CN219454213U - Water inlet mechanism with splash-proof structure - Google Patents

Abstract

The utility model discloses a water inlet mechanism with a splash-proof structure, which comprises a buffer cover and a buffer cavity arranged in the buffer cover, wherein when water in a water inlet pipe enters the buffer cavity through a water inlet, the inner wall of the buffer cover can block the water flowing out of the water inlet pipe, so that the water can reduce the water flow speed under the blocking of the inner wall, and then slowly flows out of a water outlet, the speed of the water flowing into a water tank is slowed down through the structure, the impact force caused when the water enters the water tank is reduced, and the water is prevented from splashing water drops when entering the water tank, so that the splash-proof effect is achieved; compared with the existing water inlet mechanism for the air conditioner, the anti-splashing structure can delay the water flow speed of water flowing into the water tank, prevent water from forming splashed water drops when entering the water tank, and then splash into the electric appliance element in the water tank, avoid the splashed water drops from generating scale on the electric appliance element, and ensure that the electric appliance element in the water tank can work normally.

Description

Water inlet mechanism with splash-proof structure

Technical Field

The utility model relates to the field of air conditioners, in particular to a water inlet mechanism with an anti-splashing structure.

Background

An air conditioner is one of tools commonly used for air conditioning by people, and a constant temperature and humidity fresh air conditioner is used as one of the air conditioners, and a humidifying module in the air conditioner can adjust the humidity in a room, so that people can be in a room with proper humidity in dry summer. The humidification mode in the constant temperature and humidity fresh air conditioner mostly adopts a wet film humidification mode, and the purpose of humidifying the room is achieved by arranging a wet film in a water tank, enabling air flowing in the air conditioner to pass through the wet film and conveying moisture in the wet film into the room. In order to ensure that enough moisture is arranged on a wet film for air transportation, a water inlet mechanism is usually arranged in a water tank for air transportation, however, the water inlet mechanism of the existing water tank is not provided with an anti-splashing structure, so that when water which flows into the water tank through the water inlet mechanism drops into the water tank, the water drops are easy to splash everywhere, the splashed water drops are easy to drop into other electrical components in the water tank, and the water drops dropping on other electrical components are easy to accumulate to form scale, so that the normal operation of the electrical components is not facilitated.

The utility model is researched and proposed for overcoming the defects of the prior art.

Disclosure of Invention

The water tank water inlet mechanism in the prior art does not have an anti-splashing structure, water flowing in from the water inlet mechanism is easy to splash everywhere in the process of dripping in the water tank in the water inlet process, and then splashes into the electrical components in the water tank, scale is easy to be generated on the electrical components, and the normal work of the electrical components is not facilitated.

The technical scheme adopted for solving the technical problems is as follows:

the utility model provides a water inlet mechanism with prevent structure of splashing, includes the water tank and locates the inlet tube in the water tank, be equipped with in the water tank and prevent the structure of splashing, prevent the structure of splashing include the buffer cover and locate buffer chamber in the buffer cover, be equipped with the water inlet that supplies the inlet tube to stretch into and supply water outlet that flows out on the buffer cover, the water inlet with the delivery port passes through buffer chamber intercommunication each other, the hydroenergy in the inlet tube enters into buffer intracavity from the water inlet, and the inner wall of buffer cover can block and make rivers velocity of flow reduce from the water that flows out of inlet tube, later follow delivery port department outflow.

In order to further ensure that the buffer cover can reduce the water flow rate, optionally, the anti-splashing structure comprises a buffer member arranged in the buffer cavity, wherein the buffer member is used for delaying the flow rate of water flowing out of the water inlet pipe.

In order to prevent water from flowing out of the buffer cover from splashing on the heating element in the water tank, preferably, a mounting opening communicated with the buffer cavity is formed in the buffer cover, the buffer cover is arranged at the bottom of the water tank, and the mounting opening is opposite to the inner wall of the water tank.

In order to prevent water drops in the buffer cover from splashing to the heating element in the water tank from the water outlet, optionally, a plurality of water blocking strips are arranged at the water outlet, and each water blocking strip is distributed at intervals and connected with two sides of the inner wall of the water outlet.

