CN111219507A - Pressure protection valve and gas water heater - Google Patents

Abstract

The invention relates to a pressure protection valve and a gas water heater, which comprise a valve body and a valve core assembly and are characterized in that the valve body is also provided with a bypass pipe communicated with a valve cavity; the second valve core assembly is arranged in the valve cavity and used for controlling the on and off of the water inlet, and the second valve core assembly is in a normally open state; the first valve core assembly is arranged in the bypass and used for controlling the action of the second valve core assembly; the valve comprises a first base, a first valve rod, a first valve plug, a first magnetic part and a second magnetic part, wherein the first base, the first valve rod, the first valve plug, the first magnetic part and the second magnetic part are arranged in a bypass; the first valve plug can be slidably and hermetically connected with the inner wall of the bypass; the first valve plug is in driving connection with a first valve rod, the first valve rod can be limited on the first valve seat in a sliding mode, and the first valve rod drives the second valve core assembly to act; a first containing groove and a second containing groove are respectively arranged on the first base and the first valve plug; the first magnetic piece is accommodated in the first accommodating groove; the second magnetic piece is accommodated in the second accommodating groove; the first magnetic part and the second magnetic part are oppositely arranged and have the same poles opposite to each other.

Description

Pressure protection valve and gas water heater

Technical Field

The invention relates to the field of valves, in particular to a pressure protection valve and a gas water heater using the same.

Background

The existing domestic water has the problem of pressure fluctuation generally due to reasons such as water supply and terminal use, and the water inlet end of the water pipe is a normally open valve and the water outlet end of the water pipe is a normally closed valve for some normally open connecting water pipes, so that the water pipe is easy to expand and crack when the pressure in the water pipe rises suddenly, for example, the water pipe is frozen and expanded, and the water can crack from the weak part of the pressure bearing capacity of the water pipe, so that water leakage is caused. If the user does not discover in time that the water inlet pipeline is closed, water in the water source pipeline can continuously enter the connecting water pipe and run out from the crack, so that serious water leakage is caused, and property loss and safety problems such as floor soaking, electric leakage and the like are caused.

Disclosure of Invention

The invention aims to solve the technical problem of providing a pressure protection valve which can timely close a water inlet connecting pipe when the pressure in a water pipe suddenly rises in the prior art.

The invention aims to solve another technical problem of providing a gas water heater which can timely close a water inlet connecting pipe when the pressure in a water pipe suddenly rises so as to avoid the water leakage phenomenon.

The technical scheme adopted by the invention for solving the technical problems is as follows: a pressure protection valve comprises a valve body, wherein a valve core assembly is arranged in a valve cavity of the valve body, and the valve body is provided with a water inlet and a water outlet which are communicated with the valve cavity;

the valve is characterized in that the valve body is also provided with a bypass pipe communicated with the valve cavity;

the valve core comprises a first valve core assembly and a second valve core assembly; wherein:

the second valve core assembly is arranged in the valve cavity and used for controlling the on and off of the water inlet, and the second valve core assembly is in a normally open state;

the first valve core assembly is arranged in the bypass and used for controlling the action of the second valve core assembly; the valve comprises a first base, a first valve rod, a first valve plug, a first magnetic part and a second magnetic part, wherein the first base, the first valve rod, the first valve plug, the first magnetic part and the second magnetic part are arranged in the bypass; the first valve plug is slidably and hermetically connected with the inner wall of the bypass; the first valve plug is in driving connection with the first valve rod, the first valve rod can be limited on the first valve seat in a sliding mode, and the first valve rod drives the second valve core assembly to act;

a first accommodating groove and a second accommodating groove are respectively formed in the first base and the first valve plug; the first magnetic piece is accommodated in the first accommodating groove; the second magnetic piece is accommodated in the second accommodating groove; the first magnetic part and the second magnetic part are oppositely arranged and have the same poles opposite to each other.

Preferably, the first valve core assembly further comprises a first valve seat, and a first water through hole is formed in the first valve seat; the first valve plug is positioned between the first valve seat and the first seat.

