CN207470857U - Check valve and vehicle - Google Patents

Abstract

The utility model provides a kind of check valve and vehicle, there is technical issues that in use to solve existing check valve.The check valve includes housing unit and valve module living, and valve chamber, the first port, the second port, entrance, outlet and medium channel are provided on housing unit, and valve chamber is arranged at intervals with medium channel；Wherein, the first port of entrance, the first port and medium channel is sequentially connected；First port and the second port are connect with valve chamber and the first port and the second port are oppositely arranged along the length direction of valve chamber, valve module living is plugged in valve chamber and can be moved back and forth between the first port and the second port, for blocking or opening the first port to cut off or be connected the connection between entrance and the first port of medium channel；Outlet, the second port connect simultaneously with the second port three of medium channel, so as to which the region being located in valve chamber between valve module and the second port living is forced to form negative pressure during outlet high-speed jet by Involving velocity.

Description

Check valve and carrier

Technical Field

The utility model belongs to the technical field of the valve accuse technique and specifically relates to a check valve and carrier are related to.

Background

The check valve is a valve which automatically opens and closes a valve clack depending on the flowing of a medium, only allows the medium to flow directionally and prevents the medium from flowing reversely, belongs to an automatic valve and mainly has the functions of preventing the medium from flowing backwards and discharging the medium. The gas check valve has wide application in fluid pipeline systems in the aerospace aviation field and the petrochemical industry field, and the principle is as follows: when the pressure of the inlet of the one-way valve is higher than the opening pressure of the one-way valve, the one-way valve is conducted in a directional mode, and the medium flows from the inlet of the one-way valve to the outlet; when the line system pressure is lower than its closing pressure, the non-return valve closes and the medium flow is cut off.

The one-way valve in the prior art is a straight-through one-way valve, a conducting passage of the straight-through one-way valve extends along the central axis of the valve body, and a return spring and a valve core which are arranged along the central axis are arranged in the valve body. When the pressure of the inlet of the one-way valve is higher than the opening pressure, the valve core pushes the return spring to force the valve core to contract rapidly, and the passage in the valve body is communicated; when the inlet pressure of the one-way valve is lower than the closing pressure, the return spring rebounds rapidly and pushes the valve core to return, and the passage in the valve body is cut off. In the process, the pressure of a pipeline system is unstable, the variation trend of a spring is unstable, especially under the condition of small flow, the inlet pressure of the one-way valve is not enough to enable the one-way valve to be completely conducted, the valve core and the spring generate repeated reciprocating motion in the dynamic unbalance process of small differential pressure, and the spring frequently and rapidly reciprocates to cause the one-way valve to frequently generate vibration, and the vibration can reach several hours at times. Due to the existence of the vibration phenomenon, the pressurization operation of a pipeline system is difficult to carry out, the spring is accelerated to lose fatigue and lose efficacy in multiple reciprocating motions, and the valve core and the valve body continuously impact in the multiple reciprocating motions to seriously affect the sealing property between the valve core and the valve body. Particularly in the field of aerospace, coupling vibration is extremely easy to occur on a pneumatic one-way valve in a pressurized conveying system of a carrier, the noise generated by the coupling vibration can influence the normal work of other systems, and leakage caused by the vibration directly causes the failure of the running task of the system.

Therefore, the existing check valve has a vibration phenomenon in the use process, and the vibration phenomenon causes poor working performance and short service life of the check valve, so that various problems occur in a pipeline system where the check valve is located.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a check valve to there is the technical problem who quivers in the use in solving current check valve.

The utility model provides a one-way valve, which comprises a shell component and a movable valve component;

the shell assembly is provided with a valve cavity, a first through hole, a second through hole, an inlet, an outlet and a medium channel, and the valve cavity and the medium channel are arranged at intervals; wherein,

the inlet, the first port and the first port of the medium channel are connected in sequence; the first through hole and the second through hole are connected with the valve cavity and are oppositely arranged along the length direction of the valve cavity, and the valve assembly is inserted into the valve cavity and can reciprocate between the first through hole and the second through hole so as to block or open the first through hole to cut off or conduct the connection between the inlet and the first port of the medium channel;

the outlet, the second port and the second port of the medium channel are communicated simultaneously, so that the area, positioned between the valve assembly and the second port, in the valve cavity is forced to form negative pressure through entrainment when the outlet is jetted at high speed.