In order to further prevent water drops in the buffer cover from splashing to the heating element in the water tank through the water outlets, optionally, the number of the water outlets is two, and the water outlets are respectively positioned at two sides of the buffer cover adjacent to the inner side wall of the water tank.

In order to prevent the inlet tube from rocking inside the water tank, optionally, the structure of preventing splashing includes locating the fixed orifices at buffering cover top, the inlet tube runs through the fixed orifices with the water inlet is connected, is restricted by the fixed orifices.

In order to facilitate the installation of the buffer cover into the water tank, optionally, the splash-proof structure comprises a mounting plate arranged at the top of the buffer cover, and a first mounting hole for connecting the water tank and a second mounting hole for connecting the buffer cover are arranged on the mounting plate.

In order to facilitate quick fit between the mounting plate and the buffer cover, optionally, a positioning plate extending downwards is arranged at the bottom of the mounting plate, and when the mounting plate is connected with the buffer cover, the positioning plate is abutted to the outer wall of one side of the buffer cover.

In order to further prevent water droplets generated when water flows out of the buffer cover from splashing onto the heating element, optionally, the splash preventing structure includes a second water baffle provided in the water tank, the second water baffle being obliquely disposed at one side of the buffer cover.

In order to ensure that the second water deflector prevents water droplets generated when water flows out of the buffer hood from splashing onto the heating element, optionally the second water deflector top is higher than the top of the buffer hood.

The beneficial effects of the utility model are as follows:

1. the water inlet mechanism is provided with the anti-splashing structure, the anti-splashing structure comprises the buffer cover and the buffer cavity arranged in the buffer cover, when water in the water inlet pipe enters the buffer cavity through the water inlet, the inner wall of the buffer cover can block the water flowing out of the water inlet pipe, so that the water can reduce the water flow speed under the blocking of the inner wall, and then slowly flows out of the water outlet, the speed of the water flowing into the water tank is slowed down through the structure, the impact force caused when the water enters the water tank is reduced, and the water is prevented from splashing when entering the water tank, so that the anti-splashing effect is achieved; compared with the existing water inlet mechanism for the air conditioner, the anti-splashing structure can delay the water flow speed of water flowing into the water tank, prevent water from forming splashed water drops when entering the water tank, and then splash into the electric appliance element in the water tank, avoid the splashed water drops from generating scale on the electric appliance element, and ensure that the electric appliance element in the water tank can work normally.

2. The anti-splashing structure comprises a buffer cover and a buffer cavity arranged in the buffer cover, wherein a buffer part with a porous structure is arranged in the buffer cavity, and when water in a water inlet pipe enters the buffer cavity through a water inlet, the buffer part in the buffer cavity can block the water, so that the water flow speed is reduced, the speed of the water flowing into a water tank is reduced, the impact force caused when the water enters the water tank is reduced, and the water drops are prevented from splashing when the water enters the water tank, so that the anti-splashing effect is achieved; compared with the existing water inlet mechanism for an air conditioner, the buffer piece in the buffer cover can effectively delay the water flow speed of water flowing into the water tank, so that the phenomenon that water drops splash due to overlarge impact force when the water enters the water tank is avoided, the water drops are prevented from splashing on the electrical components to generate scale, and the electrical components in the water tank can work normally.

The utility model will be further described with reference to the drawings and detailed description.

Drawings

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

FIG. 2 is a schematic perspective view of the present utility model;

FIG. 3 is a schematic cross-sectional view of the present utility model;

FIG. 4 is a schematic view of a bumper cover and mounting plate of the present utility model;

FIG. 5 is another angular schematic view of the bumper cover and mounting plate of the present utility model.

