CN216895825U - Electromagnetic valve for pushing out core of massage chair - Google Patents

Abstract

The utility model relates to the technical field of electromagnetic valves, in particular to a massage armchair core push-out electromagnetic valve which comprises a valve body, an electromagnetic driver, an air pressure adjusting element, a plugging element, an air delivery element and a fixing frame, wherein the valve body is provided with a valve core; the electromagnetic driver is fixedly arranged at the top end of the valve body; the air pressure adjusting element can be vertically and slidably arranged in the valve body, and the top of the air pressure adjusting element is fixedly connected with the output end of the electromagnetic driver; the plugging element is fixedly provided with the lower end of the air pressure adjusting element; the gas transmission element is fixedly arranged at the bottom of the valve body, and the plugging element is used for plugging or opening the gas guide end of the gas transmission element; the fixed frame is fixedly arranged on the back of the valve body; this application can be in the gasbag by aerifing the back that finishes, carry out the secondary according to the required gasbag to the specified region of user and aerify, stop after satisfying the required massage pressure of customer, rational in infrastructure, it is convenient to use, can switch the state of aerifing and the mode of aerifing by oneself according to required.

Description

Electromagnetic valve for pushing out core of massage chair

Technical Field

The utility model relates to the technical field of electromagnetic valves, in particular to a push-out electromagnetic valve for a core of a massage chair.

Background

The principle of the massage chair is that the massage chair utilizes the mechanical rolling force action and the mechanical force extrusion to carry out massage, and can dredge channels and collaterals, circulate qi and blood and keep the yin and yang balance of an organism through massage, so that muscles can feel relaxed after massage, joints are flexible, people can be excited, fatigue is eliminated, and the massage chair has an important effect on ensuring the health of the body; for people who work and study while sitting for a long time, the massage makes blood circulation smooth, improves waist soreness and backache and prevents diseases, and can also improve sleep quality, relieve fatigue of the whole body, improve posture and exercise healthy body;

the massage chair has multiple working modes, some users like to press the waist with great force and press the neck with slight force, but the air bags at the waist and the neck of the traditional massage chair are connected with the same air pump and are inflated by the air pump, and the inflated air bags drive the movement to move so as to massage; when the air bag is inflated to a preset value, the transmission pipeline is sealed through the electromagnetic valve, the pressure of the air bag cannot be adjusted according to autonomous selection, the requirements of different users cannot be met, and due to the fact that the bearing capacity of each person is different, if the neck massage pressure is too large, fatigue cannot be relieved, and discomfort of the users may possibly occur;

therefore, the massage chair core push-out electromagnetic valve which can independently perform secondary inflation towards the inside of the specified air bag after the air bag is inflated according to the preference of a user is provided.

SUMMERY OF THE UTILITY MODEL

Therefore, it is necessary to provide a push-out electromagnetic valve for a movement of a massage chair, which aims at the problems in the prior art.

In order to solve the problems of the prior art, the utility model adopts the technical scheme that:

a massage chair core push-out electromagnetic valve comprises a valve body, an electromagnetic driver, an air pressure adjusting element, a plugging element, an air conveying element and a fixing frame; the electromagnetic driver is fixedly arranged at the top end of the valve body, and the output end of the electromagnetic driver faces the direction of the valve body; the air pressure adjusting element can be vertically and slidably arranged in the valve body, and the top of the air pressure adjusting element is fixedly connected with the output end of the electromagnetic driver; the plugging element is fixedly provided with the lower end of the air pressure adjusting element; the air delivery element is fixedly arranged at the bottom of the valve body, an air guide end of the air delivery element penetrates through the bottom of the valve body and faces the interior of the valve body, and the plugging element is used for plugging or opening the air guide end of the air delivery element; the fixing frame is fixedly arranged on the back of the valve body.

Preferably, the valve body comprises a conduction part, an air outlet channel, a first connection part, a second connection part and a first sealing ring; the valve body is a hollow rectangle; the conduction part is fixedly arranged at the top of the valve body, the conduction part and the valve body are integrally formed, a through hole penetrating through the conduction part from top to bottom to the interior of the valve body is further formed in the conduction part, and the first sealing ring is arranged at the top of the through hole in an embedded mode; the air outlet channel transversely penetrates through the conduction part, and the through hole and the air outlet channel form a cross-shaped channel; the first connecting part and the second connecting part are coaxially arranged at two ends of the air outlet channel.

