CN110966474A - Electromagnetic valve with quick-connection water nozzle - Google Patents

Abstract

The invention relates to an electromagnetic valve with a quick-connection water nozzle, which comprises an electromagnetic valve body and a water nozzle device connected with the electromagnetic valve body; the water nozzle device comprises: the accommodating component, the elastic reset component and the external pipeline gripping part are arranged on the outer side of the accommodating component; the accommodating component comprises a fixed pipe sleeve and a movable pipe sleeve; the movable pipe sleeve is movably connected with the fixed pipe sleeve to form an accommodating cavity; the elastic reset assembly and the external pipeline gripping piece are accommodated in the accommodating cavity; the elastic reset component comprises a reset elastic piece, a water flow conducting piece and a middle guiding piece; the water flow conducting piece is movably sleeved on the inner side wall of the middle guide piece, and the external pipeline gripping piece is movably sleeved on the outer side wall of the middle guide piece; the external pipeline gripping part is provided with a gripping part, the water outlet is provided with an arc-shaped guide surface matched with the gripping part, and the gripping part is opened when being far away from the water outlet, so that the gripping part is contracted when being close to the water outlet. The electromagnetic valve with the quick-connection water nozzle can be quickly inserted into an external pipeline and effectively prevent the external pipeline from falling off.

Description

Electromagnetic valve with quick-connection water nozzle

Technical Field

The invention relates to the technical field of electromagnetic valves, in particular to an electromagnetic valve with a quick-connection water nozzle.

Background

A solenoid valve is an electromechanical operated valve. Solenoid valves are commonly used to adjust parameters such as direction, flow rate and speed of liquids.

In the prior art, a water nozzle of an electromagnetic valve is generally connected with a pipe body of the electromagnetic valve in a screwing mode or an interference fit mode.

When the water nozzle of the electromagnetic valve is connected with the pipe body of the electromagnetic valve in a screwing mode, on one hand, certain time is needed for screwing; on the other hand, the screwing method has high requirements on the matching precision between the threads; while also requiring assembly personnel to screw in place. In the prior art, a gap is easily formed at the connection position of a water nozzle of a magnetic valve and a pipe body of the magnetic valve due to the fact that workers cannot be screwed in place or the matching precision between threads is not high enough in the assembling process. And thus, the liquid seeps out of the gap (i.e., a liquid leakage phenomenon occurs).

In addition, when the water nozzle of the electromagnetic valve is connected with the pipe body of the electromagnetic valve in an interference fit mode, on one hand, the difficulty of the interference fit assembly implementation is high, and the required time is long; on the other hand, the size precision requirement of the water injection well choke of solenoid valve and the body of solenoid valve at the junction is high to interference fit's mode. In practical application, the water nozzle of the electromagnetic valve is difficult to assemble or a gap exists at the joint of the water nozzle of the electromagnetic valve and the pipe body of the electromagnetic valve after assembly. A gap exists at the joint of the water nozzle of the electromagnetic valve and the pipe body of the electromagnetic valve, so that liquid seeps out of the gap (namely, a liquid leakage phenomenon occurs).

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides the electromagnetic valve with the quick-connection water nozzle, which can directly and quickly insert an external pipeline into an accommodating cavity of the water nozzle device and effectively prevent the external pipeline from falling out of the accommodating cavity.

The purpose of the invention is realized by the following technical scheme:

a solenoid valve with a quick-connection water nozzle comprises a solenoid valve body and a water nozzle device connected with the solenoid valve body;

the water nozzle device comprises: the accommodating component, the elastic reset component and the external pipeline gripping part are arranged on the outer side of the accommodating component;

the accommodating assembly comprises a fixed pipe sleeve and a movable pipe sleeve; the fixed pipe sleeve is fixed on the electromagnetic valve body, the movable pipe sleeve is movably connected with the fixed pipe sleeve to form an accommodating cavity, and the accommodating cavity is communicated with a water pumping cavity of the electromagnetic valve body; the fixed pipe sleeve is provided with a water inlet, and the movable pipe sleeve is provided with a water outlet;

the elastic reset assembly and the external pipeline gripping piece are accommodated in the accommodating cavity;

the elastic reset assembly comprises a reset elastic piece, a water flow conducting piece and a middle guiding piece; the water flow conducting piece is movably sleeved on the inner side wall of the middle guide piece, and the external pipeline gripping piece is movably sleeved on the outer side wall of the middle guide piece; the water flow conducting piece, the middle guiding piece and the external pipeline gripping piece are movably contained in the containing cavity;

the reset elastic piece is used for providing direct elastic force for the water flow conduction piece so that the water flow conduction piece can move relative to the middle guide piece;

the external pipeline gripping part is provided with a gripping part, the water outlet is provided with an arc-shaped guide surface matched with the gripping part, the resetting elastic part is used for providing direct elastic force for the water flow conduction part, the water flow conduction part provides indirect elastic force for the external pipeline gripping part through the middle guide part, so that the gripping part is opened when being far away from the water outlet, and the gripping part is contracted when being close to the water outlet.

