CN2636234Y - RC type ice-containing rate sensor - Google Patents

Abstract

An RC ice content sensor is provided, which relates to a device measuring the ice content in the ice storage tank of the ice storage air-conditioning. The utility model is composed of a measuring electrode arranged on ice-on-coil in the ice storage tank and a transducer arranged out of the ice storage tank and is characterized in that: the measuring electrode comprises a fixed plate capable of setting-in with the ice-on-coil, a base plate connected with the fixed plate, a plurality of pairs of electrode measuring heads distributed on the base plate and a wiring terminal connected with each electrode measuring head. The wiring terminal is connected with the transducer with a shielded cable lead wire. The utility model applies the high frequency AC power and the RC oscillating circuit frequency response principle generated by the output pressure in the measurement of ice content in the external-melt ice storage tank. The utility model has the advantages of simple structure, convenient installation and measurement and stable and reliable work performance compared with the prior art and is suitable for the measurement of the ice content in the closed and open external-melt ice storage system ice storage tank, which fills the blank of the technological field and is helpful for the implementation and promotion of the closed external-melt ice storage technology.

Description

The resistance-capacitance type ice content sensor

Technical field

The utility model relates to the ice storage air conditioner technical field, particularly measures the device of ice content in the outer ice-melt ice storage system Ice Storage Tank.

Background technology

In ice-chilling air conditioning system, the ice content in the Ice Storage Tank (IPF, Ice Packing Factor are meant ice mass percent in the mixture of ice and water in the ice groove) indicates the cold size of being stored in the Ice Storage Tank unit volume.No matter be for the static ice system, residual ice amount prediction when cold machine running control during ice making and ice-melt, still to dynamic ice-making system, control the interior storage ice amount of Ice Storage Tank, avoid icing the refrigeration requirement that the slurry conveying causes pipe blocking, holds end-equipment, the ice content in all necessary detection Ice Storage Tank or the transfer pipeline.

The IPF measuring method of prior art mainly contains according to the level measuring method of volumetric expansion with according to water temperature in the Ice Storage Tank and the solidifying point mensuration of managing interior refrigerant temperature variation.These measuring methods of passing through usefulness are applicable to the outer ice-melt ice storage system of open type, but to the outer ice-melt cold accumulation system of closed loop, because the water of ice groove is communicated with the water in the air-conditioning system, leakage phenomenon appears in air-conditioning system unavoidably, and water quality in use changes bigger, therefore should not adopt existing in the above-mentioned static ice storage system " level measuring method " and " solidifying point mensuration " to measure its IPF.Because, the main means of existing measuring of ice thickness method are to utilize probe displacement or the frozen water conductance difference of being close to the ice face to detect ice layer thickness, and enclosed ice groove has the big characteristics of change of water quality amplitude in enclosed construction and the use, so these two kinds of measuring of ice thickness methods can not guarantee the sensitivity and the precision of physical construction well.Event is still needed for the measuring method of ice thickness degree in the enclosure space Ice Storage Tank and is explored new measurement scheme.

Summary of the invention

At above-mentioned the deficiencies in the prior art, the purpose of this utility model provides a kind of enclosed and outer general resistance-capacitance type ice content sensor of ice-melt ice storage system of open type of being suitable for, use it can measure the ice layer thickness on the surface that freezes in the Ice Storage Tank easily, and then go out the ice amount of depositing in the Ice Storage Tank according to the geometry calculation of Ice Storage Tank.

In order to reach above-mentioned goal of the invention, the technical solution of the utility model realizes in the following way:

A kind of resistance-capacitance type ice content sensor, it is to be made of with the transmitter two parts that are arranged on the Ice Storage Tank outside the potential electrode that is arranged on the inner melt ice on coil of Ice Storage Tank.Described transmitter comprises that high-frequency ac power and output voltage detect and the A/D change-over circuit.Its design feature is, described potential electrode by fixed head, substrate, many electrode gauge head and connection terminal are formed.Fixed head is made as the shape that can be complementary with the direct setting-in of melt ice on coil.Substrate is connected with fixed head, is provided with manyly to the electrode gauge head on the substrate, and each electrode gauge head is connected with the connection terminal that is arranged on substrate upper end by line.Connection terminal is connected with transmitter by the shielded cable lead-in wire.

According to above-mentioned technical scheme, described many be ten pairs to the electrode gauge head, every pair of electrode gauge head is arranged in parallel, each is to the uniform perpendicular row of electrode gauge head.

