CN211664798U - Cooling circulating water descaling equipment with calcium magnesium ion monitoring devices - Google Patents

Abstract

The utility model provides a cooling circulation water descaling device with a calcium and magnesium ion monitoring device, which comprises a descaling device main body, wherein the descaling device main body is provided with a monitoring device for monitoring calcium and magnesium ions; the descaling device main body comprises a descaling barrel body, the top of the descaling barrel body is connected with a water outlet, the bottom of one side of the descaling barrel body is provided with a water inlet, and the descaling device further comprises an anode plate and a partition plate which are arranged inside the descaling barrel body, and a base which is used for supporting and fixing the descaling barrel body. The utility model discloses can detect the calcium magnesium ion in the circulating water through delivery port and water inlet, can obtain the actual scale removal condition of the circulating water behind the scale removal equipment of flowing through to solve current scale removal equipment problem comprehensive inadequately to the monitoring of calcium magnesium ion content in the circulating water.

Description

Cooling circulating water descaling equipment with calcium magnesium ion monitoring devices

Technical Field

The utility model relates to a circulating water scale removal technical field especially relates to a cooling circulation water scale removal equipment with calcium magnesium ion monitoring devices.

Background

In a cooling system, circulating water is generally used for cooling and heat exchange, and in a long-time circulating process, calcium and magnesium ions in the circulating water can be attached to the inner wall of a water pipe of the heat exchange system to form scale, so that the heat exchange efficiency of a heat exchange pipe and the circulation of the circulating water are influenced. The existing descaling equipment is insufficient in monitoring the content of calcium and magnesium ions in circulating water, the descaling efficiency of the descaling equipment cannot be known and cleaned in time when being reduced, and meanwhile, the monitoring is insufficient in comprehensiveness, and the content of the calcium and magnesium ions in the circulating water before and after flowing through the descaling equipment cannot be detected, so that the actual descaling condition of the descaling equipment cannot be obtained.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a refrigeration cycle water scale removal equipment with calcium magnesium ion monitoring devices, can detect the calcium magnesium ion in the circulating water through delivery port and water inlet, can obtain the actual scale removal condition of the circulating water behind the scale removal equipment of flowing through to solve current scale removal equipment problem comprehensive inadequately to the monitoring of circulating water calcium magnesium ion content.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the cooling circulating water descaling equipment with the calcium and magnesium ion monitoring device comprises a descaling equipment main body, wherein the descaling equipment main body is provided with the monitoring device for monitoring calcium and magnesium ions;

the descaling device main body comprises a descaling barrel body, the top of the descaling barrel body is connected with a water outlet, and the bottom of one side of the descaling barrel body is provided with a water inlet;

the monitoring device comprises a controller arranged at the top of the descaling barrel body, a first connecting pipe communicated with a water outlet and a second connecting pipe communicated with a water inlet, wherein a control valve is respectively installed on two sides of a first detection electrode and two sides of the first detection electrode which are installed at the top of the first connecting pipe, a control valve is respectively installed on two sides of a second detection electrode which is installed at the top of the second connecting pipe, the first detection electrode is electrically connected with the controller through a first connecting wire, the second detection electrode is electrically connected with the controller through a second connecting wire, and a recovery liquid collection box is connected to the bottoms of the first connecting pipe and the second connecting pipe.

Furthermore, the descaling equipment main body also comprises an anode plate and a baffle plate which are arranged inside the descaling barrel body, and a base for supporting and fixing the descaling barrel body.

Furthermore, four anode plates are arranged and are inserted into the inner wall of the descaling barrel body through connecting rods.

Further, the number of the baffle plates is three, and the three baffle plates are arranged among the four anode plates in a staggered mode.

Furthermore, two forklift holes are formed in the base.

Furthermore, an observation window is arranged in the middle of one side of the descaling barrel body.

Further, a water outlet is arranged at the bottom of the recovered liquid collecting box.

The utility model has the advantages that: the utility model discloses a connect the second at the water inlet and connect the connecting pipe and be provided with second detection electrode, first detection electrode passes through first connecting pipe setting in water outlet department to set up two control valve control rivers break-make respectively in first detection electrode and second detection electrode both sides, can carry out calcium magnesium ion detection under the condition that does not influence descaling equipment normal function.

The second detection electrode can detect the calcium magnesium ion content of water inlet department, and the calcium magnesium ion content in the circulating water of water outlet department can be detected to first detection electrode to can obtain the contrast of the calcium magnesium ion content in the circulating water around the scale removal equipment main part, thereby can the scale removal condition of real-time supervision circulating water, in time clear up when scale removal equipment scale removal efficiency reduces, guarantee the continuous stability of scale removal operation.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of A in FIG. 1;

FIG. 3 is a cross-sectional view of the descaling barrel body.