Further, the second through opening is a damping hole.

Further, the movable valve assembly comprises a return spring and a valve core which are sequentially connected from the second port to the first port, and the valve core has a blocking state and a conducting state;

when the medium pressure of the inlet is larger than the elastic force of the return spring, the valve core is switched to a conduction state from a blocking state and forces the return spring to compress so as to store elastic potential energy;

when the medium pressure of the inlet is smaller than the elastic force of the return spring, the return spring drives the valve core to be switched from a conduction state to a blocking state.

Furthermore, the valve core comprises a core body and a plugging piece, and the return spring, the core body and the plugging piece are sequentially connected;

when the medium pressure of the inlet is larger than the elastic force of the return spring, the plugging piece is switched to a conducting state from a plugging state, and the return spring is forced to be compressed through the core body to store elastic potential energy;

when the medium pressure of the inlet is smaller than the elastic force of the return spring, the return spring drives the plugging piece to be switched from a conduction state to a plugging state through the core body.

Furthermore, a first inserting groove opposite to the first through hole is formed in the core body, and the blocking piece is inserted into the first inserting groove.

Furthermore, a second insertion groove opposite to the second opening is formed in the core body, one end of the return spring is inserted into the inner wall of the valve cavity, and the other end of the return spring is inserted into the second insertion groove.

Further, the second through hole is coaxially arranged with the return spring.

Further, the housing assembly comprises a main housing, a cylinder and an air inlet housing;

the main shell is fixedly connected with the air inlet shell, an accommodating space is formed between the main shell and the air inlet shell, the inlet is arranged on the air inlet shell, and the outlet is arranged on the main shell;

the cylinder barrel is positioned in the accommodating space, and the valve cavity is formed inside the cylinder barrel; the inlet, the cylinder barrel and the outlet are sequentially arranged, a communication port is arranged in the area, close to the barrel opening, of the cylinder barrel, the barrel opening and the communication port jointly form the first through port, and the second through port is arranged on the bottom surface of the cylinder barrel; at least part of the peripheral surface of the cylinder barrel and the inner wall of the accommodating space are arranged at intervals to form the medium channel.

Furthermore, one side of the cylinder barrel is fixedly connected with the inner wall of the accommodating space, and the other side of the cylinder barrel and the inner wall of the accommodating space are arranged at intervals to form the medium channel.

The utility model provides a check valve, which comprises a shell component and a movable valve component, wherein the shell component is provided with a valve cavity, a first port, a second port, an inlet, an outlet and a medium channel, and the valve cavity and the medium channel are arranged at intervals; wherein, the inlet, the first port and the first port of the medium channel are connected in sequence; the first port and the second port are both connected with the valve cavity and are oppositely arranged along the length direction of the valve cavity, and the valve assembly is inserted into the valve cavity and can reciprocate between the first port and the second port and is used for plugging or opening the first port so as to cut off or conduct the connection between the inlet and the first port of the medium channel; the outlet, the second port and the second port of the medium channel are communicated simultaneously, so that the area between the movable valve component and the second port in the valve cavity is forced to form negative pressure through entrainment during high-speed jet flow at the outlet.

Specifically, after the movable valve assembly opens the first through port, the inlet is communicated with the medium channel through the first through port, at the moment, the inlet, the first through port, the medium channel and the outlet are communicated, the medium passes through the first through port and the first port of the medium channel from the inlet in sequence, when the medium reaches between the second port and the second through port of the medium channel, the medium is in a high-speed jet flow state, and the high-speed jet flow reaches the outlet and is jetted at the outlet at a high speed; since the second port, the second port and the outlet of the medium passage are normally open, the medium flows to the outlet and simultaneously flows to an area between the valve assembly and the second port in the valve chamber through the second port, which can be referred to as a back pressure chamber. The outlet sprays the medium at a high speed, and due to the entrainment effect of the high-speed medium, the area where the second port, the second port and the outlet of the medium channel are intersected forms entrainment flow, due to the entrainment flow, the medium in the area around the second port is sucked away, including the medium in the back pressure chamber, the pressure in the back pressure chamber is forced to drop below the outlet pressure, forming a negative pressure area with a pressure lower than the outlet pressure, effectively reducing the pressure in the back pressure chamber, and thus, under the action of the medium pressure at the inlet of the one-way valve and the entrainment of the medium at the outlet of the one-way valve, the pressure difference between the two ends of the movable valve component is larger, in the case that the entire flow path has been conducted, the flapper assembly remains in a continuously stable state, and the stabilization time of the flapper assembly and the time of the outlet high-speed jet remain the same, and therefore, the check valve can keep a continuous and stable state in the working process, and the phenomenon of vibration of the check valve in the working process can be avoided.

