CN109092580B - Energy-efficient play water subassembly - Google Patents

Abstract

The invention discloses a high-efficiency energy-saving water outlet assembly, wherein a rectifying cavity is formed in the water outlet assembly, one end of the rectifying cavity is provided with a rotational flow channel for water supply flow to enter the rectifying cavity, and the other end of the rectifying cavity is provided with a water outlet; the size of the rectification cavity is gradually reduced from the rotational flow channel to the direction of the water outlet hole; and the water outlet of the rotational flow channel points to the side wall of the rectification cavity. The invention concentrates water flow through the cyclone channel, increases the flow velocity, and irradiates the side wall of the rectification cavity; the water flows along the side wall of the rectification cavity to form vortex water flow, the flow speed is further improved, when the water flows out of the water outlet hole, blasting type conical water spray is formed, the impact force during water outlet is further increased, and even in a region with low water pressure, the impact force of water outlet can be improved through the water outlet device, so that the user experience is improved.

Description

Energy-efficient play water subassembly

Technical Field

The invention relates to the field of shower equipment, in particular to an efficient and energy-saving water outlet assembly.

Background

The shower head is common shower equipment in a bathroom, and can adjust the direction and the size of water to generate different water sprays so as to meet the shower requirements of different people. The shower head presents the unique living style to us and is a continuation of the functionality of the shower head. Many brands are developing showers with various water outlet modes, and besides the most basic general water flow is used for simple and quick shower, different water flow and water quantity control are provided for additional use functions such as massage, hair washing and the like, so that each shower is comfortable in place.

However, in some areas with lower water pressure, the flow rate of the water flow in the pipeline is lower, the flow rate cannot meet the requirement, so that the water spray impact force is low and the water spray tends to sag when water is discharged, the spraying effect is lacking, and the shower experience of a user is poor.

In view of the above, the present inventors have developed and devised the present invention by intensively conceived and actively studied and improved attempts to solve various drawbacks and inconveniences caused by the above-mentioned imperfect structural design.

Disclosure of Invention

The invention aims to provide an efficient and energy-saving water outlet assembly, which can improve the speed of water flow and increase the impact force during water outlet.

In order to achieve the above object, the solution of the present invention is:

An efficient energy-saving water outlet assembly is characterized in that a rectifying cavity is formed in the water outlet assembly, a rotational flow channel for water supply flow to enter the rectifying cavity is formed at one end of the rectifying cavity, and a water outlet hole is formed at the other end of the rectifying cavity; the size of the rectification cavity is gradually reduced from the rotational flow channel to the direction of the water outlet hole; and the water outlet of the rotational flow channel points to the side wall of the rectification cavity.

The rotational flow channel extends outwards from the water inlet, and a bump is formed on the outer wall of the water outlet assembly.

The rectification cavity is formed with an inner wall which gradually tapers from top to bottom at one end close to the water outlet, and the water outlet is formed on the top surface of the inner wall.

The water outlet assembly is divided into a swirl element and a rectifying element, the rectifying cavity is formed in the rectifying element, the swirl element is movably and hermetically matched with the opening of the rectifying cavity, and the swirl channel is formed on the swirl element.

The cyclone body is movably matched with the rectifier body through a buckle connection.

The number of the swirl channels is at least one.

The number of the cyclone channels is four.

The periphery of the water outlet assembly is provided with an annular mounting groove.

The invention concentrates water flow through the cyclone channel, increases the flow velocity, and irradiates the side wall of the rectification cavity; the water flows along the side wall of the rectification cavity to form vortex water flow, the flow speed is further improved, when the water flows out of the water outlet hole, blasting type conical water spray is formed, the impact force during water outlet is further increased, and even in a region with low water pressure, the impact force of water outlet can be improved through the water outlet device, so that the user experience is improved.

In addition, the water outlet component is designed into the cyclone component and the rectifying component in a split mode, the component production is easier to achieve, and the production efficiency can be improved.

Drawings

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view of a first embodiment of the present invention;

FIG. 3 is a perspective view of a second embodiment of the present invention;

FIG. 4 is an exploded view of a second embodiment of the present invention;

fig. 5 is a cross-sectional view of a second embodiment of the present invention.

Symbol description:

1 rectifying cavity 11 arc surface 2 rotational flow channel 21 water inlet

22 Water outlet 3 water outlet hole 4 convex block 5 annular mounting groove

6 Swirl element 7 fairing element.

Detailed Description

In order to further explain the technical scheme of the invention, the invention is explained in detail by specific examples.

An efficient and energy-saving water outlet assembly is shown in fig. 1 and 2 as a first embodiment of the invention. A rectifying cavity 1 is formed in the water outlet component, a rotational flow channel 2 for water supply to flow into the rectifying cavity 1 is formed at one end of the rectifying cavity 1, a water outlet hole 3 is formed at the other end of the rectifying cavity 1, and water flows into the rectifying cavity 1 through the rotational flow channel 2 and flows out of the water outlet hole 3; the size of the rectifying cavity 1 gradually decreases from the rotational flow channel 2 to the water outlet 3; the swirl channel 2 comprises a water inlet 21 and a water outlet 22, which water outlet 22 is directed towards the side wall of the rectification chamber 1.

