CN218642841U - Layout structure of integrated electrolytic sodium hypochlorite generator - Google Patents

Abstract

The utility model discloses an integral type electrolysis hypochlorite generator layout structure, include: the main frame is divided into two sides, one layer is arranged on one side, and two layers are arranged on the other side; a combined water tank and a pump body which are arranged on the first layer of the two layer sides; an electrolytic tank, a rectification power supply and a hydrogen exhaust fan which are arranged on the second layer with two layers; the automatic control system is characterized by comprising a control cabinet, a water softener and a salt dissolving box which are arranged on the first layer on one layer side, wherein an automatic control system made of a single chip microcomputer or a PLC is arranged in the control cabinet. Because all the unit components are integrally installed and connected after being manufactured, the problem that field connection is incorrect and cannot be used in time is solved, the equipment is prevented from stopping and occupying a large area, and the field installation time is reduced; in ordinary use, only the third pump body outlet is connected to the manual valve through the pipeline and is vacant, and the water softener water inlet is communicated with the manual valve through the pipeline and is vacant, and the water softener is directly used through the two vacant joints, so that the field operation is convenient.

Description

Layout structure of integrated electrolytic sodium hypochlorite generator

Technical Field

The utility model relates to an integral type electrolysis sodium hypochlorite generator layout structure belongs to electrolysis sodium chlorate generator technical field.

Background

The sodium hypochlorite generator is widely used in water treatment and disinfection equipment, and is equipment for generating a low-concentration sodium hypochlorite disinfectant by electrolyzing 3-5% low-concentration salt water by a diaphragm-free electrolysis method. Most of small-sized devices in the market are integrated, for example, a semi-automatic sodium hypochlorite generator all-in-one machine disclosed in Chinese patent publication No. CN206359629U adopts a vertically distributed integrated distribution structure. However, after the yield of sodium hypochlorite is more than 500g/h, the volume of each unit part can be increased, most of equipment is combined, each unit part is manufactured independently and then transported to the site to be installed and connected in an integrated mode, the problem that the site connection is incorrect and cannot be used in time easily exists, the equipment is stopped and placed on the site to occupy a large area of the site, and meanwhile, the time for installing the site is prolonged.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides an integral type electrolysis hypochlorite generator layout structure.

The utility model discloses a following technical scheme can realize.

The utility model provides a pair of integral type electrolysis hypochlorite generator layout structure, include:

the main frame is divided into two sides, one layer is arranged on one side, and two layers are arranged on the other side;

a combined water tank and a pump body which are arranged on the first layer with two layer sides;

an electrolytic tank, a rectification power supply and a hydrogen exhaust fan which are arranged on the second layer with two layer sides;

the automatic control system is characterized by comprising a control cabinet, a water softener and a salt dissolving box which are arranged on the first layer on one layer side, wherein an automatic control system made of a single chip microcomputer or a PLC is arranged in the control cabinet.

The main frame is provided with a hard plastic sealing plate for packaging the parts on two sides of the main frame.

The four pump bodies are distributed in the same row from front to back and are distributed on the side edge of the combined water tank, which is far away from the main frame by only one layer.

The combined water tank comprises three independent medicine storage tanks, a clear water tank and a pickling tank.

The electrolytic cell is distributed in the front, and the rectification power supply and the hydrogen exhaust fan are distributed in the rear.

The control cabinet is distributed in the front, and the water softener and the salt dissolving tank are distributed in the rear.

And the power control output end of an automatic control system in the control cabinet is electrically connected with the electrolytic cell, the rectifying power supply, the hydrogen exhaust fan, the pump body and the water softener power supply.

The water inlet of the water softener is communicated with the manual valve through a pipeline and is vacant for standby connection with a tap water pipe; the water outlet of the water softener is communicated with a clean water tank water inlet, a pickling tank water inlet and a salt dissolving tank water inlet of the combined water tank through pipelines, the water outlet of the clean water tank is communicated with the first pump body through a pipeline, the water outlet of the salt dissolving tank is connected with the second pump body through a pipeline, and the water outlets of the second pump body and the first pump body are communicated with the pipeline mixer through a pipeline and then communicated with the water inlet of the electrolytic cell; the water outlet of the electrolytic cell is communicated with a medicine storage box through a pipeline, the water outlet of the medicine storage box is communicated with a third pump body through a pipeline, and the water outlet of the third pump body is connected to a manual valve vacant position through a pipeline and is used for being communicated with a pipeline of a medicine adding point for adding medicine;

the pickling opening of the electrolytic cell is communicated with a fourth pump body through a pipeline, and the fourth pump body pumps pickling solution into the electrolytic cell to clean scales.

