CN217725887U - Shower mechanism capable of increasing flow - Google Patents

Abstract

The utility model discloses a but gondola water faucet mechanism of increase flow belongs to the gondola water faucet field, including the gondola water faucet structure, the gondola water faucet structure includes the gondola water faucet main part and sets up the water intaking valve subassembly in gondola water faucet structure one end, the inner chamber has been seted up to the inside of gondola water faucet structure, the inside of inner chamber is provided with first control valve, the top of gondola water faucet structure still is provided with the pressure boost button, the other end sealing connection of water intaking valve subassembly has shower nozzle shell and a water subassembly, after the valve shaft of first control valve is pushed down, rivers flow from first delivery port and second delivery port respectively, the restriction valve can let the flow that flows first delivery port be less than the flow of runner second delivery port, let the water pressure of the valve shaft top in the first control valve have certain backpressure, live the valve shaft rigidity and do not bounce by inside spring, the user can loosen the pressing force to the pressure boost button and needn't last to keep pressing state to the pressure boost button, in order to avoid letting the user lead to operate fatigue because of continuously exerting the pressing force to the pressure boost button because of needs.

Description

Shower mechanism capable of increasing flow

Technical Field

The utility model relates to a gondola water faucet, more specifically the utility model relates to a but gondola water faucet mechanism of increase flow.

Background

The sprinkler is also called a shower nozzle, and is a device for watering flowers, pot culture and other plants. Later, people modified it into a shower, making it a common bathroom fixture. The method is divided into the following steps: a handheld shower, a head top shower and a side shower. The shower device is used by protruding on the wall of the bath room.

When using, current gondola water faucet utilizes stainless steel shower hose to be connected with the pre-buried water pipe in the wall usually, then toggle switch thereby can spray water and use, but in the use, if when will obtain pressurized water, the user can not loosen immediately after pressing the button, must keep pressing the state to the button continuously, causes user's operation fatigue, and the result of use is unsatisfactory.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome among the prior art in the use, when will obtain pressurized water, the user can not loosen at once after pressing the button, must keep pressing down the state to the button continuously, causes user's operation fatigue, and the result of use is unsatisfactory, provides a but increase flow's gondola water faucet mechanism to not enough more than solving, facilitate the use.

In order to achieve the above purpose, the utility model provides a technical scheme does:

the utility model discloses a but gondola water faucet mechanism of increase flow, including the gondola water faucet structure, the gondola water faucet structure includes the gondola water faucet main part and sets up the water intaking valve module in gondola water faucet structure one end, and the inner chamber has been seted up to the inside of gondola water faucet structure, and the inside of inner chamber is provided with first control valve, and the top of gondola water faucet structure still is provided with the pressure boost button, and the other end sealing connection of water intaking valve module has shower nozzle shell and a water outlet assembly.

Preferably, the first control valve comprises a spring arranged in the inner cavity and a valve shaft arranged at the upper end of the spring, and a valve body is arranged at the upper end of the valve shaft.

Preferably, a pressure relief hole is formed below the water inlet valve assembly.

Preferably, the water inlet valve assembly comprises a first water outlet and a second water outlet arranged inside the water inlet valve assembly, the first water outlet is also arranged inside the water inlet valve assembly, and a second control valve is further arranged inside the water inlet valve assembly.

Preferably, a flow limiting valve is further arranged inside the water inlet valve assembly, and the flow limiting valve is located inside the first water outlet.

Preferably, under the action of the flow limiting valve inside the first water outlet, the flow passing through the first water outlet is smaller than the flow passing through the second water outlet.

Adopt the technical scheme provided by the utility model, compare with prior art, have following beneficial effect:

compared with the prior art, the beneficial effects of the utility model are as follows:

(1) The utility model discloses a but gondola water faucet mechanism of increase flow, under the normality, the valve shaft was bounce under the effect of built-in spring in the first control valve of gondola water faucet main part inside, and after intaking in the valve this moment, rivers flowed through first delivery port, after exerting external force and pushing down the pressure boost button, rivers can flow out simultaneously the back double-strand rivers of water inlet valve subassembly from first delivery port and second delivery port respectively and join, flow out the water subassembly through the second control valve to realize the increase of flow;

(2) The utility model discloses a but gondola water faucet mechanism of increase flow, after the valve shaft of first control valve is pushed down, rivers flow from first delivery port and second delivery port respectively, this current limiting valve can let the flow that flows first delivery port be less than the flow of runner second delivery port, thereby let the water pressure of valve shaft top in the first control valve have certain backpressure, and live valve shaft rigidity and do not bounce by inside spring, the user can loosen the pressing force to the pressure boost button and needn't keep the state of pressing down to the pressure boost button, in order to avoid letting the user lead to operating fatigue because of the need continuously exerts the pressing force to the pressure boost button, in the twinkling of an eye when the valve shaft of first control valve is pushed down, the air of storage in the space of valve shaft below and water intaking valve subassembly formation can be discharged by the pressure release hole fast, ensure that the pressure boost button can be easily pressed down by the user, and when guaranteeing follow-up no water pressure, the pressure boost button can be normally bounced.