Preferably, the first base and the first valve seat are both provided with first sliding holes, and the first valve rod can be limited in the first sliding holes in a sliding manner.

As a further improvement of the above solutions, in order to limit the stroke of the first valve rod, a limit component for limiting the moving distance of the first valve rod may be further provided on the side wall of the bypass.

Preferably, the side wall of the side pipe is provided with a through hole communicated with the inner cavity of the side pipe;

the limiting assembly comprises a top pin, a third elastic piece, a spring seat and a limiting seat; the limiting seat is provided with a pin hole for the ejector pin to pass through; the spring seat is in driving connection with the ejector pin and can slide relative to the through hole, and two ends of the third elastic piece respectively abut against the spring seat and the limiting seat;

and a second clamping groove capable of containing the ejector pin is formed in the first valve rod.

Alternatively, the limiting component can also be a buckle cover connected to the bypass pipe or the first base, and the stroke of the first valve rod is limited by the distance between the buckle cover and the first base.

The second valve core assembly in each of the above schemes may have a plurality of types, preferably, the second valve core assembly may include a second valve seat, a second valve rod, a second valve plug, a second elastic member, and a second base;

the second valve rod can be limited on the second valve seat and the second base in a sliding way, and the second valve plug is connected with the second valve rod in a driving way and is positioned between the second valve seat and the second base; two ends of the second elastic piece respectively abut against the second valve plug and the second base;

the first valve rod is provided with a first clamping groove used for limiting the head of a second valve rod extending out of the second valve seat, and the side wall of the first clamping groove is an arc-shaped surface or an inclined surface which is convenient for the second valve rod to slide out of the first clamping groove.

In order to facilitate the assembly of the second valve plug and ensure the structural stability, a piston seat may be provided on the second valve stem, on which the second valve plug is disposed.

Preferably, the second base and the second valve seat are both provided with second sliding holes, the tail of the second valve rod can be limited in the second sliding hole on the second base in a sliding manner, and the head of the second valve rod penetrates through the second sliding hole on the second valve seat and abuts against the first valve rod.

The gas water heater using the pressure protection valves is characterized in that a water inlet of the valve body is connected with a domestic water pipe, and a water outlet on the valve body is connected with an inlet of a cold water inlet pipe of the gas water heater;

the cold water inlet pipe is also connected with a plastic shell communicated with the cold water inlet pipe, and a flow sensor and a pressure stabilizer are integrated in the plastic shell.

Compared with the prior art, the pressure protection valve and the gas water heater provided by the invention can timely disconnect the normally open pipeline from the water source when the pressure is suddenly increased through the interaction between the two valve core assemblies, so that the water leakage phenomenon is avoided, and the use safety is further ensured.

Drawings

FIG. 1 is a longitudinal cross-sectional view (normal use) of an embodiment of the present invention;

FIG. 2 is a longitudinal cross-sectional view (pressure relief state) of an embodiment of the present invention;

fig. 3 is a schematic view of embodiment 2 of the present invention.

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 and 2, the pressure protection valve includes:

the valve comprises a valve body 1, wherein the wall of the valve body 1 is provided with a water inlet 11, a water outlet 12 and a side pipe 13 which are communicated with a valve cavity 14; wherein the water inlet is connected with a water inlet pipe 91, and the water outlet 12 is connected with a water outlet pipe 92.

And the two valve core assemblies comprise a second valve core assembly 2 arranged on the water inlet 11 and used for controlling the on and off of the water inlet 11 and a first valve core assembly 3 arranged in the bypass pipe 13 and used for controlling the second valve core assembly 2 to act. Wherein:

and the second valve core assembly 2 comprises a second valve seat 21, a second valve rod 22, a second valve plug 23, a second elastic element 24 and a second base 25.

