CN214539369U - Fast detector for chloride ion content - Google Patents

Abstract

The application relates to a rapid measuring instrument for chloride ion content, which comprises an instrument body, a cleaning cylinder arranged on the upper surface of the instrument body and an electrode electrically connected with the instrument body; the electrode is inserted into the cleaning cylinder; the inner cavity of the cleaning cylinder is filled with cleaning solution; the inner bottom wall of the cleaning cylinder is provided with a bubble stone; the instrument body is provided with a gas increasing pump connected with the air bubble stone through a pipeline. The application has the effect of improving the detection precision.

Description

Fast detector for chloride ion content

Technical Field

The application relates to the field of detection equipment, in particular to a rapid chloride ion content tester.

Background

When concrete is prepared, the detection of the content of chloride ions is an important concrete detection process, and the content of chloride ions in concrete needs to be detected by a professional instrument because the chloride ions can corrode reinforcing steel bars in the concrete and the safety of concrete members is affected due to the high content of chloride ions.

Among the correlation technique, a chloride ion content rapid survey appearance of high efficiency is disclosed, including the instrument body, instrument body electricity is connected with electrode and temperature control pole, and the inside magnetic stirrers that is used for carrying out the stirring to the sample that is provided with of instrument, and the upper surface of instrument body has been placed and has been used for the measuring cup of the flourishing style of dress. During testing, the sample is injected into the measuring cup, the stirrer is placed into the measuring cup, the magnetic stirrer drives the stirrer to rotate, and after the sample in the measuring cup is uniformly stirred, the electrode is inserted into the sample in the measuring cup, so that the content of the chloride ions in the sample can be detected.

In view of the above-mentioned related art, the inventors believe that after the electrode is extracted from the measuring cup after the detection operation is completed, the surface of the electrode is contaminated with the pattern, and when the pattern is tested next time, the pattern attached to the surface of the electrode affects the next detection operation, thereby reducing the detection accuracy.

SUMMERY OF THE UTILITY MODEL

In order to improve and detect the precision, this application provides a chloride ion content rapid determination appearance.

The application provides a chloride ion content rapid determination appearance adopts following technical scheme:

a rapid tester for chloride ion content comprises an instrument body, a cleaning cylinder arranged on the upper surface of the instrument body and an electrode electrically connected with the instrument body; the electrode is inserted into the cleaning cylinder; the inner cavity of the cleaning cylinder is filled with cleaning solution; the inner bottom wall of the cleaning cylinder is provided with a bubble stone; the instrument body is provided with a gas increasing pump connected with the air bubble stone through a pipeline.

Through adopting above-mentioned technical scheme, the measurement personnel take out the back from the graduated flask of style from being equipped with, peg graft the electrode in clean section of thick bamboo, the electrode is soaked by cleaning solution, then measurement personnel starts the air augmentation pump, ventilate to the bubble stone of pipe connection air augmentation pump, the bubble is emerged on the surface of bubble stone, along with the rising of bubble, the bubble will be attached to in the style washout of electrode surface arrives the cleaning solution in, reach the effect on clean electrode surface, reach after the clearing time, the air augmentation pump is closed, the style in the cleaning solution deposits, so that take clean electrode next time and detect the operation. Through the air bubble stone and the air increasing pump, bubbles are generated in the cleaning solution, the patterns attached to the surface of the electrode are removed through the bubbles, the damage to the surface of the electrode is reduced, the service life of the electrode is prolonged, and meanwhile, the detection precision is improved.

Optionally, the inner bottom wall of the cleaning barrel is provided with a boss; an air passage is formed in the side, facing the bottom wall of the cleaning cylinder, of the boss in a penetrating manner; the air stone is positioned in the air passage.

Through adopting above-mentioned technical scheme, the setting of boss and air flue reduces the risk of the float and sink impact electrode of bubbled stone in clean solution on the one hand, improves the life of electrode, and on the other hand reduces the pattern that deposits in clean section of thick bamboo and piles up in the risk on bubbled stone surface to reduce the risk that bubbled stone surface gas pocket is blockked up, improve bubbled stone's life.

Optionally, the cleaning cylinder comprises a cleaning pipe and a base screwed to one end of the cleaning pipe; the boss is arranged on the surface of the base; the base is connected with the upper surface of the instrument body.

Through adopting above-mentioned technical scheme, when following change cleaning solution, pour out cleaning solution in the clean section of thick bamboo earlier, then with the base from the tip of clean pipe unscrew, alright clean with clean section of thick bamboo, reduce the risk of remaining the style in the clean section of thick bamboo.

Optionally, the boss is screwed to a surface of the base.

Through adopting above-mentioned technical scheme, the boss of being convenient for on the one hand and the connection of base, the bubbled stone of being convenient for simultaneously installs in the air flue, and on the other hand is convenient for follow-up maintenance to the bubbled stone, improves the life of bubbled stone.

