CN112281181A - Dishwasher sterilization system - Google Patents

Abstract

The present invention provides a sterilization system of a dishwasher, comprising: an electrolysis device having an electrolysis inlet and an electrolysis outlet; the solute supply device is suitable for containing a solute and is provided with a liquid inlet and a liquid outlet, and the liquid outlet is communicated with the electrolysis inlet through a solution supply pipeline; a solvent supply adapted to contain a solvent and having a fluid inlet and a fluid outlet, the fluid inlet being in communication with a source of water; the fluid outlet is communicated with the electrolysis inlet through a first solvent branch and is communicated with the liquid inlet through a second solvent branch; and the valve device at least controls the connection and disconnection of the first solvent branch and the second solvent branch. The flow rate and the on-off of the first solvent branch are adjusted through the valve device, and the concentration of the solution entering the electrolysis device is adjusted together by combining the adjustment of the concentration of the solution in the solute supply device, so that the concentration of the solution entering the electrolysis device is ensured to be the required concentration, and a better electrolysis effect is obtained.

Description

Dishwasher sterilization system

Technical Field

The invention relates to the technical field of household appliances, in particular to a sterilization system of a dish washing machine.

Background

With the improvement of living standard, the requirements of people on the sanitation and safety of tableware, food materials and the like are higher and higher. The washing of tableware and food materials usually comprises soaking and washing, and sterilization is carried out by means of high temperature or ozone, so as to achieve the effects of washing, pesticide removal, hormone removal and fresh keeping. However, high temperatures can cause damage to some dishes or food materials, ozone can destroy food material nutrition, and treatment and absorption of residual ozone is also a concern.

Therefore, the existing dish washing machine comprises a micro-electrolysis disinfection device, a water softener and an inner container, wherein an external water inlet pipeline of the dish washing machine is connected to the water inlet end of the water softener, the water outlet of the water softener is connected with a water storage cavity, the micro-electrolysis disinfection device is arranged in the water storage cavity, and the water storage cavity is connected with the water inlet of the inner container. In the dish washer, the micro-electrolysis disinfection device electrolyzes the softened water to obtain the disinfection water, so that the tableware, the food materials and the like are disinfected and sterilized.

Although the dishwasher can obtain the sterilized water through electrolysis to realize sterilization, the related technology of how to ensure that the concentration of the solution entering the electrolysis device is the required concentration is not involved, and if the concentration entering the electrolysis device is not the required concentration, namely, is too concentrated or too dilute, the electrolysis effect is influenced.

Disclosure of Invention

Therefore, the technical problem to be solved by the present invention is to provide a dishwasher sterilization system capable of adjusting the concentration of a solution entering an electrolysis device as required.

The present invention provides a sterilization system of a dishwasher, comprising:

an electrolysis device having an electrolysis inlet and an electrolysis outlet;

the solute supply device is suitable for containing a solute and is provided with a liquid inlet and a liquid outlet, and the liquid outlet is communicated with the electrolysis inlet through a solution supply pipeline;

a solvent supply adapted to contain a solvent and having a fluid inlet and a fluid outlet, the fluid inlet being in communication with a source of water; the fluid outlet is communicated with the electrolysis inlet through a first solvent branch and is communicated with the liquid inlet through a second solvent branch;

and the valve device at least controls the connection and disconnection of the first solvent branch and the second solvent branch.

The valve device comprises a first valve arranged on the first solvent branch and used for controlling the on-off of the first solvent branch, and a second valve arranged on the second solvent branch and used for controlling the on-off of the second solvent branch.

And a first flow detection device is also arranged on the second solvent branch.

The valve device also comprises a third valve which is arranged on the solution supply pipeline and is used for controlling the on-off of the solution supply pipeline.

The solute is salt, and the solute supply device is a first salt cavity.

The solvent is soft water.

The solvent supply device includes:

the soft water cavity is provided with a soft water preparation layer, the fluid inlet and the fluid outlet;

and the reducing substance storage cavity is communicated with the soft water cavity and is suitable for containing reducing substances for reducing the soft water preparation layer.