Drawings

FIG. 1 is an overall structure diagram of the present invention;

fig. 2 is a schematic diagram of the pop-up state of the pressurizing button of the present invention;

FIG. 3 is a schematic view of the pressure relief hole structure of the present invention;

FIG. 4 is a schematic view of the internal structure of the connecting tube of the present invention;

fig. 5 is a schematic view of a first control valve according to the present invention;

fig. 6 is a schematic view of a second control valve according to the present invention.

In the figure: 1. a shower head structure; 11. a shower head main body; 12. a water inlet valve assembly; 121. a pressure relief vent; 122. a first water outlet; 123. a second water outlet; 124. a second control valve; 13. an inner cavity; 14. a first control valve; 141. a spring; 142. a valve shaft; 143. a valve body; 15. a boost button; 16. a flow-limiting valve; 17. a nozzle housing; 171. and a water outlet assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

For a further understanding of the present invention, reference will be made to the following detailed description taken in conjunction with the accompanying drawings.

With reference to fig. 1, the utility model discloses a but gondola water faucet mechanism of increase flow, including gondola water faucet structure 1, gondola water faucet structure 1 includes gondola water faucet main part 11 and sets up the water inlet valve subassembly 12 in gondola water faucet structure 1 one end, and inner chamber 13 has been seted up to gondola water faucet structure 1's inside, and the inside of inner chamber 13 is provided with first control valve 14, and gondola water faucet structure 1's top still is provided with the pressure boost button 15 that can control valve shaft 142, and the other end sealing connection of water inlet valve subassembly 12 has shower nozzle shell 17 and goes out water subassembly 171.

The present invention will be further described with reference to the following examples.

The first embodiment is as follows:

referring to fig. 2 to 6, the first control valve 14 includes a spring 141 disposed inside the inner cavity 13 and a valve shaft 142 disposed at an upper end of the spring 141, a valve body 143 is disposed at an upper end of the valve shaft 142, and the valve shaft 142 of the first control valve 14 is subjected to a relatively large differential pressure under different water pressures when it is bounced and pressed.

The pressure relief hole 121 is formed below the inlet valve assembly 12, and when the valve shaft 142 of the first control valve 14 is pressed down, air stored in a space formed between the lower portion of the valve shaft 142 and the inlet valve assembly 12 can be quickly discharged through the pressure relief hole 121, so that the pressurizing button 15 can be easily pressed by a user, and the pressurizing button 15 can be normally bounced when no water pressure is subsequently generated.

The inlet valve assembly 12 includes a first outlet 122 and a second outlet 123 disposed inside the inlet valve assembly 12, the first outlet 122 is also disposed inside the inlet valve assembly 12, and a second control valve 124 is further disposed inside the inlet valve assembly 12, in a normal state, the first control valve 14 inside the shower head main body 11 is bounced under the action of the built-in spring 141, at this time, after water is introduced into the valve, water flows through the first outlet 122, and after the pressurizing button 15 is pressed by applying an external force, water flows can flow out of the inlet valve assembly 12 from the first outlet 122 and the second outlet 123 simultaneously, and then two water flows join, and flow out of the outlet assembly 171 through the second control valve 124, so that the flow rate is increased.

The flow through the first water outlet 122 is smaller than the flow through the second water outlet 123 by the flow restriction valve 16 inside the first water outlet 122.

The flow restriction valve 16 is further disposed inside the inlet valve assembly 12, and the flow restriction valve 16 is located inside the first outlet 122, when the valve shaft 142 of the first control valve 14 is pressed, water flows out from the first outlet 122 and the second outlet 123 respectively, the flow restriction valve 121 can make the flow out of the first outlet 122 smaller than the flow out of the second outlet 123, so that the water pressure above the valve shaft 142 in the first control valve 14 has a certain back pressure, and the valve shaft 142 is fixed and is not bounced by the internal spring 141.

