CN216534650U - Power-on heat-conducting magnetic therapy unit body - Google Patents

Abstract

An electrified heat-conducting magnetic therapy unit body comprises an outer wrapping pipe and an outer wrapping cavity arranged in the outer wrapping pipe, at least two tubular fabrics which are sequentially arranged along the axial direction of the outer wrapping cavity are embedded and connected in the outer wrapping cavity, the adjacent tubular fabrics are mutually separated, tubular fabric's side wall is by the yarn textile, the inside tubulose cavity of having seted up, the embedding is connected with a plurality of series connection's in proper order trigger ball in the tubulose cavity, the trigger ball includes the ball seat, go up the axis body, lower barrel, lower ball seat, left side conductor wire and right conductor wire, the top of going up the axis body is worn behind the axle hole and is connected with the bottom of last ball seat, the bottom of going up the axis body is worn behind the axle hole and is descended to down in the ball cavity and be connected with the top of conducting strip, the conducting strip is at the projection and the left side of vertical direction, the top homogeneous phase contact of right side conducting strip station, a left side, the outer end and the left side of right side conducting strip station, right side conductor wire corresponds and is connected. The design has the advantages of short acting distance, high production efficiency, good additional function effect and high safety.

Description

Power-on heat-conducting magnetic therapy unit body

Technical Field

The utility model relates to a textile part used on a mattress, belongs to the field of textile products, and particularly relates to an electrified heat-conducting magnetic therapy unit body.

Background

Good sleep is the premise and guarantee of acquiring healthy living state, and people spend at least about eight hours each day in bed, so that the mattress directly influences the health of people. The existing mattress has a plurality of novel mattresses with additional functions, such as a mattress with a massage function, a temperature regulation function and a magnetic therapy function, besides the traditional springs, latex and palm fibers.

Chinese patent with publication number CN209712289U, publication date 2019, 12 and 3 discloses a magnetic acupoint therapy magnetic health mattress, which comprises a cushion cover and a cushion core, wherein the cushion cover wraps the cushion core in a full-three-dimensional manner; the cushion core includes the cushion core body, be equipped with a plurality of protruding balls of massage on the cushion core body, it is a plurality of the protruding ball evenly distributed of massage is on the cushion core body, corresponds a magnetism moxibustion stone of installation respectively in the protruding ball of massage, and on the magnetite distributes, combines human acupuncture point, with arranging of magnetite, can effectively massage to the acupuncture point to at a plurality of positions of human important, four adjacent circular magnetite that be heteropolar or homopolar are installed with the same mounting means in the four corners around the protruding ball of massage, form three-dimensional magnetic field. Although the design improves the health care effect on the human body by adding the magnet on the cushion core body, the cushion core body still has the following defects: the structure that relates to the magnetite in this design is comparatively complicated, easily reduces production efficiency.

The information disclosed in this background section is only for enhancement of understanding of the general background of the patent application and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person skilled in the art.

Disclosure of Invention

The utility model aims to overcome the defects and problems of low production efficiency in the prior art and provide an electrified heat-conducting magnetic therapy unit body with high production efficiency.

In order to achieve the above purpose, the technical solution of the utility model is as follows: an electrified heat-conducting magnetic therapy unit body comprises an outer wrapping pipe and an outer wrapping cavity formed in the outer wrapping pipe, wherein at least two tubular fabrics are embedded and connected in the outer wrapping cavity, all the tubular fabrics are sequentially arranged along the axial direction of the outer wrapping cavity, and adjacent tubular fabrics are mutually separated;

the side wall of the tubular fabric is woven by yarns, the adjacent yarns are interwoven to form a coil, a tubular cavity is formed in the tubular fabric, a plurality of trigger balls which are sequentially connected in series are embedded and connected in the tubular cavity, and each trigger ball comprises an upper ball seat, an upper shaft body, a lower barrel body, a lower ball seat, a left conductive wire and a right conductive wire;