According to above-mentioned technical scheme, the cross section of described each electrode gauge head is circle, rectangle or other shape.

According to above-mentioned technical scheme, the input voltage effective value of described high-frequency ac power is that 2.5V, input voltage frequency are 650HZ; The resistance value of each electrode gauge head is 10K Ω.

The utility model can be applied to the RC oscillatory circuit frequency response principle of high-frequency ac power and output voltage generation the measurement of outer ice trough ice content owing to adopted above-mentioned version.It is not only applicable to the outer ice-melt ice storage system of open type, the more important thing is that it also is applicable to the closed-type external ice thawing ice storage system, filled up the technological gap that the present technique field is measured for the ice content of closed-type external ice thawing cold accumulation system, this helps the enforcement and the popularization of closed-type external ice thawing ice-reserving technology.The utility model compares with prior art that to have advantage as follows:

(1) simple in structure, easy for installation, can measure ice layer thickness in the Ice Storage Tank easily, and then go out ice content in the Ice Storage Tank according to the geometry calculation of Ice Storage Tank.Be applicable to open type and closed-type external ice thawing ice-accumulating chamber with icing interfaces such as board-like, coileds.

(2) owing to adopt high-frequency ac power, can not occur electroplating phenomenon in the work, so the serviceability safety and stability is reliable; Owing to adopt switching value output, to the water quality non-selectivity, therefore measure highly sensitively, under the prerequisite that packaging technology guarantees, the ice sheet measuring accuracy can be less than 3mm, and ice thickness performance prediction item can satisfy industrial applicability fully in addition.

Below in conjunction with accompanying drawing and concrete embodiment the utility model is described in further detail.

Description of drawings

Fig. 1 is a principle assumption diagram of the present utility model;

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

Fig. 3 is application state figure of the present utility model;

Fig. 4 is a metering circuit schematic diagram of the present utility model.

Embodiment

Referring to Fig. 1 and Fig. 2, the utility model is to be made of with the transmitter B two parts that are arranged on the Ice Storage Tank outside the potential electrode A that is arranged on the inner melt ice on coil of Ice Storage Tank.Transmitter B comprises that high-frequency ac power and output voltage detect and the A/D change-over circuit.Wherein the input voltage effective value of high-frequency ac power is that 2.5V, input voltage frequency are 650HZ.Potential electrode A by fixed head 1, substrate 2, many gauge head 3 and connection terminal 4 are formed.Fixed head 1 is made as the shape that can be complementary with the melt ice on coil setting-in.Substrate 2 is connected with fixed head 1.Uniform ten pairs of electrode gauge heads 3 of parallel perpendicular row on the substrate 2.The cross section of each electrode gauge head 3 is circular, and its diameter d is 0.7mm, and its length a is 10mm, and the horizontal spacing L of each electrode gauge head 3 is 2mm, and perpendicular spacing b is 5mm.The resistance value of each electrode gauge head 3 is 10K Ω.Each electrode gauge head 3 is connected with the connection terminal 4 that is arranged on substrate 2 upper ends by line.Connection terminal 4 is connected with transmitter B by shielded cable lead-in wire 5.Certainly, the cross sectional shape of described in the present embodiment each electrode gauge head 3 also can adopt rectangle or other shape.The size of the horizontal spacing L of each electrode gauge head 3, perpendicular spacing b, length a also can be transformed to other and limit size.

Referring to Fig. 3, when using the utility model, the utility model potential electrode A is installed on the melt ice on coil 6 that is provided with at first in Ice Storage Tank 7, fixed head 1 and melt ice on coil 6 interlockings are installed together.

Referring to Fig. 4, the utility model utilizes the measuring principle of frequency response principle of RC oscillatory circuit as follows: providing a frequency to electrode gauge head element is the AC power u of f _In, detect the output voltage u on the sampling resistor _Out, according to u _Out/ u _InRelative size judge whether probe location is covered by ice.