By the above structure, when water flows through the water inlet 21, the water flows are accumulated in the water inlet 21, so that the water pressure at the water inlet 21 is increased, and the speed of the water flow is increased; the water flow passes through the cyclone channel 2, is emitted from the water outlet 22, is excited to the side wall of the rectification cavity 1, and moves along the side wall to form vortex water flow, so that the overall speed is greatly improved; when water flows out from the water outlet hole 3, blasting type conical water spray is formed, so that water spray particles are enhanced, impact force during water outlet is increased, and user experience is improved.

The number of the cyclone channels 2 can be designed to be multiple, a plurality of water inlets are provided, and the water pressure at the water inlets can be prevented from being too high. The number of swirl passages 2 in this embodiment is four.

The cyclone channel 2 can extend outwards from the water inlet 21, and a bump 4 is formed on the outer wall of the water outlet assembly, so that the length of the cyclone channel 2 is prolonged, and further speed increasing is realized; meanwhile, the cyclone channel 2 is prolonged, and the wall thickness of the water outlet component is not increased, so that the material is saved; and the lug 4 is formed on the outer wall of the water outlet component, but does not extend towards the inside of the rectifying cavity 1, does not occupy the inner space of the rectifying cavity 1, and avoids blocking the flow of vortex water flow, thereby reducing the loss of water flow.

The inner wall of the rectifying cavity 1 near one end of the water outlet 3 is tapered from top to bottom to form an arc surface 11, and the water outlet 3 is formed at the top end of the arc surface 11. When the vortex water flows to the arc surface 11 through the side wall of the rectification cavity 1, the loss of the water flow is reduced because the arc surface 11 is a gradual change angle.

The periphery of the water outlet component is provided with an annular mounting groove 5, and the water outlet component can be fixed on the shower through the annular mounting groove 5.

As shown in fig. 3 to 5, a second embodiment of the present invention is shown. The water outlet assembly can be divided into a cyclone part 6 and a rectifying part 7, the rectifying cavity 1 is formed in the rectifying part 7, the cyclone part 6 is movably matched with the opening of the rectifying cavity 1 in a sealing way, the cyclone channel 2 is formed on the cyclone part 6, and the rest structures are the same as those of the first embodiment. Because the water outlet component is a tiny part, the internal structure is finer, the integrated structure is difficult to realize in the process of forming the rectification cavity 1, and the water outlet component is divided into the cyclone component 6 and the rectification component 7, so that the rectification cavity 1 is formed by convenient production, and the production efficiency can be improved.

The cyclone body 6 can be movably matched with the rectifier body 7 through a buckle connection mode, a threaded connection mode and the like.

The invention concentrates water flow through the cyclone channel 2 to increase the flow speed; the vortex water flow is formed through the rectification cavity 1, the flow speed is further improved, the water flows out of the water outlet hole 3 to form blasting type conical water spray, the impact force during water outlet is further increased, and even in a region with low water pressure, the impact force of water outlet can be improved through the water outlet device, so that the user experience is improved.

In addition, the water outlet component is designed into the cyclone part 6 and the rectifying part 7 in a split mode, the part production is easier to achieve, and the production efficiency can be improved.

The above examples and drawings are not intended to limit the form or form of the present invention, and any suitable variations or modifications thereof by those skilled in the art should be construed as not departing from the scope of the present invention.

Claims (6)

1. An energy-efficient play water subassembly, its characterized in that: a rectifying cavity is formed in the water outlet component, a rotational flow channel for water supply flow to enter the rectifying cavity is formed at one end of the rectifying cavity, and a water outlet hole is formed at the other end of the rectifying cavity; the size of the rectification cavity is gradually reduced from the rotational flow channel to the direction of the water outlet hole; the water outlet of the rotational flow channel points to the side wall of the rectification cavity; the rotational flow channel extends outwards from the water inlet, and a bump is formed on the outer wall of the water outlet assembly; the rectification cavity is formed with an inner wall which gradually tapers from top to bottom at one end close to the water outlet, and the water outlet is formed on the top surface of the inner wall.

2. An energy efficient water outlet assembly as defined in claim 1 wherein: the water outlet assembly is divided into a swirl element and a rectifying element, the rectifying cavity is formed in the rectifying element, the swirl element is movably and hermetically matched with the opening of the rectifying cavity, and the swirl channel is formed on the swirl element.

3. An energy efficient water outlet assembly as defined in claim 2 wherein: the cyclone body is movably matched with the rectifier body through a buckle connection.

4. An energy efficient water outlet assembly as defined in claim 1 wherein: the number of the swirl channels is at least one.

5. An energy efficient water outlet assembly as defined in claim 4 wherein: the number of the cyclone channels is four.

6. An energy efficient water outlet assembly as defined in claim 1 wherein: the periphery of the water outlet assembly is provided with an annular mounting groove.