Optionally, a pipe orifice of one end of the cleaning pipe, which is far away from the base, is obliquely provided with a guide surface.

By adopting the technical scheme, the efficiency of inserting the electrode into the inner cavity of the cleaning cylinder is improved, so that the cleaning efficiency of the cleaning solution on the electrode is improved.

Optionally, the side wall of the cleaning cylinder is provided with a window for observing the inner cavity of the cleaning cylinder.

By adopting the technical scheme, the detection personnel can observe the dirt turbidity of the cleaning solution in the cleaning cylinder conveniently, so that the detection personnel can replace the cleaning solution more rapidly, and the cleaning effect of the cleaning solution on the electrode is improved.

Optionally, the instrument further comprises a moisture absorption block arranged on the upper surface of the instrument body; the hygroscopic block is abutted by the surface of the electrode.

By adopting the technical scheme, when the electrode is required to be continuously tested, the electrode cleaned by the cleaning solution is drawn out from the cleaning cylinder, then the surface of the electrode is abutted against the moisture absorption block by a detection person, and the cleaning solution attached to the surface of the electrode is absorbed and removed by the moisture absorption block, so that the risk that the cleaning solution influences the test result is reduced.

Optionally, an installation cylinder is fixed on the upper surface of the instrument body; the moisture absorption block is inserted into the mounting cylinder; and dehumidification holes for the electrodes to be inserted are formed in the surface of the moisture absorption block in a penetrating manner.

By adopting the technical scheme, after the electrode is drawn out from the cleaning cylinder by a detection worker, the electrode is inserted into the dehumidifying hole, and the cleaning solution attached to the surface of the electrode is quickly erased by the moisture absorbing block, so that the testing efficiency is improved.

In summary, the present application includes at least one of the following beneficial technical effects:

1. bubbles are generated in the cleaning solution through the air bubble stone and the air increasing pump, the patterns attached to the surface of the electrode are removed through the bubbles, the damage to the surface of the electrode is reduced, the service life of the electrode is prolonged, the detection precision is improved, meanwhile, the cleaning solution can be used for multiple times, and the cleaning solution is green and environment-friendly;

2. the arrangement of the lug boss and the air passage reduces the risk that the air bubbles sink in the cleaning solution and impact the electrode, prolongs the service life of the electrode, reduces the risk that air holes on the surface of the air bubbles are blocked, and prolongs the service life of the air bubbles;

3. through the moisture absorption block, the cleaning solution attached to the surface of the electrode is quickly erased, and the efficiency of continuous testing of the electrode is improved.

Drawings

Fig. 1 is a schematic overall structure diagram of an embodiment of the present application.

Fig. 2 is an exploded view of the overall structure of an embodiment of the present application.

Fig. 3 is an enlarged view of a portion a of fig. 2.

Description of reference numerals: 1. an instrument body; 2. a cleaning cartridge; 21. cleaning the tube; 211. a guide surface; 22. a base; 3. an electrode; 4. mounting the cylinder; 5. a window; 6. a waterproof sealing ring; 7. a boss; 71. an airway; 8. a bubble stone; 9. an air increasing pump; 10. a moisture-absorbing block; 101. and (4) dehumidifying holes.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses a rapid determination instrument for chloride ion content. Referring to fig. 1, the rapid measuring instrument for chloride ion content comprises an instrument body 1, a cleaning cylinder 2 arranged on the upper surface of the instrument body 1, an electrode 3 electrically connected to the instrument body 1, and an installation cylinder 4 in threaded connection with the upper surface of the instrument body 1, wherein the electrode 3 is inserted into the cleaning cylinder 2 and the installation cylinder 4, a cleaning solution is contained in the inner cavity of the cleaning cylinder 2, and the cleaning solution can be clear water. When the electrode 3 is inserted into the cleaning cylinder 2, the cleaning solution washes the pattern attached to the surface of the electrode 3, and when the electrode 3 is inserted into the mounting cylinder 4, the cleaning solution attached to the surface of the electrode 3 is erased.

Referring to fig. 2, in particular, the cleaning cylinder 2 includes a cleaning tube 21 and a base 22 screwed to one end of the cleaning tube 21, wherein the base 22 is cylindrical, and the base 22 is detachably connected to the upper surface of the instrument body 1, where the detachable connection may be magnetic attraction or screw connection. The pipe mouth of the cleaning pipe 21 far from the end of the base 22 is provided with a guide surface 211 in an inclined way, so that the electrode 3 can be inserted into the cleaning cylinder 2 quickly and soaked by the cleaning solution. A window 5 for observing the cleaning solution inside the cleaning tube 21 is fixedly connected to the side wall of the cleaning tube 21.