The second base 25 and the second valve seat 21 are arranged in the valve cavity 14 at intervals along the water flow direction, the second base 25 is arranged close to the port of the water inlet 11 and is in threaded connection with the water inlet 11, and the second base 25 and the second valve seat 21 are both provided with a water passing hole 26 for water flow to pass through and a second slide hole 27 for accommodating the second valve rod. The tail part of the second valve rod 22 is slidably accommodated in a second sliding hole 27 on the second base 25, and the head part of the second valve rod is slidably exposed out of the second valve seat 21 through the second sliding hole 27 on the second valve seat 21; the second valve rod 22 is connected with a piston seat 28 in a driving way, and the second valve plug 23 is arranged on the piston seat 28 and moves along with the piston seat 28; the second elastic member 24 is a spring, and is disposed on the second valve rod 22, and two ends of the second elastic member respectively abut against the second base 25 and the piston seat 28, so that the second valve plug has a tendency of moving away from the second base and closing the water through hole 26 on the second valve seat 21 toward the second valve seat.

The first valve core assembly 3 includes a first seat 31, a first valve rod 32, a first valve plug 33, a first valve seat 38, a first magnetic member 34, and a second magnetic member 34'.

The first base 31 and the first valve plug 33 are arranged in the side pipe 13 at intervals, the first base 31 blocks the port of the side pipe 13, and the first base 31 is in threaded connection with the side pipe; the first base 31 and the first valve seat 38 are provided with a first slide hole 30;

a first accommodation groove 311 and a second accommodation groove 331 are respectively formed on the first base 31 and the first valve plug 33; the first magnetic member 34 is limited in the first containing groove 311; the second magnetic member 34' is limited in the second containing groove 331; the first magnetic member 34 and the second magnetic member 34 'are disposed opposite to each other with like poles facing each other, and the first magnetic member 34 and the second magnetic member 34' are opposite with like poles facing each other and repelling each other, so that the first valve plug 33 tends to move away from the first seat 31.

The first magnetic member 34 and the second magnetic member 34' in this embodiment are both ring-shaped structures.

The tail of the first valve rod can be slidably inserted into the first sliding hole 30 on the first base 31, and the head of the first valve rod sequentially passes through the central through holes on the first and second magnetic members and the first sliding hole 30 on the first valve seat 38 to be exposed out of the side pipe 13.

The first valve seat 38 is provided with a plurality of first water through holes 39 so that the first valve plug 33 senses the water pressure in the valve cavity.

First stem 32 has a first detent 35 located adjacent the head for receiving second stem 22. The peripheral wall of the first engaging groove 35 is an arc-shaped surface so that the second valve stem 22 can smoothly slide out of the first engaging groove 35. A second locking groove 37 is formed on the first valve rod 32 near the tail.

The first valve plug 33 is located between the first valve seat 38 and the first seat 31, is sealingly connected to the peripheral wall of the side pipe by a sealing ring 36, and is movable relative to the side pipe by an external force. The first plug is in driving connection with the first valve stem 22; in this embodiment, the first valve plug and the first valve stem are a single piece.

The limit component 4 comprises a top pin 41, a third elastic piece 42, a spring seat 43 and a limit seat 44. A through hole 15 communicated with the inner cavity of the side pipe is formed in the side wall of the side pipe 13; the limit seat 44 is provided with a pin hole 45 for the top pin to pass through.

The limiting seat 44 in this embodiment is a barrel-shaped structure and is fixed in the through hole 15, a pin hole 45 is formed on the bottom surface of the limiting seat, and the side wall of the limiting seat is in threaded connection with the through hole 15. One end of the knock pin 41 is slidably inserted into the pin hole 45, and the other end of the knock pin passes through the spring seat 43 and abuts against the first valve rod 32; the spring seat 43 is slidably received in the interior cavity of the retainer seat 44. The knock pin 41 and the spring seat 43 are a single piece in this embodiment.

Alternatively, the limiting component may also be a snap cap (not shown in the drawings) connected to the bypass pipe or the first base, and a gap is formed between the snap cap and the outer end surface of the first base, so that the stroke of the first valve rod is limited by the size of the gap.

