold and high temperature, fog, dust etc. to be unfavorable for the environment of electronic equipment, this fluid level measuring instrument must be placed in the Air conditioner box.The design proposal of Air conditioner box is as follows:
Principle of work: fluid level measuring instrument is installed in outdoor, helps the shortening of various signal cables, is the selection of a practicality.But because outdoor environment is abominable, must place in the Air conditioner box, with the requirement of the humiture of guaranteeing self etc.Air conditioner box also adopts single-chip microcomputer to control.Air conditioner box to the temperature controlling scope between 18 ℃-28 ℃, to the range of control of humidity below 80%.Under the home condition, solve, and possess lightning protection, dust prevention by ventilating.
The structure of Air conditioner box: Air conditioner box is made up of casing, compressor, electrothermal tube, instrument fan and interlock circuit.
When fluid level measuring instrument is installed in outdoor and require uninterruptedly to monitor liquid level, should get two-shipper automatic switchover form.The separate unit machine automatically switches to backup machine when breaking down, send failure alarm signal simultaneously.
The occasion of level monitoring can be stopped when taking place, the dual-host backup form can be cancelled for fault.Simplified structure.
13, invention effect
The present invention has successfully utilized the principle of radiant heat method, uses traditional RTD or thermistor As the sensing element of sensor, produce a kind of the new of the every field such as industry, household electrical appliances that be widely used in The type fluid level measuring instrument. These fields comprise common vessel, pressure vessel, chemical reactor, boiler, storage Tank, water tower, pond, washing machine, dish-washing machine, solar water heater etc. It and single-chip microcomputer are combined closely, The automatic improving upsurge that has adapted to current each relevant industries, it have high performance-price ratio, antijamming capability strong, What good stability, reliability height, high temperature high voltage resistant, acid and alkali-resistance, self adaptation were regulated, the scope of application is big is excellent The point. Provide a new selection for the relevant industries automatic improving that undergoes technological transformation.
Its certainty of measurement is higher, is difficult for being disturbed, and is that of this fluid level transmitter, measuring instrument is greatly excellent The point.
It can be used in normal temperature to high temperature, the normal pressure corrosive liquids such as soda acid and other in the high-pressure bottle The level gauging of liquid. Also can be used for inflammable and explosive occasion. Its certainty of measurement at normal temperatures and pressures can Reach ± 3mm.
It can be applied in the multiple boiler, has substantially solved the problem that sensor is affected by incrustation scale. Special Be not the trouble and worry of having removed miniature boiler, its reliability and its multifunctionality have been removed people couple The secret worry that causes the accident owing to faulty sensor in pressure vessel. Extremely be beneficial to the electronization of plain cylindrical furnace Transform, reduce to greatest extent maintenance.
It is at the metering field of liquid, and (to tank class non-pressure vessel) reaches substantially on precision and range The level that external advanced magnetostriction, ultrasonic wave, guided wave radar, laser class liquid level gauge used in this class. Surpassed more widely the headline belt liquid level gauge that generally uses at present.
In the application of household electrical appliances, it can use cheaply simple and easy probe and thermistor, with software Mode realize intelligent measurement and control. Control circuit also can be simplified, and purpose is to reduce cost, but shadow not Ring the reliable and stable non-maintaining advantage of its long-term use. It can be applied to high cost performance and adopt On monolithic processor controlled washing machine, dish-washing machine, solar water heater. Especially solar water heater is visited Working environment is very abominable, and temperature reaches degree more than 100, and ordinary ultrasonic probe is fouling very easily, becomes an eldest child Difficult problem, behind employing the present invention, this problem is readily solved.
Because the advantage of its hermetically sealed, attonity parts, it can substitute tradition in universal significance Mechanical floating ball type liquid-level meter be used for the various occasions of automatic improving, with practicality, security, economy The advantage of property enters relevant industries.
Contactless external radiant heat method fluid level measuring instrument advantage in general application is little, only is suitable for use in some special occasions.It is not high that it measures sensitivity, and need to demarcate.Its advantage is the not influence of the interior extreme condition of receptor, and adaptation function is arranged, and in the very high occasion of safety requirements, when other liquid level gauge was difficult for adapting to, it can give play to unique effect.
Deficiency of the present invention be can not be in pressure vessel on a large scale continuous precise follow the tracks of liquid level change.In addition, be not suitable for the high liquid of viscosity.Should be noted when therefore, selecting for use.
However, its advantage is still very strong, and its advantage is much larger than its deficiency.It is still industrial, municipally, vast market is arranged on the family expenses.It is a kind of available monolithic processor controlled, digital, reliable and stable, inexpensive, novel liquid level meter that cost performance is high.
Claims (7)
1, a kind of built-in radiant heat method liquid level sensor, form by electrothermal devices (2) such as platinum resistance or thermistor (4), heating wire or PTC and housing (12), it is characterized in that in housing by insulation course (13) sealing electric heater, in housing, also sealing temperature sensitive resister, electric heater and temperature sensitive resister are separated by heat-barrier material (3), and housing is installed on the mount pad (9).
2, built-in radiant heat method liquid level sensor according to claim 1, the angle that is installed on the probe socket that it is characterized in that popping one's head in is installed or the oblique angle installation for vertical.