Preferably, the air pressure adjusting element comprises a conduction adjusting rod, a first vent hole, a second vent hole, an iron ring, an electromagnet and a return spring; the conduction adjusting rod is coaxially and movably arranged in the through hole; the first vent hole is arranged on the conduction adjusting rod in a penetrating mode in a mirror image mode, the second vent hole is arranged on the side wall of the conduction adjusting rod in a penetrating mode relative to the first vent hole, and the second vent hole is arranged right below the first vent hole; the iron ring is embedded in the conduction adjusting rod, the iron ring is arranged between the first vent hole and the second vent hole, the electromagnet is coaxially embedded in the bottom of the through hole, and the reset spring is axially sleeved outside the conduction adjusting rod; one end of the reset spring is connected with the lower surface of the electromagnet in an abutting mode, and the other end of the reset spring is connected with the upper surface of the middle portion of the gas transmission element in an abutting mode.

Preferably, the plugging element comprises a connecting frame, a first plugging head, a second plugging head, a through hole and a guide rod; the connecting frame is fixedly arranged at the bottom of the air pressure adjusting element and is arranged in a U shape; the first blocking head and the second blocking head are respectively and fixedly arranged at two ends of the connecting frame; the through hole penetrates through the rod part of the connecting frame; the guide rod is fixedly installed inside the valve body in a vertical state, the guide rod and the through hole are coaxially arranged, and the through hole is connected with the guide rod in a sliding fit mode.

Preferably, the plugging element further comprises a second sealing ring; the second sealing rings are arranged in two numbers, and the two second sealing rings are respectively installed inside the first blocking head and the second blocking head in an embedded mode.

Preferably, the gas transmission element comprises a gas storage box, a gas guide pipe and a gas inlet pipe; the gas storage box is fixedly arranged at the bottom of the valve body; the two air guide pipes are arranged on the air storage box in a mirror image state; the end parts of the two air ducts penetrate through the bottom of the valve body and are arranged towards the interior of the valve body; the air inlet pipe is arranged on one side of the air storage box.

Compared with the prior art, the beneficial effect of this application is:

1. this application passes through the cooperation of hoop and electro-magnet, has realized how to let the accurate stop of conduction regulation pole at the assigned position to accomplish the work of carrying out the synchronous transmission air supply to first connecting portion and second connecting portion inside.

2. This application has realized how supplementary link along the work of assigned direction reciprocating motion through the guide bar, avoids link autonomous emergence rotation under operating condition, and then leads to the unable accurate shroud of first shutoff head and second shutoff head to the gas outlet department of air duct, realizes the shutoff to the air duct.

Drawings

FIG. 1 is a first perspective view of the present application;

FIG. 2 is a second perspective view of the present application;

FIG. 3 is a side view of the present application;

FIG. 4 is a cross-sectional view taken at A-A of FIG. 3;

FIG. 5 is a perspective view one of the air pressure regulating element and the blocking element of the present application;

fig. 6 is a perspective view of a second air pressure regulating element and a blocking element of the present application.

The reference numbers in the figures are:

1-a valve body; 1 a-a conducting part; 1 b-an air outlet channel; 1 c-a first connection; 1 d-a second connecting portion; 1 e-a first seal ring;

2-an electromagnetic drive;

3-a gas pressure regulating element; 3 a-a conduction adjustment lever; 3 b-a first vent; 3 c-a second vent; 3 d-iron ring; 3 e-an electromagnet; 3 f-a return spring;

4-a blocking element; 4 a-a link; 4 b-a first plugging head; 4 c-a second plugging head; 4 d-through holes; 4 e-a guide bar; 4 f-second seal ring;

5-a gas transmission element; 5 a-gas cartridge; 5 b-gas-guide tube; 5 c-an air inlet pipe;

6-fixing frame.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1 to 6, the present application provides:

a massage chair core push-out electromagnetic valve comprises a valve body 1, an electromagnetic driver 2, an air pressure adjusting element 3, a plugging element 4, an air delivery element 5 and a fixing frame 6; the electromagnetic driver 2 is fixedly arranged at the top end of the valve body 1, and the output end of the electromagnetic driver 2 faces the valve body 1; the air pressure adjusting element 3 is vertically and slidably arranged in the valve body 1, and the top of the air pressure adjusting element 3 is fixedly connected with the output end of the electromagnetic driver 2; the plugging element 4 is fixedly arranged at the lower end of the air pressure adjusting element 3; the gas transmission element 5 is fixedly arranged at the bottom of the valve body 1, the gas guide end of the gas transmission element 5 penetrates through the bottom of the valve body 1 and faces the interior of the valve body 1, and the blocking element 4 is used for blocking or opening the gas guide end of the gas transmission element 5; the fixing frame 6 is fixedly arranged on the back of the valve body 1.