In the figure: 1-a monitoring device, 2-a descaling equipment main body, 11-a controller, 12-a first connecting line, 13-a first connecting pipe, 14-a second connecting pipe, 15-a second detection electrode, 16-a second connecting line, 17-a control valve, 18-a recovered liquid collecting box, 19-a first detection electrode, 21-a descaling barrel body, 22-a water outlet, 23-a water inlet, 24-a base, 25-an observation window, 26-a partition plate and 27-an anode plate.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1 and 2, fig. 1 is a schematic structural diagram of the present invention; fig. 2 is an enlarged view of a in fig. 1.

The cooling circulating water descaling equipment with the calcium and magnesium ion monitoring device comprises a descaling equipment main body 2, wherein the descaling equipment main body 2 is provided with a monitoring device 1 for monitoring calcium and magnesium ions, and the monitoring device 1 can monitor the content of the calcium and magnesium ions in circulating water flowing through the descaling equipment.

The descaling equipment main body 2 comprises a descaling barrel body 21, the top of the descaling barrel body 21 is connected with a water outlet 22, the bottom of one side of the descaling barrel body 21 is provided with a water inlet 23, circulating water enters the descaling barrel body 21 through the water inlet 23, electrolytic treatment is carried out through a partition plate 26 and an anode plate 27 in the descaling barrel body 21, and the treated circulating water is discharged through the water outlet 22 and enters a cooling system for continuous heat exchange. An observation window 25 is arranged at the middle position of one side of the descaling barrel body 21. The observation window 25 can observe the condition of the internal water flow.

The monitoring device 1 comprises a controller 11 installed at the top of a descaling barrel body 21, a first connecting pipe 13 communicated with a water outlet 22 and a second connecting pipe 14 communicated with a water inlet 23, wherein a first detection electrode 19 is installed at the top of the first connecting pipe 13, two sides of the first detection electrode 19 are respectively provided with a control valve 17, a second detection electrode 15 is installed at the top of the second connecting pipe 14, two sides of the second detection electrode 15 are respectively provided with a control valve 17, the first detection electrode 19 is electrically connected with the controller 11 through a first connecting wire 12, the second detection electrode 15 is electrically connected with the controller 11 through a second connecting wire 16, the bottoms of the first connecting pipe 13 and the second connecting pipe 14 are connected with a recovered liquid collecting box 18, and a water outlet is formed in the bottom of the recovered liquid collecting box 18.

Wherein, the first detection electrode 19 and the second detection electrode 15 are selected from ion selective electrodes, which are a kind of electrochemical sensors for measuring the activity or concentration of ions in a solution by using a membrane potential, and when the ion selective electrodes are contacted with the solution containing ions to be measured, a membrane potential directly related to the ion activity is generated on a phase interface between a sensitive membrane of the ion selective electrodes and the solution.

The control valves 17 on the first connecting pipe 13 and the second connecting pipe 14 are connected with the controller 11, when detecting, the controller 11 controls the on-off of the control valves 17 of the first connecting pipe 13 and the second connecting pipe 14, firstly, the control valves 17 close to the water inlet 23 and the water outlet 22 are controlled to be opened, circulating water at the water inlet 23 and the water outlet 22 enters the first connecting pipe 13 and the second connecting pipe 14 to be contacted with the first detection electrode 19 and the second detection electrode 15, the first detection electrode 19 can detect calcium and magnesium ions at the water inlet 22 and transmit detection information to the controller 11 through the first connecting wire 12, the second detection electrode 15 can detect calcium and magnesium ions at the water inlet 23 and transmit the detection information to the controller 11 through the second connecting wire 16, the controller 11 performs conversion analysis on the information, and realizes the monitoring of the content of calcium and magnesium ions in the circulating water before and after the descaling flows through the barrel body 21, therefore, the descaling condition can be known in time, and the partition plate 26 and the anode plate 27 inside the descaling barrel body 21 can be cleaned or replaced in time when the descaling efficiency is reduced.

When the detected circulating water needs to be discharged, the control valve 17 close to one side of the recovery liquid collecting box 18 is controlled to be opened, and the circulating water flows into the recovery liquid collecting box 18 through the first connecting pipe 13 and the second connecting pipe 14 to be discharged in a centralized manner.

Referring to fig. 3, fig. 3 is a cross-sectional view of the descaling barrel.

The descaling device main body 2 further includes an anode plate 27 and a partition plate 26 installed inside the descaling barrel body 21 and a base 24 for supporting and fixing the descaling barrel body 21. The number of the anode plates 27 is four, and the four anode plates 27 are inserted into the inner wall of the descaling barrel body 21 through connecting rods. The anode plate 27 is inserted into the inner wall of the descaling barrel body 21 through the connecting rod, the inner wall of the descaling barrel body 21 is provided with an insertion hole matched with the connecting rod, the insertion hole in the descaling barrel body 21 is electrically connected with the external controller 11 through a conducting wire, the anode plate 27 is electrically connected with the external controller 11, and the anode plate 27 can be controlled to carry out electrolytic treatment on circulating water in the descaling barrel body 21.