Compared with the prior art, the utility model provides a check valve sets up valve pocket and medium passage interval, and the export is reachd from the entry to the medium via this medium passage, no longer through the case, and the one end that the valve pocket is close to the export is provided with the second opening, utilizes the pressure differential that the entrainment effect that the medium produced when the exit forms high-speed efflux increases the live valve subassembly both ends, forces the live valve subassembly to keep a stable state under the condition that medium passage switches on, and then prevents the phenomenon of quivering and take place.

Another object of the present invention is to provide a carrier, which comprises a check valve as described above.

The advantages of the carrier compared to the prior art are similar to the advantages of the check valve compared to the prior art, and are not described herein again.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of a check valve provided in an embodiment of the present invention;

fig. 2 is a schematic view of a housing assembly according to an embodiment of the present invention;

FIG. 3 is a schematic view of a flapper valve assembly provided by an embodiment of the present invention;

fig. 4 is a schematic view of a core body provided by the embodiment of the present invention.

Reference numerals:

10-a housing assembly; 20-a live valve assembly; 101-a valve cavity; 102-a first port; 103-a second port; 104-an inlet; 105-an outlet; 106-media channel; 107-main shell; 108-a cylinder barrel; 109-an air inlet shell; 201-a return spring; 202-a core; 203-a closure; 1061 — first port of media channel; 1062 — a second port of the media channel; 2021-a first mating groove; 2022-second mating groove.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. 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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Fig. 1 is the schematic diagram of the check valve provided by the embodiment of the present invention, fig. 2 is the schematic diagram of the housing assembly provided by the embodiment of the present invention, and fig. 3 is the schematic diagram of the movable valve assembly provided by the embodiment of the present invention.

As shown in fig. 1 to 3, the embodiment of the present invention provides a check valve, which includes a housing assembly 10 and a movable valve assembly 20; the housing assembly 10 is provided with a valve cavity 101, a first through hole 102, a second through hole 103, an inlet 104, an outlet 105 and a medium passage 106, wherein the valve cavity 101 and the medium passage 106 are arranged at intervals; wherein, the inlet 104, the first port 102 and the first port 1061 of the medium channel are connected in sequence; the first through hole 102 and the second through hole 103 are both connected with the valve cavity 101, the first through hole 102 and the second through hole 103 are oppositely arranged along the length direction of the valve cavity 101, the valve assembly 20 is inserted into the valve cavity 101 and can reciprocate between the first through hole 102 and the second through hole 103, and is used for blocking or opening the first through hole 102 to cut off or conduct the connection between the inlet 104 and the first port 1061 of the medium channel; the outlet 105, the second port 103 and the second port 1062 of the media passage are all in communication so that the high velocity jet from the outlet 105 forces a negative pressure in the area of the valve chamber 101 between the flapper assembly 20 and the second port 103 by entrainment.