the lower ball seat is internally provided with a lower ball cavity, the top of the lower ball seat is connected with the bottom end of the lower barrel, the lower barrel is internally provided with a lower barrel cavity, the top end of the lower barrel extends to a position lower than the bottom of the upper ball seat, a top partition plate is embedded and connected in the lower barrel near the top end of the lower barrel, the middle part of the top partition plate is provided with a through shaft hole, the top end of the upper shaft body penetrates through the through shaft hole and then is connected with the bottom of the upper ball seat, and the bottom end of the upper shaft body penetrates through the through shaft hole and then extends into the lower ball cavity and is connected with the top of the conducting strip; a fixing plate is sleeved on the side wall of the upper shaft body close to the conducting strip, the top surface of the fixing plate is connected with the bottom end of the spring, the top end of the spring is connected with the inner wall of the top surface of the lower ball seat, and the spring is sleeved on the side wall of the upper shaft body;

the projection of the conducting strip in the vertical direction is contacted with the tops of the left conducting station and the right conducting station, the left end of the left conducting station is connected with the inner end of the left conducting wire, the outer end of the left conducting wire penetrates through the outer wall of the lower ball seat and then extends to the outside of the lower ball seat, the right end of the right conducting station is connected with the inner end of the right conducting wire, and the outer end of the right conducting wire penetrates through the outer wall of the lower ball seat and then extends to the outside of the lower ball seat;

and adjacent trigger balls in the single tubular cavity are correspondingly connected in series through a left conductive wire and a right conductive wire.

The outer wrapping tube is made of water-soluble fiber.

The water-soluble fiber is any one of alginate fiber, carboxymethyl cellulose fiber and polyvinyl alcohol fiber.

The upper shaft body side wall, the top of the top clapboard and the lower shaft body inner wall are clamped into a ring column cavity.

The ring column cavity is filled with a water-soluble film, the inner side of the water-soluble film is wrapped on the side wall of the upper shaft body, and the outer side of the water-soluble film is in interference fit with the inner wall of the lower shaft body.

In the tubular cavity, one left conductive wire and one right conductive wire in a free state are respectively arranged; the outer end of the left conductive wire in the free state extends to the outside of the tubular fabric, and the outer end of the right conductive wire in the free state extends to the outside of the tubular fabric.

The yarn used at the part of the tubular fabric close to the trigger ball is high-elastic yarn.

The ball mouth has been seted up down to the bottom of ball seat down, and this ball mouth is embedded to be connected with a lower ball board down, is provided with left card platform groove, right card platform groove on the top surface of this lower ball board, the cooperation of joint is carried out with the bottom of left electrically conductive platform in left card platform groove, the cooperation of joint is carried out with the bottom of right electrically conductive platform in right card platform groove.

The top of the upper ball seat is provided with an upper ball opening, and an upper ball plate is embedded and connected into the upper ball opening; an upper ball cavity is formed in the upper ball seat, an upper shaft cavity is formed in the upper shaft body, and the upper ball opening is communicated with the upper shaft cavity after passing through the upper ball cavity.

The side wall of the spring is provided with a spring gap communicated with the inner cavity of the spring, the part of the top clapboard surrounding the through shaft hole is provided with a plurality of air exhaust holes, and the air exhaust holes are communicated with the lower ball cavity after sequentially passing through the lower barrel cavity, the inner cavity of the spring and the spring gap.

Compared with the prior art, the utility model has the beneficial effects that:

1. the utility model relates to an electrified heat-conducting magnetic therapy unit body, which comprises an outer wrapping pipe and an outer wrapping cavity arranged in the outer wrapping pipe, wherein at least two tubular fabrics are embedded and connected in the outer wrapping cavity, all the tubular fabrics are sequentially arranged along the axial direction of the outer wrapping cavity, the adjacent tubular fabrics are mutually separated, a plurality of trigger balls which are sequentially connected in series are embedded and connected in the tubular cavity in the tubular fabrics, the adjacent trigger balls are correspondingly connected in series through a left conductive wire and a right conductive wire, when the electrified heat-conducting magnetic therapy unit body is applied, the outer wrapping pipe is directly involved in weaving and can be used as weft or warp, so that the trigger balls are introduced into a final textile product and exist in a group form (the trigger balls existing in a single tubular cavity are in a group and are mutually connected in series into a whole), thereby exerting the additional function of a spheroid, such as a conduction trigger device of an external circuit, and the integral spinning efficiency is higher. Therefore, the production efficiency of the utility model is high.

