CN109884152A - Detection device, test macro and test method based on electrolysis water - Google Patents

Abstract

The invention discloses a kind of detection device based on electrolysis water, test macro and test methods, detection device based on electrolysis water includes shell and locating piece, seal chamber is equipped in the shell, the locating piece is set in the seal chamber, electrolyte space is equipped between the outer wall of the locating piece and the inner wall of the shell, the first mounting portion and the second mounting portion are equipped at intervals on the outer wall of the locating piece, first mounting portion is for installing first electrode, and second mounting portion is for installing second electrode.Above-mentioned test macro, the first mounting portion, the second mounting portion can be defined first electrode, the installation site of second electrode on locating piece, installation is more convenient, the spacing between first electrode, second electrode can be arranged simultaneously smaller, and the spacing between first electrode and second electrode is made to keep stablizing, it is more accurate to the measurement of the water content in fluid to reduce error when measurement.

Description

Detection device, test macro and test method based on electrolysis water

Technical field

The present invention relates to test equipment technical fields, are more particularly to a kind of detection device based on electrolysis water, test System and test method.

Background technique

In the industrial production, it is sometimes desirable to the content of water in the industrial goods such as fluid be detected, fluid is electrolysed It is one such method, but traditional electrolysis method minor amount of water detection method is bigger to the test error of minor amount of water in fluid.

Summary of the invention

Based on this, the invention reside in overcoming the deficiencies of existing technologies, it is high based on electrolysis water to provide a kind of testing precision Detection device, test macro and test method.

Its technical solution is as follows:

A kind of detection device based on electrolysis water, which is characterized in that be equipped with including shell and locating piece, in the shell close Chamber is sealed, the locating piece is set in the seal chamber, and electrolysis is equipped between the outer wall of the locating piece and the inner wall of the shell Space is equipped at intervals with the first mounting portion and the second mounting portion on the outer wall of the locating piece, and first mounting portion is for installing First electrode, second mounting portion is for installing second electrode.

First electrode can be installed at the first mounting portion, second electrode is pacified by the above-mentioned detection device based on electrolysis water At the second mounting portion, since the first mounting portion and the second mounting portion interval are arranged, then the first electrode and second after installing Electrode is also interval setting, and phosphorus pentoxide is coated in first electrode and second electrode, can enable flow through electricity when detecting Solution space, and first electrode and second electrode are separately energized, if containing moisture in fluid, water can occur anti-with phosphorus pentoxide Conductive phosphoric acid should be formed, the first electrode and second electrode of energization can be electrolysed phosphoric acid, form Faradaic current, can lead to The water content in measurement Faradaic current measurement fluid is crossed, since the first mounting portion, the second mounting portion can be to the first electricity on locating piece Pole, second electrode installation site be defined, installation is more convenient, while can be by the spacing between first electrode, second electrode What is be arranged is smaller, and the spacing between first electrode and second electrode is made to keep stablizing, to reduce error when measurement, to fluid In water content measurement it is more accurate.

A kind of test macro, it is described including first electrode, second electrode and such as above-mentioned detection device based on electrolysis water First electrode is installed at first mounting portion, and the second electrode is installed at second mounting portion.

Above-mentioned test macro, since first electrode is installed at the first mounting portion, second electrode is installed on the second mounting portion Place, the first mounting portion and the second mounting portion interval are arranged, then first electrode and second electrode are also interval setting, in first electrode And phosphorus pentoxide is coated in second electrode, electrolyte space can be enabled flow through when detecting, and to first electrode and the second electricity Pole is separately energized, if containing moisture in fluid, water can react to form conductive phosphoric acid with phosphorus pentoxide, and the of energization One electrode and second electrode can be electrolysed phosphoric acid, form Faradaic current, can be measured in fluid by measurement Faradaic current Water content, since the first mounting portion, the second mounting portion can limit first electrode, the installation site of second electrode on locating piece Fixed, installation is more convenient, while the spacing between first electrode, second electrode can be arranged smaller, and makes first electrode and the Spacing between two electrodes keeps stablizing, more accurate to the measurement of the water content in fluid to reduce error when measurement.