Based on the above embodiment, when the airbag needs to be inflated in a working state, an external power supply is firstly connected to drive the electromagnetic driver 2 to work, the electromagnetic driver 2 drives the air pressure adjusting element 3 to vertically move upwards, the air pressure adjusting element 3 drives the plugging element 4 fixedly mounted at the bottom to be synchronously lifted while moving, so that the output end of the plugging element 4 leaves from the air guide end of the air transmission element 5, at this time, an air source in the air transmission element 5 enters the valve body 1 along the air guide end, the air source in the valve body 1 flows into the air pressure adjusting element 3, and finally, the air source is sent out through the air pressure adjusting element 3, so that the airbag is inflated; the electromagnetic driver 2 comprises a movable ejector rod, a movable iron core spring, a movable iron core, a movable ejector rod and the like; when the electromagnetic valve is electrified in a working state, the electromagnetic coil generates electromagnetic attraction to lift the movable ejector rod so as to drive the air pressure adjusting element 3 to be lifted synchronously, and therefore the driving work of the air pressure adjusting element 3 is completed, and the electromagnetic driver 2 is not shown in detail in the prior art.

Further, as shown in fig. 2 and 4:

the valve body 1 comprises a conduction part 1a, an air outlet channel 1b, a first connection part 1c, a second connection part 1d and a first sealing ring 1 e; the valve body 1 is a hollow rectangle; the valve comprises a valve body 1, a conducting part 1a, a first sealing ring 1e, a second sealing ring and a valve body, wherein the conducting part 1a is fixedly arranged at the top of the valve body 1, the conducting part 1a and the valve body 1 are integrally formed, a through hole penetrating through the conducting part 1a from top to bottom to the inside of the valve body 1 is further formed in the conducting part 1a, and the first sealing ring 1e is embedded in the top of the through hole; the air outlet channel 1b transversely penetrates through the conduction part 1a, and the through hole and the air outlet channel 1b form a cross-shaped channel; the first connecting portion 1c and the second connecting portion 1d are coaxially disposed at two ends of the air outlet channel 1 b.

Based on the above embodiment, the first connecting portion 1c and the second connecting portion 1d are respectively used for connecting two external air pipes, so as to inflate the air bags in different areas, and the air pressure adjusting element 3 is coaxially and movably installed inside the through hole; in the working state, the air source is transmitted to the inside of the air outlet channel 1b through the air pressure adjusting element 3; the air is guided and transmitted to different air bags through the air outlet channel 1b, so that the air bags are inflated.

Further, as shown in fig. 4 to 6:

the air pressure adjusting element 3 comprises a conduction adjusting rod 3a, a first vent hole 3b, a second vent hole 3c, an iron ring 3d, an electromagnet 3e and a return spring 3 f; the conduction adjusting rod 3a is coaxially and movably arranged in the through hole; the first vent hole 3b penetrates through the conduction adjusting rod 3a in a mirror image mode, the second vent hole 3c penetrates through the side wall of the conduction adjusting rod 3a relative to the first vent hole 3b, and the second vent hole 3c is arranged right below the first vent hole 3 b; the iron ring 3d is embedded in the conduction adjusting rod 3a, the iron ring 3d is arranged between the first vent hole 3b and the second vent hole 3c, the electromagnet 3e is coaxially embedded in the bottom of the through hole, and the reset spring 3f is axially sleeved outside the conduction adjusting rod 3 a; one end of the reset spring 3f is connected with the lower surface of the electromagnet 3e in an abutting mode, and the other end of the reset spring is connected with the upper surface of the middle of the gas transmission element 5 in an abutting mode.

