CN219260223U - Efficient sodium hypochlorite generator device - Google Patents

Abstract

The utility model relates to the technical field of sodium hypochlorite generators, in particular to a high-efficiency sodium hypochlorite generator device which comprises a base, wherein a sodium hypochlorite generator body, a brine tank and a liquid medicine storage tank are arranged on the top surface of the base, and further comprises a brine mixing tank, wherein the brine mixing tank is arranged on the top surface of the base, a containing bucket for containing sodium chloride particles is further arranged in the brine mixing tank, and the side wall of the containing bucket is provided with meshes for preventing the sodium chloride particles from overflowing. According to the utility model, the brine preparation tank is used for preparing the saturated concentrated brine, and the concentrated brine and water are mixed to prepare the diluted brine, so that repeated preparation of brine by workers is not needed, the labor intensity of the workers can be reduced, and the generation efficiency of sodium hypochlorite can be improved.

Description

Efficient sodium hypochlorite generator device

Technical Field

The utility model relates to the technical field of sodium hypochlorite generators, in particular to a high-efficiency sodium hypochlorite generator device.

Background

The sodium hypochlorite generator is one of water treatment sterilizing equipment, which uses saline water as raw material and produces sodium hypochlorite solution through electrolytic reaction. In order to ensure the freshness of the texture of the sodium hypochlorite and the higher activity and ensure the disinfection effect, the device can be used for adding the generated sodium hypochlorite while generating.

The existing sodium hypochlorite generator generally comprises a brine tank, a liquid medicine tank and a sodium hypochlorite generator body, wherein the brine tank is used for storing low-concentration brine prepared in advance, an electrolytic tank is arranged in the sodium hypochlorite generator body and used for containing and electrolyzing the low-concentration brine, so that sodium hypochlorite solution is obtained, and the liquid medicine tank is used for storing the sodium hypochlorite solution after generation.

When the existing sodium hypochlorite generator actually works, after the dilute brine in the brine tank is consumed, a worker is generally required to prepare brine with proper concentration again, and the prepared brine is introduced into the brine tank for storage; or adding proper amount of industrial salt and proper amount of water directly into the salt water tank to obtain dilute salt water with corresponding concentration. Because repeated preparation of brine can occupy a certain time for workers, the generation efficiency of sodium hypochlorite solution can be influenced to a certain extent. Based on this, we have devised a sodium hypochlorite generator unit capable of automatically preparing dilute brine.

Disclosure of Invention

The present utility model is directed to a highly efficient sodium hypochlorite generator device for solving the above-mentioned problems.

The utility model is realized by the following technical scheme: the utility model provides an efficient sodium hypochlorite generator device, includes the base, the top surface of base is equipped with sodium hypochlorite generator body, brine tank and liquid medicine holding vessel, still includes:

the brine mixing tank is arranged on the top surface of the base, a containing hopper for containing sodium chloride particles is further arranged in the brine mixing tank, and meshes for preventing the sodium chloride particles from overflowing are formed in the side wall of the containing hopper;

the water supply pipeline comprises a raw water pipe, a three-way pipe, a first water pipe and a second water pipe, one end of the raw water pipe, one end of the first water pipe and one end of the second water pipe are respectively connected with three ports of the three-way pipe, and the other ends of the first water pipe and the second water pipe are respectively communicated with the saline water preparing tank and the interior of the saline water tank; and

the water inlet end of the delivery pump is communicated with the saline water preparing tank, and the water outlet end of the delivery pump is communicated with the saline water tank through the delivery pipeline.

Optionally, the first water pipe and the second water pipe are respectively provided with a first electromagnetic valve and a second electromagnetic valve, and the conveying pipeline is provided with a third electromagnetic valve.

Optionally, the inside of brine tank is equipped with level sensor, still be equipped with the controller on the base, level sensor's signal output part with the signal input part of controller is connected, the signal output part of controller is connected with the signal input part of first solenoid valve, second solenoid valve and delivery pump and third solenoid valve respectively.

Optionally, a driving motor is arranged above the top wall of the brine mixing tank, an output shaft of the driving motor is coaxially connected with a stirring rod, and the stirring rod stretches into the brine mixing tank.

Optionally, the top wall of the brine mixing tank is provided with a movable opening for the insertion of the holding bucket in a penetrating manner, the top wall of the brine mixing tank is provided with a plurality of positioning columns at the periphery of the movable opening in a perpendicular manner, the periphery of the top of the holding bucket is fixedly sleeved with an annular flange, and the annular flange is provided with a positioning hole matched with the positioning column in a penetrating manner.

Optionally, the bottom that holds the fill is a cartridge-like structure, the laminating of the internal surface that holds the fill is equipped with the filter cloth layer, the top that holds the fill is detachable to be equipped with the top cap.