Detailed Description

Embodiments of the present utility model will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1-5, a water inlet mechanism with a splash-proof structure comprises a water tank 1 and a water inlet pipe 2 arranged in the water tank 1, wherein the water tank 1 is internally provided with the splash-proof structure, the splash-proof structure comprises a buffer cover 3 and a buffer cavity 31 arranged in the buffer cover 3, the buffer cover 3 is provided with a water inlet 32 for the water inlet pipe 2 to extend into and a water outlet 33 for water to flow out, the water inlet 32 and the water outlet 33 are communicated with each other through the buffer cavity 31, water in the water inlet pipe 2 can enter the buffer cavity 31 from the water inlet 32, the inner wall of the buffer cover 3 can block water flowing out from the water inlet pipe 2 and reduce the flow velocity of the water, and then the water flows out from the water outlet 33; in this embodiment, the water inlet mechanism is used for feeding water to a water tank in an air conditioner, the water inlet mechanism comprises a water tank and a water inlet pipe arranged on the water tank, so that water is conveniently conveyed from outside into the water tank, in order to prevent splashed water drops from splashing onto electrical components in the water tank when the water is conveyed into the water tank, an anti-splashing structure is arranged at the output end of the water inlet pipe, the anti-splashing structure comprises a buffer cover and a buffer cavity arranged in the buffer cover, a water inlet pipe extending into the buffer cover through the water inlet and a water outlet from which the water flows out is arranged on the buffer cover, the water pipe extends into the buffer cavity through the water inlet, when the water flows out from the output end of the water inlet pipe, the water drops into the buffer cavity, at the moment, the splashed water drops are blocked by the inner wall of the buffer cover, so that the water drops cannot splash out of the buffer cover, the output end of the water pipe is staggered with the water outlet on the buffer cover, water in the water pipe cannot be directly output from the water outlet, the water needs to fall into the buffer cavity and then flow out of the water outlet, when the water falls, the water is blocked by the inner wall of the buffer cover, the water flow speed is relatively slowed down after the water is blocked, and finally flows out of the water outlet and flows into the water tank, so that the speed of the water flowing into the water tank is slowed down, the impact force caused when the water enters the water tank is further reduced, the water drops are prevented from splashing when the water enters the water tank, the anti-splashing effect is achieved, compared with the existing water inlet mechanism for an air conditioner, the anti-splashing structure can delay the water flow speed of the water flowing into the water tank, so that the water drops are prevented from splashing when the water drops enter the water tank, the water drops are prevented from splashing on electrical elements in the water tank, and the splashes are prevented from being generated on the electrical elements, resulting in the electrical components not functioning properly.

As shown in fig. 5, the splash-proof structure comprises a buffer member disposed in the buffer chamber 31, the buffer member is configured to delay the flow rate of water flowing out of the water inlet pipe 2, further, a mounting opening 311 is disposed on the buffer cover 3 and is communicated with the buffer chamber 31, the buffer cover 3 is disposed at the bottom of the water tank 1, and the mounting opening 311 is opposite to the inner wall of the water tank 1; in order to further ensure that the buffer cover can reduce the water flow speed, in the embodiment, a buffer piece for preventing splashing is arranged in the buffer cavity, the buffer piece is made of a material with a porous structure, such as a steel wire brush, a porous sponge and the like, water flowing out of the water inlet pipe is enabled to fall on the inner wall of the buffer cover after the flow speed of the water is reduced by the buffer piece, so that the water is prevented from directly falling on the inner wall of the buffer cover, the flow speed of the water drops falling on the buffer cover is reduced, and the water drops are prevented from splashing everywhere when the water drops;

furthermore, in order to prevent water from flowing out of the buffer cover and forming splashed water drops when falling on the bottom plate of the water tank, the buffer cover is arranged at the bottom of the water tank, and the splashed water drops are formed again due to the height difference between the buffer cover and the bottom plate of the water tank when water flows out of the buffer cover, and in order to facilitate the buffer piece to prevent the buffer piece from being in the buffer cavity, the buffer cover is provided with a mounting opening communicated with the buffer cavity, the buffer piece is placed in the buffer cavity through the mounting opening, and in addition, in order to prevent the water from flowing out of the mounting opening, the splashed water drops are splashed onto electrical components in the water tank, the mounting opening is opposite to the inner wall of the water tank, preferably opposite to the bottom plate of the water tank, so that the water drops are blocked by the bottom plate of the water tank when the water drops are splashed out of the mounting opening.