2. In the power-on heat-conducting magnetotherapeutic unit body of the utility model, the trigger ball comprises an upper ball seat, an upper shaft body, a lower barrel body, a lower ball seat, a left conductive wire and a right conductive wire, once a human body presses on the upper ball seat, the upper ball seat drives the upper shaft body to move downwards together, the lower shaft body drives the conducting strip to move downwards, so that the bottom of the conducting strip is attached to the top of the left conducting station and the top of the right conducting station, thereby conducting the circuit loop where the left conducting wire and the right conducting wire are located, thereby operating the functional elements connected to the circuit loop, such as heat generated by the heating element and light generated by the light emitting element, such as ultraviolet light, wherein, the heat can improve the magnetic therapy effect of the upper ball seat and the lower ball seat (the upper ball seat and the lower ball seat are internally provided with magnetic substances in advance, such as infill, plating, implantation and the like, or the upper ball seat and the lower ball seat are directly made of the magnetic substances), and the ultraviolet light can sterilize. Therefore, the additional function effect of the utility model is better.

3. In the utility model, when the outer wrapping tube is woven, the outer wrapping tube can be removed to expose the tubular fabric, and then the coil on the tubular fabric is pulled away to expose the upper ball seat and the lower ball seat, at the moment, the upper ball seat is in direct contact with the human body, the action distance is shortened to the maximum extent, and the magnetic therapy effect is favorably improved (the upper ball seat and the lower ball seat are internally provided with magnetic substances in advance, such as inner filling, plating, implantation and the like, or the upper ball seat and the lower ball seat are directly made of the magnetic substances). Therefore, the utility model has shorter acting distance and better magnetic therapy effect.

4. In the electrified heat-conducting magnetotherapeutic unit body, the side wall of the upper shaft body near the conducting strip is sleeved with the fixing plate, the top surface of the fixing plate is connected with the bottom end of the spring, the top end of the spring is connected with the inner wall of the top surface of the lower ball seat, and the spring is sleeved on the side wall of the upper shaft body. Therefore, the utility model can automatically reset and has higher reuse rate.

5. In the electrified heat-conducting magnetotherapeutic unit body, the spring gap communicated with the inner cavity of the spring is formed on the side wall of the spring, the plurality of air exhaust holes are formed in the position, surrounding the through shaft hole, of the top partition plate, and the air exhaust holes are communicated with the lower ball cavity after sequentially passing through the lower barrel cavity, the inner cavity of the spring and the spring gap. Therefore, the safety of the utility model is high.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic view of the structure of the tubular fabric of fig. 1.

Fig. 3 is a schematic view of the tubular fabric of fig. 2 with the tubular fabric cut away.

Fig. 4 is a schematic perspective view of the trigger ball of the present invention.

Fig. 5 is a schematic view of the trigger ball of the present invention after it has been coated with a water-soluble film.

Fig. 6 is a cross-sectional view of the trigger ball of the present invention.

Fig. 7 is a schematic view of the structure of the spring in the present invention.

In the figure: the trigger ball comprises an outer wrapping tube 1, an outer wrapping cavity 11, a tubular fabric 2, a yarn 21, a coil 22, a tubular cavity 23, a trigger ball 3, a water-soluble film 30, an upper ball seat 31, an upper ball cavity 311, an upper ball opening 312, an upper ball plate 313, a lower ball seat 32, a lower ball cavity 321, a lower ball opening 322, a lower ball plate 323, a left clamping platform groove 324, a right clamping platform groove 325, a seat outer wall 326, an upper shaft body 33, an upper shaft cavity 331, a lower shaft body 34, a lower shaft cavity 341, a top partition plate 342, a through shaft hole 343, an air suction hole 344, a ring column cavity 36, a left conductive wire 37, a left conductive platform 371, a right conductive wire 38, a right conductive platform 381, a conductive sheet 39, a spring 4, a fixing plate 41, a spring inner cavity 42 and a spring gap 43.

