CN218322982U

CN218322982U - Integrated water tank

Info

Publication number: CN218322982U
Application number: CN202222652086.9U
Authority: CN
Inventors: 陈敏; 魏瑞晖; 陈猛; 戴九松; 郭国良; 郑军妹
Original assignee: Ningbo Fotile Kitchen Ware Co Ltd
Current assignee: Ningbo Fotile Kitchen Ware Co Ltd
Priority date: 2022-09-30
Filing date: 2022-09-30
Publication date: 2023-01-17
Anticipated expiration: 2032-09-30

Abstract

The utility model discloses an integrated water tank, including the cabinet body (1) that the top has mesa (11), basin (2) and cleaning machine (3), water softener (4) and electrolytic water generating device (5) in locating the cabinet body (1) under mesa (11) are located to the main part, its characterized in that: the electrolyzed water generating device (5) comprises an electrolytic tank (51), and an anode chamber (5111) and a cathode chamber (5112) are arranged inside the electrolytic tank; an electrolyte tank (52) for storing a sodium carbonate solution; and an electrolytic water tank (53) for storing electrolytic water; the cleaning machine (3) is provided with a soft water inlet, and the water outlet end of the water softener (4) is communicated with the liquid inlet end of the cathode chamber (5112) and the soft water inlet of the cleaning machine (3) in a fluid mode. Compared with the prior art, the integrated water tank of the utility model can avoid the deposition of water scale in the electrolytic bath, has simplified structure and low cost.

Description

Integrated water tank

Technical Field

The utility model relates to a kitchen equipment technical field specifically indicates an integrated basin.

Background

Current integrated sinks integrate a variety of products that are spatially or functionally associated with the sink, including cleaning machines, water purifiers, kitchen waste disposers, kitchen utensil sanitizers, electrolyzed water generating devices, and the like.

For example, a utility model patent of multifunctional intelligent integrated sink with patent application number of CN201721005040.0 (publication number of CN 207109957U) discloses a multifunctional intelligent integrated sink, which comprises a sink body, and a top-open type dish washer, a water purifying device, an electrolytic water sterilizing device and an ultrasonic device which are arranged on the sink body; the water tank body at least consists of two integrally formed sub-water tanks. The integrated water tank can almost cover all functions of kitchen water, and can effectively meet various requirements of people.

In order to avoid scale deposits, dishwashers are generally equipped with a water softener for softening the incoming tap water and reducing the water hardness, which typically has a resin chamber and a salt chamber, which operate on the basis of an ion exchange resin for removing hardness components such as Ca from the water body ²⁺ 、Mg ²⁺ The plasma is replaced and removed to achieve the purpose of softening hard water, so that the scale and the harm brought by the scale generated inside the dish washing machine are reduced, and the service life of the dish washing machine is effectively prolonged. In the above process, when the exchange ions on the resin are all changed into calcium and magnesium, the conversion effect of the resin is saturated, the conversion capability will be ineffective, and at this time, the calcium and magnesium ions need to be regenerated and replaced by sodium ions. In the regeneration process, the brine flows through the resin cavity and reacts with the resin in the resin cavity to replace calcium and magnesium ions with sodium ions, so that the soft water capacity of the resin is recovered. Specifically, refer to patent application No. CN202110869770.X (publication No. CN 113440082A) for a dishwasher with water softener.

The electrolytic water is used as a new kitchen cleaning means, and the electrolytic tank consists of a tank body, an anode and a cathode, and an anode chamber and a cathode chamber are mostly separated by an ion exchange membrane (also called a diaphragm). The electrolytic bath is divided into three types, namely an aqueous solution electrolytic bath, a molten salt electrolytic bath and a non-aqueous solution electrolytic bath according to the difference of the electrolyte. When direct current passes through the electrolytic cell, an oxidation reaction occurs at the interface between the anode and the solution, and a reduction reaction occurs at the interface between the cathode and the solution, to produce electrolyzed water. For example, in the chinese patent application No. CN201810264395.4 (publication No. CN108609693 a), a method for preparing acidic water and alkaline water uses electrolysis of salt solution to form cations and anions, which move to two electrodes of an electrolysis electrode, respectively, hydrogen ions and chlorine gas with high activity are generated from an anode, the chlorine gas is dissolved in water to generate hypochlorous acid and a hydrochloric acid solution as acidic water, and hydroxide ions and hydrogen gas are generated from a cathode to form a sodium hydroxide solution as alkaline water.

