Magnetic therapy massage belt with in-vitro three-dimensional magnetic field generation function
Technical Field
The invention relates to the field of magnetic therapy health care products, in particular to a magnetic therapy massage belt with an in-vitro three-dimensional magnetic field generating function.
Background
The traditional magnetic therapy massage waistband generally adopts a fixed magnetic field mode to carry out magnetic therapy health care effect, and a part of magnetic therapy waist drives a motor to drive a magnetic block to vibrate to carry out magnetic therapy, however, the movement amplitude of the magnetic field of the movable magnetic equipment is small, and the large-range magnetic field coverage on the surface of a human body cannot be achieved, so that the magnetic therapy effect is not obvious, and the health care effect is poor.
Disclosure of Invention
The invention aims to solve the problems in the background technology and provides a magnetic therapy massage belt with an in-vitro three-dimensional magnetic field generating function.
The technical aim of the invention is realized by the following technical scheme:
a magnetic therapy massage belt with an in-vitro stereoscopic magnetic field generating function, comprising: the device comprises a longitudinal movable magnetic ring body, a circumferential movable magnetic ring body, a ring body circumference adjusting mechanism and a rotary driving mechanism;
the longitudinal moving magnetic ring body comprises a plurality of moving monomers connected through elastic binding bands;
the movable single body comprises a pressing block, a roller, a data line interface, a data line, a photoelectric sensor, a magnetic block and a battery, wherein the pressing block comprises a functional surface and a connecting surface, a driving motor and a controller are arranged in the pressing block, the driving motor is connected with the roller through a transmission gear set, the controller is in communication connection with the data line, the magnetic block is arranged in the pressing block or the roller, the battery is arranged in the pressing block, and an outer ring fixing ring is arranged on the side, facing the circumference moving magnetic ring body, of the pressing block;
the circumference moves the magnetic ring body and includes working portion, adjusting part and buckle cover, the longitudinal movement magnetic ring body sets up in the working portion, circle body circumference adjustment mechanism sets up in the adjusting part, rotary driving mechanism fixes circle body circumference adjustment mechanism is last and with circumference moves the magnetic ring body and links to each other.
Preferably, the circumference moving magnet ring body comprises a fixed sleeve arranged outside and a rotating belt arranged in the fixed sleeve, wherein a plurality of circumference moving magnet blocks are arranged on the rotating belt, and the rotating belt is driven by the rotating driving mechanism to rotate along the circumference direction of the circumference moving magnet ring body inside the fixed sleeve.
Preferably, the rotary belt comprises a driving strip and a magnetic block fixing strip, the driving strip is provided with a plurality of driving holes, and the rotary driving mechanism comprises a motor and a driving gear; the fixed sleeve is provided with an opening, and the driving gear is meshed with the driving hole through the opening, so that the rotating belt is driven to rotate.
Preferably, the circumference moving magnet is a cone, and the cone tip of the circumference moving magnet is arranged towards the inner direction of the longitudinal moving magnet ring.
Preferably, the connecting surface is provided with a hinged buckle for connecting the elastic straps, the elastic straps are connected with the connecting surface through the hinged buckle, two elastic straps are arranged between the adjacent movable monomers, and the two elastic straps are connected with each other through a buckle.
Preferably, the roller is plum blossom-shaped and comprises a plurality of protrusions and recesses which are uniformly distributed on the circumference and are arranged at intervals, wherein first magnetic blocks are arranged in the protrusions, the first magnetic blocks are cones, and conical heads of the cones are arranged outwards of the rollers.
Preferably, a second magnetic block is arranged on the inner side of the functional surface of the pressing block, the second magnetic block is a cone, and the conical head of the cone is arranged towards the outer side of the functional surface.
Preferably, the ring body circumference adjusting mechanism comprises an elastic sleeve and guide wheels at two ends of the elastic sleeve.
Preferably, the elastic sleeve comprises an outer sleeve, an inner connecting pipe and a spring, wherein the outer sleeve is sleeved outside the inner connecting pipe, and the spring is arranged between the outer sleeve and the inner connecting pipe.