When the pressure in the water route is in normal value range, first valve rod pushes down under the repulsion between first, second magnetic part, and the head end card of second valve rod is in first draw-in groove 35, and second elastic component 24 is compressed, and the water hole of crossing on the second valve seat is opened, and this protection valve is in normally open state.

When pressure fluctuation suddenly rises in the water route, when the power that water pressure was used on first valve plug was greater than the repulsion between first, the second magnetic part, promote first valve plug and remove to first base direction, drive first valve rod and shift up, first draw-in groove breaks away from spacing to the second valve rod head end along with the removal of first valve rod, cancels the power of applying on the second valve rod.

At the moment, the second valve rod moves towards the second valve seat under the action of the second elastic element, the second valve plug closes the water through hole on the second valve seat, and the protection valve is closed.

Therefore, even if the pressure in the pipe rises to be high, when the pipeline or the pipeline is connected with the pipe fitting in a bursting way, the water inlet channel is closed, so that the water remained in the pipeline can be discharged at most, the phenomenon of a large amount of water leakage can not occur, and the use safety is effectively ensured.

When the second clamping groove on the first valve rod moves upwards to the ejector pin position, the head of the ejector pin is inserted into the second clamping groove under the action of the third elastic piece, the first valve rod is limited to continue moving, and the first valve rod is prevented from being separated from the side pipe.

When the pressure in the pipeline returns to normal, the knock pin is pulled manually to make the knock pin break away from the limit of the first valve rod, the first valve rod moves downwards under the action of the first magnetic part and the second magnetic part, when the head of the second valve rod is clamped into the first clamping groove on the first valve rod, the first valve rod is limited, meanwhile, the second valve rod is pushed backwards by the first valve rod, the second valve plug moves backwards to open the water passing hole on the second valve seat, and the protection valve is in an opening state.

Example 2

As shown in fig. 3, the pressure protection valve of embodiment 1 is applied to the water heater connection pipe; the concrete mode is as follows: the water inlet 11 of the valve body is connected with a living water pipe 91, and the water outlet 12 of the valve body is connected with a cold water inlet pipe 92 of the water heater; the cold water inlet pipe 92 is connected with a plastic shell 93, the plastic shell 93 is located at the downstream of the pressure protection valve, a pressure sensor (not shown in the figure) and a pressure stabilizer (not shown in the figure) are arranged in the plastic shell, and the pressure sensor and the pressure stabilizer are integrated in the plastic shell 93 and used for detecting the water passing amount of the water inlet pipe 92 and the water pressure in the constant water inlet pipe.

The rest is the same as in example 1.

When the pressure in the pipeline of the water heater is suddenly increased, the plastic shell is easy to break due to poorer pressure bearing performance compared with a metal water pipe, so that the residual water in the water pipe flows out from the broken part; at the moment, if the cold water inlet pipe is not closed in time, water in the living water pipe can continuously enter the cold water inlet pipe, and the water can run out from the fracture part, so that water runs out. This embodiment is owing to set up the pressure protection valve between life water pipe 91 and cold water inlet tube 92, when the intraductal pressure suddenly risees, this protection valve can self-closing cold water inlet tube to avoid the emergence of the phenomenon of running out of water.

Claims (10)

1. A pressure protection valve comprises a valve body (1), wherein a valve core assembly is arranged in a valve cavity (14) of the valve body (1), and the valve body (1) is provided with a water inlet (11) and a water outlet (12) which are communicated with the valve cavity (13);

the valve is characterized in that a bypass pipe (13) communicated with the valve cavity (14) is also arranged on the valve body (1);

the valve core assembly comprises a second valve core assembly (2) and a first valve core assembly (3); wherein:

the second valve core assembly (2) is arranged in the valve cavity (14) and used for controlling the on and off of the water inlet (11), and the second valve core assembly (2) is in a normally open state;