The soft water preparation layer is a resin layer, the reducing substance is salt, and the reducing substance storage cavity is a second salt cavity.

The reducing substance reservoir is provided between the soft water chamber and the solute supply device.

The fluid outlet is connected with the main solvent path, and one end of the main solvent path is connected with the fluid outlet;

one end of the first solvent branch is connected with the solution supply pipeline, and the other end of the first solvent branch is connected with the other end of the solvent main pipeline;

one end of the second solvent branch is connected with the liquid inlet, and the other end of the second solvent branch is connected with the other end of the solvent main path.

The device also comprises an electrolysis output pipeline and a solvent output pipeline; the electrolysis output pipeline is communicated with the electrolysis outlet; one end of the solvent output pipeline is connected with the first solvent branch, and the other end of the solvent output pipeline is connected with the electrolysis output pipeline.

Further comprising:

the concentration detection device is arranged in the solute supply device and used for detecting the concentration of the solution in the solute supply device and sending concentration information;

the first control device comprises a calculation module and a control module, wherein the calculation module receives the concentration information, calculates the flow of the solvent which needs to flow into the electrolysis device through the first solvent branch according to the concentration information, and outputs second flow information; and the control module controls the on-off of the valve device according to the second flow information.

Further comprising:

a breather disposed upstream of the fluid inlet;

the second flow detection device is arranged in the respirator and is used for detecting the flow of the water entering the fluid inlet and sending out second flow information;

and the second control device receives the second flow information and controls the water source to stop supplying when the second flow information reaches the preset water inflow.

The technical scheme of the invention has the following effects:

1. the present invention provides a sterilization system of a dishwasher, comprising: an electrolysis device having an electrolysis inlet and an electrolysis outlet; the solute supply device is suitable for containing a solute and is provided with a liquid inlet and a liquid outlet, and the liquid outlet is communicated with the electrolysis inlet through a solution supply pipeline; a solvent supply adapted to contain a solvent and having a fluid inlet and a fluid outlet, the fluid inlet being in communication with a source of water; the fluid outlet is communicated with the electrolysis inlet through a first solvent branch and is communicated with the liquid inlet through a second solvent branch; and the valve device at least controls the connection and disconnection of the first solvent branch and the second solvent branch. By communicating the second solvent branch with the liquid inlet, the amount of the solvent entering the solute supplying device can be controlled as required, and the concentration of the solution in the solute supplying device can be adjusted; meanwhile, the first solvent branch is communicated with the electrolysis inlet, the flow rate and the on-off of the first solvent branch can be adjusted through the valve device, the concentration of the solution entering the electrolysis device is adjusted jointly by adjusting the concentration of the solution in the solute supply device, and therefore the concentration of the solution entering the electrolysis device is ensured to be the required concentration, and a better electrolysis effect is obtained.

2. The invention provides a sterilization system of a dish washing machine, which also comprises a main solvent path, an electrolysis output pipeline and a solvent output pipeline; the electrolysis output pipeline is communicated with the electrolysis outlet; one end of the solvent output pipeline is connected with the first solvent branch, and the other end of the solvent output pipeline is connected with the electrolysis output pipeline. Therefore, the electrolyzed sterilizing water can be supplied to the inside of the dish washer so as to sterilize and disinfect the inside of the dish washer.