Detailed Description

The present invention will be described in further detail with reference to the following description and embodiments in conjunction with the accompanying drawings.

Referring to fig. 1-7, an electric-conduction heat-conduction magnetic therapy unit comprises an outer wrapping tube 1 and an outer wrapping cavity 11 formed in the outer wrapping tube, wherein at least two tubular fabrics 2 are embedded and connected in the outer wrapping cavity 11, all the tubular fabrics 2 are sequentially arranged along the axial direction of the outer wrapping cavity 11, and the adjacent tubular fabrics 2 are mutually separated;

the side wall of the tubular fabric 2 is formed by weaving yarns 21, the adjacent yarns 21 are interwoven to form a coil 22, a tubular cavity 23 is formed in the tubular fabric 2, a plurality of trigger balls 3 which are sequentially connected in series are embedded and connected in the tubular cavity 23, and each trigger ball 3 comprises an upper ball seat 31, an upper shaft body 33, a lower barrel body 34, a lower ball seat 32, a left conductive wire 37 and a right conductive wire 38;

a lower ball cavity 321 is formed in the lower ball seat 32, the top of the lower ball seat 32 is connected with the bottom end of the lower cylinder 34, a lower cylinder 341 is formed in the lower cylinder 34, the top end of the lower cylinder 34 extends to a position lower than the bottom of the upper ball seat 31, a top partition 342 is embedded and connected to the position close to the top end of the lower cylinder 34, a through shaft hole 343 is formed in the middle of the top partition 342, the top end of the upper shaft 33 penetrates through the through shaft hole 343 and then is connected with the bottom of the upper ball seat 31, and the bottom end of the upper shaft 33 penetrates through the through shaft hole 343 and then extends into the lower ball cavity 321 and is connected with the top of the conducting strip 39; a fixing plate 41 is sleeved on the side wall of the upper shaft body 33 close to the conducting strip 39, the top surface of the fixing plate 41 is connected with the bottom end of the spring 4, the top end of the spring 4 is connected with the inner wall of the top surface of the lower ball seat 32, and the spring 4 is sleeved on the side wall of the upper shaft body 33;

the projection of the conducting strip 39 in the vertical direction is contacted with the tops of the left conducting table 371 and the right conducting table 381, the left end of the left conducting table 371 is connected with the inner end of the left conducting wire 37, the outer end of the left conducting wire 37 penetrates through the outer wall 326 of the lower ball seat 32 and then extends to the outside of the lower ball seat 32, the right end of the right conducting table 381 is connected with the inner end of the right conducting wire 38, and the outer end of the right conducting wire 38 penetrates through the outer wall 326 of the lower ball seat 32 and then extends to the outside of the lower ball seat 32;

adjacent trigger balls 3 in a single tubular cavity 23 are connected in corresponding series by left and right electrically conductive wires 37, 38.

The outer wrapping tube 1 is made of water-soluble fiber.

The water-soluble fiber is any one of alginate fiber, carboxymethyl cellulose fiber and polyvinyl alcohol fiber.

The side wall of the upper shaft body 33, the top of the top clapboard 342 and the inner wall of the lower shaft body 34 are clamped into a ring column cavity 36.

The water-soluble film 30 is filled in the ring column cavity 36, the inner side of the water-soluble film 30 is wrapped on the side wall of the upper shaft body 33, and the outer side of the water-soluble film 30 is in interference fit with the inner wall of the lower cylinder body 34.

In the tubular cavity 23, one each of a left conductive wire 37 and a right conductive wire 38 which are located in a free state; wherein the outer end of the left conductive thread 37 in the free state extends to the outside of the tubular fabric 2, and the outer end of the right conductive thread 38 in the free state extends to the outside of the tubular fabric 2.

The yarn 21 used in the tubular fabric 2 near the trigger ball 3 is high-elastic yarn.

