CN220089417U - Antibacterial mechanism of dish washer - Google Patents

Abstract

The utility model discloses a bacteriostasis mechanism of a dish washer, which comprises a residual water tank and a water softener, wherein the residual water tank comprises an inner cavity, a bacteriostasis block bracket is formed on the inner wall of the inner cavity, a first water-permeable bacteriostasis block is arranged on the bacteriostasis block bracket, a water inlet passage is arranged in the water softener, and a second water-permeable bacteriostasis block is arranged in the water inlet passage. Compared with the prior art, the utility model can completely hide the antibacterial effect without occupying pipelines, and the antibacterial blocks are arranged on the residual water tank and the water softener, so that the antibacterial effect is better.

Description

Antibacterial mechanism of dish washer

Technical Field

The utility model relates to a dish-washing machine, in particular to a bacteria inhibiting mechanism of the dish-washing machine.

Background

In order to play an antibacterial role, some dishwashers are provided with antibacterial modules on waterways, and related institutions refer to Chinese patent publication with publication number of CN214906542U and name of an antibacterial dishwasher, wherein:

the utility model provides an antibacterial dish washer, includes water inlet, the antibacterial module of dish washer, water inlet department is provided with the water intaking valve, water intaking valve intercommunication inner bag or through water softener intercommunication inner bag, antibacterial module is located on the water course between water intaking valve and the respirator, be provided with silver ion antibacterial agent or nontoxic antibacterial agent or zinc ion or cupric oxide on the antibacterial module, through setting up antibacterial module at the inlet end, silver ion antibacterial agent releases silver ion in water after the water flows antibacterial module, because silver ion has strong oxidability, can kill the bacterium fast for it is aseptic to intake, forms aseptic intaking, makes the washing process safer and more sanitary.

The antibacterial module is arranged on the pipeline between the water inlet valve and the respirator, and is hidden in the pipeline, so that the pipeline is not easy to arrange, and the antibacterial module is only arranged in the pipeline, so that an ideal antibacterial effect is difficult to achieve.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the antibacterial mechanism of the dish washer, which can completely hide the antibacterial effect, does not occupy pipelines and has better antibacterial effect.

In order to solve the technical problems, the utility model adopts the following technical scheme.

The utility model provides a dish washer antibacterial mechanism, its is including remaining water tank and water softener, remaining water tank is including the inner chamber, the inner wall of inner chamber is formed with antibacterial piece support, be equipped with the first antibacterial piece of permeable on the antibacterial piece support, be equipped with the passageway of intaking in the water softener, be equipped with the second antibacterial piece of permeable in the passageway of intaking.

Preferably, the bacteriostatic block bracket comprises four L-shaped blocks, and the four L-shaped blocks are respectively coated at four corners of the first bacteriostatic block.

Preferably, two limit stops are formed on the inner wall of the water inlet passage, and the two limit stops are both abutted against one end of the second bacteria inhibition block, which is used for discharging water.

Preferably, a water outlet passage is arranged in the water softener, and a third water permeable antibacterial block is arranged in the water outlet passage.

Preferably, the first bacteriostatic block, the second bacteriostatic block and the third bacteriostatic block are silver ion antibacterial modules, nontoxic antibacterial modules, zinc ion modules or copper oxide modules.

In the antibacterial mechanism of the dish washing machine disclosed by the utility model, the antibacterial block bracket is arranged in the residual water tank, the first antibacterial block is arranged on the antibacterial block bracket, when water in the residual water tank flows through the first antibacterial block, the water can fully contact with the first antibacterial block, so that the effect of full bacteriostasis is achieved, and meanwhile, the second antibacterial block is arranged in the water inlet passage of the water softener, and when water flows through the second antibacterial block, the second antibacterial block can fully contact with the water softener, so that the antibacterial function is achieved.

Drawings

FIG. 1 is a first construction view of a residual water tank and a water softener according to a first embodiment of the present utility model;

FIG. 2 is a second construction view of the residual water tank and the water softener according to the first embodiment of the present utility model;

FIG. 3 is a block diagram of a water softener according to a second embodiment of the present utility model;

fig. 4 is a partially exploded view of a water softener according to a second embodiment of the present utility model.

Detailed Description

The utility model is described in more detail below with reference to the drawings and examples.