First mounting portion and second mounting portion are the axis along the locating piece in one of the embodiments, To the helicla flute of setting, the first electrode is matched with first mounting portion, the second electrode and second mounting portion Matching.

The locating piece includes the first end, limiting section and the second end set gradually in one of the embodiments, First mounting portion, second mounting portion are set on the limiting section, the outer wall of the limiting section and the seal chamber Inner wall interval be arranged to form the electrolyte space, the outer wall and the seal chamber of the first end, the second end Inner wall contact setting, the first end are equipped with the first opening, and the second end is equipped with the second opening, and described first opens Mouth, second opening are connected to the electrolyte space.

It is solid equipped with the first fixed part and second between the first end and the limiting section in one of the embodiments, Determine portion, between the second end and the limiting section be equipped with third fixed part and the 4th fixed part, the one of the first electrode End is fixed on first fixed part and wears the first end, and it is solid that the other end of the first electrode is fixed on the third Determine portion, one end of the second electrode is fixed on second fixed part and wears the first end, the second electrode The other end is fixed on the 4th fixed part.

First fixed part, second fixed part are to be arranged at intervals at the positioning in one of the embodiments, Two annular grooves on part, the third fixed part, the 4th fixed part are two be arranged at intervals on the locating piece Annular groove.

The shell includes the closing shell being detachably connected and capping in one of the embodiments, on the closing shell Described to be covered on the holding tank equipped with holding tank, for surrounding the seal chamber, the locating piece is set to the appearance It receives in slot, the holding tank includes the first slot section, the second slot section and the third slot set gradually along the direction far from the capping Section, the locating piece are set in the second slot section, the first slot section and first open communication, are set on the closing shell There are the first interfacing conveyor being connected to the first slot section, the third slot section and second open communication, the closing shell It is equipped with the second interfacing conveyor being connected to the third slot section.

The capping is equipped with the first perforation and the second perforation, first perforation and institute in one of the embodiments, It states the second perforation to be connected to the first slot section, the first electrode wears first perforation, and the second electrode is worn Second perforation, described first perforates, is equipped with sealant in second perforation.

Above-mentioned test macro further includes plug in one of the embodiments, and one end of the plug is set to the capping On, the other end of the plug is connect with the locating piece.

A kind of test method, using test macro as described in any one of the above embodiments, comprising the following steps:

First electrode is installed on the first mounting portion, second electrode is installed on the second mounting portion；

Phosphorus pentoxide is coated in the first electrode, the second electrode；

Allow fluid flow electrolyte space；

The first electrode, the second electrode are separately energized, the current value passed through in fluid is measured.

Above-mentioned test method, when fluid flows through electrolyte space, if containing moisture in fluid, water can be sent out with phosphorus pentoxide Raw reaction forms phosphoric acid, and the first electrode and second electrode subsequently powered on can be electrolysed phosphoric acid, forms Faradaic current, measurement Above-mentioned Faradaic current can accurately measure the water content in fluid, since the first mounting portion, the second mounting portion on locating piece can be right First electrode, the installation site of second electrode are defined, and installation is more convenient, while can will be between first electrode, second electrode Spacing setting it is smaller, and spacing between first electrode and second electrode is made to keep stablizing, to reduce error when measurement, It is more accurate to the measurement of the water content in fluid.

Detailed description of the invention

Fig. 1 is the cross-sectional view of test macro described in the embodiment of the present invention；

Fig. 2 is the partial enlarged view in Fig. 1 at A；

Fig. 3 is the partial enlarged view in Fig. 1 at B.

Description of symbols:

100, shell, 101, electrolyte space, 110, closing shell, the 111, first slot section, 112, third slot section, 113, first is defeated Send interface, the 114, second interfacing conveyor, 120, capping, 121, sealant, 200, locating piece, the 201, first fixed part, 202, the Two fixed parts, 203, third fixed part, the 204, the 4th fixed part, 205, annular protrusion, 210, first end, 220, limiting section, 230, the second end, 300, first electrode, 400, second electrode, 500, plug, 600, sealing ring.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein "and/or" includes one or more Any and all combinations of relevant listed item.