Ball mouth 322 has been seted up down to the bottom of ball seat 32 down, and this ball mouth 322 embedding is connected with a lower ball board 323 down, is provided with left card platform groove 324, right card platform groove 325 on the top surface of this lower ball board 323, left card platform groove 324 carries out the joint cooperation with the bottom of left electrically conductive platform 371, right card platform groove 325 carries out the joint cooperation with the bottom of right electrically conductive platform 381.

An upper ball opening 312 is formed in the top of the upper ball seat 31, and an upper ball plate 313 is embedded and connected in the upper ball opening 312; an upper ball cavity 311 is formed in the upper ball seat 31, an upper shaft cavity 331 is formed in the upper shaft body 33, and the upper ball opening 312 is communicated with the upper shaft cavity 331 through the upper ball cavity 311.

A spring gap 43 communicated with the spring inner cavity 42 is formed on the side wall of the spring 4, a plurality of air suction holes 344 are formed on the top clapboard 342 at the position surrounding the through shaft hole 343, and the air suction holes 344 are communicated with the lower ball cavity 321 after sequentially passing through the lower barrel cavity 341, the spring inner cavity 42 and the spring gap 43.

The principle of the utility model is illustrated as follows:

the corresponding series connection between the adjacent trigger balls 3 in the single tubular cavity 23 through the left and right conductive wires 37 and 38 in the present invention means that: in adjacent trigger balls 3, the right conductive wire 38 on the trigger ball 3 on the left is correspondingly connected to the left conductive wire 37 on the trigger ball 3 on the right.

In the utility model, the water-soluble film 30 is filled in the ring column cavity 36, the inner side of the water-soluble film 30 is wrapped on the side wall of the upper shaft body 33, and the interference fit between the outer side of the water-soluble film 30 and the inner wall of the lower cylinder body 34 means that: the water-soluble film 30 is wrapped around the outer side of the upper shaft body 33 in the trigger ball 3 until the water-soluble film 30 fills the annular column cavity 36, and at this time, the water-soluble film 30 in the annular column cavity 36 has a tendency to expand outward, so that the upper shaft body 33 and the lower shaft body 34 are connected into a whole.

The left conductive wire 37 and the right conductive wire 38 in the utility model are preferably conductive fibers or various existing linear conductive materials, such as metal wires, and in addition, the insulating materials are wrapped outside the left conductive wire 37 and the right conductive wire 38, so that the effect is better.

Example 1:

referring to fig. 1-7, an electric-conduction heat-conduction magnetic therapy unit comprises an outer wrapping tube 1 and an outer wrapping cavity 11 formed in the outer wrapping tube, wherein at least two tubular fabrics 2 are embedded and connected in the outer wrapping cavity 11, all the tubular fabrics 2 are sequentially arranged along the axial direction of the outer wrapping cavity 11, and the adjacent tubular fabrics 2 are mutually separated; the side wall of the tubular fabric 2 is formed by weaving yarns 21, the adjacent yarns 21 are interwoven to form a coil 22, a tubular cavity 23 is formed in the tubular fabric 2, a plurality of trigger balls 3 which are sequentially connected in series are embedded and connected in the tubular cavity 23, and each trigger ball 3 comprises an upper ball seat 31, an upper shaft body 33, a lower barrel body 34, a lower ball seat 32, a left conductive wire 37 and a right conductive wire 38; a lower ball cavity 321 is formed in the lower ball seat 32, the top of the lower ball seat 32 is connected with the bottom end of the lower cylinder 34, a lower cylinder 341 is formed in the lower cylinder 34, the top end of the lower cylinder 34 extends to a position lower than the bottom of the upper ball seat 31, a top partition 342 is embedded and connected to the position close to the top end of the lower cylinder 34, a through shaft hole 343 is formed in the middle of the top partition 342, the top end of the upper shaft 33 penetrates through the through shaft hole 343 and then is connected with the bottom of the upper ball seat 31, and the bottom end of the upper shaft 33 penetrates through the through shaft hole 343 and then extends into the lower ball cavity 321 and is connected with the top of the conducting strip 39; a fixing plate 41 is sleeved on the side wall of the upper shaft body 33 close to the conducting strip 39, the top surface of the fixing plate 41 is connected with the bottom end of the spring 4, the top end of the spring 4 is connected with the inner wall of the top surface of the lower ball seat 32, and the spring 4 is sleeved on the side wall of the upper shaft body 33; the projection of the conducting strip 39 in the vertical direction is contacted with the tops of the left conducting table 371 and the right conducting table 381, the left end of the left conducting table 371 is connected with the inner end of the left conducting wire 37, the outer end of the left conducting wire 37 penetrates through the outer wall 326 of the lower ball seat 32 and then extends to the outside of the lower ball seat 32, the right end of the right conducting table 381 is connected with the inner end of the right conducting wire 38, and the outer end of the right conducting wire 38 penetrates through the outer wall 326 of the lower ball seat 32 and then extends to the outside of the lower ball seat 32; adjacent trigger balls 3 in a single tubular cavity 23 are connected in corresponding series by left and right electrically conductive wires 37, 38.