3. The invention provides a disinfection system of a dish washing machine, comprising a concentration detection device, a concentration detection device and a control device, wherein the concentration detection device is arranged in a solute supply device and is used for detecting the concentration of a solution in the solute supply device and sending out concentration information; the first control device comprises a calculation module and a control module, wherein the calculation module receives the concentration information, calculates the flow of the solvent which needs to flow into the electrolysis device through the first solvent branch according to the concentration information, and outputs second flow information; and the control module controls the on-off of the valve device according to the second flow information. Therefore, the concentration of the salt solution entering the electrolysis device can be flexibly and accurately adjusted, so that the concentration of the salt solution entering the electrolysis device can be in a required range.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic structural view of a sterilization system of a dishwasher according to a first embodiment of the present invention;

description of reference numerals:

1-electrolysis device, 11-electrolysis inlet, 12-electrolysis outlet, 2-solute supply device, 21-liquid inlet, 22-liquid outlet, 31-fluid inlet, 32-fluid outlet, 33-soft water cavity, 34-reduced substance storage cavity, 4-solution supply pipeline, 51-first solvent branch, 52-second solvent branch, 53-solvent main pipeline, 61-first valve, 62-second valve, 63-third valve, 7-first flow detection device, 8-electrolysis output pipeline and 9-solvent output pipeline.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In addition, the technical features involved in the different embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

As shown in fig. 1, the present embodiment provides a sterilization system of a dishwasher, including an electrolysis means 1, a solute supply means 2, a solvent supply means, and a valve means.

The electrolysis apparatus 1 has an electrolysis inlet 11 and an electrolysis outlet 12.

The solute supply means 2 is adapted to contain a solute and has a liquid inlet 21 and a liquid outlet 22, the liquid outlet 22 being in communication with the electrolysis inlet 11 via the solution supply line 4.

The solvent supply device is suitable for containing solvent and is provided with a fluid inlet 31 and a fluid outlet 32, wherein the fluid inlet 31 is communicated with a water source; the fluid outlet 32 communicates with the electrolysis inlet 11 via a first solvent branch 51 and with the inlet 21 via a second solvent branch 52. Wherein, the water source in the embodiment is urban water.

The valve arrangement comprises a first valve 61, a second valve 62 and a third valve 63. The first valve 61 is arranged on the first solvent branch 51 and used for controlling the on-off of the first solvent branch 51; the second valve 62 is arranged on the second solvent branch 52 and is used for controlling the on-off of the second solvent branch 52; the third valve 63 is disposed on the solution supply line 4, and is used for controlling the opening and closing of the third valve 63 of the solution supply line 4. The specific configuration of the first valve 61, the second valve 62, and the third valve 63 is not limited, and the first valve 61, the second valve 62, and the third valve 63 are all solenoid valves in this embodiment.

In order to control the on/off of the second solvent branch 52 more accurately, the first flow rate detecting device 7 is further disposed on the second solvent branch 52 in this embodiment.

In this embodiment, the solute is salt, the solvent is soft water, and the solute supplying device 2 is a first salt chamber. As an alternative embodiment, the salt may be replaced by another substance as the solute. As an alternative embodiment, soft water may be replaced with hard water.

The specific configuration of the solvent supply means is not limited, and in the present embodiment, the solvent supply means includes a soft water chamber 33 and a reducing substance reservoir 34.

The soft water chamber 33 is provided with a soft water preparation layer, and a fluid inlet 31 and a fluid outlet 32.

The reducing substance reservoir 34 communicates with the soft water chamber 33 and is adapted to contain a reducing substance for reducing the soft water preparation layer.

The specific form of the soft water preparation layer and the reducing substance is not limited, and the soft water preparation layer in this embodiment is a resin layer, the reducing substance is salt, and the reducing substance reservoir 34 is a second salt chamber.

By providing the reducing substance reservoir 34, the resin bed can be reduced by the salt, so that the resin bed can be reused to prepare soft water.

The specific location of the reducing substance reservoir 34 is not limited, and the reducing substance reservoir 34 in this embodiment is provided between the soft water chamber 33 and the solute supply means 2.

In this embodiment, a main solvent path 53 is further included, and one end of the main solvent path 53 is connected to the fluid outlet 32; one end of the first solvent branch 51 is connected to the solution supply line 4, and the other end is connected to the other end of the solvent main path 53; one end of the second solvent branch 52 is connected to the liquid inlet 21, and the other end is connected to the other end of the main solvent path 53.