Compared with the prior art, the utility model provides a high-efficiency sodium hypochlorite generator device, which has the following beneficial effects:

1. according to the method, the brine mixing tank is used for preparing the saturated concentrated brine, and the concentrated brine and water are mixed to prepare the dilute brine, so that repeated preparation of brine by workers is not needed, the labor intensity of the workers can be reduced, and the generation efficiency of sodium hypochlorite can be improved;

2. the accommodating bucket and the brine mixing tank are detachably connected, and the top of the accommodating bucket is provided with the top cover, so that the accommodating bucket is convenient for workers to add industrial salt into the accommodating bucket, and the accommodating bucket is convenient for the workers to clean or replace.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the holding hopper of the present utility model;

fig. 3 is an enlarged corresponding diagram at a in fig. 1.

In the figure: 100. a base; 200. a sodium hypochlorite generator body; 300. a brine tank; 301. a liquid level sensor; 400. a liquid medicine storage tank; 500. a brine mixing tank; 501. a receiving hopper; 502. a driving motor; 503. a stirring rod; 504. a movable opening; 505. positioning columns; 506. an annular flange; 507. positioning holes; 508. a filter cloth layer; 509. a top cover; 600. a water supply line; 601. a raw water pipe; 602. a three-way pipe; 603. a first water pipe; 604. a second water pipe; 605. a first electromagnetic valve; 606. a second electromagnetic valve; 700. a transfer pump; 701. a delivery line; 702. a third electromagnetic valve; 800. and a controller.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples: referring to fig. 1-3, a high-efficiency sodium hypochlorite generator device includes a base 100, wherein a sodium hypochlorite generator body 200, a brine tank 300 and a liquid medicine storage tank 400 are disposed on a top surface of the base 100, wherein an electrolytic tank, an anode plate and a cathode plate (not shown) for electrolysis are disposed in the sodium hypochlorite generator body 200, the brine tank 300 is communicated with the interior of the electrolytic tank through an infusion pump and a pipeline, and the liquid medicine storage tank 400 is also communicated with the interior of the electrolytic tank through a pipeline.

The embodiment further comprises a brine mixing tank 500, wherein the brine mixing tank 500 is arranged on the top surface of the base 100, a containing hopper 501 for containing sodium chloride particles is further arranged in the brine mixing tank 500, and the side wall of the containing hopper 501 is provided with meshes for preventing the sodium chloride particles from overflowing; specifically, hold and fight 501 and be cylindrical structure, and hold the bottom of fighting 501 and be the filter cartridge structure, hold the bottom of fighting 501 and have numerous mesh, hold the internal surface of fighting 501 and still laminate and be equipped with filter cloth layer 508, filter cloth layer 508 is the cotton material, holds the top detachable of fighting 501 and is equipped with top cap 509, and is threaded connection between the top cap 509 and the top of holding fighting 501, it is convenient to dismantle. In addition, a movable opening 504 into which the holding bucket 501 is inserted is formed in the top wall of the brine mixing tank 500 in a penetrating manner, a plurality of positioning columns 505 are vertically arranged on the periphery of the top wall of the brine mixing tank 500 and positioned at the periphery of the movable opening 504, an annular flange 506 is fixedly sleeved on the periphery of the top of the holding bucket 501, and a positioning hole 507 matched with the positioning columns 505 is formed in the annular flange 506 in a penetrating manner; when the holding bucket 501 is required to be installed, the bottom of the holding bucket 501 is aligned with the movable opening 504 and inserted, and then the positioning post 505 is inserted into the positioning hole 507.

In addition, a driving motor 502 is arranged above the top wall of the brine mixing tank 500, an output shaft of the driving motor 502 is coaxially connected with a stirring rod 503, and the stirring rod 503 stretches into the brine mixing tank 500; the effect is to agitate the brine in the brine mixing tank 500 to homogenize the brine concentration in the tank.

The embodiment further comprises a water supply pipeline 600, wherein the water supply pipeline 600 comprises a raw water pipe 601, a three-way pipe 602, a first water pipe 603 and a second water pipe 604, one end of the raw water pipe 601, one end of the first water pipe 603 and one end of the second water pipe 604 are respectively connected with three ports of the three-way pipe 602, the other end of the raw water pipe 601 is connected with a water source, and the other ends of the first water pipe 603 and the second water pipe 604 are respectively communicated with the interiors of the brine preparation tank 500 and the brine tank 300; the first water pipe 603 and the second water pipe 604 are provided with a first solenoid valve 605 and a second solenoid valve 606, respectively. Therefore, softened water, i.e., water treated by the water softener, can be respectively introduced into the brine tank 300 and the brine preparing tank 500 through the water supply line 600, so that the electrolysis can be conveniently performed to prepare sodium hypochlorite.

Further, a delivery pump 700 and a delivery pipeline 701 are further arranged between the brine mixing tank 500 and the brine tank 300, wherein the water inlet end of the delivery pump 700 is communicated with the brine mixing tank 500, the water outlet end of the delivery pump 700 is communicated with the brine tank 300 through the delivery pipeline 701, and a third electromagnetic valve 702 is arranged on the delivery pipeline 701; therefore, the brine tank 300 can be filled with the brine, which is saturated brine, through the transfer pump 700 and the transfer line 701.