In some embodiments, the buffer member may be a porous structure formed by stacking a plurality of objects, for example, cobblestones are filled in the buffer cavity to form a cobblestone body with a plurality of through holes, and the cobblestones slow down the flow rate of water flowing out of the water inlet pipe, so that water drops are prevented from splashing around when the water drops.

As shown in fig. 4-5, a plurality of water blocking strips 331 are arranged at the water outlet 33, and each water blocking strip 331 is distributed at intervals and connected with two sides of the inner wall of the water outlet 33; in order to prevent water drops from splashing from the water outlet onto the electrical components in the water tank, in the embodiment, a water baffle is arranged at the water outlet, and the water drops splashed from the water outlet are blocked by the water baffle, so that the water drops are prevented from splashing from the water outlet onto the electrical components better.

As shown in fig. 4-5, the number of the water outlets 33 is two, and the water outlets are respectively positioned at two sides of the buffer cover 3 adjacent to the inner side wall of the water tank 1; in order to further prevent water drops from splashing onto the electrical components in the water tank through the water outlet, in the present embodiment, the buffer cover is preferably in a cube structure and is arranged at the corner of the bottom of the water tank, so that two side walls of the buffer cover are adjacent to two inner walls of the water tank, and therefore when the water outlet of the buffer cover is arranged, the water outlet can be arranged on two side walls adjacent to the inner walls of the water tank, so that splashed water drops can be blocked by the inner walls of the water tank even if the splashed water drops fly out from the water outlet, and the water drops are prevented from splashing onto the electrical components in the water tank through the water outlet.

As shown in fig. 2-5, the splash-proof structure comprises a mounting plate 4 arranged at the top of the buffer cover 3, a fixing hole 41 is arranged on the mounting plate 4, the water inlet pipe 2 penetrates through the fixing hole 41 and is connected with the water inlet 32, and is limited by the fixing hole 41; in this embodiment, the inlet tube adopts the hose structure, the hose is light and easy to change and overhaul, and when water flows in the hose, can cause certain effort to the hose for the hose can produce the rocking of certain range when carrying water, in order to prevent that the hose from rocking inside the water tank, be equipped with the mounting panel on the buffer housing, and be equipped with the fixed orifices that is used for fixed hose on the mounting panel, the hose runs through the fixed orifices on the mounting panel, the reconnection is to the entrance, when water flows in the hose and causes the hose to rock, the hose is stopped by the inner wall of fixed orifices, in order to avoid the hose to rock in the water tank, and then prevent that the hose from causing the interference to other electrical components in the water tank when rocking.

As shown in fig. 2-5, the mounting plate 4 is provided with a first mounting hole 42 for connecting the water tank 1 and a second mounting hole 43 for connecting the buffer cover 3; in order to facilitate the installation of the buffer cover into the water tank, in the embodiment, the water tank and the buffer cover are connected together through the mounting plate, and a first mounting hole for connecting the water tank and a second mounting hole for connecting the buffer cover are arranged on the mounting plate; during installation, the mounting plate and the buffer cover can be connected through the second mounting hole, and then the mounting plate and the buffer cover connected to the mounting plate are installed in the water tank through the first mounting hole, so that the buffer cover can be quickly installed in the water tank.

As shown in fig. 2-5, a positioning plate 44 extending downwards is arranged at the bottom of the mounting plate 4, and when the mounting plate 4 is connected with the buffer cover 3, the positioning plate 44 is abutted against the outer wall of one side of the buffer cover 3; in order to be convenient for can quick fit between mounting panel and the buffer cover, in this embodiment, the mounting panel is preferably L template, consequently can be with mounting panel quick fit for the buffer cover, is equipped with downwardly extending's locating plate in the mounting panel bottom to when the mounting panel is connected with the buffer cover, the locating plate forms location structure with one side outer wall looks butt of buffer cover, makes the mounting panel can fix a position on the buffer cover fast, the quick fit between mounting panel and the buffer cover of being convenient for.

