CN211039881U - Low water hammer solenoid valve subassembly - Google Patents

Abstract

The utility model discloses a low water hammer solenoid valve subassembly, including water service pipe, opening and closing piece assembly and valve body assembly, the one end of water service pipe section of intaking sets up with the one end syntropy of water service pipe play water section, is equipped with the slow flow protruding portion on the water proof support of opening and closing piece assembly, the inboard direction of water section of slow flow protruding portion orientation water service pipe, and the distance between the side of slow flow protruding portion and the water service pipe inner wall increases along with the length of slow flow protruding portion, and the valve body assembly is connected with the transmission of opening and closing piece assembly, and at the in-process that seals the cutout, the space between the slow flow protruding portion that stretches into the water service pipe and the water service pipe inner wall reduces gradually for rivers can realize the velocity of flow reduction in the twinkling of an eye closing, realize buffering the closed action of case when closing, with the effect of realizing the low water hammer. Through adopting the structure of diaphragm, pressure release runner and pressure release chamber, reduced the impact force of case, the water is closed through the diaphragm and has further realized the buffering, has reduced the impact force when the valve body closes.

Description

Low water hammer solenoid valve subassembly

Technical Field

The utility model relates to a water supply valve body technical field, in particular to low water hammer solenoid valve subassembly.

Background

With the development of socioeconomic and the improvement of the technological level, the types of the daily-used water taps of the people have become diversified, including the early mechanical type to the present electronic type, so that more choices are provided for consumers.

Wherein, the water outlet device that adopts the solenoid valve structure, the break-make that realizes inside runner is taken out and inserted through the quick of the case of solenoid valve mostly, however in the solenoid valve in-service use process, in order to guarantee the high-efficient quick break-make of leading structure, the break-make case operating speed of most solenoid valves is fast, and because the size of case needs the size of adaptation runner, causes that case size and quality are generally great. When the valve body is opened and closed, the valve core with larger size works to generate very large impact force, and a buffer structure is not arranged in the structure, abnormal sound generated by impact of the valve core and the water faucet structure is very obvious, vibration generated by impact of the valve core under partial conditions can even influence a water pipe, and noise problems caused by night or people living areas are not inconstant.

SUMMERY OF THE UTILITY MODEL

Therefore, a low water hammer electromagnetic valve assembly needs to be provided to solve the problems that in the prior art, the size and the mass of a switching valve core are large, the working speed is high, and a buffer structure is lacked, so that the noise is large.

In order to achieve the aim, the inventor provides a low water hammer electromagnetic valve component which is characterized by comprising a water pipe, an opening and closing piece assembly and a valve body assembly;

the water pipe comprises a water inlet section and a water outlet section, and one end of the water inlet section of the water pipe and one end of the water outlet section of the water pipe are arranged in the same direction;

the opening and closing piece assembly comprises a water-resisting support, a slow flow protruding part is arranged on the water-resisting support and faces towards the inner side direction of a water outlet section of the water through pipe, the size of the joint of the slow flow protruding part and the water-resisting support is matched with the size of the inner wall of the water through pipe, the side edge of the slow flow protruding part is of an inclined surface structure, and the distance between the side edge of the slow flow protruding part and the inner wall of the water through pipe is increased along with the length of the slow flow protruding part;

the valve body assembly is in transmission connection with the opening and closing piece assembly and is used for driving the slow flow protruding part of the water-resisting support to extend into or draw out of the water inlet section or the water outlet section of the water through pipe.

Furthermore, the low-water-hammer electromagnetic valve component also comprises a diaphragm, a pressure relief flow passage and a pressure relief cavity;

the diaphragm is sleeved between the water-resisting support and the flow-slowing protruding part of the opening and closing piece assembly, the diaphragm is provided with a pressure relief hole, and the edge of the diaphragm is connected with the opening and closing piece assembly;

one end of the pressure relief flow passage is communicated with the water outlet section of the water service pipe, and the other end of the pressure relief flow passage is communicated with the water inlet section of the water service pipe through a pressure relief hole;

the pressure relief cavity is arranged among the water-resisting support, the membrane and the opening and closing piece assembly.

