CN210760374U - Seat with health care function - Google Patents

Abstract

The utility model discloses a seat with health function, it includes following part: a seat body including a seat back; a plurality of inflatable and deflatable air bags arranged on the seat back in an array manner, wherein each air bag is independently connected to an inflation unit, the expansion and contraction strokes of at least two air bags are different, the air bags are symmetrically arranged by taking the central axis of the seat back as a symmetry axis, and the arrangement positions of the air bags comprise or do not comprise the symmetry axis; and the control unit is connected with the inflation unit and is used for independently controlling the inflation and deflation of each air bag. The telescopic strokes of at least two air bags in the seat are different, the telescopic strokes of the air bags corresponding to the cervical vertebra and the lumbar vertebra of a human body are larger than the telescopic strokes of the air bags corresponding to the thoracic vertebra of the human body, the air bags can be attached to the structure of the vertebra of the human body after being inflated, and the massage part can be accurately controlled.

Description

Seat with health care function

Technical Field

The utility model belongs to the seat field, in particular to seat with health function.

Background

With the rapid development of the automobile industry, the requirements of people on the seat are higher and higher, the existing automobile seat is not comfortable enough, and the problems of waist soreness, back pain and the like are easy to occur after the automobile seat is taken for a long time. The massage device commonly used by the automobile seat with the health care function sold in the market at present is an air bag, and has the following problems:

1. the existing massage device can only massage the waist, the shoulders and the like in a large range, is not attached to the structure of the human body enough, and can not control the massage part accurately;

2. the air bags of the existing massage device are in linkage design, all the air bags are started once the air bags are started, and the individual requirements of users cannot be realized;

3. the existing massage chair has single function, can only massage and relieve muscle stiffness in a large range aiming at the waist, the shoulders and the like, and has no other health care functions.

In order to solve the above problems, the present invention is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a seat with health function, it includes following part:

a seat body including a seat back;

the inflatable and deflatable air bags are arranged on the seat backrest in an array mode, each air bag is independently connected to an inflatable unit, the telescopic strokes of at least two air bags are different, the air bags are symmetrically arranged by taking the central axis of the seat backrest as a symmetry axis, and the arrangement positions of the air bags comprise the symmetry axis;

and the control unit is connected with the inflation unit and is used for independently controlling the inflation and deflation of each air bag.

Wherein, the telescopic stroke of the air bag refers to the telescopic stroke of the air bag in the processes of inflation and deflation.

A user sits on the seat with the spine aligned with the central axis of the seat back. The at least two air bags have different telescopic strokes, and the telescopic strokes of the air bags are determined according to the arrangement positions of the air bags. For example, the air bag corresponding to the cervical vertebra and lumbar vertebra of the human body has a longer expansion stroke than the air bag corresponding to the thoracic vertebra of the human body.

Preferably, the number of said air pockets is at least six, and said axis of symmetry is at least three on each side. Preferably, the three air bags are respectively arranged at two sides of the cervical vertebra, the thoracic vertebra and the lumbar vertebra corresponding to the human body, and the air bags arranged at the two sides of the thoracic vertebra corresponding to the human body have the smallest extension stroke.

Preferably, the air bag is arranged in the following three ways:

the first setting mode is as follows:

an upper air bag and four middle air bags are arranged on each side of the symmetry axis from top to bottom, and the upper air bags are closer to the symmetry axis than the middle air bags;

the upper air bag is arranged at the upper part of the seat back, is 0-40 mm away from the upper edge of the seat back and is 55-75mm away from the symmetry axis;

the distances between the four middle air bags and the symmetry axis are all 60-120 mm, the telescopic stroke of the middle air bag at the topmost end is the smallest, the middle air bag is 30-90mm away from the upper air bag, the distance between the adjacent middle air bags is 20-40 mm, and the middle air bag at the bottommost end is 15-40 mm away from the lower edge of the seat backrest;

the second setting is as follows:

five middle air bags are arranged on each side of the symmetry axis from top to bottom, the distances between the five middle air bags and the symmetry axis are all 60-120 mm, the telescopic stroke of the second middle air bag from the top end is minimum, the distance between the middle air bag at the topmost end and the upper edge of the seat back is 40-60 mm, the distance between the adjacent middle air bags is 20-40 mm, and the distance between the middle air bag at the bottommost end and the lower edge of the seat back is 15-40 mm;