If input voltage is sinusoidal wave u _In=U _InSin ω t

Wherein, ω=2 π f: angular velocity, l/s; F: supply frequency, Hz; U _In: voltage max, V.Capacitor C _wCapacitive reactance be X _Cw=1/ ω C _wBecause 90 ° of the electric current leading voltages in the true capacitor, at this moment the resulting impedance of metering circuit is

$Z=\frac{1}{1/R_w+\mathrm{j\ω}{C}_w}+R$

For the constant sampling resistor R of resistance value, the output voltage u at its two ends _OutFor

$u_{\mathrm{out}}=\mathrm{iR}=\frac{{\mathrm{Ru}}_{\mathrm{in}}}{Z}$

So the frequency response of this RC circuit (being defined as the ratio of output voltage vector and input voltage vector) is the function of angular velocity omega, promptly

$W\left(\mathrm{j\ω}\right)=\frac{u_{\mathrm{out}}}{u_{\mathrm{in}}}=\frac{R}{\frac{1}{1/R_w+\mathrm{j\ω}{C}_w}+R}$

Abbreviation gets

$W\left(\mathrm{j\ω}\right)=\frac{(R/R_w)\left(1+R/R_w\right)+{\left(\mathrm{\ωR}{C}_w\right)}^2}{{(1+R/R_w)}^2+{\left(\mathrm{\ωR}{C}_w\right)}^2}+j\frac{\mathrm{\ω}{\mathrm{RC}}_w}{{(1+R/R_w)}^2+{\left(\mathrm{\ω}{\mathrm{RC}}_w\right)}^2}$

$A\left(\mathrm{\ω}\right)=\sqrt{\frac{{[(R/R_w)(1+R/R_w)+{\left(\mathrm{\ωR}{C}_w\right)}^2]}^2+{\left(\mathrm{\ω}{\mathrm{RC}}_w\right)}^2}{{(1+R/R_w)}^2+{\left(\mathrm{\ω}{\mathrm{RC}}_w\right)}^2}}$

A (ω) is the mould of W (j ω), and the relative size of expression output voltage is called amplitude versus frequency characte with the characteristic of frequency change; The phase place of (ω) expression output voltage, the characteristic with frequency change is called phase-frequency characteristic.The utility model sensor is according to u _Out/ u _InRelative size come the determine sensor gauge head whether to be covered by ice, so only be concerned about the amplitude versus frequency characte of W (j ω).Therefore: (1) is because the relative dielectric constant ε of the water of run-of-the-mill _wBe 10～10 ²The order of magnitude, the electricalresistivity _wBe 10 ³～10 ⁵(relative size that depends on inorganic ions and organic content in the water is when the content of inorganic ions reduces or organic content when increasing ρ for the Ω m order of magnitude _wIncrease, conductive capability weakens), particularly conditioned water etc. is rich in the ε of organism water body _w, ρ _wWill be bigger; And clear ice almost is insulator (electricalresistivity _w→ ∞), relative dielectric constant ε _iOnly be ε _i=2.8.Get formula as can be seen from above-mentioned A (ω), ice has determined the amplitude versus frequency characte A (ω) of RC circuit to differ greatly with the greatly different difference of water resistance rate and specific inductive capacity, judges ice layer thickness thus, has advantages of higher stability and sensitivity.(2) when the electrode gauge head of the utility model sensor is covered by water body, U _OutOutput depend on the DIELECTRIC CONSTANT of aqueous medium _wAnd electricalresistivity _wVariation.In freezing process, because the water body of ice in the groove is static, and ice sheet is impure hardly, so along with the carrying out of freezing process, the concentration of impounded body strengthens gradually, the DIELECTRIC CONSTANT of aqueous medium _wAnd electricalresistivity _wAll change.Test shows, for the air conditioner water that reality is used, and along with the carrying out of freezing process, the DIELECTRIC CONSTANT of water body _wIncrease the electricalresistivity gradually _wIncrease gradually, conductivity reduces gradually.So capacitance and leak resistance R between this sensor electrode gauge head _wResistance all increase A _w(ω) reduce gradually.And in deicing processes, ice groove water body is in flow state, and a large amount of air conditioner waters returns and mixes with water body in the Ice Storage Tank from air conditioning terminal, so DIELECTRIC CONSTANT _wAnd electricalresistivity _wChange not quite the output voltage u of sampling resistor _OutAlso has only subtle change.But above-mentioned freeze with deicing processes in, u _OutInput voltage u with circuit _InBe the same order of magnitude.(3) for the utility model sensor, when the electrode gauge head is iced whole covering, R _i→ ∞, C _i＜＜C _w, get formula by A (ω) and know