In one embodiment, the water nozzle device further comprises an external pipeline, wherein the outer side wall of the external pipeline is provided with a separation-preventing ring, and the separation-preventing ring is provided with an inclined guide surface;

the water flow conducting piece is provided with a sealing abutting end face, the external pipeline is provided with a sealing pressing end face, and the sealing pressing end face and the sealing abutting end face are mutually attached;

the anti-falling ring of the external pipeline is clamped between the middle guide piece and the holding part.

In one embodiment, the inner side wall of the accommodating cavity is provided with an insertion limiting step, the outer side wall of the middle guide piece is provided with an insertion limiting ring, and the insertion limiting ring is abutted to or separated from the insertion limiting step.

In one embodiment, the grip portion has a plurality of grip blocks distributed in an annular array centered on a central axis of the grip portion with a gap between adjacent two of the grip blocks.

In one embodiment, the gripping block is an arc-shaped block structure.

In one embodiment, the movable sleeve and the fixed sleeve are connected in a screwing mode.

In one embodiment, the return elastic member is a spring structure.

In one embodiment, two ends of the elastic resetting piece are respectively provided with an annular gasket, one end of the elastic resetting piece is fixed on the inner wall of the accommodating cavity through the annular gasket, and the other end of the elastic resetting piece is connected with the water flow conducting piece through the annular gasket.

The electromagnetic valve with the quick-connection water nozzle directly and quickly inserts the external pipeline into the accommodating cavity of the water nozzle device through external force, and firmly grabs the anti-slip ring of the external pipeline through the grabbing part of the external pipeline grabbing piece, so that the external pipeline is prevented from dropping out of the accommodating cavity.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic structural view of a solenoid valve with a quick-connect water nozzle according to the present invention;

FIG. 2 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 3 is a schematic structural view of the faucet assembly shown in FIG. 2 without the faucet assembly inserted into an external conduit;

fig. 4 is an exploded view of the water nozzle device shown in fig. 3.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

As shown in FIG. 1, the present invention discloses a solenoid valve 10 with a quick-connect water nozzle, which comprises a solenoid valve body 20 and a water nozzle device 30 connected with the solenoid valve body 20.

However, the water nozzle of the conventional solenoid valve is connected to the pipe body of the solenoid valve by a screwing method or an interference fit method. When the screwing mode is adopted, on one hand, a certain time is needed for screwing; on the other hand, the screwing method has high requirements on the matching precision between the threads; while also requiring assembly personnel to screw in place. The gap is easy to exist at the connection position of the water nozzle of the magnetic valve and the pipe body of the magnetic valve due to the fact that workers cannot screw the water nozzle to the position or the matching precision among threads is not high enough in the assembling process. And thus, the liquid seeps out of the gap (i.e., a liquid leakage phenomenon occurs). When the interference fit mode is adopted, on one hand, the assembly implementation difficulty of the interference fit is high, and the required time is long; on the other hand, the size precision requirement of the water injection well choke of solenoid valve and the body of solenoid valve at the junction is high to interference fit's mode. The water nozzle of the electromagnetic valve is difficult to assemble or a gap exists at the joint of the water nozzle of the electromagnetic valve and the pipe body of the electromagnetic valve after the assembly. A gap exists at the joint of the water nozzle of the electromagnetic valve and the pipe body of the electromagnetic valve, so that liquid seeps out of the gap (namely, a liquid leakage phenomenon occurs).

As shown in fig. 2, specifically, the water nozzle device 30 includes: a housing assembly 310, a resilient return assembly 320, and an circumscribing conduit grip 330.

As shown in fig. 1, 2 and 3, the receiving assembly 310 includes a fixed sleeve 311 and a movable sleeve 312. The fixed sleeve 311 is fixed on the solenoid valve body 20, the movable sleeve 312 is movably connected with the fixed sleeve 311 to form a containing cavity 313, and the containing cavity 313 is communicated with a water pumping cavity (not shown) of the solenoid valve body 20. The stationary sleeve 311 has a water inlet 314 and the movable sleeve 312 has a water outlet 315.