Referring to fig. 2 and 3, a waterproof gasket 6 is disposed between the base 22 and the end of the cleaning tube 21 to reduce the flow of the cleaning solution in the cleaning tube 21 out of the cleaning tube 21. Base 22 has boss 7 towards one side threaded connection of cleaning tube 21, is provided with the circular arc transition between the lateral wall of boss 7 and the base 22, and air flue 71 has been seted up in the one side run-through of 7 face type bases 22 of boss. The air duct 71 is internally provided with a bubbled stone 8 abutted against the base 22, the upper surface of the instrument body 1 is fixed with an air pump 9 with a pipeline connected with the bubbled stone 8, and the routing of the pipeline in the pipeline connection passes through one side of the base 22 facing the boss 7 and extends out of the side wall of the base 22. The air pump 9 is electrically connected to the instrument body 1 so as to control the on/off of the air pump 9.

Referring to fig. 2, the mounting cylinder 4 is shaped as a cylindrical tubular structure. A cylindrical moisture absorption block 10 is inserted into the mounting tube 4, and the moisture absorption block 10 is a sponge. The end face of the moisture absorption block 10 penetrates through the dehumidification hole 101 formed in the power supply 3 in an inserted mode, and it should be noted that the diameter of the dehumidification hole 101 is smaller than that of the cylindrical electrode 3, so that when the electrode 3 is inserted into the moisture absorption block 10, the moisture absorption block 10 can better wrap the electrode 3, and moisture absorption performance of the moisture absorption block 10 is improved.

The implementation principle of the rapid determination instrument for the chloride ion content in the embodiment of the application is as follows: the tester uses the instrument body 1 to stir the sample in the measuring cup, and after the specified stirring time is reached, the tester inserts the electrode 3 into the sample which is uniformly stirred, and then reads out the chloride ion content data through the instrument body 1. After the detection operation is finished, the detection personnel draw the electrode 3 out of the measuring cup with the patterns, then insert the electrode 3 into the cleaning cylinder 2, the electrode 3 is soaked by the cleaning solution, and the patterns attached to the surface of the electrode 3 are softened by the cleaning solution. And then, the gas increasing pump 9 is started by a tester, the pipeline is connected with the air bubble stone 8 of the gas increasing pump 9 for ventilation, the air holes on the surface of the air bubble stone 8 emit air bubbles, along with the rising of the air bubbles, the air bubbles disperse the patterns attached to the surface of the electrode 3 into the cleaning solution to reach the effect of cleaning the surface of the electrode 3, after the cleaning time is reached, the gas increasing pump 9 is closed, the patterns in the cleaning solution are precipitated, and the cleaning of the electrode 3 is completed. When the next sample detection is to be carried out, a detection person draws the electrode 3 out of the cleaning cylinder 2, inserts the motor into the moisture absorption block 10 and then pulls out the motor, so that the electrode 3 can be used for detection operation.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. A fast detector for chloride ion content is characterized in that: comprises an instrument body (1), a cleaning cylinder (2) arranged on the upper surface of the instrument body (1) and an electrode (3) electrically connected with the instrument body (1); the electrode (3) is inserted into the cleaning cylinder (2); the inner cavity of the cleaning cylinder (2) is filled with cleaning solution; the inner bottom wall of the cleaning cylinder (2) is provided with a bubble stone (8); the instrument body (1) is provided with a gas increasing pump (9) which is connected with the air bubble stone (8) through a pipeline.

2. The rapid chlorine ion content tester according to claim 1, wherein: a boss (7) is arranged on the inner bottom wall of the cleaning cylinder (2); an air channel (71) is formed in a penetrating manner on one side, facing the bottom wall of the cleaning cylinder (2), of the boss (7); the air stone (8) is positioned in the air channel (71).

3. The rapid chlorine ion content tester according to claim 2, wherein: the cleaning cylinder (2) comprises a cleaning pipe (21) and a base (22) which is connected to one end of the cleaning pipe (21) in a threaded manner; the boss (7) is arranged on the surface of the base (22); the base (22) is connected with the upper surface of the instrument body (1).

4. The rapid chlorine ion content tester according to claim 3, wherein: the boss (7) is in threaded connection with the surface of the base (22).

5. The rapid chlorine ion content tester according to claim 3, wherein: a guide surface (211) is obliquely arranged on a pipe orifice of one end, far away from the base (22), of the cleaning pipe (21).

6. The rapid chlorine ion content tester according to claim 1, wherein: the side wall of the cleaning cylinder (2) is provided with a window (5) for observing the inner cavity of the cleaning cylinder (2).

7. The rapid chlorine ion content tester according to claim 1, wherein: the instrument also comprises a moisture absorption block (10) arranged on the upper surface of the instrument body (1); the moisture absorption block (10) is used for abutting against the surface of the electrode (3).

8. The rapid chlorine ion content tester according to claim 7, wherein: an installation cylinder (4) is fixed on the upper surface of the instrument body (1); the moisture absorption block (10) is inserted into the mounting cylinder (4); and the surface of the moisture absorption block (10) is provided with a dehumidification hole (101) for the electrode (3) to be inserted.

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