Heretofore described " first ", " second " do not represent specific quantity and sequence, are only used for the differentiation of title.

As shown in Figure 1, an embodiment discloses a kind of detection device based on electrolysis water, including shell 100 and locating piece 200, shell 100 is interior to be equipped with seal chamber, and locating piece 200 is set in seal chamber, the outer wall of locating piece 200 and the inner wall of shell 100 Between be equipped with electrolyte space 101, the first mounting portion and the second mounting portion are equipped at intervals on the outer wall of locating piece 200, first installs Portion is for installing first electrode 300, and the second mounting portion is for installing second electrode 400.

First electrode 300 can be installed at the first mounting portion, by second electrode by the above-mentioned detection device based on electrolysis water 400 are installed at the second mounting portion, since the first mounting portion and the second mounting portion interval are arranged, then the first electrode after installing 300 are also arranged with second electrode 400 for interval, coat phosphorus pentoxide in first electrode 300 and second electrode 400, are examining Electrolyte space 101 can be enabled flow through when survey, and first electrode 300 and second electrode 400 are separately energized, if containing in fluid Moisture, water can react to form conductive phosphoric acid with phosphorus pentoxide, the first electrode 300 and second electrode 400 of energization Phosphoric acid can be electrolysed, form Faradaic current, the water content in fluid can be measured by measurement Faradaic current, due to locating piece First mounting portion, the second mounting portion can be defined the installation site of first electrode 300, second electrode 400 on 200, installation It is more convenient, at the same the spacing between first electrode 300, second electrode 400 can be arranged it is smaller, and make first electrode 300 with Spacing between second electrode 400 keeps stablizing, more smart to the measurement of the water content in fluid to reduce error when measurement Really.

In addition, locating piece 200 is located in seal chamber at this time, measurement environment is relatively stable, and the interference being subject to is smaller, can be improved Measure the accuracy of water content.

As shown in Figures 1 and 2, an embodiment discloses a kind of test macro, including first electrode 300, second electrode 400 And such as the above-mentioned detection device based on electrolysis water, first electrode 300 are installed at the first mounting portion, second electrode 400 is installed At the second mounting portion.

Above-mentioned test macro, since first electrode 300 is installed at the first mounting portion, second electrode 400 is installed on second At mounting portion, the first mounting portion and the second mounting portion interval are arranged, then first electrode 300 is also set with second electrode 400 for interval It sets, phosphorus pentoxide is coated in first electrode 300 and second electrode 400, electrolyte space can be enabled flow through when detecting 101, and first electrode 300 and second electrode 400 are separately energized, if containing moisture in fluid, water can occur with chemical reagent Reaction forms conductive phosphoric acid, and the first electrode 300 and second electrode 400 of energization can be electrolysed phosphoric acid, forms electrolysis Electric current can measure the water content in fluid by measurement Faradaic current, due to the first mounting portion, the second installation on locating piece 200 Portion can be defined the installation site of first electrode 300, second electrode 400, and installation is more convenient, while can be by first electrode 300, the spacing setting between second electrode 400 is smaller, and protects the spacing between first electrode 300 and second electrode 400 It is fixed to keep steady, more accurate to the measurement of the water content in fluid to reduce error when measurement.

Optionally, shell 100 can be insulating materials or non-insulating material.Specifically, shell 100 can be insulating materials.This When shell 100 can be prevented conductive, the generation of Faradaic current is impacted.

Optionally, first electrode 300, second electrode 400 can be the conductive structures such as sheet metal, wire.

In one of the embodiments, as shown in Figure 1, the first mounting portion and the second mounting portion are along locating piece 200 The helicla flute being axially arranged, first electrode 300 are matched with the first mounting portion, and second electrode 400 is matched with the second mounting portion.At this time The region that cell reaction can occur between first electrode 300 and second electrode 400 is bigger, and effect is more preferable, is conducive to improve measurement Accurately, while helicla flute is settable prevents first electrode 300 from contacting with second electrode 400, and helicla flute can facilitate the first electricity The installation of pole 300 and second electrode 400.

In the present embodiment, the first mounting portion, the second mounting portion are helicla flute.In other embodiments, the first mounting portion, Two mounting portions can also be the slot, such as annular groove, straight-line groove etc. of other shapes.