As shown in fig. 2, the resilient return assembly 320 and the circumscribing conduit gripper 330 are received in the receiving cavity 313.

As shown in fig. 2, the elastic restoring assembly 320 includes a restoring elastic member 321, a water flow transmission member 322, and an intermediate guide member 323. The water flow conducting member 322 is movably sleeved on the inner side wall of the middle guiding member 323, and the external pipeline gripping member 330 is movably sleeved on the outer side wall of the middle guiding member 323. The water flow conductor 322, the intermediate guide 323 and the pipe clamp are movably received in the receiving chamber 313. The return elastic member 321 serves to provide a direct elastic force to the water flow conductor 322 so that the water flow conductor 322 can move relative to the intermediate guide member 323.

As shown in fig. 2, the outer pipe grip 330 has a grip 331, the water outlet 315 has an arc-shaped guide surface 317 engaged with the grip 331, the return elastic member 321 serves to provide a direct elastic force to the water flow conducting member 322, and the water flow conducting member 322 provides an indirect elastic force to the outer pipe grip 330 through the intermediate guide member 323, so that the grip 331 is expanded away from the water outlet 315, and the grip 331 is contracted near the water outlet 315.

Referring to fig. 1 and 2, it should be further explained that the solenoid valve 10 with the quick-connection water nozzle includes a solenoid valve body 20 and a water nozzle device 30 communicated with the solenoid valve body 20. The accommodating component 310 of the water nozzle device 30 includes a fixed pipe sleeve 311 and a movable pipe sleeve 312, the fixed pipe sleeve 311 is fixed on the solenoid valve body 20, the movable pipe sleeve 312 is movably connected with the fixed pipe sleeve 311 to form an accommodating cavity 313, and the accommodating cavity 313 is communicated with a water pumping cavity (not shown) of the solenoid valve body 20. The stationary sleeve 311 has a water inlet 314 and the movable sleeve 312 has a water outlet 315. The water flow in the water pumping cavity of the solenoid valve body 20 enters the accommodating cavity 313 from the water inlet 314 of the fixed pipe sleeve 311 and then flows out from the water outlet 315 of the movable pipe sleeve 312.

The structure of the water nozzle device 30 will be described in detail as follows:

as shown in fig. 2, the water nozzle device 30 includes: the receiving assembly 310, the elastic restoring assembly 320, the external pipe gripper 330 and the external pipe 340.

As shown in fig. 2, the housing assembly 310 includes a fixed sleeve 311 and a movable sleeve 312. The fixed sleeve 311 is fixed on the solenoid valve body 20, the movable sleeve 312 is movably connected with the fixed sleeve 311 to form a containing cavity 313, and the containing cavity 313 is communicated with a water pumping cavity of the solenoid valve body 20. The fixed pipe sleeve 311 is provided with a water inlet 314, the movable pipe sleeve 312 is provided with a water outlet 315, the water inlet 314 is communicated with the solenoid valve body 20, and the water outlet 315 is communicated with the external pipeline 340. In this embodiment, the movable sleeve 312 and the fixed sleeve 311 are connected by screwing. Of course, the movable connection between the movable sleeve 312 and the fixed sleeve 311 is not limited to a screw connection, and in other embodiments, the movable sleeve 312 and the fixed sleeve 311 may be connected by a snap connection or an interference fit connection.

As shown in fig. 2, the elastic restoring assembly 320 includes a restoring elastic member 321, a water flow transmission member 322, and an intermediate guide member 323. The water flow conducting member 322 is movably sleeved on the inner side wall of the middle guiding member 323, and the external pipeline gripping member 330 is movably sleeved on the outer side wall of the middle guiding member 323. The water flow conductor 322, the intermediate guide 323 and the pipe clamp are movably received in the receiving chamber 313. The return elastic member 321 is used to provide a direct elastic force to the water flow conducting member 322, so that the water flow conducting member 322 can move relative to the intermediate guiding member 323, and the water flow conducting member 322 obtains a tendency of returning to the position close to the water gap. In addition, the return elastic member 321 serves to provide a direct elastic force to the water flow conducting member 322, and the water flow conducting member 322 provides an indirect elastic force to the pipe grip through the intermediate guide member 323, so that the pipe grip obtains a tendency to return to the vicinity of the water outlet 315, and of course, the intermediate guide member 323 also obtains a tendency to return to the vicinity of the water outlet 315.