As an alternative embodiment, the other end of the first solvent branch path 51 may be directly connected to the other end of the solvent main path 53, and the other end of the second solvent branch path 52 may be directly connected to the other end of the solvent main path 53, without providing the solvent main path 53.

The dishwasher sterilization system provided in the embodiment further comprises an electrolysis output pipeline 8 and a solvent output pipeline 9; the electrolysis output pipeline 8 is communicated with an electrolysis outlet 12; one end of the solvent output pipeline 9 is connected with the first solvent branch 51, and the other end is connected with the electrolysis output pipeline 8.

The dishwasher sterilization system provided in the present embodiment further includes a concentration detection device, a respirator, a first control device, and a second control device.

The concentration detection device is arranged in the solute supply device 2 and is used for detecting the concentration of the solution in the solute supply device 2 and sending out concentration information.

The first control device comprises a calculation module and a control module, the calculation module receives the concentration information, calculates the flow of the solvent which needs to flow into the electrolysis device 1 through the first solvent branch 51 according to the concentration information, and outputs second flow information; and the control module controls the on-off of the valve device according to the second flow information. Specifically, in the present embodiment, the control module controls the opening and closing of the first valve 61, the second valve 62, and the third valve 63 according to the second flow rate information.

A breather is provided upstream of the fluid inlet 31.

A second flow detection means is provided in the respirator for detecting the flow of water into the fluid inlet 31 and sending out second flow information.

The second control device receives the second flow information and controls the supply of the water source according to the second flow information.

When the dishwasher is used, city water enters the dishwasher and flows into the respirator firstly, the second flow detection device in the respirator detects the flow of the water entering the respirator, namely the flow of the water entering the fluid inlet 31 and discharged by the respirator, the second control device receives second flow information, and the water source stops supplying when the second flow information reaches the preset water inflow; the water introduced into the breather is introduced into the solvent supplying means through the fluid inlet 31, and softened by the resin layer in the solvent supplying means into soft water, which is then discharged to the solvent main path 53 through the fluid outlet 32, and respectively flow to the first solvent branch 51 and the second solvent branch 52, the soft water flowing to the first solvent branch 51 is introduced into the electrolysis apparatus 1 through the electrolysis inlet 11, the soft water flowing through the second solvent branch 52 is introduced into the solute supplying device 2 through the liquid inlet 21 and mixed with the salt in the solute supplying device 2 into a salt solution, meanwhile, the concentration detecting means detects the concentration of the salt solution in the solute supplying means 2 and sends concentration information, the calculation module of the first control means receives the concentration information, calculating the flow rate of the solvent which needs to flow into the electrolysis device 1 through the first solvent branch 51 according to the concentration information, and outputting second flow rate information; the control module controls the on-off of the first valve 61, the second valve 62 and the third valve 63 according to the second flow information, so that the concentration of the saline solution entering the electrolysis device 1 can be flexibly and accurately regulated, for example, the concentration of the saline solution entering the electrolysis device 1 can be in the range of 2% -7%; in the process, the on-off of the first solvent branch 51 can be controlled by the first valve 61, the flow of the second solvent branch 52 is detected by the first flow detection device 7, and the on-off of the second solvent branch 52 is controlled by the second valve 62, so that the concentration of the solution entering the electrolysis device 1 can be adjusted together, the concentration of the solution entering the electrolysis device 1 is ensured to be the required concentration, and a better electrolysis effect is obtained; then, the salt solution enters the electrolysis device 1 to be electrolyzed, and the sterilized water obtained after electrolysis enters the inner container of the dishwasher to be sterilized. Then, when the first flow detecting device 7 detects that the flow rate of the second solvent branch 52 reaches the preset flow value, the first control device controls the second valve 62 and the first valve 61 to close, and the soft water flows to the electrolysis output pipeline 8 only through the solvent output pipeline 9 for use of the dishwasher.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications of the invention may be made without departing from the spirit or scope of the invention.