Example 2:

the basic contents are the same as example 1, except that:

the outer casing tube 1 is preferably made of water-soluble fiber. More preferably, the water-soluble fiber is any one of alginate fiber, carboxymethyl cellulose fiber, and polyvinyl alcohol fiber.

Example 3:

the basic contents are the same as example 1, except that:

in the tubular cavity 23, one each of a left conductive wire 37 and a right conductive wire 38 which are located in a free state; the outer end of the left conductive wire 37 in the free state extends to the outside of the tubular fabric 2, the outer end of the right conductive wire 38 in the free state extends to the outside of the tubular fabric 2, and the other left conductive wires 37 and the other right conductive wires 38 are connected one by one.

Example 4:

the basic contents are the same as example 1, except that:

a spring gap 43 communicated with the spring inner cavity 42 is formed on the side wall of the spring 4, a plurality of air suction holes 344 are formed on the top clapboard 342 at the position surrounding the through shaft hole 343, and the air suction holes 344 are communicated with the lower ball cavity 321 after sequentially passing through the lower barrel cavity 341, the spring inner cavity 42 and the spring gap 43. .

The above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the above embodiment, but equivalent modifications or changes made by those skilled in the art according to the present disclosure should be included in the scope of the present invention as set forth in the appended claims.

Claims (10)

1. An electrified heat conduction magnetic therapy unit body is characterized in that: the electrified heat-conducting magnetic therapy unit body comprises an outer wrapping pipe (1) and an outer wrapping cavity (11) formed in the outer wrapping pipe, at least two tubular fabrics (2) are embedded and connected in the outer wrapping cavity (11), all the tubular fabrics (2) are sequentially arranged along the axial direction of the outer wrapping cavity (11), and the adjacent tubular fabrics (2) are mutually separated;

the side wall of the tubular fabric (2) is formed by weaving yarns (21), the adjacent yarns (21) are mutually interwoven to form a coil (22), a tubular cavity (23) is formed in the tubular fabric (2), a plurality of trigger balls (3) which are sequentially connected in series are embedded and connected in the tubular cavity (23), and each trigger ball (3) comprises an upper ball seat (31), an upper shaft body (33), a lower barrel body (34), a lower ball seat (32), a left conductive wire (37) and a right conductive wire (38);

a lower ball cavity (321) is formed in the lower ball seat (32), the top of the lower ball seat (32) is connected with the bottom end of the lower barrel (34), a lower barrel cavity (341) is formed in the lower barrel (34), the top end of the lower barrel (34) extends to a position lower than the bottom of the upper ball seat (31), a top partition plate (342) is embedded and connected to the position, close to the top end, in the lower barrel (34), a through shaft hole (343) is formed in the middle of the top partition plate (342), the top end of the upper shaft body (33) penetrates through the through shaft hole (343) and then is connected with the bottom of the upper ball seat (31), and the bottom end of the upper shaft body (33) penetrates through the through shaft hole (343) and then extends into the lower ball cavity (321) and is connected with the top of the conducting plate (352); a fixing plate (41) is sleeved on the side wall of the upper shaft body (33) close to the conducting strip (352), the top surface of the fixing plate (41) is connected with the bottom end of the spring (4), the top end of the spring (4) is connected with the inner wall of the top surface of the lower ball seat (32), and the spring (4) is sleeved on the side wall of the upper shaft body (33);