However, in the case of the above-mentioned electrolytic cell, OH formed at the cathode (negative electrode) during electrolysis ^- Will react with Ca in water ²⁺ 、Mg ²⁺ Scale is generated by the reaction and is deposited on the cathode and the ion exchange membrane, which influences the electrolysis effect and the service life of the electrolytic cell.

In addition, in the existing integrated water tank, the components are only integrated together in physical space, and the functions of the components are not related to each other.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the first technical problem of providing an integrated water tank capable of avoiding scale deposition in an electrolytic tank aiming at the current situation of the prior art.

The second technical problem to be solved by the utility model is to provide an integrated sink with simplified structure and low cost.

The utility model provides a technical scheme that above-mentioned first and second technical problem adopted is: the utility model provides an integrated basin, includes that the top has the cabinet body of mesa, the basin of main part below the mesa and locate internal cleaning machine, water softener and the brineelectrolysis generating device of cabinet, its characterized in that: the electrolyzed water generating device comprises

The electrolytic cell is internally provided with an anode chamber and a cathode chamber, and each anode chamber and each cathode chamber are provided with a liquid inlet end and a liquid outlet end;

an electrolyte tank for storing a sodium carbonate solution having a liquid outlet end in fluid communication with the liquid inlet end of the anode chamber; and

the electrolytic water tank is used for storing electrolytic water and is provided with a liquid inlet end, and the liquid outlet end of the cathode chamber is in fluid communication with the liquid inlet end of the electrolytic water tank;

the cleaning machine is provided with a soft water inlet, and the water outlet end of the water softener is in fluid communication with the liquid inlet end of the cathode chamber and the soft water inlet of the cleaning machine.

In order to improve the utilization rate of the electrolyte, the electrolyte tank is also provided with a liquid return end, and the liquid outlet end of the anode chamber is in fluid communication with the liquid return end of the electrolyte tank.

In order to automatically realize the supply of electrolyte, the liquid outlet end of the electrolyte tank is communicated with the liquid inlet end of the anode chamber through a liquid supply pipe, the liquid outlet end of the anode chamber is communicated with the liquid return end of the electrolyte tank through a liquid return pipe, and the liquid supply pipe or the liquid return pipe is provided with a first delivery pump.

In order to facilitate the discharge of the gases produced in the cathode chamber, the top of the electrolyte tank has an air vent.

In order to facilitate the preparation of the electrolyte, the electrolyte tank is provided with an electrolyte feeding end and a water inlet end, and the water outlet end of the water softener is in fluid communication with the water inlet end of the electrolyte tank.

In order to realize the supply of soft water automatically, the play water end of water softener is through first hose intercommunication the feed liquor end of cathode chamber to through the second hose intercommunication the end of intaking of electrolyte tank, first hose and second hose all have into water section and play water section to the same section of intaking of sharing, install the second delivery pump in this section of intaking.

In order to realize the preparation of the electrolyzed water, the electrolytic cell comprises

A trough body;

the diaphragm is arranged in the tank body and divides the inner cavity of the tank body into the anode chamber and the cathode chamber;

the anode sheet is arranged in the anode chamber; and

the cathode plate is arranged in the cathode chamber.

In order to facilitate the user to take and use the electrolyzed water, the table board is provided with an electrolysis water faucet, the electrolysis water tank is provided with a liquid outlet end, and the liquid outlet end is in fluid communication with the water inlet end of the electrolysis water faucet.

In order to facilitate the use of electrolyzed water for cleaning the articles in the water tank, the water outlet end of the electrolyzed water faucet is opened towards the top of the water tank.

In order to improve the washing effect of the washing machine, the washing machine is provided with an electrolyzed water inlet, and the electrolyzed water tank is provided with a liquid outlet end which is communicated with the electrolyzed water inlet of the washing machine in a fluid mode.