Claims (13)

1. A sanitizing system for a dishwasher, comprising:

an electrolysis device (1) having an electrolysis inlet (11) and an electrolysis outlet (12);

a solute supply device (2) which is suitable for containing a solute and is provided with a liquid inlet (21) and a liquid outlet (22), wherein the liquid outlet (22) is communicated with the electrolysis inlet (11) through a solution supply pipeline (4);

a solvent supply adapted to contain a solvent, having a fluid inlet (31) and a fluid outlet (32), the fluid inlet (31) being in communication with a source of water; the fluid outlet (32) is communicated with the electrolysis inlet (11) through a first solvent branch (51) and is communicated with the liquid inlet (21) through a second solvent branch (52);

valve means controlling the switching of at least said first solvent branch (51) and said second solvent branch (52).

2. A sterilisation system for a dishwasher according to claim 1, wherein said valve means comprises a first valve (61) arranged in said first solvent branch (51) for controlling the opening and closing of said first solvent branch (51), and a second valve (62) arranged in said second solvent branch (52) for controlling the opening and closing of said second solvent branch (52).

3. A sterilisation system for a dishwasher according to claim 1, characterised in that the second solvent branch (52) is further provided with first flow detection means (7).

4. The sanitizing system for a dishwasher according to claim 1, wherein the valve means further comprises a third valve (63) provided on the solution supply line (4) for controlling the opening and closing of the solution supply line (4).

5. A sanitizing system for a dishwasher according to claim 1, wherein the solute is salt and the solute supply means (2) is a first salt chamber.

6. The dishwasher sanitizing system according to claim 1, wherein said solvent is soft water.

7. The sanitizing system for a dishwasher according to claim 5, wherein said solvent supply means comprises:

a soft water chamber (33) provided with a soft water preparation layer, the fluid inlet (31) and the fluid outlet (32);

a reducing substance reservoir (34) in communication with the soft water chamber (33) and adapted to receive a reducing substance for reducing the soft water preparation layer.

8. The sanitizing system for a dishwasher according to claim 6, wherein the soft water preparation layer is a resin layer, the reducing substance is a salt and the reducing substance reservoir (34) is a second salt chamber.

9. A disinfecting system as claimed in claim 7, characterized in that said reducing substance reservoir (34) is provided between said soft water chamber (33) and said solute supply means (2).

10. The sanitizing system for a dishwasher according to any one of claims 1 to 9, wherein,

further comprising a main solvent path (53), one end of the main solvent path (53) being connected to the fluid outlet (32);

one end of the first solvent branch (51) is connected with the solution supply pipeline (4), and the other end of the first solvent branch is connected with the other end of the solvent main pipeline (53);

one end of the second solvent branch (52) is connected with the liquid inlet (21), and the other end of the second solvent branch is connected with the other end of the solvent main path (53).

11. The sanitizing system for a dishwasher according to any one of claims 1 to 9, further comprising an electrolysis output line (8) and a solvent output line (9); the electrolysis output pipeline (8) is communicated with the electrolysis outlet (12); one end of the solvent output pipeline (9) is connected with the first solvent branch (51), and the other end of the solvent output pipeline is connected with the electrolysis output pipeline (8).

12. The sanitizing system for a dishwasher according to any one of claims 1 to 9, further comprising:

the concentration detection device is arranged in the solute supply device (2) and is used for detecting the concentration of the solution in the solute supply device (2) and sending out concentration information;

the first control device comprises a calculation module and a control module, the calculation module receives the concentration information, calculates the flow of the solvent which needs to flow into the electrolysis device (1) through the first solvent branch (51) according to the concentration information, and outputs second flow information; and the control module controls the on-off of the valve device according to the second flow information.

13. The sanitizing system for a dishwasher according to any one of claims 1 to 9, further comprising:

a breather disposed upstream of the fluid inlet (31);

the second flow detection device is arranged in the respirator and is used for detecting the flow of the water entering the fluid inlet (31) and sending out second flow information;

and the second control device receives the second flow information and controls the water source to stop supplying when the second flow information reaches the preset water inflow.

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