As shown in fig. 2, the return elastic member 321 has a spring structure. Two ends of the elastic restoring member 321 are respectively provided with an annular gasket 324, one end of the elastic restoring member 321 is fixed on the inner wall of the accommodating cavity 313 through the annular gasket 324, and the other end is connected with the water flow conducting member 322 through the annular gasket 324. The return elastic member 321 is used to provide a direct elastic force to the water flow conducting member 322, so that the water flow conducting member 322 can move relative to the intermediate guiding member 323, and the water flow conducting member 322 obtains a tendency of returning to the position close to the water gap. It should be noted that the provision of the annular gasket 324 is essential, on the one hand, to optimize the connection between the elastic return element 321 and the inner wall of the housing 313 and the connection between the elastic return element 321 and the water flow conducting element 322, and on the other hand, to avoid obstructing the water flow.

As shown in fig. 2 and 4, the outer sidewall of the middle guide 323 is provided with an insertion limiting ring 325, the inner sidewall of the receiving cavity 313 is provided with an insertion limiting step 316, and the insertion limiting ring 325 of the middle guide 323 abuts against or separates from the insertion limiting step 316 of the receiving cavity 313. When the external connection pipe 340 enters the receiving cavity 313 under the action of external force and is pressed and held on the middle guide part 323, the middle guide part 323 slides in the direction away from the water outlet 315 until the insertion limiting ring 325 of the middle guide part 323 abuts against the insertion limiting step 316 of the receiving cavity 313. At this time, even if the external force still exists, the intermediate guide 323 cannot slide further in the direction away from the water outlet 315. When the external force is stopped being applied to the external pipe 340, the water flow conducting member 322, the middle guiding member 323 and the external pipe 340 are reset to the direction close to the water outlet 315 under the elastic force of the reset elastic member 321, so that the insertion limiting ring 325 of the middle guiding member 323 is separated from the insertion limiting step 316 of the accommodating cavity 313.

As shown in fig. 4, the circumscribing pipe gripper 330 has a gripping portion 331, the gripping portion 331 has a plurality of gripping blocks 332, and the gripping blocks 332 have an arc-shaped block structure. The plurality of gripping blocks 332 are distributed in an annular array centered on the central axis of the gripping part 331, and a gap 333 is provided between two adjacent gripping blocks 332.

As shown in fig. 2, the water outlet 315 has an arc-shaped guide surface 317 engaged with the grip 331, the return elastic member 321 is used to provide a direct elastic force to the water flow conducting member 322, and the water flow conducting member 322 provides an indirect elastic force to the circumscribed pipe grip 330 through the intermediate guide member 323, so that the grip 331 is expanded away from the water outlet 315, and the grip 331 is contracted close to the water outlet 315.

As shown in fig. 2, the outer side wall of the circumscribed pipe 340 is provided with a slip-off preventing ring 341, the slip-off preventing ring 341 has an inclined guide surface 342, and the slip-off preventing ring 341 of the circumscribed pipe 340 is caught between the intermediate guide 323 and the grip 331.

Referring to fig. 2, 3 and 4, it should be noted that the water outlet 315 has an arc-shaped guiding surface 317 cooperating with the grip 331, the grip 331 has a plurality of grip blocks 332, and a gap 333 is formed between two adjacent grip blocks 332, which is very necessary. The analysis was as follows: before the water nozzle device 30 is connected to the external pipe 340, the external pipe gripping member 330 tends to be restored toward the water outlet 315 under the elastic force of the restoring elastic member 321. Further, since the water outlet 315 has the arc-shaped guide surface 317 engaged with the grip 331, the grip 331 obtains a tendency to contract when approaching the water outlet 315. Also, the grip 331 has a plurality of grip blocks 332 with a gap 333 between adjacent two grip blocks 332, so that the grip 331 has a gripping action when contracted, thereby gripping the anti-slip ring 341 of the outer connecting pipe 340 and finally stably connecting the outer connecting pipe 340 with the outer pipe grip 330.