In other embodiments, the first mounting portion, the second mounting portion can also for buckle, and the first mounting portion, second installation Portion be it is multiple, the first mounting portion along helical form interval be set to locating piece 200 outer wall along, first electrode 300 is connected in first At mounting portion, for the second mounting portion along the outer wall that helical form interval is set to locating piece 200, second electrode 400 is connected in the second peace At dress portion.The bolt shape distribution of first electrode 300, second electrode 400 can also be realized at this time.Specifically, above-mentioned buckle is one end The L-type part connecting with the outer wall of locating piece 200 forms fixed space between buckle and the outer wall of locating piece 200.First electricity at this time Pole 300, second electrode 400 can be connected and fixed by being packed into fixed space realization.

In one of the embodiments, as shown in Figure 1 to Figure 3, locating piece 200 include set gradually first end 210, Limiting section 220 and the second end 230, the first mounting portion, the second mounting portion are set on limiting section 220, the outer wall of limiting section 220 It is arranged to form electrolyte space 101 with the inner wall interval of seal chamber, first end 210, the outer wall of the second end 230 and seal chamber Inner wall contact setting, first end 210 are equipped with the first opening, and the second end 230 is equipped with the second opening, the first opening, the Two openings are connected to electrolyte space 101.Fluid can enter electrolyte space 101 by the first opening or the second opening at this time, lead to It crosses first end 210 and the second end 230 and contacts setting with the inner wall of shell 100, fix the position of locating piece 200, at this time The inner wall of limiting section 220 and shell 100 keeps interval setting, can prevent first electrode 300, second electrode 400 and shell 100 Inner wall contact guarantees that fluid can flow through the surface of limiting section 220, improves the effect and accuracy of measurement.

Optionally, locating piece 200 be cylindrical-shaped structure, first end 210, the second end 230 outer diameter be greater than limiting section 220 outer diameter, and first opening, second opening quantity be it is multiple, first opening is set along the circumferentially-spaced of first end 210 In on the outer wall of first end 210, the second opening is along the circumferentially-spaced on the outer wall of the second end 230 of the second end 230.

Optionally, as shown in figure 3, the outer surface of first end 210, the second end 230 is equipped with annular protrusion 205.Ring Shape protrusion 205 can slow down the flowing velocity of fluid, can prevent the flow velocity of fluid is too fast to cause electrolysis effectiveness bad.

In one of the embodiments, as shown in Figures 2 and 3, first is equipped between first end 210 and limiting section 220 Fixed part 201 and the second fixed part 202, it is solid equipped with third fixed part 203 and the 4th between the second end 230 and limiting section 220 Determine portion 204, one end of first electrode 300 is fixed on the first fixed part 201 and wears first end 210, first electrode 300 it is another Third fixed part 203 is fixed in one end, and one end of second electrode 400 is fixed on the second fixed part 202 and wears first end 210, the other end of second electrode 400 is fixed on the 4th fixed part 204.In above structure, pass through the first fixed part 201 and third Fixed part 203 can be fixed first electrode 300, prevent first electrode 300 from loosening, the second fixed part 202 and the 4th Second electrode 400 can be fixed in fixed part 204, prevent second electrode 400 from loosening, and keep first electrode 300 and the Two electrodes, 400 relative position is fixed, and cell reaction can be made to stablize and carried out, and is conducive to the precision for improving measurement water content, in addition, the One electrode 300, second electrode 400, which wear first end 210, can facilitate to first electrode 300, the energization of second electrode 400.

Optionally, first electrode 300, second electrode 400 wear two first openings on first end 210 respectively.It can It prevents first electrode 300 from contacting with second electrode 400, influences to measure.

In one of the embodiments, as shown in Figures 2 and 3, the first fixed part 201, the second fixed part 202 are that interval is set Two annular grooves being placed on locating piece 200, third fixed part 203, the 4th fixed part 204 are to be arranged at intervals at locating piece 200 On two annular grooves.First electrode 300, second electrode 400 can be fixed in annular groove by way of winding at this time, and First electrode 300, second electrode 400 will not contact with each other.