Furthermore, the pressure relief flow passage is arranged in the valve body assembly and on the water outlet section of the water through pipe.

Further, the valve core of the valve body assembly faces the pressure relief flow passage.

Furthermore, a return spring is arranged in the pressure relief cavity, and two ends of the return spring are respectively connected with the valve body assembly and the water-resisting support.

Further, the edges of the membrane are respectively embedded into the water pipe and the valve body assembly.

Furthermore, the end part of the water inlet section of the water pipe, which is parallel to the water outlet section of the water pipe, is arranged around the water outlet end of the water pipe.

Further, the slow flow protrusion is of a hollow structure.

Further, the diaphragm is of an annular structure, and an inner ring of the diaphragm is embedded between the waterproof support and the slow flow protruding portion.

Further, the slope of the tip side of the flow-slowing protrusion is greater than the slope of the root side.

Different from the prior art, the technical scheme has the following advantages: the opening and closing piece assembly is arranged on the water inlet section or the water outlet section of the water service pipe, the slow flow protruding part of the opening and closing piece assembly extends into the water service pipe, in the process of closing and cutting off, the space between the slow flow protruding part extending into the water service pipe and the inner wall of the water service pipe is gradually reduced, so that the flow speed reduction can be realized at the closing moment of water flow, the action of closing the valve core is buffered when the valve core is closed, and the effect of low water hammer is realized. Through adopting the structure of diaphragm, pressure release runner and pressure release chamber, the opening and close of pressure release runner is controlled to the case, and the pressure release chamber through with the water service pipe water pressure difference between the section of intaking, realize the drive to the opening and closing piece assembly, and then realize opening and close to the water service pipe, the size of pressure release runner is far less than the size of water service pipe, the impact force of case has been reduced, the water is closed through the diaphragm and has further been realized the buffering, impact force when having reduced the valve body and closing. When the valve core is opened, the pressure relief flow channel relieves the pressure of the water body in the pressure relief cavity, so that the opening speed of the opening and closing piece assembly is not low due to small water flow at the opening moment, and the opening speed of the valve body assembly is ensured.

Drawings

FIG. 1 is a schematic cross-sectional view of a low water hammer solenoid operated valve assembly in a water-on state according to an embodiment of the present invention;

fig. 2 is a schematic cross-sectional view of a low water hammer solenoid valve assembly in a closed position according to an embodiment of the present invention;

fig. 3 is a detailed cross-sectional view of the opening and closing member assembly according to the embodiment of the present invention;

fig. 4 is a schematic top view of the opening and closing member assembly according to the embodiment of the present invention.

Description of reference numerals:

101. a water pipe; 102. a water inlet section; 103. a water outlet section; 104. fixing threads;

201. a closure assembly; 202. a water-isolating bracket; 203. a slow flow protrusion; 204. a membrane;

301. a valve body assembly; 302. a valve core;

401. a pressure relief flow passage;