the third setting mode is as follows:

five middle air bags are arranged on each side of the symmetry axis from top to bottom, and 4 central air bags are arranged on the symmetry axis;

the distances between the five middle air bags and the symmetry axis are all 80-120 mm, wherein the telescopic stroke of the second middle air bag from the top end is minimum, the distance between the middle air bag at the topmost end and the upper edge of the seat back is 40-60 mm, the distance between the adjacent middle air bags is 20-40 mm, and the distance between the middle air bag at the bottommost end and the lower edge of the seat back is 15-40 mm;

the 4 central air bags are arranged at equal intervals along the symmetry axis, the interval is 30-50 mm, the distance between the topmost central air bag and the upper edge of the seat back is 10-20 mm, and when the middle air bag and the central air bag are completely extended, the transverse distance between the outer edge of the middle air bag and the outer edge of the central air bag is 15-30 mm.

Preferably, the fourth arrangement of the air bag is as follows:

five air bags are arranged on each side of the symmetry axis, and are a first air bag, a second air bag, a third air bag, a fourth air bag and a fifth air bag from top to bottom in sequence, wherein the telescopic stroke of the second air bag is minimum, the distances between the first air bag, the third air bag and the fourth air bag and the symmetry axis are the same, the distances between the second air bag and the symmetry axis are the same, the first air bag is closer to the symmetry axis than the second air bag, and the transverse distances between the air bags are smaller than 60 cm.

The fourth setting mode of the air bag is determined according to the position of the activated target muscle when the yoga style is carried out by the human body. The first air pocket is designed closer to the symmetry axis, so that the first air pocket is more attached to the shoulder muscle.

In the four air bag arrangement modes, the air bags on the two sides of the symmetry axis are arranged corresponding to the bladder channels of the human body; the air bags on the symmetry axis are arranged and correspond to governor vessels of a human body.

The bladder meridian goes up to the head and face, runs through the trunk, and runs down the legs and feet, which is the longest and most extensive part of the twelve main meridians along the middle meridians, the largest number of acupoints, the largest number of zang-fu organs and tissues, and the most widely involved diseases. The meridian qi of the bladder is adjusted to regulate the five internal organs, and the qi is regulated to calm the nerves, so that the symptoms of physical fatigue and mental fatigue of fatigue syndrome are effectively relieved. The back transport points refer to the twelve pairs of points located along the first lateral line of the bladder meridian of foot Taiyang and related to the zang-fu organs, which are the specific points infused by the qi of the zang-fu organs in the back. Regulating the meridian qi of back transport points can achieve various therapeutic effects on viscera, such as improving the functions of heart and lung, gastrointestinal tract, and urinary system.

The utility model discloses the second aspect provides an operating method of seat with health function, its seat that uses above-mentioned four kinds of setting modes simulates traditional chinese medical science massage, operating method includes following step:

a user sits on the seat, keeps the spine aligned with the central axis of the backrest of the seat, and then selectively controls part or all of the air bags to circularly inflate and deflate the air bags so as to circularly apply acting force on specific acupuncture points of the body of the user and simulate the traditional Chinese medicine massage operation;

preferably, each inflation operation of the air bag is divided into a plurality of intermittent inflations so as to simulate the intensity change of the acting force;

preferably, each deflation operation of the air bag is completed by dividing into a plurality of intermittent deflations so as to simulate the intensity change of the acting force;

preferably, the inflation and deflation operations of each two said air bags are cyclically synchronized or not synchronized.

The air bag which is selectively controlled is determined according to the position of the target acupuncture points of the human body which need to be activated by the massage method when the seat simulates traditional Chinese medicine massage.

Wherein, the curative effect of the seat simulating the traditional Chinese medicine massage by using the third setting mode is stronger than the effect of the seat simulating the traditional Chinese medicine massage by using the first setting mode and the second setting mode.

The utility model discloses the third aspect also provides an operating method of seat with health function, its seat that uses above-mentioned fourth kind of setting mode carries out yoga and experiences, operating method includes following step:

the user sits on the seat, keep vertebra with backrest's axis aligns, then selective control part or whole the air pocket makes the air pocket aerifys, and is in apply the effort on the specific muscle of user's health, help the user experience yoga action.

Preferably, the air bags are opened one by one in the opening process, or a plurality of air bags are used as a group, and the air bags are opened one by one to help different body parts of the user to gradually experience specific yoga actions.