The baffle 26 is provided with threely, and three baffle 26 is crisscross to be set up between four anode plate 27, has seted up the through-hole on the three baffle 26 respectively, and the through-hole is used for the circulating water to pass through to the through-hole position of three baffle 26 sets up differently, can make the circulating water upwards gush from different position, helps promoting the increase of circulating water flow range.

Two forklift holes are formed in the base 24 and used for moving and transporting the whole equipment.

The working principle is as follows: during actual descaling treatment, circulating water enters the descaling barrel body 21 through the water inlet 23, is subjected to electrolytic treatment after passing through the anode plate 27 and the partition plate 26, and is discharged into the cooling system through the water outlet 22 for secondary circulating heat exchange. During detection, the control valve 17 close to the water inlet 23 and the water outlet 22 is firstly opened through the controller 11, circulating water enters the first connecting pipe 13 and the second connecting pipe 14 and contacts the first detection electrode 19 and the second detection electrode 15, the first detection electrode 19 and the second detection electrode 15 transmit detection information to the controller 11 through the first connecting line 12 and the second connecting line 16 respectively for conversion analysis, the content of calcium and magnesium ions in the circulating water flowing through the descaling barrel body 21 can be obtained, front-back comparison of the content of the calcium and magnesium ions in the circulating water flowing through the descaling equipment can be obtained, the descaling equipment can be timely cleaned when the descaling efficiency is reduced, and the continuous stability of the descaling efficiency is ensured.

Finally, it should be noted that: the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the technical solution of the present invention, and the protection scope of the present invention is not limited thereto, although the present invention is described in detail with reference to the foregoing embodiments, those skilled in the art should understand that: those skilled in the art can still modify or easily conceive of changes in the technical solutions described in the foregoing embodiments or make equivalent substitutions for some technical features within the technical scope of the present disclosure; such modifications, changes or substitutions do not substantially depart from the spirit and scope of the embodiments of the present invention, and are intended to be included within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (7)

1. The utility model provides a cooling circulation water scale removal equipment with calcium magnesium ion monitoring devices, includes scale removal equipment main part (2), its characterized in that: the descaling equipment main body (2) is provided with a monitoring device (1) for monitoring calcium and magnesium ions;

the descaling equipment main body (2) comprises a descaling barrel body (21), the top of the descaling barrel body (21) is connected with a water outlet (22), and the bottom of one side of the descaling barrel body (21) is provided with a water inlet (23);

the monitoring device (1) comprises a controller (11) arranged at the top of the descaling barrel body (21), a first connecting pipe (13) communicated with the water outlet (22) and a second connecting pipe (14) communicated with the water inlet (23), a first detection electrode (19) is arranged at the top of the first connecting pipe (13), two sides of the first detection electrode (19) are respectively provided with a control valve (17), a second detection electrode (15) is arranged at the top of the second connecting pipe (14), two sides of the second detection electrode (15) are respectively provided with a control valve (17), the first detection electrode (19) is electrically connected with the controller (11) through a first connecting wire (12), the second detection electrode (15) is electrically connected with the controller (11) through a second connecting wire (16), and the bottoms of the first connecting pipe (13) and the second connecting pipe (14) are connected with a recovery liquid collecting box (18).

2. The cooling circulating water descaling device with the calcium and magnesium ion monitoring device according to claim 1, wherein: the descaling equipment main body (2) also comprises an anode plate (27) and a clapboard (26) which are arranged inside the descaling barrel body (21) and a base (24) for supporting and fixing the descaling barrel body (21).

3. The cooling circulating water descaling device with the calcium and magnesium ion monitoring device according to claim 2, wherein: the number of the anode plates (27) is four, and the four anode plates (27) are inserted into the inner wall of the descaling barrel body (21) through connecting rods.

4. The cooling circulating water descaling device with the calcium and magnesium ion monitoring device as claimed in claim 3, wherein: the number of the separator plates (26) is three, and the three separator plates (26) are arranged among the four anode plates (27) in a staggered mode.

5. The cooling circulating water descaling device with the calcium and magnesium ion monitoring device according to claim 2, wherein: two forklift holes are formed in the base (24).

6. The cooling circulating water descaling device with the calcium and magnesium ion monitoring device according to claim 1, wherein: an observation window (25) is arranged in the middle of one side of the descaling barrel body (21).

7. The cooling circulating water descaling device with the calcium and magnesium ion monitoring device according to claim 1, wherein: a water outlet is arranged at the bottom of the recovery liquid collecting box (18).

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