CN209379231U - A kind of energy-efficient discharging device - Google Patents

Abstract

The utility model discloses a kind of energy-efficient discharging device, rectifying cavity is formed in the discharging device, wherein one end of rectifying cavity is formed with the swirl channel that the stream that supplies water enters rectifying cavity, and the other end of rectifying cavity is formed with apopore；The size of the rectifying cavity is gradually reduced from swirl channel to apopore direction；The water outlet of the swirl channel is directed toward the side wall of rectifying cavity.The utility model increases flow velocity, and the side wall of directive rectifying cavity by swirl channel concentrated flow；Water flow forms vortex water flow along the wall flow of rectifying cavity, further promote flow velocity, when water flow is flowed out from apopore, form the taper spray of blasting type, and then increase impact force when water outlet, even if the impact force of water outlet can be also improved by the utility model, to improve user experience in the low region of hydraulic pressure.

Description

A kind of energy-efficient discharging device

Technical field

The utility model relates to shower set fields, particularly relate to a kind of energy-efficient discharging device.

Background technique

Shower is shower set common in bathroom, and the direction of adjustable water outlet, size generate different sprays, from And meet the shower demand of different crowd.The other style life landscape that shower is shown to us, are a kind of its functional continuities.Very Much brands all have the shower of a variety of water-out manners in exploitation, except general water flow the most basic is used for simple and fast shower Outside, for additional use function, there are different water flow and water control as massaging, washing hair etc., to make each bathing all Comfortably in place.

But in the lower region of some hydraulic pressure, the flow velocity of water flow in the duct is lower, and flow velocity does not reach requirement, and causes When water outlet spray impact force it is low, be in sagging trend, lack the effect of sprinkling, user's shower experience is poor.

In view of this, the designer, which is directed in said structure design not attain, improves caused many missings and inconvenience, and Deeply design, and actively research improvement has a fling at and develops and design the utility model.

Utility model content

The purpose of this utility model is to provide a kind of energy-efficient discharging devices, can be improved the speed of water flow, increase Add impact force when water outlet.

In order to achieve the above objectives, the solution of the utility model is:

A kind of energy-efficient discharging device is formed with rectifying cavity, wherein one end shape of rectifying cavity in the discharging device At the swirl channel for having the stream that supplies water to enter rectifying cavity, the other end of rectifying cavity is formed with apopore；The size of the rectifying cavity by Swirl channel is gradually reduced to apopore direction；The water outlet of the swirl channel is directed toward the side wall of rectifying cavity.

The swirl channel is extended outwardly by water inlet, forms convex block on the outer wall of discharging device.

The rectifying cavity is formed with inner wall tapered from top to bottom in one end close to apopore, and the apopore is formed in The top surface of inner wall.

The separately formed eddy flow part of the discharging device and rectifying component, the rectifying cavity are formed in rectifying component, and eddy flow part is living Dynamic sealing cooperates the opening in rectifying cavity, and the swirl channel is formed on eddy flow part.

The eddy flow part is connected by a snap to be cooperated with rectification body activity.

The quantity of the swirl channel is at least one.

The quantity of the swirl channel is four.

The periphery of the discharging device is formed with annular mounting groove.

The utility model increases flow velocity, and the side wall of directive rectifying cavity by swirl channel concentrated flow；Water flow is along rectification The wall flow of chamber forms vortex water flow, further promotes flow velocity, when water flow is flowed out from apopore, forms the taper water of blasting type Flower, and then increase impact force when water outlet, even if the region low in hydraulic pressure, the impact of water outlet can be also improved by the utility model Power, to improve user experience.

In addition, discharging device fission is designed to eddy flow part and rectifying component, it is easier to realize in part production, Ke Yiti High efficiency.

Detailed description of the invention

Fig. 1 is the perspective view of the utility model first embodiment；

Fig. 2 is the cross-section diagram of the utility model first embodiment；

Fig. 3 is the perspective view of the utility model second embodiment；

Fig. 4 is the exploded view of the utility model second embodiment；

Fig. 5 is the cross-section diagram of the utility model second embodiment.

Symbol description:

1 rectifying cavity, 11 arc surface, 2 swirl channel, 21 water inlet

22 water outlet, 3 apopore, 4 convex block, 5 annular mounting groove

6 eddy flow part, 7 rectifying component.

Specific embodiment

In order to which the technical solution of the utility model is explained further, below by specific embodiment come to the utility model into Row elaborates.

A kind of energy-efficient discharging device is the first embodiment of the utility model as depicted in figs. 1 and 2.It is above-mentioned go out Rectifying cavity 1 is formed in water installations, wherein one end of rectifying cavity 1 is formed with the swirl channel 2 that the stream that supplies water enters rectifying cavity 1, whole The other end of stream chamber 1 is formed with apopore 3, and water flow enters rectifying cavity 1 by swirl channel 2 and flows out from apopore 3；It is above-mentioned whole The size of stream chamber 1 is gradually reduced from swirl channel 2 to 3 direction of apopore；Above-mentioned swirl channel 2 includes water inlet 21 and water outlet 22, which is directed toward the side wall of rectifying cavity 1.