As shown in fig. 3, the splash-proof structure comprises a second water baffle 5 arranged in the water tank 1, wherein the second water baffle 5 is obliquely arranged at one side of the buffer cover 3; further, the height a of the top of the second water baffle 5 is higher than the height B of the top of the buffer cover 3; in order to further prevent water drops generated when water flows out of the buffer cover from splashing onto the electrical components, in the embodiment, a second water baffle is arranged on one side of the buffer cover, specifically, the second water baffle is obliquely arranged, one side of the second water baffle faces the buffer cover, the other side of the second water baffle faces the electrical components, the buffer cover and the electrical components are separated through the second water baffle, water flowing out of the buffer cover is avoided, the water drops splashed onto the electrical components are splashed onto the electrical components, and furthermore, the height A of the top of the second water baffle is higher than the top height B of the buffer cover, so that water flowing out of the buffer cover is prevented from splashing onto the electrical components on the other side of the second water baffle.

The embodiments provided above in connection with the detailed description are not intended to limit the practice of the present application to such descriptions. The present application should be construed as limited by the scope of the appended claims, as long as the structure of the method is similar to that of the present application, or that of the present application can be deduced or replaced by several techniques under the premise of the conception of the present application.

Claims (10)

1. The utility model provides a water inlet mechanism with prevent structure of splashing, includes water tank (1) and locates inlet tube (2) in water tank (1), its characterized in that: be equipped with in water tank (1) and prevent splashing the structure, prevent splashing the structure including buffer cover (3) and locate buffer chamber (31) in buffer cover (3), be equipped with on buffer cover (3) and supply inlet tube (2) to stretch into water inlet (32) and delivery port (33) that supply water and flow, water inlet (32) with delivery port (33) are passed through buffer chamber (31) intercommunication each other, the hydroenergy in inlet tube (2) enters into in buffer chamber (31) from water inlet (32), and the inner wall of buffer cover (3) can block and make rivers velocity of flow reduce from the water that inlet tube (2) flows, later follow delivery port (33) and flow.

2. A water inlet mechanism with a splash guard according to claim 1, characterized in that the splash guard comprises a buffer member arranged in the buffer chamber (31) for delaying the flow rate of water out of the water inlet pipe (2).

3. The water inlet mechanism with the splash-proof structure according to claim 2, wherein the buffer cover (3) is provided with a mounting opening (311) communicated with the buffer cavity (31), the buffer cover (3) is arranged at the bottom of the water tank (1), and the mounting opening (311) is opposite to the inner wall of the water tank (1).

4. The water inlet mechanism with the splash-proof structure according to claim 1, wherein a plurality of water blocking strips (331) are arranged at the water outlet (33), and each water blocking strip (331) is distributed at intervals and is connected with two sides of the inner wall of the water outlet (33).

5. A water inlet mechanism with a splash-proof structure according to any one of claims 1 or 4, wherein the number of water outlets (33) is two, and the water outlets are respectively positioned at two sides of the buffer cover (3) adjacent to the inner side wall of the water tank (1).

6. The water inlet mechanism with the splash-proof structure according to claim 1, wherein the splash-proof structure comprises a mounting plate (4) arranged at the top of the buffer cover (3), a fixing hole (41) is formed in the mounting plate (4), and the water inlet pipe (2) penetrates through the fixing hole (41) and is connected with the water inlet (32) and is limited by the fixing hole (41).

7. The water inlet mechanism with the splash preventing structure according to claim 6, wherein the mounting plate (4) is provided with a first mounting hole (42) for connecting the water tank (1) and a second mounting hole (43) for connecting the buffer cover (3).

8. A water inlet mechanism with a splash preventing structure according to any one of claims 6 or 7, characterized in that a positioning plate (44) extending downwards is arranged at the bottom of the mounting plate (4), and when the mounting plate (4) is connected with the buffer cover (3), the positioning plate (44) is abutted against one side outer wall of the buffer cover (3).

9. A water inlet mechanism with a splash guard according to any one of claims 1 or 2, characterized in that the splash guard comprises a second water deflector (5) arranged in the water tank (1), the second water deflector (5) being arranged obliquely to one side of the buffer hood (3).

10. A water inlet mechanism with anti-splash structure according to claim 9, characterized in that the height (a) of the top of the second water deflector (5) is higher than the height (B) of the top of the buffer cap (3).