Example 1

The embodiment provides a dish washer antibacterial mechanism, combines fig. 1 and 2 to show, and it is including remaining water tank 1 and water softener 2, remaining water tank 1 is including inner chamber 10, the inner wall of inner chamber 10 is formed with antibacterial piece support 11, be equipped with the first antibacterial piece 12 of permeable on the antibacterial piece support 11, as a preferred mode of permeating water, be equipped with a plurality of first meshes 120 that are array distribution on the first antibacterial piece 12, be equipped with water inlet passage 20 in the water softener 2, be equipped with the second antibacterial piece 21 of permeable in the water inlet passage 20, as a preferred mode of permeating water, be equipped with a plurality of second meshes 210 that are array distribution on the second antibacterial piece 21, the trompil direction of second mesh 210 with the rivers direction in the water inlet passage 20 is the same.

In the above structure, the antibacterial block support 11 is disposed in the residual water tank 1, and the first antibacterial block 12 is mounted on the antibacterial block support 11, when the water in the residual water tank 1 flows through the first antibacterial block 12, the water can fully contact with the first antibacterial block 12, so as to achieve a sufficient antibacterial effect, and meanwhile, the water softener 2 is provided with the second antibacterial block 21 in the water inlet passage 20, and when the water flows through the second antibacterial block 21, the second antibacterial block 21 can fully contact with the water softener, so that a antibacterial function is achieved.

Referring to fig. 1, in order to more reliably support and fix the first bacteriostatic block 12, in this embodiment, the bacteriostatic block bracket 11 includes four L-shaped blocks, and the four L-shaped blocks are respectively wrapped at four corners of the first bacteriostatic block 12. Specifically, the L-shaped block is integrally formed with the residual water tank 1.

Similarly, referring to fig. 2, in order to perform the resisting and limiting functions on the second bacteriostatic block 21, in this embodiment, two limit stops 200 are formed on the inner wall of the water inlet passage 20, and both limit stops 200 are abutted against the water outlet end of the second bacteriostatic block 21.

Example two

Referring to fig. 3 and fig. 4, the difference between the present embodiment and the first embodiment is that in the present embodiment, a water outlet passage 22 is provided in the water softener 2, a third water permeable bacteriostatic block 23 is provided in the water outlet passage 22, and as a preferred water permeable manner, a plurality of third meshes 230 are provided on the third bacteriostatic block 23, which are distributed in an array.

In the above two embodiments, the first antibacterial block 12, the second antibacterial block 21, and the third antibacterial block 23 are silver ion antibacterial modules, nontoxic antibacterial modules, zinc ion modules, or copper oxide modules. Taking the silver ion antibacterial module as an example, when the silver ion antibacterial module is stored in the residual water tank, the silver ion antibacterial module can be soaked in residual water, so that the antibacterial module can fully react with liquid for more time, the odor-resistant antibacterial effect of silver ions is utilized, the odor of the residual water in the residual water tank and bacteria possibly generated are reduced, and secondary pollution caused by the fact that the odor is transmitted to a water cup or an inner cavity of a dish washer through a pipeline is further avoided. On the basis, the bacteriostatic block can be arranged in the channel of the water inlet end and/or the water outlet end of the water softener as described in the first embodiment and the second embodiment.

In addition, the water permeable mode of the bacteriostatic block is not limited to the arrangement of meshes in practical application, and can be of other pore structures, so long as the bacteriostatic block has water permeable capacity, and the bacteriostatic block belongs to the protection scope of the utility model.

The above embodiments are only preferred embodiments of the present utility model, and are not intended to limit the present utility model, and modifications, equivalent substitutions or improvements made within the technical scope of the present utility model should be included in the scope of the present utility model.

Claims (5)

1. The utility model provides a dish washer antibacterial mechanism, its characterized in that, including remaining water tank (1) and water softener (2), remaining water tank (1) is including inner chamber (10), the inner wall of inner chamber (10) is formed with antibacterial piece support (11), be equipped with first antibacterial piece (12) of permeable on antibacterial piece support (11), be equipped with water inlet channel (20) in water softener (2), be equipped with second antibacterial piece (21) of permeable in water inlet channel (20).

2. A bacteriostatic mechanism for a dish-washing machine according to claim 1, characterized in that said bacteriostatic block holder (11) comprises four L-shaped blocks, which are respectively coated at the four corners of said first bacteriostatic block (12).

3. A mechanism as claimed in claim 1, wherein the inner wall of the water inlet passage (20) is formed with two limit stops (200), both limit stops (200) being abutted against the water outlet end of the second bacteria inhibiting block (21).

4. A dishwasher bacteriostatic mechanism according to claim 1, characterized in that the water softener (2) is provided with a water outlet passage (22), and the water outlet passage (22) is provided with a third bacteriostatic block (23) which is permeable.

5. A dishwasher bacteriostatic mechanism according to claim 4, characterized in that said first bacteriostatic block (12), said second bacteriostatic block (21) and said third bacteriostatic block (23) are silver ion, non-toxic, zinc ion or copper oxide modules.