Further, a liquid level sensor 301 (model TWRD 33) is disposed in the brine tank 300, and a controller 800 (model 80C 51) is further disposed on the base 100, wherein a signal output end of the liquid level sensor 301 is connected to a signal input end of the controller 800, and a signal output end of the controller 800 is respectively connected to the first electromagnetic valve 605, the second electromagnetic valve 606, and signal input ends of the transfer pump 700 and the third electromagnetic valve 702, so as to control opening and closing of the first electromagnetic valve 605, the second electromagnetic valve 606, and the third electromagnetic valve 702, and simultaneously control opening and closing of the transfer pump 700.

Working principle: in the use process of the utility model, the liquid level sensor 301 is used for monitoring all the brine in the brine tank 300 in real time and transmitting signals to the controller 800; when the total amount of brine in the brine tank 300 is lower than a preset threshold value, the controller 800 automatically opens the second electromagnetic valve 606 to enable softened water to enter the brine tank 300, automatically closes the second electromagnetic valve 606 after the amount of water in the brine tank 300 reaches a certain degree, simultaneously opens the delivery pump 700 and the third electromagnetic valve 702, and adds a proper amount of saturated strong brine into the brine tank 300, thereby completing the automatic preparation of the weak brine in the brine tank 300; finally, the controller 800 opens the first electromagnetic valve 605 to add softened water into the brine mixing tank 500, so that the brine mixing tank 500 always has a sufficient amount of concentrated brine. Since the sodium chloride particles contained in the containing hopper 501 are limited, a worker is required to regularly pour the sodium chloride particles into the containing hopper 501, so that the brine in the brine preparing tank 500 is always saturated and concentrated brine.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises an element.

Although embodiments of the present utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an efficient sodium hypochlorite generator device, includes base (100), the top surface of base (100) is equipped with sodium hypochlorite generator body (200), salt water tank (300) and liquid medicine holding vessel (400), its characterized in that still includes:

the brine mixing tank (500), the brine mixing tank (500) is arranged on the top surface of the base (100), a containing hopper (501) for containing sodium chloride particles is further arranged in the brine mixing tank (500), and the side wall of the containing hopper (501) is provided with meshes for preventing the sodium chloride particles from overflowing;

the water supply pipeline (600), the water supply pipeline (600) comprises a raw water pipe (601), a three-way pipe (602), a first water pipe (603) and a second water pipe (604), wherein one end of the raw water pipe (601), one end of the first water pipe (603) and one end of the second water pipe (604) are respectively connected with three ports of the three-way pipe (602), and the other ends of the first water pipe (603) and the second water pipe (604) are respectively communicated with the interiors of the saline water preparing tank (500) and the saline water tank (300); and

the water inlet end of the delivery pump (700) is communicated with the saline water preparing tank (500), and the water outlet end of the delivery pump (700) is communicated with the saline water tank (300) through the delivery pipeline (701).

2. A high efficiency sodium hypochlorite generator unit according to claim 1, wherein: the first water pipe (603) and the second water pipe (604) are respectively provided with a first electromagnetic valve (605) and a second electromagnetic valve (606), and the conveying pipeline (701) is provided with a third electromagnetic valve (702).

3. A high efficiency sodium hypochlorite generator unit according to claim 2, wherein: the inside of brine tank (300) is equipped with liquid level sensor (301), still be equipped with controller (800) on base (100), liquid level sensor (301) the signal output part with the signal input part of controller (800) is connected, the signal output part of controller (800) is connected with the signal input part of first solenoid valve (605), second solenoid valve (606) and delivery pump (700) and third solenoid valve (702) respectively.

4. A high efficiency sodium hypochlorite generator unit according to claim 1, wherein: the top wall top of salt water blending tank (500) is equipped with driving motor (502), the output shaft coaxial coupling of driving motor (502) has puddler (503), puddler (503) stretch into to the inside of salt water blending tank (500).

5. The high efficiency sodium hypochlorite generator unit according to claim 4, wherein: the top wall of the brine mixing tank (500) is provided with a movable opening (504) for the insertion of the holding bucket (501) in a penetrating mode, the top wall of the brine mixing tank (500) is provided with a plurality of positioning columns (505) at the periphery of the movable opening (504) in a perpendicular mode, an annular flange (506) is fixedly sleeved on the periphery of the top of the holding bucket (501), and positioning holes (507) matched with the positioning columns (505) are formed in the annular flange (506) in a penetrating mode.

6. The high efficiency sodium hypochlorite generator unit of claim 5 wherein: the bottom of holding fill (501) is the filter cartridge structure, the laminating of the internal surface of holding fill (501) is equipped with filter cloth layer (508), the top of holding fill (501) is detachably equipped with top cap (509).

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