In use, after the valve assembly 20 opens the first port 102, the inlet 104 is communicated with the medium channel 106 through the first port 102, at this time, the inlet 104, the first port 102, the medium channel 106 and the outlet 105 are communicated, the medium passes through the first port 102 and the first port 1061 of the medium channel from the inlet 104 in sequence, and when the medium reaches between the second port 1062 and the second port 103 of the medium channel, the medium is already in a high-speed jet state, and the high-speed jet reaches the outlet 105 and is ejected at the outlet 105 at a high speed; because the second port 1062, the second port 103 and the outlet 105 of the medium passage are normally open, the medium flows to the outlet 105 and flows through the second port 103 to the area of the valve chamber 101 between the flapper assembly 20 and the second port 103, which may be referred to as a back pressure chamber. The outlet 105 sprays the medium at a high speed, the area where the second port 1062, the second port 103 and the outlet 105 of the medium channel meet forms entrainment flow due to the entrainment effect of the high-speed medium, the medium in the area around the second port 103 is sucked away due to the presence of the entrainment flow, the medium in the back pressure cavity is included, the pressure in the back pressure cavity is forced to be reduced below the pressure of the outlet 105, a negative pressure area with the pressure lower than the pressure of the outlet 105 is formed, and the pressure in the back pressure cavity is effectively reduced, so that under the action of the medium pressure at the inlet 104 of the check valve and the medium entrainment at the outlet 105 of the check valve, the pressure difference between two ends of the valve assembly 20 is large, the valve assembly 20 is kept in a continuous stable state under the condition that the whole flow path is conducted, and the stable time of the valve assembly 20 is kept consistent with the high-speed jet time of the outlet 105, therefore, the check valve can be kept in a continuous stable state during the working process, the one-way valve can be ensured not to vibrate in the working process.

Compared with the prior art, the utility model provides a check valve sets up valve pocket 101 and medium passage 106 interval, and the export 105 is reachd from entry 104 via this medium passage 106 to the medium, no longer through the valve subassembly 20, and the one end that the valve pocket 101 is close to export 105 is provided with second port 103, utilizes the medium to increase the pressure differential at valve subassembly 20 both ends in the entrainment effect that produces when export 105 department forms high-speed efflux, forces valve subassembly 20 to keep a stable state under the condition that medium passage 106 switched on, and then prevents the phenomenon of quivering and take place.

The suction effect is also called suction effect, which is the suction effect to ambient gas or liquid by increasing the flow rate of fluid. According to the relationship between the flow rate and the pressure, when the flow rate of the medium at a certain position is increased, the pressure of the medium at the certain position is correspondingly reduced, and when the pressure of the medium is reduced to be lower than the pressure of the surrounding medium, the surrounding medium is sucked and flows into the certain position, and the suction effect is called.

In this embodiment, the housing assembly 10 includes a main housing 107, a cylinder 108 and an intake housing 109, wherein the intake housing 109 may be an intake nozzle structure, the main housing 107 and the intake housing 109 are fixedly connected by a screw thread and a receiving space is formed therebetween, the inlet 104 is disposed on the intake housing 109, the inlet 104 has a set length so as to be directly connected with an external pipeline, the outlet 105 is disposed on the main housing 107, and the outlet 105 has a set length so as to be directly connected with an external pipeline; the cylinder 108 is positioned in the accommodating space, and a valve cavity 101 is formed inside the cylinder 108; the inlet 104, the cylinder 108 and the outlet 105 are arranged in sequence, a communication port (not shown in the figure) is arranged in the area of the cylinder 108 close to the nozzle, the nozzle and the communication port jointly form a first port 102, and a second port 103 is arranged on the bottom surface of the cylinder 108; at least part of the outer peripheral surface of the cylinder 108 is spaced apart from the inner wall of the accommodating space to form a medium passage 106. Specifically, the communication ports are arranged at intervals along the circumference of the cylinder 108 in sequence, so that the media can enter the media channel from different directions, and good circulation of the media is ensured. In this embodiment, the number of the communication ports is 4.

In this embodiment, one side of the cylinder 108 is fixedly connected to the inner wall of the accommodating space, and the other side of the cylinder 108 is spaced from the inner wall of the accommodating space to form the medium passage 106.

In other embodiments, the orifice of the cylinder 108 can be fixedly connected to the intake housing 109, so that an annular medium channel 106 is formed between the outer circumferential surface of the cylinder 108 and the inner circumferential surface of the receiving space.