In other embodiments, the first fixed part 201, the second fixed part 202, third fixed part 203, the 4th fixed part 204 can also be insulating tape, and first electrode 300, second electrode 400 can be fixed on the outer wall of locating piece 200.

In one of the embodiments, as shown in Figure 1, shell 100 includes the closing shell 110 being detachably connected and capping 120, closing shell 110 is equipped with holding tank, and capping 120 is covered on holding tank, and for surrounding seal chamber, locating piece 200 is set to In holding tank, holding tank includes the first slot section 111, the second slot section and the third slot set gradually along the direction far from capping 120 Section 112, locating piece 200 are set in the second slot section, the first slot section 111 and the first open communication, and closing shell 110 is equipped with and first The first interfacing conveyor 113 that slot section 111 is connected to, third slot section 112 and the second open communication, closing shell 110 is equipped with and third The second interfacing conveyor 114 that slot section 112 is connected to.The above-mentioned test macro of ease of assembly at this time checks the 300, second electricity of first electrode The case where pole 400, while the first interfacing conveyor 113, the second interfacing conveyor 114 make fluid keep flowing, and measurement effect can be improved.

Specifically, holding tank is to be greater than the second slot with the matched cylindrical recess of locating piece 200, the internal diameter of the first slot section 111 The inner wall junction of the internal diameter of section, the inner wall of the first slot section 111 and the second slot section forms the first hierarchic structure, first end 210 It is equipped with and matched second hierarchic structure of the first hierarchic structure.During installation using the second hierarchic structure and the first ladder knot The cooperation of structure limits position of the locating piece 200 in holding tank, facilitates the installation of locating piece 200.

In one of the embodiments, as shown in Figure 1, capping 120 is equipped with the first perforation and the second perforation, the first perforation And second perforation be connected to the first slot section 111, first electrode 300 wears the first perforation, and second electrode 400 wears second and wears Hole, first perforates, is equipped with sealant 121 in the second perforation.Sealant 121 can prevent fluid by the first perforation, the second perforation It overflows, while sealant 121 has certain elastic deformability, prevents first electrode 300, second electrode 400 in capping 120 Interior situations such as being broken, it is ensured that the progress of measurement.

In one of the embodiments, as shown in Figure 1, above-mentioned test macro further includes plug 500, one end of plug 500 In capping 120, the other end of plug 500 is connect with locating piece 200.At this time in dismounting, locating piece 200 can follow capping 120 move together, easy to use.

Optionally, above-mentioned test macro further includes fastening nut, and locating piece 200 is equipped with and the matched assembly of plug 500 Hole, locating piece 200 passes through locating piece 200 far from one end of capping 120, and is threadedly engaged with fastening nut.At this time to locating piece 200 good fixing effect.

Optionally, capping 120 is connected by screw to closing shell 110.Specifically, capping 120 is cylindrical-shaped structure, plug 500 one end is set at the center of capping 120, and the first perforation, the second perforation are set to the two sides of plug 500.First perforation at this time First electrode 300, second electrode 400 can be prevented to be in contact with biperforate distribution.

Optionally, as shown in Figure 1, being additionally provided with sealing ring 600 between capping 120 and closing shell 110.Sealing ring 600 can be prevented Fluid stopping body is flowed out by the gap between capping 120 and closing shell 110.

Optionally, locating piece 200 is insulating part.It, will not be to the 300, second electricity of first electrode when locating piece 200 is insulating part The electrolysis of pole 400 impacts, and guarantees measurement effect.

Optionally, shell 100 is outer or shell 100 is interior equipped with temperature inductor.Temperature inductor can be to the reality of measurement at this time It tests environment to be monitored, guarantees that measurement carries out at a suitable temperature.

One embodiment discloses a kind of test method, using such as above-mentioned test macro, comprising the following steps:

First electrode 300 is installed on the first mounting portion, second electrode 400 is installed on the second mounting portion；

Phosphorus pentoxide is coated in first electrode 300, second electrode 400；

Allow fluid flow electrolyte space 101；

First electrode 300, second electrode 400 are separately energized, the current value passed through in fluid is measured.