Preferably, the buckle sleeve comprises a guide ring and a guide sheath, wherein the guide ring is in an 8 shape, the guide sheath is made of rigid materials, the guide sheath is inserted into an annular hole of the guide ring, and the opening is formed in the guide wheel.
In summary, the invention has the following beneficial effects:
(1) the magnetic therapy massage belt with the in-vitro three-dimensional magnetic field generating function can generate a three-dimensional magnetic field in vitro, and improves the magnetic therapy health care effect.
(2) The magnetic therapy massage belt with the in-vitro three-dimensional magnetic field generating function can automatically adjust the circumference according to users with different body shapes, is attached to the body surface, and ensures the magnetic therapy effect.
Drawings
FIG. 1 is a schematic diagram of the structure of the present invention;
FIG. 2 is a schematic view of the structure of a longitudinally moving magnet ring body according to the present invention;
FIG. 3 is a schematic diagram of the structure of a mobile monomer according to the present invention;
FIG. 4 is a schematic view of the structure of the circumferentially moving magnet ring according to the present invention;
FIG. 5 is a schematic view of the structure of the ring circumference adjusting mechanism of the present invention;
FIG. 6 is a schematic view of the construction of the clasp of the present invention;
FIG. 7 is a schematic diagram illustrating the position of a first magnetic block according to embodiment 1 of the present invention;
FIG. 8 is a schematic representation of the use of the present invention;
fig. 9 is a schematic diagram of embodiment 2 of the present invention.
Detailed Description
The following specific examples are intended to be illustrative of the invention and are not intended to be limiting, as modifications of the invention will be apparent to those skilled in the art upon reading the specification without inventive contribution thereto, and are intended to be protected by the patent law within the scope of the appended claims.
The invention is described in detail below with reference to the accompanying drawings.
Example 1:
according to the fig. 1 to 8, a magnetic therapy massage belt with an in vitro stereoscopic magnetic field generating function comprises: a longitudinal moving magnet ring body 1, a circumferential moving magnet ring body 2, a ring body circumference adjusting mechanism 3 and a rotary driving mechanism 4;
the longitudinal moving magnet ring body 1 comprises a plurality of moving monomers 11 connected by elastic straps 12;
the mobile unit 11 comprises a pressing block 111, a roller 112, a data line interface 113, a data line 114, a photoelectric sensor 115, a magnetic block and a battery, wherein the pressing block 111 comprises a functional surface 1111 and a connecting surface 1112, a driving motor and a controller are arranged in the pressing block 111, the driving motor is connected with the roller 112 through a transmission gear set, the controller is in communication connection with the data line 114, the magnetic block is arranged in the pressing block 111 or the roller 112, the battery is arranged in the pressing block 111, and an outer ring fixing ring 116 is arranged on the pressing block 111 towards the side of the circumferential moving magnet body 2;
the circumference moving magnet ring body 2 comprises a working part 21, an adjusting part 22 and a buckle sleeve 23, the longitudinal moving magnet ring body 1 is arranged in the working part 21, the ring body circumference adjusting mechanism 3 is arranged in the adjusting part 22, and the rotary driving mechanism 4 is fixed on the ring body circumference adjusting mechanism 3 and is connected with the circumference moving magnet ring body 2.
According to the illustration in fig. 2, the circumference moving magnet ring body 2 comprises a fixed sleeve 2a arranged outside and a rotating belt 2b arranged in the fixed sleeve 2a, wherein a plurality of circumference moving magnet blocks 5 are arranged on the rotating belt 2b, and the rotating belt 2b is driven by a rotation driving mechanism 4 to rotate along the circumference direction of the circumference moving magnet ring body 2 inside the fixed sleeve 2 a.
The rotary belt 2b comprises a driving strip 2b1 and a magnetic block fixing strip 2b2, the driving strip 2b1 is provided with a plurality of driving holes 2b11, and the rotary driving mechanism 4 comprises a motor 41 and a driving gear 42; the fixed sleeve 2a is provided with an opening 2a1, and the driving gear 42 is meshed with the driving hole 2b11 through the opening 2a1, so as to drive the rotary belt 2b to rotate.