The beneficial effects of the utility model reside in that: because all the unit components are integrally installed and connected after being manufactured, the problem that field connection is incorrect and cannot be used in time is solved, the equipment is prevented from stopping and occupying a large area, and the field installation time is reduced; in ordinary use, only the third pump body outlet is connected to the manual valve through the pipeline and is vacant, and the water softener water inlet is communicated with the manual valve through the pipeline and is vacant, and the water softener is directly used through the two vacant joints, so that the field operation is convenient.

Drawings

Fig. 1 is a schematic view of the front view layout structure of the present invention;

fig. 2 is a schematic view of the top layout structure of the present invention;

in the figure: 1-a main frame; 2-a combined water tank; 3-an electrolytic cell; 4-a rectified power supply; 5-hydrogen exhaust fan; 6-a pump body; 7-a control cabinet; 8-a water softener; 9-salt dissolving box.

Detailed Description

The technical solution of the present invention is further described below, but the scope of the claimed invention is not limited to the described.

As shown in fig. 1-2.

The utility model discloses an integral type electrolysis hypochlorite generator layout structure, include:

the main frame 1 is divided into two sides, one side is provided with one layer, and the other side is provided with two layers;

a combined water tank 2 arranged on the first layer with two layers and a pump body 6 with a metering function; the four pump bodies 6 are distributed in the same row from front to back and are distributed on the side edge of the combined water tank 2, which is far away from the main frame 1 by only one layer; the combined water tank 2 is made of a PVC plate, and the middle of the combined water tank is divided into three independent water tank spaces for containing liquid, so that a medicine storage tank, a clear water tank and a pickling tank are formed;

the electrolytic cell 3, the rectification power supply 4 and the hydrogen exhaust fan 5 are arranged on the second layer with two layers, the electrolytic cell 3 is distributed in the front, and the rectification power supply 4 and the hydrogen exhaust fan 5 are distributed in the rear;

the control cabinet 7, the water softener 8 and the salt dissolving tank 9 are arranged on the first layer on one layer side, an automatic control system made of a single chip microcomputer or a PLC is arranged in the control cabinet 7, the control cabinet 7 is distributed in the front, and the water softener 8 and the salt dissolving tank 9 are distributed in the rear;

the main frame 1 is provided with a hard plastic sealing plate through screws, and parts on two sides of the main frame 1 are packaged.

And the power supply control output end of an automatic control system in the control cabinet 7 is electrically connected with the power supplies of the electrolytic cell 3, the rectification power supply 4, the hydrogen exhaust fan 5, the pump body 6 and the water softener 8.

The water inlet of the water softener 8 is communicated with the manual valve through a pipeline and is vacant for standby connection with a tap water pipe; the water outlet of the water softener 8 is communicated with the water inlet of the clean water tank, the water inlet of the pickling tank and the water inlet of the salt dissolving tank 9 of the combined water tank 2 through pipelines, the water outlet of the clean water tank is communicated with the first pump body 6 through a pipeline, the water outlet of the salt dissolving tank 9 is connected with the second pump body 6 through a pipeline, the water outlets of the second pump body 6 and the first pump body 6 are communicated with the pipeline mixer through a pipeline and then communicated with the water inlet of the electrolytic bath 3; the water outlet of the electrolytic cell 3 is communicated with a medicine storage box through a pipeline, the water outlet of the medicine storage box is communicated with a third pump body 6 through a pipeline, and the water outlet of the third pump body 6 is connected to a manual valve vacant position through a pipeline and is used for being communicated with a pipeline of a medicine adding point for adding medicine; the pickling opening of the electrolytic tank 3 is communicated with a fourth pump body 6 through a pipeline, and the fourth pump body 6 pumps pickling solution into the electrolytic tank 3 to clean water scales.

The unit parts are integrally installed and connected after being manufactured, the problem that field connection is incorrect and cannot be used in time is solved, equipment is prevented from stopping and occupying a large-area field, and field installation time is shortened.

In ordinary use, only the outlet of the third pump body 6 is connected to the manual valve through a pipeline and is vacant, and the water inlet of the water softener 8 is communicated with the manual valve through a pipeline and is vacant, so that the water softener can be directly used through the two vacant joints, and the field operation is convenient.