a first valve core assembly (3) arranged in the bypass (13) and used for controlling the action of the second valve core assembly; comprises a first base (31), a first valve rod (32), a first valve plug (33), a first magnetic part (34) and a second magnetic part (34') which are arranged in the bypass; the first valve plug (33) is slidably and hermetically connected with the inner wall of the bypass; the first valve plug is in driving connection with the first valve rod (32), the first valve rod (32) can be limited on the first valve seat (31) in a sliding mode, and the first valve rod drives the second valve core assembly (2) to act;

a first containing groove (311) and a second containing groove (331) are respectively formed in the first base (31) and the first valve plug (33); the first magnetic piece (34) is accommodated in the first accommodating groove (311); the second magnetic piece (34') is accommodated in the second accommodating groove (331); the first magnetic part (34) and the second magnetic part (34') are oppositely arranged and have the same poles opposite to each other.

2. The pressure protection valve according to claim 1, characterized in that the first spool assembly (3) further comprises a first valve seat (38), the first valve seat (38) being provided with a first water through hole (39); the first valve plug (33) is located between the first valve seat (38) and the first seat (31).

3. The pressure protection valve according to claim 2, wherein the first seat (31) and the first valve seat (38) are each provided with a first slide hole (30), and the first valve rod (32) is slidably retained in the first slide hole (30).

4. The pressure protection valve according to claim 3, wherein a limit component (4) for limiting the moving distance of the first valve rod is further arranged on the side wall of the bypass.

5. The pressure protection valve according to claim 4, characterized in that the side wall of the side pipe (13) is provided with a through hole (15) communicated with the inner cavity of the side pipe;

the limiting assembly (4) comprises a top pin (41), a third elastic piece (42), a spring seat (43) and a limiting seat (44); a pin hole (45) through which the ejector pin passes is formed in the limiting seat (44); the spring seat (43) is connected with the ejector pin (45) in a driving mode and can slide relative to the through hole (15), and two ends of the third elastic piece (42) respectively abut against the spring seat (43) and the limiting seat (44);

and a second clamping groove (37) capable of containing the ejector pin (41) is formed in the first valve rod (32).

6. The pressure protection valve of claim 4, wherein the stop assembly 4 comprises a snap cap attached to the bypass tube or the first base, wherein the travel of the first valve stem is limited by a spacing between the snap cap and the first base.

7. Pressure protection valve according to any of claims 1 to 6, characterized in that said second spool assembly (2) comprises a second valve seat (21), a second stem (22), a second plug (23), a second elastic member (24) and a second seat (25);

the second valve rod (22) can be limited on the second valve seat (21) and a second base (25) in a sliding way, and the second valve plug (23) is connected with the second valve rod (22) in a driving way and is positioned between the second valve seat (21) and the second base (25); two ends of the second elastic piece respectively abut against the second valve plug (23) and the second base (25);

the first valve rod (32) is provided with a first clamping groove (35) used for limiting the head of the second valve rod extending out of the second valve seat, and the side wall of the first clamping groove is an arc-shaped surface or an inclined surface which is convenient for the second valve rod to slide out of the first clamping groove (35).

8. Pressure protection valve according to claim 7, characterized in that the second valve stem (22) is provided with a piston seat (28) and the second valve plug (23) is provided on the piston seat (28).

9. The pressure protection valve according to claim 8, wherein the second base (25) and the second valve seat (21) are both provided with a second sliding hole (27), the tail of the second valve rod (22) is slidably limited in the second sliding hole (27) of the second base (25), and the head of the second valve rod (22) passes through the second sliding hole (27) of the second valve seat (21) and interferes with the first valve rod (32).

10. Gas water heater using pressure protection valve according to any of claims 1 to 9, characterized in that the inlet of the valve body is connected with the domestic water pipe (91), and the outlet of the valve body is connected with the inlet of the cold water inlet pipe (92) of the gas water heater;

the cold water inlet pipe (92) is also connected with a plastic shell (93) communicated with the cold water inlet pipe (92), and a flow sensor and a pressure stabilizer are integrated in the plastic shell (93).

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