Compared with the prior art, the utility model has the advantages of:

(1) The soft water is supplied into the cathode chamber of the electrolytic cell after the tap water is softened by the water softener, so that the scale deposition in the electrolytic cell can be avoided;

(2) Through with the brineelectrolysis generating device and the sharing water softener of cleaning machine, the water softener can supply soft water to the cleaning machine, can supply electrolyte to the brineelectrolysis generating device again, above-mentioned scheme structure is simplified and with low costs.

Drawings

Fig. 1 is a schematic perspective view of an integrated water tank according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of FIG. 1 in another direction;

FIG. 3 is a schematic structural view of the integrated water tank of FIG. 2;

FIG. 4 is a schematic perspective view of the washer and the water softener of FIG. 2;

FIG. 5 is a schematic perspective view of the electrolyzed water forming apparatus shown in FIG. 2;

fig. 6 is a schematic perspective view of fig. 5 in another direction.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 6, it is a preferred embodiment of the integrated sink of the present invention. The integrated water tank comprises a tank body 1, a water tank 2, a cleaning machine 3, a water softener 4 and an electrolyzed water generating device 5.

Wherein, the top of the cabinet 1 has a table 11, the table 11 is provided with an electrolysis water tap 111, the electrolysis water tap 111 has a water inlet end and a water outlet end, and the water outlet end of the electrolysis water tap 111 faces the top opening of the water tank 2.

The water tank 2 is embedded on the table-board 11, and the main body of the water tank is arranged below the table-board 11.

A washer 3 is located in the cabinet 1 for washing dishes waiting for washing, the washer 3 having a soft water inlet and an electrolyzed water inlet. In the present embodiment, as shown in fig. 4, the side of the washer 3 has a water inlet disk 31, and the water inlet disk 31 has a tap water passage, a first soft water passage and a second soft water passage inside, each having an inlet end and an outlet end, the inlet end of the tap water passage being communicated with the tap water pipe through a tap water pipe 311, and the outlet end of the second soft water passage being connected with the soft water inlet of the washer 3.

The water softener 4 is located the cabinet body 1, installs in the bottom of cleaning machine 3, and water softener 4 has into water end and goes out the water end, and the end of intaking of water softener 4 is connected with the exit end of the running water passageway of the dish 31 of intaking, and the play water end of water softener 4 is connected with the entry end of the first soft water passageway of the dish 31 of intaking.

The electrolytic water generating device 5 is arranged in the cabinet 1 and is arranged in parallel with the cleaning machine 3. As shown in fig. 5 and 6, the electrolyzed water forming apparatus 5 includes an electrolytic bath 51, an electrolytic solution tank 52, and an electrolytic water tank 53.

The electrolytic cell 51 includes a cell body 511, a separator 512, an anode sheet 513 and a cathode sheet 514. Specifically, the diaphragm 512 is a cation exchange membrane, and the number of the diaphragm is one, and the diaphragm is vertically arranged in the tank body 511, so as to divide the inner cavity of the tank body 511 into an anode chamber 5111 and a cathode chamber 5112 which are independent from each other, each of the anode chamber 5111 and the cathode chamber 5112 has a liquid inlet end and a liquid outlet end, and the liquid inlet end and the liquid outlet end are respectively located at the lower part and the upper part of the tank body 511; the anode sheet 513 is arranged in the anode chamber 5111; the cathode plate 514 is within the cathode chamber 5112.

The electrolyte tank 52 is used for storing sodium carbonate solution, the top of the electrolyte tank is provided with an electrolyte feeding end 521, a water inlet end and an air escape opening 522, the lower part of the electrolyte tank is provided with a liquid outlet end and a liquid return end, the liquid outlet end of the electrolyte tank 52 is communicated with the liquid inlet end of the anode chamber 5111 through a liquid supply pipe 5201, the liquid outlet end of the anode chamber 5111 is communicated with the liquid return end of the electrolyte tank 52 through a liquid return pipe 5202, and a first delivery pump 5203 for delivering fluid from the inlet to the outlet of the liquid supply pipe 5201 is installed on the liquid supply pipe 5201.