In this embodiment, the movable valve assembly 20 includes a return spring 201 and a valve core connected in sequence from the second port 103 to the first port 102, and the valve core has a blocking state and a conducting state; the blocking state is that the valve plug blocks the first through hole 102 to cut off the connection between the inlet 104 and the first port 1061 of the medium channel, and the conducting state is that the valve plug opens the first through hole 102 to conduct the connection between the inlet 104 and the first port 1061 of the medium channel; when the medium pressure of the inlet 104 is larger than the elastic force of the return spring 201, the valve core is switched to a conduction state from a blocking state and forces the return spring 201 to compress to store elastic potential energy; when the medium pressure of the inlet 104 is smaller than the elastic force of the return spring 201, the return spring 201 drives the valve element to switch from a conduction state to a blocking state.

The valve core comprises a core body 202 and a plugging piece 203, and the return spring 201, the core body 202 and the plugging piece 203 are connected in sequence; when the medium pressure of the inlet 104 is larger than the elastic force of the return spring 201, the blocking piece 203 is switched from the blocking state to the conducting state and forces the return spring 201 to compress through the core body 202 so as to store elastic potential energy; when the medium pressure of the inlet 104 is smaller than the elastic force of the return spring 201, the return spring 201 drives the blocking piece 203 through the core 202 to switch from the conducting state to the blocking state.

The valve core provided by the embodiment comprises the return spring 201 and the valve core, the structure is simple, the internal structure of the whole one-way valve can be simplified, and the core body of the valve core and the inner wall of the valve cavity are arranged in a sealing mode to ensure the sealing performance of the one-way valve.

The medium of the check valve can be in a gas state or a liquid state, is particularly suitable for the gas state, and is suitable for being used on an aerospace vehicle. The form that sets up of above-mentioned second opening has the multiple, and its shape, size, position can carry out nimble setting according to actual need, and in this embodiment, it is the damping hole to set up the second opening, makes this check valve become a antivibration check valve that quivers based on pneumatic damping principle, and its simple structure can improve check valve operating system's stability comprehensively.

Specifically, when the check valve works, due to the entrainment effect of high-speed jet flow, the medium from the medium channel forms jet flow at the outlet so as to generate entrainment flow, the medium in the area around the damping hole is sucked away under the entrainment effect, the pressure in the back pressure cavity is reduced to be lower than the outlet pressure, a certain negative pressure area is formed, the pressure of the back pressure cavity is effectively reduced, the movable valve assembly is pressed to ensure that the check valve works stably and does not vibrate, and the return spring is in a compressed state at the moment; when the one-way valve finishes working, due to the damping effect of the damping hole, the rising speed of the pressure of the back pressure cavity is effectively reduced, the pressure of the back pressure cavity is guaranteed not to generate rapid change under the damping effect of the damping hole, the damping vibration attenuation effect is achieved, and the movable valve assembly is slowly switched from a conduction state to a blocking state to prevent the one-way valve from vibrating.

On the basis of guaranteeing that the valve subassembly does not take place to quiver, because medium passageway and valve pocket interval set up, mutual noninterference, the medium directly passes through by the medium passageway, compare in prior art, the applicable flow range of this check valve is great to, the part that the medium passed through in the flow process is few, and its flow resistance is little, sets up export and entry into the slot hole structure that has certain length, can realize with piping system's quick butt joint, and it can be applied to in involving each fluid piping system of check valve work.

Preferably, the second port 103 is coaxially disposed with the return spring 201 in the valve assembly 20, and the medium enters the back pressure chamber between the valve assembly 20 and the second port 103 through the second port 103, and since the second port 103 corresponds to the center of the valve assembly 20, the medium can uniformly apply pressure to the valve assembly 20, so as to further improve the stability of the valve assembly 20.

In other embodiments, the axis of the second through opening is parallel to but not coincident with the axis of the return spring, and the second through opening may be one or more than one.

Preferably, when the second through hole is one, the second through hole is coaxially arranged with the return spring.

Preferably, when the second through opening is a plurality of, a plurality of second through openings are arranged according to the set rule along the radial or circumference of cylinder.

Fig. 4 is a schematic view of a core body provided by the embodiment of the present invention.

As shown in fig. 4, in the present embodiment, the core 202 is provided with a first insertion groove 2021 facing the first through hole 102, and the plugging member 203 is inserted into the first insertion groove 2021, so that the one-way valve can be easily attached and detached, and the structure can be simplified without using other connecting members.