Preferably, the operation of inflating said airbag is performed in several intermittent inflations, so as to simulate the variation of intensity of said action.

Preferably, the inflation and deflation operations of each two said air bags are cyclically synchronized or not synchronized.

The air bag for selective control is determined according to the position of the target muscle activated by the yoga action which the user wants to experience.

The fourth aspect of the present invention provides a first aspect of the seat for simulating the use of traditional Chinese medicine massage and yoga experience.

The utility model discloses following beneficial effect has:

1. the telescopic strokes of at least two air bags in the seat are different, the telescopic strokes of the air bags corresponding to the cervical vertebra and the lumbar vertebra of a human body are larger than the telescopic strokes of the air bags corresponding to the thoracic vertebra of the human body, the air bags can be attached to the structure of the vertebra of the human body after being inflated, and the massage part can be accurately controlled.

2. The seat can start the air bags one by one or one by one according to requirements by arranging the air bags controlled by the independent inflating units, and can realize the individual requirements of users. Meanwhile, each time of the air bag inflation and deflation operation is divided into a plurality of intermittent operations to be completed so as to simulate the intensity gear change of the acting force.

3. The air bag of the seat is arranged in a mode corresponding to specific acupuncture points in a governor vessel and a bladder channel of a human body, and a specific traditional Chinese medicine massage method can be simulated according to specific treatment requirements by controlling the opening and closing of the air bag at a specific position.

4. The setting mode of the fourth air bag of this seat corresponds human specific muscle, and this seat can start the air bag according to the demand one by one or group by group through setting up the air bag of independent inflation unit control, can help the specific yoga action of user experience.

Drawings

Fig. 1 is a schematic diagram of the patterning of the opened air bag corresponding to the simulation of the chinese medical massage operation in example 2.

Fig. 2 is a schematic diagram of the patterning of the opened air bag corresponding to the simulation of the chinese medical massage operation in example 4.

Fig. 3 is a schematic diagram of the yoga action cow-top type and the corresponding patterning of the opening airbag in embodiment 6.

Fig. 4 is a schematic diagram of the yoga action half-fish type and the corresponding patterning of the opening air bag in embodiment 6.

Fig. 5 shows a first arrangement of the air bag of the present invention, the middle portion is the symmetry axis.

Fig. 6 shows a second arrangement of the air bag according to the present invention, wherein the middle part is the symmetry axis.

Fig. 7 shows a third arrangement of the air bag according to the present invention, wherein the middle part is the symmetry axis.

Fig. 8 shows a fourth arrangement of the air bag according to the present invention, wherein the middle part is the symmetry axis.

Fig. 9 is a schematic view of a human spinal structure.

Detailed Description

The present invention will be further described with reference to the following detailed description.

Example 1

A chair with healthcare function comprising the following components:

a seat body including a seat back;

the inflatable and deflatable air bags are arranged on the seat backrest in an array mode, each air bag is independently connected to an inflatable unit, the telescopic strokes of at least two air bags are different, the air bags are symmetrically arranged by taking the central axis of the seat backrest as a symmetry axis, and the arrangement positions of the air bags comprise the symmetry axis;

and the control unit is connected with the inflation unit and is used for independently controlling the inflation and deflation of each air bag.

Five middle air bags are arranged on each side of the symmetry axis, and 4 central air bags are arranged on the symmetry axis;

the distances between the five middle air bags and the symmetry axis are all 80mm, the telescopic stroke of the middle air bag at the topmost end is the smallest and is 40mm away from the upper edge of the seat back, the distance between the adjacent middle air bags is 20mm, and the middle air bag at the bottommost end is 15mm away from the lower edge of the seat back;

the 4 center airbags are arranged at equal intervals along the symmetry axis, the interval is 30mm, the center airbag at the topmost end is 10mm away from the upper edge of the seat back, and when the middle airbag and the center airbag are fully extended, the vertical distance between the outer edge of the middle airbag and the outer edge of the center airbag is 15 mm.

Example 2

An operation method of a seat with a health care function, which simulates a traditional Chinese medicine massage using the seat of the above embodiment 1, comprising the steps of:

the user sits on the seat, keeps the spine aligned with the central axis of the backrest of the seat, and then selectively controls parts of the air bags to make the air bags perform cyclic inflation and deflation operations so as to apply acting force on specific acupuncture points of the body of the user in a cyclic mode and simulate traditional Chinese medicine massage operation.