According to fig. 4, the circumferential moving magnet 5 is a cone, and its cone tip is disposed toward the inner direction of the longitudinal moving magnet body 1.
According to fig. 2, a hinge buckle for connecting the elastic bands 12 is provided on the connection surface 1112, the elastic bands 12 are connected with the connection surface 1112 through the hinge buckle, two elastic bands 12 are provided between adjacent movable units 11, and the two elastic bands 12 are connected with each other through a buckle 121.
According to fig. 7, the roller 112 is plum blossom-shaped, and includes a plurality of protrusions and recesses uniformly distributed circumferentially and arranged at intervals, wherein the first magnetic blocks 13 are arranged in the protrusions, the first magnetic blocks 13 are cones, and the conical heads of the cones are arranged towards the outside of the roller 112.
According to fig. 5, the ring body circumference adjusting mechanism 3 includes an elastic sleeve 31 and guide wheels 32 at both ends thereof, the elastic sleeve 31 includes an outer sleeve 311, an inner sleeve 312, and a spring 313, the outer sleeve 311 is sleeved outside the inner sleeve 312, and the spring 313 is disposed between the outer sleeve 311 and the inner sleeve 312.
According to fig. 6, the buckle 23 includes a guide ring 231 and a guide sheath 232, the guide ring 231 is shaped like an "8", the guide sheath 232 is made of rigid material, the guide sheath 232 is inserted into an annular hole of the guide ring 231, and the opening 2a1 is provided at the guide wheel 32.
According to the massage belt shown in fig. 8, before use, the longitudinal moving magnet ring body 1 and the circumferential moving magnet ring body 2 are pulled apart and sleeved outside the waist, the longitudinal moving magnet ring body 1 is automatically folded through the elastic binding belt 12, and the circumferential moving magnet ring body 2 is automatically tightened under the action of the ring body circumference adjusting mechanism 3. The massage is at the operating time, and vertical moving magnet circle body 1 plays the effect of along human trunk axial motion through removing monomer 11 to produce the magnetic field effect at human trunk axial through the magnetic path on the moving monomer 11, the rotatory area 2b in the circumference moving magnet circle body 2 is driven by motor 41 and is taken the magnetic path 5 to rotate, produces circumference rotary magnetic field, and two magnetic fields coincide and form the three-dimensional magnetic field.
The longitudinal moving magnet ring body 1 takes the massage of the waist as an example, the longitudinal moving magnet ring body 1 is wrapped outside the waist, and the driving motor drives the roller 112 to make the whole massage belt reciprocate along the axial direction of the waist. During the reciprocating movement, it is determined by the photoelectric sensor 15 whether the massage belt is displaced. For example, in the process that the massage belt moves from the buttocks to the chest, the photoelectric sensor 15 always has a displacement signal, the controller always controls the roller 112 to rotate forward at this time, when the massage belt moves to the chest, the photoelectric sensor 15 receives a period of no-displacement signal because the massage belt is blocked by the armpit and cannot continue to move upwards, in this embodiment, the time period is defined as 5-10 s, after receiving the 5-10 s no-displacement signal, the controller automatically controls the roller 112 to rotate reversely, so that the massage belt moves from the chest to the buttocks. When the massage belt moves to the buttocks and is blocked again for 5-10 s, the controller automatically controls the roller 112 to rotate forwards again, and the process is circulated.
Example 2:
unlike the above embodiment 1, as shown in fig. 9, the second magnet 14 is provided inside the functional surface 1111 of the pressing block 111, and the second magnet 14 is a cone, the conical head of which is provided toward the outside of the functional surface 1111. The arrangement is such that the movement of the longitudinal magnetic field is a planar pushing movement, and in embodiment 1 the magnetic field varies with a circumference due to the magnetic blocks being arranged on the roller, so the effect of the magnetic field in this embodiment is different from that in embodiment 1.