Based on the above embodiment, the conduction adjustment rod 3a is a cylindrical shell with an opening at the bottom; the distance from the axis of the air outlet channel 1b to the axis of the bottom of the through hole is the same as the distance from the axis of the iron ring 3d to the axis of the first vent hole 3 b; when the air bags connected with the end parts of the first connecting part 1c and the second connecting part 1d need to be inflated synchronously in the working state, only an external power supply is needed to be connected to drive the electromagnetic driver 2 to work, the electromagnetic driver 2 drives the conduction adjusting rod 3a to be lifted upwards axially, the conduction adjusting rod 3a is driven to lift up and simultaneously the plugging element 4 is driven to move synchronously, thereby realizing the opening work of the air guide end of the air transmission element 5, when the electromagnetic driver 2 moves to the middle of the electromagnet 3e when the iron ring 3d embedded on the conductive adjusting rod 3a moves to the middle of the electromagnet 3e in the process of driving and lifting the air pressure adjusting element 3, the iron ring 3d is adsorbed and fixed through the electromagnet 3e, the first vent hole 3b is coaxial with the air outlet channel 1b, and the air source in the conduction adjusting rod 3a is led out along the first vent hole 3b towards the first connecting part 1c and the second connecting part 1d respectively; after the inflation is finished, the electromagnetic driver 2 is powered off, the conduction adjusting rod 3a can reset under the elastic force action of the reset spring 3f, and the output end of the plugging element 4 can be pressed down to the air outlet end of the air transmission element 5 again; when needing to carry out the air feed to the unilateral, electro-magnet 3e outage, electromagnetic drive 2 conduction when adjusting pole 3a to the conduction and adjust the pole 3a then can directly move to the biggest stroke that electromagnetic drive 2 drove, and second venthole 3c this moment then can move to be coaxial state with second connecting portion 1d, because second venthole 3c only runs through the one side of seting up in conduction and adjusting pole 3a, so when carrying out the transmission to the air supply, the air supply only can transmit towards second connecting portion 1d direction, second venthole 3c has at least one, when wanting independently to transmit towards first connecting portion 1c direction, only need set up a third venthole can in second connecting portion 1d below opposite side.

Further, as shown in fig. 5:

the plugging element 4 comprises a connecting frame 4a, a first plugging head 4b, a second plugging head 4c, a through hole 4d and a guide rod 4 e; the connecting frame 4a is fixedly arranged at the bottom of the air pressure adjusting element 3, and the connecting frame 4a is arranged in a U shape; the first blocking head 4b and the second blocking head 4c are respectively and fixedly arranged at two ends of the connecting frame 4 a; the through hole 4d penetrates through the rod part of the connecting frame 4 a; guide bar 4e is vertical state fixed mounting inside valve body 1, guide bar 4e is coaxial setting with through-hole 4d, and through-hole 4d is connected with guide bar 4e sliding fit.

Based on the above embodiment, the first blocking head 4b and the second blocking head 4c are respectively used for blocking the air outlet end of the air transmission element 5, so as to prevent the air outlet end of the air transmission element 5 from leaking air; the guide rod 4e is used for guiding the connecting frame 4a in the working state, and the connecting frame 4a in the working state is prevented from rotating autonomously, so that the connecting frame 4a is prevented from rotating and deviating rotationally.

Further, as shown in fig. 4:

the plugging element 4 further comprises a second sealing ring 4 f; the number of the second sealing rings 4f is two, and the two second sealing rings 4f are respectively installed inside the first blocking head 4b and the second blocking head 4c in an embedded mode.

Based on the above embodiment, the second sealing ring 4f is used to increase the sealing performance between the first blocking head 4b, the second blocking head 4c and the air outlet end of the air transmission element 5.

Further, as shown in fig. 2 and 4:

the gas transmission element 5 comprises a gas storage box 5a, a gas guide pipe 5b and a gas inlet pipe 5 c; the gas storage box 5a is fixedly arranged at the bottom of the valve body 1; the two air guide pipes 5b are arranged, and the two air guide pipes 5b are vertically arranged on the air storage box 5a in a mirror image state; the end parts of the two air ducts 5b penetrate through the bottom of the valve body 1 and are arranged towards the inside of the valve body 1; the intake pipe 5c is provided on one side of the gas cartridge 5 a.

Based on the above embodiment, the gas storage box 5a is used for storing a gas source, and the gas guide tube 5b is used for conveying the gas source inside the gas storage box 5a towards the inside of the valve body 1; the air inlet pipe 5c is used for connecting an external air source.

This application can be in the gasbag by aerifing the back that finishes, carry out the secondary according to the required gasbag to the specified region of user and aerify, stop after satisfying the required massage pressure of customer, rational in infrastructure, it is convenient to use, can switch the state of aerifing and the mode of aerifing by oneself according to required.