501. a pressure relief cavity; 502. a return spring.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to 4, the present embodiment discloses a low water hammer solenoid valve assembly, which includes a water pipe 101, an opening/closing member assembly 201, a valve body assembly 301, a pressure relief flow passage 401 and a pressure relief cavity 501. The water pipe 101 comprises a water inlet section 102 and a water outlet section 103, wherein one end of the water inlet section 102 facing the opening and closing member assembly 201 and one end of the water outlet section 103 facing the opening and closing member assembly 201 are arranged in parallel, and the ends are flush with the contact surface of the opening and closing member assembly 201. Be equipped with the protruding portion 203 that slows down on the water proof support 202 of opening and closing member assembly 201, the directional play water section 103 of the protruding portion 203 that slows down, diaphragm 204 is the loop configuration, and the cover is located between water proof support 202 and the protruding portion 203 that slows down, the one side of diaphragm 204 is towards the section 102 and the play water section 103 tip of intaking of water service pipe 101, it is fixed in edge embedding valve body assembly 301 and the water service pipe 101 of diaphragm 204, be equipped with the pressure release hole on the diaphragm 204, the pressure release hole sets up in the one end of diaphragm 204 towards the section 102 of intaking, be equipped with the space that switches on with diaphragm 204 pressure release hole on the lid of water proof support 202. A pressure relief cavity 501 is formed by enclosing the membrane 301, the water stop support 202 and the valve body assembly 301, the pressure relief cavity 501 is communicated with the water inlet section 103 of the water service pipe 101 through a pressure relief hole of the membrane 204, the valve body assembly 301 comprises a valve core 302, the pressure relief flow passage 401 is arranged on the valve body assembly 301 and the water outlet section 103 of the water service pipe 101, the pressure relief flow passage 401 on the water outlet section 103 of the water service pipe 101 is communicated with the pressure relief flow passage 401 in the valve body assembly 301, and the valve core 302 of the valve body assembly 301 faces the pressure relief flow passage 401 on the valve body assembly 301.

According to the structure, in the working process of the low-water-hammer electromagnetic valve component, when the low-water-hammer electromagnetic valve component needs to be communicated to enable water flow to be conveyed, the valve core is driven by the valve body assembly to work, the valve core is pulled away from the valve core on the valve body assembly, the valve core leaves the pressure relief flow passage of the valve body assembly to enable the water flow in the pressure relief flow passage to flow again, water in the pressure relief cavity flows away towards the pressure relief flow passage, the pressure in the cavity is reduced, the water in the water inlet section of the water pipe pushes the opening and closing component assembly, the diaphragm which is originally in a state without external force application is pushed due to pressure difference to generate deformation, the slow flow protruding part begins to leave the water outlet section of the water pipe, in the leaving process, the water introduced into the pressure relief flow passage and the water between the slow flow protruding part and the water outlet section of the water pipe at the opening moment ensure the water flow at the opening moment, the flow resistance, the opening speed of the valve body assembly is ensured.

When the assembly needs to perform the cutoff operation, the valve body assembly is started to work, so that the valve core moves towards the pressure relief flow channel on the valve body assembly, and finally the pressure relief flow channel on the valve body assembly is sealed. After the pressure relief flow channel is closed, water flow continues to flow into the pressure relief flow channel, water pressure in a section area from the valve core to the pressure relief cavity and water pressure in the water inlet section begin to recover, after the water pressure in the pressure relief cavity and the water inlet section of the water service pipe are balanced, the diaphragm falls down through self deformation recovery force, and the water-resisting support and the flow relief protruding portion of the opening and closing piece assembly move towards the water outlet section of the water service pipe. In the moving process, the slow flow protruding portion extends into the water outlet section of the water service pipe, the space between the inclined surface structure of the slow flow protruding portion and the inner wall of the water outlet section of the water service pipe is gradually reduced, the flow of water is gradually reduced, the flow speed of the water flow is reduced before the water flow is completely closed, the effect of a low water hammer is generated, the size of a pressure relief flow channel is far smaller than that of the water service pipe, and the impact force of the low water hammer electromagnetic valve component when the low water hammer electromagnetic valve component is closed is reduced by matching with the buffering of a valve core and a membrane with.

Referring to fig. 3, in some preferred embodiments, a return spring 502 is disposed in the pressure relief cavity 501, and two ends of the return spring 502 are respectively connected to the valve body assembly 301 and the water blocking bracket 202 of the opening and closing member assembly 201. Through setting up reset spring for the in-process that the opening and closing member assembly was prepared to close at preparation equilibrium pressure can assist opening and closing member assembly to water service pipe play water section tip through reset spring's elasticity and remove, improves the efficiency of closing.