The working process is as follows:

the first step is as follows: the salt is poured into the salt dissolving box 9, and the dissolved solid salt reaches the height of one fourth of the salt dissolving box 9;

the second step is that: an automatic control system in the control cabinet supplies power to the equipment, the water softener 8 starts to produce softened water, the salt dissolving tank 9 is automatically replenished with water, and the clear water tank in the combined water tank 2 is automatically replenished with water;

thirdly, producing sodium hypochlorite after the liquid levels of the clean water tank and the salt dissolving tank 9 reach the designed water level, pumping the liquid in the clean water tank by the first pump body 6 and pumping the liquid in the salt dissolving tank by the second pump body 6 to a pipeline mixer for mixing to form low-salt-concentration liquid, and discharging the low-salt-concentration liquid into the electrolytic tank 3;

the fourth step: when the liquid level of dilute brine in the electrolytic cell 3 reaches a high level, starting the rectification power supply 4 and the hydrogen discharge fan 5, wherein the sodium hypochlorite solution produced by the electrolytic cell 3 flows into the medicine storage box of the combined water tank 2, when the liquid level of the medicine storage box reaches the high level, the first pump body 6, the second pump body 6 and the rectification power supply 4 stop running, and the hydrogen discharge fan 5 stops automatically after 10 minutes;

the fifth step: the third pump body 6 is started, sodium hypochlorite solution is beaten into a feeding point from the inside of the medicine chest, when the medicine chest is lower than the middle position, the work of electrolyzing the sodium hypochlorite solution is restarted, and when the liquid level of the medicine chest is lower than the low liquid level, the feeding and metering work is carried out, and the third pump body 6 stops working and gives an alarm.

Claims (9)

1. The utility model provides an integral type electrolysis hypochlorite generator layout structure which characterized in that includes:

the main frame (1), the main frame (1) is divided into two sides, one side has one layer, another side has two layers;

a combined water tank (2) and a pump body (6) which are arranged on the first layer of the two layer sides;

an electrolytic tank (3), a rectification power supply (4) and a hydrogen exhaust fan (5) which are arranged on the second layer with two layer sides;

the automatic salt dissolving device comprises a control cabinet (7) arranged on the first layer with one layer side, a water softener (8) and a salt dissolving box (9), wherein an automatic control system is arranged in the control cabinet (7).

2. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 1, wherein: the main frame (1) is provided with a hard plastic sealing plate for packaging the parts on two sides of the main frame (1).

3. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 1, wherein: the four pump bodies (6) are distributed in the same row from front to back and are distributed on the side edge of the combined water tank (2) far away from the main frame (1) by only one layer.

4. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 1, wherein: the combined water tank (2) comprises three independent medicine storage tanks, a clear water tank and a pickling tank.

5. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 1, wherein: the electrolytic cell (3) is distributed in the front, and the rectifying power supply (4) and the hydrogen exhaust fan (5) are distributed in the rear.

6. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 1, wherein: the control cabinet (7) is distributed in the front, and the water softener (8) and the salt dissolving box (9) are distributed in the rear.

7. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 1, wherein: the power supply control output end of the automatic control system in the control cabinet (7) is electrically connected with the power supply of the electrolytic cell (3), the rectification power supply (4), the hydrogen exhaust fan (5), the pump body (6) and the water softener (8).

8. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 7, wherein: the water inlet of the water softener (8) is communicated with the manual valve through a pipeline and is vacant for standby connection with a tap water pipe; the water outlet of the water softener (8) is communicated with the water inlet of a clean water tank, the water inlet of a pickling tank and the water inlet of a salt dissolving tank (9) of the combined water tank (2) through pipelines, the water outlet of the clean water tank is communicated with a first pump body (6) through a pipeline, the water outlet of the salt dissolving tank (9) is connected with a second pump body (6) through a pipeline, and the water outlets of the second pump body (6) and the first pump body (6) are communicated with a pipeline mixer through a pipeline and then communicated with the water inlet of the electrolytic bath (3); the water outlet of the electrolytic cell (3) is communicated with the medicine storage box through a pipeline, the water outlet of the medicine storage box is communicated with the third pump body (6) through a pipeline, and the water outlet of the third pump body (6) is connected to a manual valve in an empty mode through a pipeline and is used for being communicated with a pipeline of a medicine adding point to add medicine.

9. The layout structure of the integrated electrolytic sodium hypochlorite generator of claim 8, wherein: the pickling opening of the electrolytic tank (3) is communicated with a fourth pump body (6) through a pipeline, and the fourth pump body (6) pumps pickling solution into the electrolytic tank (3) to clean scales.

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