The above examples, which are intended to represent only one or more embodiments of the present invention, are described in greater detail and with greater particularity, and are not to be construed as limiting the scope of the utility model. 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 (6)

1. A massage chair core push-out electromagnetic valve is characterized by comprising a valve body (1), an electromagnetic driver (2), an air pressure adjusting element (3), a blocking element (4), an air conveying element (5) and a fixing frame (6); the electromagnetic driver (2) is fixedly arranged at the top end of the valve body (1), and the output end of the electromagnetic driver (2) is arranged towards the valve body (1); the air pressure adjusting element (3) is vertically arranged in the valve body (1) in a sliding manner, and the top of the air pressure adjusting element (3) is fixedly connected with the output end of the electromagnetic driver (2); the plugging element (4) is fixedly provided with the lower end of the air pressure adjusting element (3); the gas transmission element (5) is fixedly arranged at the bottom of the valve body (1), the gas guide end of the gas transmission element (5) penetrates through the bottom of the valve body (1) and faces the interior of the valve body (1), and the plugging element (4) is used for plugging or opening the gas guide end of the gas transmission element (5); the fixed frame (6) is fixedly arranged on the back of the valve body (1).

2. The push-out electromagnetic valve of the movement of the massage chair as claimed in claim 1, wherein the valve body (1) comprises a conduction part (1a), an air outlet channel (1b), a first connection part (1c), a second connection part (1d) and a first sealing ring (1 e); the valve body (1) is a hollow rectangle; the valve comprises a valve body (1), a conducting part (1a), a first sealing ring (1e) and a second sealing ring, wherein the conducting part (1a) is fixedly arranged at the top of the valve body (1), the conducting part (1a) and the valve body (1) are integrally formed, a through hole penetrating through the conducting part (1a) from top to bottom to the inside of the valve body (1) is further formed in the conducting part (1a), and the first sealing ring (1e) is arranged at the top of the through hole in an embedded mode; the air outlet channel (1b) transversely penetrates through the conduction part (1a), and the through hole and the air outlet channel (1b) form a cross-shaped channel; the first connecting part (1c) and the second connecting part (1d) are coaxially arranged at two ends of the air outlet channel (1 b).

3. The push-out electromagnetic valve of the movement of the massage chair as claimed in claim 2, wherein the air pressure adjusting element (3) comprises a conduction adjusting rod (3a), a first vent hole (3b), a second vent hole (3c), an iron ring (3d), an electromagnet (3e) and a return spring (3 f); the conduction adjusting rod (3a) is coaxially and movably arranged in the through hole; the first vent hole (3b) is arranged on the conduction adjusting rod (3a) in a penetrating mode in a mirror image mode, the second vent hole (3c) is arranged on the side wall of the conduction adjusting rod (3a) in a penetrating mode relative to the first vent hole (3b), and the second vent hole (3c) is arranged right below the first vent hole (3 b); the iron ring (3d) is embedded in the conduction adjusting rod (3a), the iron ring (3d) is arranged between the first vent hole (3b) and the second vent hole (3c), the electromagnet (3e) is coaxially embedded in the bottom of the through hole, and the reset spring (3f) is axially sleeved outside the conduction adjusting rod (3 a); one end of the reset spring (3f) is connected with the lower surface of the electromagnet (3e) in an abutting mode, and the other end of the reset spring is connected with the upper surface of the middle of the gas transmission element (5) in an abutting mode.

4. A massage armchair movement push-out solenoid valve according to claim 3 characterised in that the blocking element (4) comprises a connecting frame (4a), a first blocking head (4b), a second blocking head (4c), a through hole (4d) and a guide rod (4 e); the connecting frame (4a) is fixedly arranged at the bottom of the air pressure adjusting element (3), and the connecting frame (4a) is arranged in a U shape; the first blocking head (4b) and the second blocking head (4c) are respectively and fixedly arranged at two ends of the connecting frame (4 a); the through hole (4d) penetrates through the rod part of the connecting frame (4 a); guide bar (4e) are vertical state fixed mounting inside valve body (1), guide bar (4e) are coaxial setting with through-hole (4d), and through-hole (4d) are connected with guide bar (4e) sliding fit.

5. A massage armchair movement push-out solenoid valve according to claim 4 characterised in that the blocking element (4) also comprises a second sealing ring (4 f); the number of the second sealing rings (4f) is two, and the two second sealing rings (4f) are respectively installed inside the first blocking head (4b) and the second blocking head (4c) in an embedded mode.

6. The push-out electromagnetic valve of the movement of the massage chair as claimed in claim 5, wherein the gas transmission element (5) comprises a gas storage box (5a), a gas guide tube (5b) and a gas inlet tube (5 c); the gas storage box (5a) is fixedly arranged at the bottom of the valve body (1); the two air guide pipes (5b) are arranged, and the two air guide pipes (5b) are vertically arranged on the air storage box (5a) in a mirror image state; the end parts of the two air ducts (5b) penetrate through the bottom of the valve body (1) and are arranged towards the inside of the valve body (1); the air inlet pipe (5c) is arranged on one side of the air storage box (5 a).

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