The core 202 is further provided with a second insertion groove 2022 opposite to the second port 103, one end of the return spring 201 is inserted into the inner wall of the valve cavity 101, and the other end of the return spring 201 is inserted into the second insertion groove 2022, so that the one-way valve is simple to assemble and disassemble, and the structure of the one-way valve is simple without using other connecting parts. Specifically, in this embodiment, the air inlet casing 109 and the main casing 107 are connected by a screw thread, and the plugging member 203 and the first plugging groove 2021 are connected by a screw thread, so as to complete the installation or the removal quickly and conveniently.

Another object of the present invention is to provide a carrier, which comprises a check valve as described above.

The advantages of the carrier compared to the prior art are similar to the advantages of the check valve compared to the prior art, and are not described herein again.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A one-way valve is characterized by comprising a shell assembly and a movable valve assembly;

the shell assembly is provided with a valve cavity, a first through hole, a second through hole, an inlet, an outlet and a medium channel, and the valve cavity and the medium channel are arranged at intervals; wherein,

the inlet, the first port and the first port of the medium channel are connected in sequence; the first through hole and the second through hole are connected with the valve cavity and are oppositely arranged along the length direction of the valve cavity, and the valve assembly is inserted into the valve cavity and can reciprocate between the first through hole and the second through hole so as to block or open the first through hole to cut off or conduct the connection between the inlet and the first port of the medium channel;

the outlet, the second port and the second port of the medium channel are communicated simultaneously, so that the area, positioned between the valve assembly and the second port, in the valve cavity is forced to form negative pressure through entrainment when the outlet is jetted at high speed.

2. The one-way valve of claim 1, wherein the second port is a damping orifice.

3. The check valve of claim 1, wherein the flapper valve assembly includes a return spring and a spool connected in series from the second port to the first port, the spool having a blocked state and a communication state;

when the medium pressure of the inlet is larger than the elastic force of the return spring, the valve core is switched to a conduction state from a blocking state and forces the return spring to compress so as to store elastic potential energy;

when the pressure of the inlet medium is smaller than the elastic force of the return spring, the return spring drives the valve core to be switched from a conduction state to a blocking state.

4. The check valve of claim 3, wherein the valve spool includes a core body and a blocking piece, and the return spring, the core body and the blocking piece are connected in sequence;

when the medium pressure of the inlet is larger than the elastic force of the return spring, the plugging piece is switched to a conducting state from a plugging state, and the return spring is forced to be compressed through the core body to store elastic potential energy;

when the medium pressure of the inlet is smaller than the elastic force of the return spring, the return spring drives the plugging piece to be switched from a conduction state to a plugging state through the core body.

5. The check valve of claim 4, wherein the core body defines a first slot opposite the first opening, and the blocking member is engaged with the first slot.

6. The check valve as claimed in claim 5, wherein the core body is further provided with a second insertion groove opposite to the second port, one end of the return spring is inserted into the inner wall of the valve cavity, and the other end of the return spring is inserted into the second insertion groove.

7. The check valve of claim 6, wherein the second port is disposed coaxially with the return spring.

8. The check valve of claim 1, wherein the housing assembly comprises a main housing, a cylinder, and an inlet housing;

the main shell is fixedly connected with the air inlet shell, an accommodating space is formed between the main shell and the air inlet shell, the inlet is arranged on the air inlet shell, and the outlet is arranged on the main shell;

the cylinder barrel is positioned in the accommodating space, and the valve cavity is formed inside the cylinder barrel; the inlet, the cylinder barrel and the outlet are sequentially arranged, a communication port is arranged in the area, close to the barrel opening, of the cylinder barrel, the barrel opening and the communication port jointly form the first through port, and the second through port is arranged on the bottom surface of the cylinder barrel;

at least part of the peripheral surface of the cylinder barrel and the inner wall of the accommodating space are arranged at intervals to form the medium channel.

9. The check valve as in claim 8, wherein one side of the cylinder is fixedly connected with the inner wall of the accommodating space, and the other side of the cylinder is spaced from the inner wall of the accommodating space to form the medium passage.

10. A vehicle comprising a one-way valve as claimed in any one of claims 1 to 9.