The massage operation will be described below by way of example, and the air bag to be opened is a dark air bag in the figure.

According to the figure 1, a user sits on the seat, keeps the spine aligned with the central axis of the backrest of the seat, selectively controls the air bags filled with dark colors to inflate the air bags, and exerts acting force on corresponding acupuncture points of the body of the user to simulate the traditional Chinese medicine massage operation. The air bag is firstly opened as shown in the air bag filled with the dark color in fig. 1A, the air bag is inflated once, the air bag is kept for 3 seconds after the inflation is completed and then is deflated, then the air bag filled with the dark color in fig. 1B is opened, the inflation and deflation operation is repeated, then the air bag filled with the dark color in fig. 1C is opened, and the inflation and deflation operation is repeated. This is a cycle and the user can set the number of cycles in the control unit of the seat.

The above massage method belongs to the clinical compatibility of acupoints on the back at the same section, and has therapeutic effects on rugitus, diarrhea, lumbago due to kidney deficiency, etc.

Example 3

The seat with the health care function is only different from the seat in embodiment 1 in the arrangement mode of the air bag on the seat, and the arrangement mode of the air bag is as follows:

five middle air bags are arranged on each side of the symmetry axis, the distance between each five middle air bags and the symmetry axis is 60, the five middle air bags are arranged in parallel to the symmetry axis, the telescopic stroke of the second middle air bag from the top end is the smallest, the middle air bag at the topmost end is 40mm away from the upper edge of the seat back, the distance between every two adjacent middle air bags is 20mm, and the middle air bag at the bottommost end is 20mm away from the lower edge of the seat back.

Example 4

The operation method of the seat with the health care function comprises the following steps:

the user sits on the seat, keeps the spine aligned with the central axis of the backrest of the seat, and then selectively controls parts of the air bags to make the air bags perform cyclic inflation and deflation operations so as to apply acting force on specific acupuncture points of the body of the user in a cyclic mode and simulate traditional Chinese medicine massage operation.

The massage operation will be described below by way of example, and the air bag to be opened is a dark air bag in the figure.

According to the figure 2, a user sits on the seat, keeps the spine aligned with the central axis of the backrest of the seat, selectively controls the air bags filled with dark colors to inflate the air bags, and exerts acting force on corresponding acupuncture points of the body of the user to simulate the traditional Chinese medicine massage operation. The air bag is firstly opened as shown in the air bag filled with the dark color in fig. 2A, the opening process is to complete inflation at one time, keep for 3 seconds after inflation is completed and then deflate, then the air bag filled with the dark color in fig. 2B is opened, the inflation and deflation operation is repeated, then the air bag filled with the dark color in fig. 2C is opened, the inflation and deflation operation is repeated, then the air bag filled with the dark color in fig. 2D is opened, and the inflation and deflation operation is repeated. This is a cycle and the user can set the number of cycles in the control unit of the seat.

The above massage method belongs to the clinical compatibility of the exterior and interior back transport points, and has therapeutic effect on fever cough, pharyngalgia, chest distress with dry stool, etc.

Example 5

A chair with healthcare function comprising the following components:

a seat body including a seat back;

the inflatable and deflatable air bags are arranged on the seat backrest in an array mode, each air bag is independently connected to an inflatable unit, the telescopic strokes of at least two air bags are different, the air bags are symmetrically arranged by taking the central axis of the seat backrest as a symmetry axis, and the arrangement positions of the air bags comprise the symmetry axis;

and the control unit is connected with the inflation unit and is used for independently controlling the inflation and deflation of each air bag.

The fourth setting mode of the air bag is as follows:

five air bags are arranged on each side of the symmetry axis, and are a first air bag, a second air bag, a third air bag, a fourth air bag and a fifth air bag from top to bottom in sequence, wherein the telescopic stroke of the second air bag is minimum, the first air bag, the third air bag and the fourth air bag have the same distance with the symmetry axis and are arranged in parallel to the symmetry axis, the second air bag and the fifth air bag have the same distance with the symmetry axis and are arranged in parallel to the symmetry axis, the first air bag is closer to the symmetry axis than the second air bag, and the transverse distance between the air bags is smaller than 60 cm.