As shown in fig. 2 and 4, it should be further explained that the inclined guide surface 342 of the anti-slip ring 341 is also necessary. The analysis was as follows: when the external pipe 340 enters the receiving cavity 313 under the action of external force, the inclined guide surface 342 of the anti-drop ring 341 contacts with the grip 331, and the external force acts on the external pipe grip 330 through the external pipe 340, so that the external pipe grip 330 slides in the direction away from the water outlet 315. Further, since the water outlet 315 has the arc-shaped guide surface 317 engaged with the grip portion 331 and the drop-off prevention ring 341 has the inclined guide surface 342, when the circumscribed pipe grip 330 is slid in a direction away from the water outlet 315, the grip portion 331 is slid in a direction away from the water outlet 315 along the arc-shaped guide surface 317 and the inclined guide surface 342 smoothly pushes the grip portion 331 apart.

As shown in fig. 4, it should be further noted that the gripping block 332 is an arc-shaped block structure, so that the gripping force of the gripping portion 331 is better, and the grip of the anti-slip ring 341 is firmer.

As shown in fig. 2 and fig. 3, the water flow conducting element 322 has a sealing abutting end surface 326, the external pipe 340 has a sealing pressing end surface 343, and the sealing pressing end surface 343 and the sealing abutting end surface 326 are attached to each other. In addition, the receiving cavity 313, the water flow conducting element 322 and the external pipe 340 form a through water flow channel 350, so that the water flow can flow through the water nozzle device 30 quickly and directly after coming out from the water pumping cavity of the solenoid valve body 20.

As shown in fig. 2, it should be noted that a design in which the seal pressing end face 343 and the seal abutting end face 326 abut against each other is necessary. The reason is that: when the anti-slip ring 341 of the external pipe is engaged between the middle guide 323 and the grip 331 and the external pipe 340 stops applying the external force, the water flow conducting member 322 moves relative to the middle guide 323 (i.e., the water flow conducting member 322 is reset toward the water outlet 315) under the elastic force of the reset elastic member 321. Meanwhile, the anti-drop ring 341 of the external pipe 340 is clamped between the middle guide part 323 and the grip part 331, so that the sealing pressing end face 343 and the sealing abutting end face 326 are tightly attached to each other, and the water flow channel 350 formed by the accommodating cavity 313, the water flow conducting part 322 and the external pipe 340 is further enabled to effectively avoid the water leakage situation.

Referring to fig. 2, fig. 3 and fig. 4 together, the operation principle of the electromagnetic valve 10 with the quick-connect water nozzle of the present invention is as follows:

when the external pipe 340 enters the receiving cavity 313 under the action of external force, firstly, the inclined guide surface 342 of the anti-drop ring 341 contacts with the grip 331, and the external force acts on the external pipe grip 330 through the external pipe 340, so that the external pipe grip 330 slides in the direction away from the water outlet 315; since the water outlet 315 has the arc-shaped guide surface 317 engaged with the grip 331 and the drop-off prevention ring 341 has the inclined guide surface 342, when the circumscribed-pipe grip 330 is slid in a direction away from the water outlet 315, the grip 331 is slid in a direction away from the water outlet 315 along the arc-shaped guide surface 317 and the inclined guide surface 342 keeps the grip 331 pushed open;

at the same time, the intermediate guide 323 and the water flow conductor 322 slide in the direction away from the water outlet 315 by the indirect action of the external force. Then, under the continued action of the external force, the grip 331 is further opened by the inclined guide surface 342 so that the escape prevention ring 341 of the outer pipe 340 is completely introduced into the outer pipe grip 330; if the external force continues to act on the external pipe 340, the sealing pressing end face 343 of the external pipe 340 is accurately attached to the sealing abutting end face 326 under the guiding action of the middle guiding member 323, and the inclined guiding surface 342 of the anti-drop ring 341 abuts against the middle guiding member 323; meanwhile, the middle guide part 323 and the water flow conducting part 322 continue to slide towards the direction away from the water outlet 315 together until the insertion limiting ring 325 of the middle guide part 323 abuts against the insertion limiting step 316 of the accommodating cavity 313;

stopping applying external force to the external pipeline when the inserting limit ring 325 of the middle guide part 323 is abutted against the inserting limit step 316 of the accommodating cavity 313; at this time, under the elastic force of the restoring elastic member 321, the water flow conducting member 322, the middle guide member 323, the external pipe gripping member 330 and the external pipe 340 are restored together in a direction close to the water outlet 315; during the resetting process of the water flow conducting piece 322, the middle guiding piece 323, the external pipeline gripping piece 330 and the external pipeline 340, the insertion limiting ring 325 of the middle guiding piece 323 is separated from the insertion limiting step 316 of the accommodating cavity 313, and the gripping part 331 of the external pipeline gripping piece 330 slides and shrinks towards the direction close to the water outlet 315 along the arc-shaped guiding surface 317;