3, built-in radiant heat method liquid level sensor according to claim 1 is characterized in that being divided into by the application scenario: single probe socket, two probe socket, three probe sockets, four probe sockets, many probe sockets, movable probe seat, segmentation probe socket, motor-driven probe socket, dislocation probe socket, servo probe socket etc.:
A. single probe socket only has a probe to be fixed on the probe socket, and the stationkeeping between probe and the container is constant;
B. two probes of two probe sockets are fixed on the probe socket side by side, and the stationkeeping between probe and the container is constant;
C. three of three probe sockets probes with equidistantly or equidistant mode be fixed on side by side on the probe socket, the stationkeeping between probe and the container is constant;
D. four probes of four probe sockets are fixed on the probe socket side by side in equidistantly or equidistant mode, and the stationkeeping between probe and the container is constant;
E. each probe of many probe sockets is fixed on the probe socket side by side, and the stationkeeping between probe and the container is constant;
F. dynamic sealing device and the locking device of movable probe seat by being fixed on container top makes probe socket move up and down in certain vertical range, and the position between probe and the container can be regulated;
G. segmentation probe socket: two groups of probes are set in container, wherein one group is last liquid-level probe, liquid-level probe under another is organized and is, this probe socket of two groups is split up and down in container according to the liquid level control line, do not have association between the probe socket, and two probe sockets respectively and the stationkeeping between the container constant;
H. motor-driven probe socket: in certain distance, two probes are set, survey the speed that liquid level rises between these two probes, just can estimate the time that liquid level arrives next liquid level, the stationkeeping between probe and the container is constant;
I. probe socket misplaces: two groups of probes are set in container, wherein one group is the master control probe, another group is auxiliary probe, the horizontal level of two groups of probes has a fixing deviation, form the dislocation state, when liquid level change did not also cover the auxiliary probe sensitive volume fully, can pop one's head in to master control simultaneously (this probe is as liquid level working control probe) exerted an influence;
J. servo probe socket: the lower end of probe socket is connected a weight, and the upper end links to each other with the stepper motor servo control mechanism by wire rope, and probe can move by easy on and off in container.
4, a kind of external radiant heat method liquid level sensor, form by electric constant-heat source (63), copper pedestal heat transfer plate (68,65), one group of platinum resistance (66), it is characterized in that electric constant-heat source is arranged on an end of copper pedestal heat transfer plate, on copper pedestal heat transfer plate body, arranging platinum resistance at interval.
5, a kind of measuring method of built-in radiant heat method liquid level sensor probe is characterized in that:
A. pass through the platinum resistance of probe to container and liquid thermometric by single-chip microcomputer;
B. determine the basic temperature difference by single-chip microcomputer according to the temperature of the temperature of liquid or container and to probe heating wire heat time heating time, and keep probe difference curve constant or that certain fluctuation is arranged;
C. in a time interval, the temperature difference of probe is carried out continuous sampling by single-chip microcomputer, and calculate hot speed respectively, compare, find out maximum hot speed, it is decided to be threshold values by the constituent parts time interval of segmentation;
D. make single-chip microcomputer be in the state of temperature continuous sampling, and sampled result is constantly compared with threshold values, note unit interval interval above threshold values to probe;
E. single-chip microcomputer will be judged according to each the hot rate value that has write down, if be adjacent interval cooling continuously of unit interval, prove that then liquid level arrives.
6, a kind of Installation and Debugging method of external radiant heat method liquid level sensor is characterized in that being installed in after the container outer wall when external radiant heat method liquid level sensor, and the concrete steps that begin to debug are as follows:
A. at first to set up a linear warm area and keep this linear warm area and continue to exist, Here it is by the debugging constant-heat source---debug according to wall of a container is thick, determine heating power, and observe, make the active length of linear warm area be enough to satisfy on-the-spot requirement by single-chip microcomputer;
B. by single-chip microcomputer linear warm area is set up mathematical model (linear equation with one unknown);
C. set up " liquid level and the slope table of comparisons " that certain resolution is arranged by single-chip microcomputer and standard liquid level gauge;
That D. utilizes probe socket surveys the liquid temperature by next platinum resistance, and this platinum resistance is away from the liquid level control line, and liquid can form stable temperature effect to it;
E. utilize the nearer platinum resistor temperature measuring of liquid level control line below, its data are as the pre-actuation signal of further work;
F. when liquid level has been determined near the liquid level control line, begin each platinum resistance in the linear warm area is scanned temperature sampling;
G utilizes mathematical model (linear equation with one unknown) slope calculations by single-chip microcomputer to the temperature data of linear warm area;
H. the slope data that comes out with latest computed compares with " liquid level and the slope table of comparisons ", finds liquid level data;
I. these data are shown and transmit or as control signal to host computer at this machine;
J. continue said process, controlled until liquid level.
7. the measuring method of an external radiant heat method liquid level sensor is characterized in that the concrete grammar of operate as normal is as follows after the Installation and Debugging of external radiant heat method liquid level sensor are finished:
A. utilize the most next platinum resistance of probe socket to survey the liquid temperature, this platinum resistance is away from the liquid level control line, and liquid can form stable temperature effect to it;
B. utilize the nearer platinum resistor temperature measuring of liquid level control line below, its data are as the pre-actuation signal of further work;
C. when liquid level has been determined near the liquid level control line, begin each platinum resistance in the linear warm area is scanned temperature sampling;
D. by single-chip microcomputer the temperature data of linear warm area is utilized mathematical model (linear equation with one unknown) slope calculations;
E. the slope data that comes out with latest computed compares with " liquid level and the slope table of comparisons ", finds liquid level data;
F. these data are shown and transmit or as control signal to host computer at this machine;
G. continue said process, controlled until liquid level.
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