In the above embodiment, the default shape adopted by the diaphragm is the shape in the closed state, and the diaphragm structure is deformed in the open state to generate resilience force to match with the pressure difference between the pressure relief cavity and the water outlet section to start balancing to realize closing.

Referring to fig. 3, a variable U-shaped structure may be provided between the nesting region of the valve body assembly 301 of the diaphragm 204 and the water pipe 101 and between the water blocking bracket 202 and the flow buffering protrusion 203 of the opening and closing member assembly 201, and sealing in a moving state is achieved by deformation of the U-shaped structure.

Referring to fig. 3, in some preferred embodiments, the annular rim of the diaphragm 204 is embedded in the water pipe 101 and the valve body assembly 301, so that the diaphragm is fixed during assembly and the sealing performance of the whole structure is ensured.

Referring to FIG. 3, in certain preferred embodiments, the end of the inlet section 102 of the tube 101 parallel to the outlet section 103 of the tube 101 is positioned around the end of the outlet section 103. The water inlet section of the water service pipe is arranged around the end part of the water outlet section of the water service pipe, so that water inlet operation can be carried out in the surrounding area, a water body can conveniently enter the water outlet section from the periphery of the end part of the water outlet section of the water service pipe, and the flowing efficiency during water service is improved. In other embodiments, the water inlet section and the water outlet section can be arranged in parallel, and water is fed from one side of the water outlet section close to the water inlet section, so that the structure of the water pipe is simplified.

Referring to fig. 3, in some preferred embodiments, the slow flow protrusion 203 is a hollow structure, so that the slow flow protrusion is hollow, which can save materials, reduce cost, further reduce the weight of the shutter assembly, and facilitate the movement of the shutter assembly.

Here, we will explain the positional limitations of the "tip", "root" and side of the flow-slowing protrusion, where the "tip" is the portion of the conical head of the flow-slowing protrusion facing the outlet section of the water pipe, and the "root" is the portion at the other end of the "tip" of the flow-slowing protrusion, where the flow-slowing protrusion is connected to the water-stop bracket, and the "side" of the flow-slowing protrusion is the portion between the "tip" and the "root" of the flow-slowing protrusion facing the inner wall of the outlet section of the water pipe.

Referring to fig. 3, in the above embodiment, the slope of the top side of the slow flow protrusion 203 is greater than the slope of the bottom side of the slow flow protrusion 203, i.e. the slope of the top side of the slow flow protrusion 203 is closer to the vertical direction of the water-stop support than the slope of the bottom side of the slow flow protrusion.

Referring to fig. 3 and 4, in the above embodiment, the membrane 204 is of an annular structure and is nested between the water stop support 202 and the slow flow protrusion 203 of the shutter assembly 201. In some preferred embodiments, the diaphragm may be only assembled on the water-stop support 202 or sleeved on the slow flow protrusion 203, and by assembling on a single structure, the assembly groove can be conveniently machined on the single structure, so that the machining convenience of the water-stop support and the slow flow protrusion structure is ensured.

Referring to fig. 1, in the above embodiment, the pressure relief flow channel 401 is located in the valve body assembly 301 and has a two-section structure, and one end of the two-end valve body assembly faces the valve core direction.

In the above embodiments, the ends of the water inlet section and the water outlet section of the water pipe facing the opening and closing member assembly are flush with the surface of the water-stop support, and in some preferred embodiments, the water-stop support and the membrane may have non-flush structures, and the sealing structure when in contact is ensured by the protrusions or grooves on the water-stop support or the membrane which are matched with the non-flush structures.

In the above embodiment, the cover body of the water-stop support is provided with a space for the water in the diaphragm pressure relief hole to pass through the pressure relief cavity.

In some embodiments, the valve body assembly may also be used to drive the opening/closing member assembly, and the low water hammer effect of the low water hammer solenoid valve assembly is achieved by directly driving the slow flow protrusion to buffer the slow flow protrusion from causing the instantaneous reduction of water flow at the closing moment.