Example 6

A method of operating a seat with healthcare functions to perform a yoga experience using the seat of embodiment 3 above, the method comprising the steps of:

the user sits on the seat, keep vertebra with backrest's axis aligns, then selective control part the air pocket makes the air pocket aerifys to apply the effort on the specific muscle of user's health, help the user further deepens yoga action.

Several yoga actions are exemplified below, with the selectively activated air bags being shown as dark filled air bags in the figure.

The user sits on the seat, keeps vertebra and backrest's axis alignment, and the air pocket of dark packing in the selective control chart 3 makes the air pocket aerify, applys the effort on the corresponding muscle of user's health, helps the user experience yoga action ox face formula.

The opened air bag is shown as the air bag filled with dark color in fig. 3, the air bag is inflated in one step, is kept for 4 seconds after the inflation is finished, and then is deflated.

Fig. 4 yoga is a semi-fish type, the activated specific muscle is a dark part in the human body, the opened air bag is shown as the dark filled air bag in fig. 4, and the inflation and deflation processes are as described above.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art can easily think of the changes or substitutions within the technical scope of the present invention, and all should be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (4)

1. A seat with health care function, characterized in that it comprises the following components:

a seat body including a seat back;

a plurality of inflatable and deflatable air bags arranged on the seat back in an array manner, wherein each air bag is independently connected to an inflation unit, the expansion and contraction strokes of at least two air bags are different, the air bags are symmetrically arranged by taking the central axis of the seat back as a symmetry axis, and the arrangement positions of the air bags comprise or do not comprise the symmetry axis;

and the control unit is connected with the inflation unit and is used for independently controlling the inflation and deflation of each air bag.

2. The seat according to claim 1, wherein said number of air bags is at least six, and said axis of symmetry is at least three on each side.

3. The seat according to claim 2, wherein the air bag is provided in three ways:

the first setting mode is as follows:

an upper air bag and four middle air bags are arranged on each side of the symmetry axis from top to bottom, and the upper air bags are closer to the symmetry axis than the middle air bags;

the upper air bag is arranged at the upper part of the seat back, is 0-40 mm away from the upper edge of the seat back and is 55-75mm away from the symmetry axis;

the distances between the four middle air bags and the symmetry axis are all 60-120 mm, the telescopic stroke of the middle air bag at the topmost end is the smallest, the middle air bag is 30-90mm away from the upper air bag, the distance between the adjacent middle air bags is 20-40 mm, and the middle air bag at the bottommost end is 15-40 mm away from the lower edge of the seat backrest;

the second setting is as follows:

five middle air bags are arranged on each side of the symmetry axis from top to bottom, the distances between the five middle air bags and the symmetry axis are all 60-120 mm, the telescopic stroke of the second middle air bag from the top end is minimum, the middle air bag at the topmost end is 40-60 mm away from the upper edge of the seat back, the distance between every two adjacent middle air bags is 20-40 mm, and the middle air bag at the bottommost end is 15-40 mm away from the lower edge of the seat back;

the third setting mode is as follows:

five middle air bags are arranged on each side of the symmetry axis from top to bottom, and 4 central air bags are arranged on the symmetry axis from top to bottom;

the distances between the five middle air bags and the symmetry axis are all 80-120 mm, wherein the telescopic stroke of the second middle air bag from the top end is minimum, the distance between the middle air bag at the topmost end and the upper edge of the seat back is 40-60 mm, the distance between the adjacent middle air bags is 20-40 mm, and the distance between the middle air bag at the bottommost end and the lower edge of the seat back is 15-40 mm;

the 4 central air bags are arranged at equal intervals along the symmetry axis, the interval is 30-50 mm, the distance between the topmost central air bag and the upper edge of the seat back is 10-20 mm, and when the middle air bag and the central air bag are completely extended, the transverse distance between the outer edge of the middle air bag and the outer edge of the central air bag is 15-30 mm.

4. The seat according to claim 2, wherein the air bag is disposed in a manner that: five air bags are arranged on each side of the symmetry axis, and are a first air bag, a second air bag, a third air bag, a fourth air bag and a fifth air bag from top to bottom in sequence, wherein the telescopic stroke of the second air bag is minimum, the distances between the first air bag, the third air bag and the fourth air bag and the symmetry axis are the same, the distances between the second air bag and the symmetry axis are the same, the first air bag is closer to the symmetry axis than the second air bag, and the transverse distances between the air bags are smaller than 60 cm.

Images