The electrolytic water tank 53 is used for storing electrolytic water, and has a liquid inlet end and two liquid outlet ends, the liquid outlet end of the cathode chamber 5112 is communicated with the liquid inlet end of the electrolytic water tank 53 through a liquid outlet pipe 531, one of the liquid outlet ends of the electrolytic water tank 53 is communicated with the water inlet end of the electrolytic water faucet 111 through a first electrolytic water pipe 532, the other liquid outlet end is communicated with the electrolytic water inlet of the cleaning machine 3 through a second electrolytic water pipe 533, the first electrolytic water pipe 532 is provided with a third delivery pump 534 for delivering fluid from the inlet to the outlet of the first electrolytic water pipe 532, and the second electrolytic water pipe 533 is provided with a fourth delivery pump (not shown in the figure) for delivering fluid from the inlet to the outlet of the second electrolytic water pipe 533.

In addition, the outlet end 312 of the first soft water channel of the water inlet disc 31 is communicated with the inlet end of the cathode chamber 5112 through the first soft water pipe 41, is communicated with the inlet end of the electrolyte tank 52 through the second soft water pipe 42, and is communicated with the inlet end 313 of the second soft water channel through the third soft water pipe 43, the first soft water pipe 41 and the second soft water pipe 42 both have a water inlet section and a water outlet section, and share the same water inlet section, the water inlet section is provided with the second delivery pump 44 for delivering the fluid from the inlet to the outlet of the water inlet section, and the first water dividing valve 45 is arranged between the water inlet section and the water outlet section of the pipeline; the common water inlet section and the third water inlet 43 of the first and second

flexible water pipes

41 and 42 have a water inlet section and a water outlet section, and both share the same water inlet section, and a second water dividing valve 46 is installed between the water inlet section and the water outlet section of the pipeline. Like this, the soft water velocity of flow that gets into cleaning machine 3 is decided by the running water velocity of flow that gets into water softener 4, and the soft water velocity of flow that gets into electrolytic water generating device 5 can be adjusted by second delivery pump 44, satisfies the different soft water quality requirement of cleaning machine 3 and electrolytic water generating device 5 respectively, guarantees the life of electrolytic water generating device 5.

The working principle of the embodiment is as follows:

(1) When it is required to supply soft water to the washer 3, the water softener 4 is started, and the soft water generated from the water softener 4 is supplied to the washer 3 through the third soft water pipe 43;

(2) When it is required to produce electrolyzed water, the water softener 4, the first delivery pump 5203 and the second delivery pump 44 are started, soft water produced by the water softener 4 is supplied to the cathode chamber 5112 and the electrolyte tank 52 through the first soft water pipe 41 and the second soft water pipe 42, respectively, an electrolyte and soft water in the electrolyte tank 52 are mixed to produce an electrolyte (a sodium carbonate solution), the sodium carbonate solution is supplied to the anode chamber 5111 through the liquid supply pipe 5201 and is returned to the electrolyte tank 52 through the liquid return pipe 5202, when direct current passes through the electrolytic bath 51, a reduction reaction occurs at the interface of the cathode sheet 514 and the solution, an oxidation reaction occurs at the interface of the anode sheet 513 and the solution, cations in the anode chamber 5111 migrate to the cathode chamber 5112 through the diaphragm 512, so that the required electrolyzed water is produced in the cathode chamber 5112, and the produced electrolyzed water is collected in the electrolyte tank 53 through the liquid outlet pipe 531;

(3) When it is required to supply the electrolyzed water to the electrolysis tap 111, the third delivery pump 534 is started, and the electrolyzed water in the electrolyzed water tank 53 is supplied to the electrolysis tap 111 through the first electrolyzed water pipe 532;

(4) When it is necessary to supply electrolytic water to the washing machine 3, the fourth delivery pump is started, and the electrolytic water in the electrolytic water tank 53 is supplied to the washing machine 3 through the second electrolytic water pipe 533.