By above structure, when water flow is by passing through water inlet 21, water flow is gathered in water inlet 21, causes at water inlet 21 Hydraulic pressure rises, and the speed of water flow increases；Water flow projects, lasing to the side of rectifying cavity 1 after swirl channel 2 from water outlet 22 It on wall, and moves to form vortex water flow along side wall, bulk velocity is substantially improved；Water flow from apopore 3 flow out when, The taper spray of blasting type is formed, and then enhances spray particle, increases impact force when water outlet, to improve user experience.

The quantity of above-mentioned swirl channel 2 may be designed as multiple, provide multiple water inlets, can be to avoid the hydraulic pressure of water inlet It is excessively high.The quantity of swirl channel 2 in the present embodiment is four.

Above-mentioned swirl channel 2 can be extended outwardly by water inlet 21, convex block 4 be formed on the outer wall of discharging device, to prolong The length of long swirl channel 2 realizes further speed-raising；Not only extend swirl channel 2 simultaneously, but also do not increase the wall thickness of discharging device, To save material；And convex block 4 is formed in the outer wall of discharging device, rather than to 1 internal stretch of rectifying cavity, prevent take up rectifying cavity 1 inner space avoids causing to stop to the flowing of vortex water flow, to reduce the loss of water flow.

Inner wall of the above-mentioned rectifying cavity 1 in one end close to apopore 3 is tapered from top to bottom, is formed with arc surface 11, above-mentioned Apopore 3 is formed in the top of arc surface 11.Above-mentioned vortex water flow is when the side wall Jing Guo rectifying cavity 1 flows to arc surface 11 It waits, since arc surface 11 is gradual change angle, the loss of water flow is lowered.

The periphery of above-mentioned discharging device is formed with annular mounting groove 5, and discharging device can be fixed on by annular mounting groove 5 On shower.

It as shown in Figures 3 to 5, is the second embodiment of the utility model.Above-mentioned discharging device can separately formed eddy flow part 6 With rectifying component 7, above-mentioned rectifying cavity 1 is formed in rectifying component 7, and 6 movable sealing of eddy flow part cooperates the opening in rectifying cavity 1, on It states swirl channel 2 to be formed on eddy flow part 6, remaining structure is identical with the first embodiment.Since discharging device is inherently tiny Part, internal structure is more fine, and integrated structure is relatively difficult to achieve during forming rectifying cavity 1, and by discharging device Fission is eddy flow part 6 and rectifying component 7, facilitates production to form rectifying cavity 1, production efficiency can be improved.

Above-mentioned eddy flow part 6 such as can be connected by a snap, be threadedly coupled at the modes and 7 activity of rectification body cooperates.

The utility model increases flow velocity by 2 concentrated flow of swirl channel；And vortex water flow is formed by rectifying cavity 1, into One step promotes flow velocity, and water flow is allowed to flow out from apopore 3, forms the taper spray of blasting type, and then increase impact force when water outlet, Even if the impact force of water outlet can be also improved by the utility model, to improve user experience in the low region of hydraulic pressure.

In addition, discharging device fission is designed to eddy flow part 6 and rectifying component 7, it is easier to realize in part production, it can be with Improve production efficiency.

The product form and style of above-described embodiment and schema and non-limiting the utility model, any technical field The appropriate changes or modifications that those of ordinary skill does it all should be regarded as the patent category for not departing from the utility model.

Claims (8)

1. a kind of energy-efficient discharging device, it is characterised in that: be formed with rectifying cavity in the discharging device, rectifying cavity its Middle one end is formed with the swirl channel that the stream that supplies water enters rectifying cavity, and the other end of rectifying cavity is formed with apopore；The rectifying cavity Size be gradually reduced from swirl channel to apopore direction；The water outlet of the swirl channel is directed toward the side wall of rectifying cavity.

2. a kind of energy-efficient discharging device as described in claim 1, it is characterised in that: the swirl channel is by water inlet Extend outwardly, forms convex block on the outer wall of discharging device.

3. a kind of energy-efficient discharging device as described in claim 1, it is characterised in that: the rectifying cavity is close to water outlet The one end in hole is formed with inner wall tapered from top to bottom, and the apopore is formed in the top surface of inner wall.

4. a kind of energy-efficient discharging device as described in claims 1 to 3 is any, it is characterised in that: the discharging device Separately formed eddy flow part and rectifying component, the rectifying cavity are formed in rectifying component, and eddy flow part movable sealing cooperates in rectifying cavity Opening, the swirl channel are formed on eddy flow part.

5. a kind of energy-efficient discharging device as claimed in claim 4, it is characterised in that: the eddy flow part is connected by buckle It connects and cooperates with rectification body activity.

6. a kind of energy-efficient discharging device as described in claim 1, it is characterised in that: the quantity of the swirl channel is extremely It is less one.

7. energy-efficient discharging device as claimed in claim 6 a kind of, it is characterised in that: the quantity of the swirl channel is Four.

8. a kind of energy-efficient discharging device as described in claim 1, it is characterised in that: the periphery shape of the discharging device At there is annular mounting groove.