In this embodiment, in a normal state, the first control valve 14 inside the shower head main body 11 is bounced under the action of the built-in spring 141, at this time, after water is introduced into the valve, water flows through the first water outlet 122, after the pressure boost button 15 is pressed down by applying an external force, water flows can flow out of the water inlet valve assembly 12 from the first water outlet 122 and the second water outlet 123 simultaneously, and then join together, and flow through the second control valve 124 and flow out of the water outlet assembly 171, thereby increasing the flow rate, when the valve shaft 142 of the first control valve 14 is pressed down, water flows out of the first water outlet 122 and the second water outlet 123 respectively, the flow rate flowing out of the first water outlet 122 can be smaller than the flow rate flowing out of the second water outlet 123 by the flow limit valve 16, so that the water pressure above the valve shaft 142 in the first control valve 14 has a certain back pressure, and the valve shaft 142 is fixed and is not bounced by the internal spring 141, a user can release the pressing force of the pressure boost button 15 without continuously pressing the boost button, so that the pressure boost button 14 is pressed down by the pressure relief valve 14, and the pressure boost button can be easily released, and the pressure of the pressurized water can be released by the user, and the pressurized water can be easily released, and the pressurized water can be discharged from the pressurized water inlet valve assembly 12, and the pressurized water can be easily discharged.

In conclusion: the utility model discloses a but gondola water faucet mechanism of increase flow, under the normality, valve shaft 142 is bounced under built-in spring 141's effect to the inside first control valve 14 of gondola water faucet main part 11, after intaking in the valve this moment, the rivers flow through first delivery port 122, after exerting external force and pushing down pressure boost button 15, the rivers can flow out simultaneously from first delivery port 122 and second delivery port 123 simultaneously and flow into water valve subassembly 12 back double-strand rivers and join, through second control valve 124 and flow out water subassembly 171, thereby realize the increase of flow, after valve shaft 142 of first control valve 14 is pushed down, rivers flow out from first delivery port 122 and second delivery port 123 respectively, this restriction valve 16 can let the flow that flows out first delivery port 122 be less than the flow of runner second delivery port 123, thereby let the water pressure of valve shaft 142 top in the first control valve 14 have certain backpressure, and not bounce by inside spring 141 with valve shaft 142 position fixed, the user can loosen the pressurization button 15 and needn's unnecessary maintenance press down the state to the pressurization button, in order to exert the water pressure boost button 15 that the pressure boost button 15 internal pressure control can be pressed down by the pressure boost button 15 and the pressure control easily, the pressurization button 15 that the pressure boost button can be pressed down is guaranteed in the pressure control.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a but gondola water faucet mechanism of increase flow, includes gondola water faucet structure (1), its characterized in that: gondola water faucet structure (1) includes gondola water faucet main part (11) and sets up water intaking valve subassembly (12) at gondola water faucet structure (1) one end, and inner chamber (13) have been seted up to the inside of gondola water faucet structure (1), and the inside of inner chamber (13) is provided with first control valve (14), and the top of gondola water faucet structure (1) still is provided with pressure boost button (15), and the other end sealing connection of water intaking valve subassembly (12) has shower nozzle shell (17) and goes out water subassembly (171).

2. The flow rate increasing shower mechanism according to claim 1, wherein: the first control valve (14) comprises a spring (141) arranged in the inner cavity (13) and a valve shaft (142) arranged at the upper end of the spring (141), and a valve body (143) is arranged at the upper end of the valve shaft (142).

3. The shower mechanism of claim 2, wherein the flow rate is increased by: and a pressure relief hole (121) is formed below the water inlet valve component (12).

4. The shower mechanism of claim 3, wherein the flow rate is increased by: the water inlet valve assembly (12) comprises a first water outlet (122) and a second water outlet (123) arranged inside the water inlet valve assembly (12), the first water outlet (122) is also arranged inside the water inlet valve assembly (12), and a second control valve (124) is further arranged inside the water inlet valve assembly (12).

5. The shower mechanism of claim 4, wherein the flow rate is increased by: the water inlet valve assembly (12) is also internally provided with a flow limiting valve (16), and the flow limiting valve (16) is positioned inside the first water outlet (122).

6. The shower mechanism of claim 5, wherein the flow rate is increased by: under the action of the flow limiting valve (16) inside the first water outlet (122), the flow passing through the first water outlet (122) is smaller than the flow passing through the second water outlet (123).

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