In some preferred embodiments, a structure of the slow flow protrusion part formed on the membrane can be adopted, so that the cover body is eliminated, and the slow flow and the expansion and contraction effects of the pressure relief cavity are realized by only relying on the membrane.

In some preferred embodiments, the outer wall of the water pipe is provided with a thread structure, and the thread structure is arranged to facilitate the bolt to be positioned on a preset installation pipeline.

In some preferred embodiments, the water blocking bracket and the slow flow protrusion are provided as an integral structure.

It should be noted that, although the above embodiments have been described herein, the scope of the present invention is not limited thereby. Therefore, based on the innovative concept of the present invention, the changes and modifications of the embodiments described herein, or the equivalent structure or equivalent process changes made by the contents of the specification and the drawings of the present invention, directly or indirectly apply the above technical solutions to other related technical fields, all included in the scope of the present invention.

Claims (10)

1. A low water hammer solenoid valve component is characterized by comprising a water pipe, an opening and closing piece assembly and a valve body assembly;

the water pipe comprises a water inlet section and a water outlet section, and one end of the water inlet section of the water pipe and one end of the water outlet section of the water pipe are arranged in the same direction;

the opening and closing piece assembly comprises a water-resisting support, a slow flow protruding part is arranged on the water-resisting support and faces towards the inner side direction of a water outlet section of the water through pipe, the size of the joint of the slow flow protruding part and the water-resisting support is matched with the size of the inner wall of the water through pipe, the side edge of the slow flow protruding part is of an inclined surface structure, and the distance between the side edge of the slow flow protruding part and the inner wall of the water through pipe is increased along with the length of the slow flow protruding part;

the valve body assembly is in transmission connection with the opening and closing piece assembly and is used for driving the slow flow protruding part of the water-resisting support to extend into or draw out of the water inlet section or the water outlet section of the water through pipe.

2. The low water hammer solenoid valve assembly of claim 1, further comprising a diaphragm, a pressure relief flow passage, and a pressure relief cavity;

the diaphragm is sleeved between the water-resisting support and the flow-slowing protruding part of the opening and closing piece assembly, the diaphragm is provided with a pressure relief hole, and the edge of the diaphragm is connected with the opening and closing piece assembly;

one end of the pressure relief flow passage is communicated with the water outlet section of the water service pipe, and the other end of the pressure relief flow passage is communicated with the water inlet section of the water service pipe through a pressure relief hole;

the pressure relief cavity is arranged among the water-resisting support, the membrane and the opening and closing piece assembly.

3. The low water hammer solenoid valve assembly of claim 2, wherein the pressure relief flow path is disposed within the valve body assembly and on the outlet section of the water tube.

4. The low water hammer solenoid valve assembly of claim 2, wherein the spool of the valve body assembly faces the pressure relief flow passage.

5. The low water hammer solenoid valve assembly of claim 2, wherein a return spring is disposed in the pressure relief chamber, and both ends of the return spring are connected to the valve body assembly and the water isolating bracket, respectively.

6. The low water hammer solenoid valve assembly of claim 2, wherein the edges of the diaphragm are embedded in the water service pipe and the valve body assembly, respectively.

7. The low water hammer solenoid valve assembly of claim 2, wherein the diaphragm is an annular structure with an inner ring of the diaphragm embedded between the water stop and the flow relief protrusion.

8. The low water hammer solenoid valve assembly of claim 1, wherein an end of the water service pipe inlet section parallel to the water service pipe outlet section is disposed around the water service pipe outlet end.

9. The low water hammer solenoid valve assembly of claim 1, wherein the flow relief protrusion is a hollow structure.

10. The low water hammer solenoid valve assembly of claim 1, wherein the slope of the side of the tip of the flow-slowing protrusion is greater than the slope of the side of the root.

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