The term "fluid communication" as used herein refers to a spatial relationship between two components or portions (hereinafter, referred to as a first portion and a second portion) in a unified manner, i.e., a fluid (gas, liquid or a mixture thereof) can flow along a flow path from the first portion or/and be transported to the second portion, and may be directly communicated between the first portion and the second portion, or indirectly communicated between the first portion and the second portion via at least one third member, which may be a fluid passage such as a pipe, a channel, a duct, a flow guide member, a hole, a groove, or a chamber allowing the fluid to flow therethrough, or a combination thereof.

Claims

1. The utility model provides an integrated water tank, including the cabinet body (1) that the top has mesa (11), basin (2) and cleaning machine (3), water softener (4) and electrolytic water generating device (5) of locating in the cabinet body (1) below mesa (11) are located to the main part, its characterized in that: the electrolyzed water generating device (5) comprises

The electrolytic cell (51) is internally provided with an anode chamber (5111) and a cathode chamber (5112), and each anode chamber (5111) and each cathode chamber (5112) are provided with a liquid inlet end and a liquid outlet end;

an electrolyte tank (52) for storing a sodium carbonate solution, having an outlet end, the outlet end of the electrolyte tank (52) being in fluid communication with the inlet end of the anode chamber (5111); and

an electrolysis water tank (53) for storing electrolysis water, having an inlet end, the outlet end of the cathode chamber (5112) being in fluid communication with the inlet end of the electrolysis water tank (53);

the cleaning machine (3) is provided with a soft water inlet, and the water outlet end of the water softener (4) is communicated with the liquid inlet end of the cathode chamber (5112) and the soft water inlet of the cleaning machine (3) in a fluid mode.

2. The integrated sink of claim 1, wherein: the electrolyte tank (52) is also provided with a liquid return end, and the liquid outlet end of the anode chamber (5111) is in fluid communication with the liquid return end of the electrolyte tank (52).

3. The integrated sink of claim 2, wherein: the liquid outlet end of the electrolyte tank (52) is communicated with the liquid inlet end of the anode chamber (5111) through a liquid supply pipe (5201), the liquid outlet end of the anode chamber (5111) is communicated with the liquid return end of the electrolyte tank (52) through a liquid return pipe (5202), and a first conveying pump (5203) is arranged on the liquid supply pipe (5201) or the liquid return pipe (5202).

4. The integrated sink of claim 2, wherein: the top of the electrolyte tank (52) has an air vent (522).

5. The integrated sink of claim 1, wherein: the electrolyte tank (52) is provided with an electrolyte feeding end (521) and a water inlet end, and the water outlet end of the water softener (4) is in fluid communication with the water inlet end of the electrolyte tank (52).

6. The integrated sink of claim 5, wherein: the water softener's (4) play water end is through first hose (41) intercommunication the feed liquor end of cathode chamber (5112) to through second hose (42) intercommunication the end of intaking of electrolyte case (52), first hose (41) and second hose (42) all have into water section and play water section to the same section of intaking of sharing, install second delivery pump (44) on this section of intaking.

7. The integrated sink of claim 1, wherein: the electrolytic tank (51) comprises

A tank body (511);

a diaphragm (512) provided in the housing (511) and dividing an inner chamber of the housing (511) into the anode chamber (5111) and the cathode chamber (5112);

an anode sheet (513) provided in the anode chamber (5111); and

and a cathode sheet (514) disposed in the cathode chamber (5112).

8. The integrated sink according to any one of claims 1 to 7, wherein: the electrolytic water faucet (111) is arranged on the table board (11), the electrolytic water tank (53) is provided with a liquid outlet end, and the liquid outlet end is in fluid communication with the water inlet end of the electrolytic water faucet (111).

9. The integrated sink of claim 8, wherein: the water outlet end of the electrolysis faucet (111) faces the top opening of the water tank (2).

10. The integrated sink according to any one of claims 1 to 7, wherein: the cleaning machine (3) is provided with an electrolyzed water inlet, and the electrolyzed water tank (53) is provided with a liquid outlet end which is communicated with the electrolyzed water inlet of the cleaning machine (3).