Above-mentioned test method, when fluid flows through electrolyte space 101, if containing moisture in fluid, water can be with five oxidations two Phosphorus reacts to form phosphoric acid, and the first electrode 300 and second electrode 400 subsequently powered on can be electrolysed phosphoric acid, forms electricity Solve electric current, water content in fluid can accurately be measured by measuring above-mentioned Faradaic current, due to the first mounting portion on locating piece 200, Second mounting portion can be defined the installation site of first electrode 300, second electrode 400, and installation is more convenient, while can be by the Spacing setting between one electrode 300, second electrode 400 it is smaller, and make between first electrode 300 and second electrode 400 Spacing keeps stablizing, more accurate to the measurement of the water content in fluid to reduce error when measurement.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (10)

1. a kind of detection device based on electrolysis water, which is characterized in that including shell and locating piece, sealing is equipped in the shell Chamber, the locating piece are set in the seal chamber, and it is empty that electrolysis is equipped between the outer wall of the locating piece and the inner wall of the shell Between, it is equipped at intervals with the first mounting portion and the second mounting portion on the outer wall of the locating piece, first mounting portion is for installing the One electrode, second mounting portion is for installing second electrode.

2. a kind of test macro, which is characterized in that including first electrode, second electrode and as described in claim 1 based on electricity The detection device of Xie Shui, the first electrode are installed at first mounting portion, and the second electrode is installed on described second At mounting portion.

3. test macro according to claim 2, which is characterized in that first mounting portion and second mounting portion are equal For along the helicla flute of the locating piece being axially arranged, the first electrode is matched with first mounting portion, second electricity Pole is matched with second mounting portion.

4. test macro according to claim 3, which is characterized in that the locating piece includes the first end set gradually Portion, limiting section and the second end, first mounting portion, second mounting portion are set on the limiting section, the limit The inner wall interval of the outer wall in portion and the seal chamber is arranged to form the electrolyte space, the first end, the second end Outer wall contact setting with the inner wall of the seal chamber, the first end is equipped with the first opening, sets on the second end There is the second opening, first opening, second opening are connected to the electrolyte space.

5. test macro according to claim 4, which is characterized in that be equipped between the first end and the limiting section First fixed part and the second fixed part, it is fixed equipped with third fixed part and the 4th between the second end and the limiting section Portion, one end of the first electrode are fixed on first fixed part and wear the first end, the first electrode it is another The third fixed part is fixed in one end, and one end of the second electrode is fixed on second fixed part and wears described first End, the other end of the second electrode are fixed on the 4th fixed part.

6. test macro according to claim 5, first fixed part, second fixed part is are arranged at intervals at Two annular grooves on locating piece are stated, the third fixed part, the 4th fixed part are to be arranged at intervals on the locating piece Two annular grooves.

7. test macro according to claim 5, which is characterized in that the shell include the closing shell being detachably connected and Capping, the closing shell is equipped with holding tank, described to be covered on the holding tank, for surrounding the seal chamber, institute Locating piece is stated in the holding tank, the holding tank includes the first slot set gradually along the direction far from the capping Section, the second slot section and third slot section, the locating piece are set in the second slot section, the first slot section and first opening Connection, the closing shell are equipped with the first interfacing conveyor being connected to the first slot section, the third slot section and described second Open communication, the closing shell are equipped with the second interfacing conveyor being connected to the third slot section.

8. test macro according to claim 7, which is characterized in that the capping is worn equipped with the first perforation and second Hole, first perforation and second perforation are connected to the first slot section, and the first electrode wears described first and wears Hole, the second electrode wear second perforation, are equipped with sealant in first perforation, second perforation.

9. test macro according to claim 7, which is characterized in that further include plug, one end of the plug is set to institute It states in capping, the other end of the plug is connect with the pilot hole.

10. a kind of test method, which is characterized in that use such as described in any item test macros of claim 2-9, including following Step:

First electrode is installed on the first mounting portion, second electrode is installed on the second mounting portion；

Phosphorus pentoxide is coated in the first electrode, the second electrode；

Allow fluid flow electrolyte space；

It charges respectively to the first electrode, the second electrode, measures the current value passed through in fluid.