when the external pipeline gripping member 330 is completely reset to the water outlet 315, the external anti-drop ring 341 is clamped between the middle guide member 323 and the gripping part 331, and at this time, the gripping part 331 firmly grips the anti-drop ring 341 of the external pipeline 340;

meanwhile, the elastic restoring member 321 provides a direct elastic force for the water flow conducting member 322, so that the water flow conducting member 322 can move relative to the middle guiding member 323, and further, the sealing abutting end surface 326 of the water flow conducting member 322 is tightly attached to the sealing pressing end surface 343 of the external pipe 340, so that the water flow channel 350 formed by the accommodating cavity 313, the water flow conducting member 322 and the external pipe 340 is effectively prevented from leaking water.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A solenoid valve with a quick-connection water nozzle is characterized by comprising a solenoid valve body and a water nozzle device connected with the solenoid valve body;

the water nozzle device comprises: the accommodating component, the elastic reset component and the external pipeline gripping part are arranged on the outer side of the accommodating component;

the accommodating assembly comprises a fixed pipe sleeve and a movable pipe sleeve; the fixed pipe sleeve is fixed on the electromagnetic valve body, the movable pipe sleeve is movably connected with the fixed pipe sleeve to form an accommodating cavity, and the accommodating cavity is communicated with a water pumping cavity of the electromagnetic valve body; the fixed pipe sleeve is provided with a water inlet, and the movable pipe sleeve is provided with a water outlet;

the elastic reset assembly and the external pipeline gripping piece are accommodated in the accommodating cavity;

the elastic reset assembly comprises a reset elastic piece, a water flow conducting piece and a middle guiding piece; the water flow conducting piece is movably sleeved on the inner side wall of the middle guide piece, and the external pipeline gripping piece is movably sleeved on the outer side wall of the middle guide piece; the water flow conducting piece, the middle guiding piece and the external pipeline gripping piece are movably contained in the containing cavity;

the reset elastic piece is used for providing direct elastic force for the water flow conduction piece so that the water flow conduction piece can move relative to the middle guide piece;

the external pipeline gripping part is provided with a gripping part, the water outlet is provided with an arc-shaped guide surface matched with the gripping part, the resetting elastic part is used for providing direct elastic force for the water flow conduction part, the water flow conduction part provides indirect elastic force for the external pipeline gripping part through the middle guide part, so that the gripping part is opened when being far away from the water outlet, and the gripping part is contracted when being close to the water outlet.

2. The electromagnetic valve with the quick-connection water nozzle as claimed in claim 1, wherein the water nozzle device further comprises an external pipeline, the outer side wall of the external pipeline is provided with a drop-proof ring, and the drop-proof ring is provided with an inclined guide surface;

the water flow conducting piece is provided with a sealing abutting end face, the external pipeline is provided with a sealing pressing end face, and the sealing pressing end face and the sealing abutting end face are mutually attached;

the anti-falling ring of the external pipeline is clamped between the middle guide piece and the holding part.

3. The electromagnetic valve with the quick-connection water nozzle as claimed in claim 2, wherein the inner side wall of the accommodating cavity is provided with an insertion limiting step, the outer side wall of the middle guide piece is provided with an insertion limiting ring, and the insertion limiting ring is abutted against or separated from the insertion limiting step.

4. The solenoid valve with the quick-connect water nozzle as claimed in claim 1, wherein the grip part has a plurality of grip blocks, the plurality of grip blocks are distributed in an annular array centered on a central axis of the grip part, and a gap is provided between two adjacent grip blocks.

5. The solenoid valve with the quick connect faucet of claim 2, wherein the catch block is an arc block structure.

6. The electromagnetic valve with the quick-connecting water nozzle as claimed in claim 1, characterized in that the movable pipe sleeve and the fixed pipe sleeve are connected in a screwing mode.

7. The electromagnetic valve with the quick-connecting water nozzle as claimed in claim 1, wherein the return elastic member is of a spring structure.

8. The electromagnetic valve with the quick-connection water nozzle as claimed in claim 1, wherein two ends of the elastic resetting piece are respectively provided with an annular gasket, one end of the elastic resetting piece is fixed on the inner wall of the accommodating cavity through the annular gasket, and the other end of the elastic resetting piece is connected with the water flow conducting piece through the annular gasket.

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