$A_i\left(\mathrm{\&omega;}\right)$ $=$ $\sqrt{\frac{{[(R/R_i)(1+R/R_i)+{\left(\mathrm{\&omega;}{\mathrm{RC}}_i\right)}^2]}^2+{\left(\mathrm{\&omega;}{\mathrm{RC}}_i\right)}^2}{{(1+R/R_i)}^2+{\left(\mathrm{\&omega;}{\mathrm{RC}}_i\right)}^2}}=\frac{2\mathrm{\&pi;fR}{C}_i}{\sqrt{1+{\left(2\mathrm{\&pi;f}{\mathrm{RC}}_i\right)}^2}}<<A_w\left(\mathrm{\&omega;}\right)\&RightArrow;0$

Output voltage u on this moment sampling resistor R _OutVery little, so the threshold value A of reasonable given amplitude versus frequency characte ₀, can whether be covered by the determine sensor gauge head by ice sheet.As A (ω) 〉=A ₀The time, index transducer gauge head position is a water body, transmitter output this moment " 0 "; Otherwise, as A (ω)＜A ₀The time, index transducer gauge head position is covered by ice sheet, transmitter output " 1 ".Thereby, can learn the thickness of ice sheet in the Ice Storage Tank according to electrode gauge head place desired location.

Because the utility model sensor adopts switching value output, after a certain electrode gauge head was iced covering, transmitter was just exported the thickness δ of this electrode gauge head place ice sheet _nThe structure of electrode gauge head (but will depend on), the single-chip microcomputer in the transmitter writes down this τ constantly simultaneously _n, the ice layer thickness δ between two adjacent electrode gauge heads _τ, then, predict by the growth rate of a last ice layer thickness.So at electrode gauge head place, accurately measured place ice layer thickness δ _n, and between the electrode gauge head, then estimate its ice layer thickness by the speed of freezing, the two dynamically organically combines, and can realize the ice layer thickness measurement result of degree of precision.That is:

Wherein, δ _N-1Be the accurate item of measuring, $\frac{{\mathrm{\&delta;}}_{n-1}-{\mathrm{\&delta;}}_{n-2}}{{\mathrm{\&tau;}}_{n-1}-{\mathrm{\&tau;}}_{n-2}}(\mathrm{\&tau;}-{\mathrm{\&tau;}}_{n-1})$ Be the performance prediction item, the mm of unit;

N, n-1, n-2: expression potential electrode position;

τ _n, τ _N-1, τ _N-2: the expression ice sheet covers n, n-1, the n-2 electrode moment of process, s.

This shows, in the use of the utility model sensor, will write down out institute's elapsed time again, just can measure the thickness of ice sheet preferably by behind ice-covered electrode measuring point record.

The utility model sensor not only can be applied in the enclosed Ice Storage Tank, and all is suitable for for various ice-storage devices such as outer melting type slab, melt ice on coil, has applications well and is worth.

Claims (4)

1. one kind is applicable to enclosed and the open type resistance-capacitance type ice content sensor of ice-melt ice storage system outward, it is to be made of with transmitter (B) two parts that are arranged on the Ice Storage Tank outside the potential electrode (A) that is arranged on the inner melt ice on coil of Ice Storage Tank, and described transmitter (B) comprises that high-frequency ac power and output voltage detect and the A/D change-over circuit; It is characterized in that, described potential electrode (A) by fixed head (1), substrate (2), many electrode gauge head (3) and connection terminal (4) are formed, fixed head (1) is made as the shape that can be complementary with the direct setting-in of melt ice on coil, substrate (2) is connected with fixed head (1), be provided with many on the substrate (2) to electrode gauge head (3), each electrode gauge head (3) is connected with the connection terminal (4) that is arranged on substrate (2) upper end by line, and connection terminal (4) is connected with transmitter (B) by shielded cable lead-in wire (5).

2. according to the described resistance-capacitance type ice content sensor of claim 1, it is characterized in that: described many be ten pairs to electrode gauge head (3), every pair of electrode gauge head (3) is arranged in parallel, each is to the uniform perpendicular row of electrode gauge head (3).

3. according to the described resistance-capacitance type ice content sensor of claim 2, it is characterized in that: the cross section of described each electrode gauge head (3) is circle, rectangle or other shape.

4. according to claim 1,2 or 3 described resistance-capacitance type ice content sensors, it is characterized in that: the input voltage effective value of described high-frequency ac power is that 2.5V, input voltage frequency are 650HZ; The resistance value of each electrode gauge head (3) is 10K Ω.

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