the projection of the conducting strip (352) in the vertical direction is contacted with the tops of a left conducting table (371) and a right conducting table (381), the left end of the left conducting table (371) is connected with the inner end of a left conducting wire (37), the outer end of the left conducting wire (37) penetrates through the outer wall (326) of the lower ball seat (32) and then extends to the outside of the lower ball seat (32), the right end of the right conducting table (381) is connected with the inner end of a right conducting wire (38), and the outer end of the right conducting wire (38) penetrates through the outer wall (326) of the lower ball seat (32) and then extends to the outside of the lower ball seat (32);

the adjacent trigger balls (3) in the single tubular cavity (23) are correspondingly connected in series through a left conductive wire (37) and a right conductive wire (38).

2. An energized heat-conducting magnetotherapeutic unit as recited in claim 1, wherein: the outer wrapping tube (1) is made of water-soluble fibers.

3. An energized heat-conducting magnetotherapeutic unit as recited in claim 2, wherein: the water-soluble fiber is any one of alginate fiber, carboxymethyl cellulose fiber and polyvinyl alcohol fiber.

4. An electrically energized and thermally conductive unit cell according to claim 1, 2 or 3, wherein: the side wall of the upper shaft body (33), the top of the top clapboard (342) and the inner wall of the lower cylinder body (34) are clamped together to form a ring cylinder cavity (36).

5. An energized heat-conducting magnetotherapeutic unit as recited in claim 4, wherein: the water-soluble film (30) is filled in the ring column cavity (36), the inner side of the water-soluble film (30) is wrapped on the side wall of the upper shaft body (33), and the outer side of the water-soluble film (30) is in interference fit with the inner wall of the lower barrel body (34).

6. An electrically energized and thermally conductive unit cell according to claim 1, 2 or 3, wherein: in the tubular cavity (23), one left conductive wire (37) and one right conductive wire (38) are respectively arranged in a free state; wherein, the outer end of the left conductive wire (37) in the free state extends to the outside of the tubular fabric (2), and the outer end of the right conductive wire (38) in the free state extends to the outside of the tubular fabric (2).

7. An electrically energized and thermally conductive unit cell according to claim 1, 2 or 3, wherein: the yarn (21) used at the part, close to the trigger ball (3), of the tubular fabric (2) is high-elastic yarn.

8. An electrically energized and thermally conductive unit cell according to claim 1, 2 or 3, wherein: ball mouth (322) down have been seted up to the bottom of ball seat (32) down, should descend embedded being connected with one down ball board (323) in ball mouth (322), be provided with left card platform groove (324), right card platform groove (325) on the top surface of this ball board (323) down, left card platform groove (324) and the left bottom of leading radio station (371) carry out the joint cooperation, right card platform groove (325) and the right bottom of leading radio station (381) carry out the joint cooperation.

9. An electrically energized and thermally conductive unit cell according to claim 1, 2 or 3, wherein: an upper ball opening (312) is formed in the top of the upper ball seat (31), and an upper ball plate (313) is embedded and connected into the upper ball opening (312); an upper ball cavity (311) is formed in the upper ball seat (31), an upper shaft cavity (331) is formed in the upper shaft body (33), and the upper ball opening (312) is communicated with the upper shaft cavity (331) after passing through the upper ball cavity (311).

10. An electrically energized and thermally conductive unit cell according to claim 1, 2 or 3, wherein: a spring gap (43) communicated with the spring inner cavity (42) is formed in the side wall of the spring (4), a plurality of air suction holes (344) are formed in the position, surrounding the through shaft hole (343), of the top partition plate (342), and the air suction holes (344) are communicated with the lower ball cavity (321) after sequentially passing through the lower cylinder cavity (341), the spring inner cavity (42) and the spring gap (43).

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