CN213950229U - Electric pulse stimulation device - Google Patents

Abstract

The utility model provides an electric pulse stimulation device, including at least one first host computer, first host computer includes: the power supply device comprises a first control device, a first power supply device and a first connecting wire, wherein two ends of the first connecting wire are respectively and electrically connected with the first control device and the first power supply device; the first power supply device comprises a shell and a rotating part, the shell comprises a first accommodating part and a first through hole, and the rotating part is rotatably arranged in the first accommodating part along a river; the rotating part rotates along a first direction, and the first connecting line is wound on the outer wall surface of the rotating part; the rotating part rotates along a second direction, and the first connecting line is screwed out of the first through hole; the first direction and the second direction are opposite.

Description

Electric pulse stimulation device

Technical Field

The utility model relates to an electro photoluminescence physical factor medical treatment rehabilitation technical field specifically is a pulse electrical stimulation device.

Background

The electric pulse stimulation is a kind of relaxation treatment aiming at the muscle tension state, the muscle of the human body is stimulated by a series of pulse signals through the electrode plate, the pulse width and the intensity of the pulse signals can be adjusted by the electric pulse stimulation device, and the output speed of the stimulation signals can be controlled by the frequency adjustment.

The electric pulse stimulation device mainly comprises a host machine, an electrode plate and a host machine charging box, wherein the electrode plate is connected with the host machine, the electrode plate is attached to a treatment part, and the host machine is controlled by software and hardware to send out pulses in corresponding modes, so that the treatment effect is achieved. If the host computer electric quantity is used up, need place the box that charges and charge.

The existing product and most of host machine connecting wires are placed in a charging box in a winding or direct placing mode, and the problem that the taking and placing are inconvenient or occupy a large space is solved.

SUMMERY OF THE UTILITY MODEL

The utility model provides an electric pulse stimulation device rationally accomodates host computer internal connection line, overcomes to get and puts inconvenient, the big problem of occupation space.

In order to solve the above problem, the present invention provides an electrical pulse stimulation apparatus, including at least one first host, the first host includes: the power supply device comprises a first control device, a first power supply device and a first connecting wire, wherein two ends of the first connecting wire are respectively and electrically connected with the first control device and the first power supply device; the first power supply device comprises a shell and a rotating part, the shell comprises a first accommodating part and a first through hole, and the rotating part is rotatably arranged in the first accommodating part along a river; the rotating part rotates along a first direction, and the first connecting line is wound on the outer wall surface of the rotating part; the rotating part rotates along a second direction, and the first connecting line is screwed out of the first through hole; the first direction and the second direction are opposite.

As an optional technical solution, the rotating portion includes a base having the outer wall surface, wherein a concave portion is provided on the outer wall surface, and the first connecting wire is wound in the concave portion.

As an optional technical solution, the portable electronic device further includes a support frame, a battery, and a circuit board, wherein the base has a second accommodating portion, the support frame and the circuit board are accommodated in the second accommodating portion, the connecting wire portion is accommodated in the second accommodating portion, the base includes a second through hole, the second through hole is communicated with the first through hole, and the first connecting wire passes through the second through hole and extends out of the housing from the first through hole.

As an optional technical solution, the wire pressing device further comprises a wire pressing cover, the wire pressing cover is located in the second accommodating portion, a groove is formed in one side of the wire pressing cover, and the first connecting wire is clamped into the groove.

As an optional technical scheme, the wire pressing device further comprises a silica gel sleeve, the silica gel sleeve is arranged between the second through hole and the wire pressing cover, the silica gel sleeve is provided with a third through hole, and the first connecting wire penetrates through the third through hole and enters the second through hole.

As an optional technical solution, the housing includes a first sliding groove and a first sliding block protruding from an inner wall surface of the housing; the base comprises a second sliding block and a second sliding groove; wherein the second sliding block is inserted into the first sliding groove, and the first sliding block is inserted into the second sliding groove; the first sliding groove and the second sliding groove are annular sliding grooves respectively.

As an optional technical solution, the rotating portion further includes an upper housing, the upper housing is assembled to the top end of the base, and a space between an edge of the upper housing and an edge of the top end of the base is the second sliding groove.

Alternatively, the opening of the recess is provided adjacent to an inner wall surface of the housing, and the first connection line is confined in a space between the recess and the inner wall surface.

As an optional technical scheme, the portable charger further comprises a box body, wherein the box body comprises a charging base and a turnover cover, one side of the turnover cover is pivoted with the charging base, and a space between the charging base and the turnover cover is used for placing the host; the bottom of the power supply device is provided with a charging hole, the charging base is provided with a conductive column, the conductive column is inserted into the charging hole, and the charging base faces the power supply device to be charged.

As an optional technical scheme, the charger further comprises a power adapter, wherein one end of the power adapter is connected with a charging interface of the charging base in a pluggable and electrically-connected mode, and the other end of the power adapter is provided with a plug; the flip cover comprises a third accommodating part, and the power adapter is accommodated in the third accommodating part.

Compared with the prior art, the utility model provides an electric pulse stimulation device, include power supply unit and controlling means through the connection of electric lines, be equipped with the rotating part of casing rotation relatively among the power supply unit, rotate in opposite direction through the rotating part, realize the connecting wire and realize winding wire inside power supply unit, and the connecting wire winding mode is reliable, stable, can not produce scatter, not hard up scheduling problem. In addition, the host can be accommodated and charged in the box body, and the size miniaturization of the whole device is facilitated.

The present invention will be described in detail with reference to the accompanying drawings and specific embodiments, but the present invention is not limited thereto.

Drawings

Fig. 1 is a schematic view showing the closure of the box body of the electrical pulse stimulation apparatus of the present invention.

Fig. 2 is a schematic view showing the opening of the cartridge of the electrical pulse stimulation apparatus of the present invention.

Fig. 3 is a schematic diagram illustrating the opening of the accommodation cavity on the flip cover of the electrical pulse stimulation apparatus of the present invention.

Fig. 4 is a schematic diagram of the host computer taken out from the charging seat.

Fig. 5 is a bottom schematic view of the host of the present invention.

Fig. 6 is a partially exploded schematic view of the power supply device of the host according to the present invention.

Fig. 7 is a schematic cross-sectional view of the power supply device of the present invention.

Fig. 8 is a schematic bottom view of the power supply device of the present invention with the base removed.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the following embodiments and accompanying drawings. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

As shown in the figures, the present invention provides an electrical pulse stimulation apparatus 100, which is mainly suitable for postpartum rectus abdominis separation and pubis symphysis separation repair, postpartum physique repair. By exciting the neuromuscular tissues, the muscles of the abdomen, the hip, the legs and the arms are contracted, the local relaxation is improved, the local compaction degree of the muscles is improved, and the molding effect is achieved.

In addition, the electrical pulse stimulation apparatus 100 can also be used for massage relaxation, fatigue relief, muscular soreness relief, and chronic fatigue syndrome treatment.

Further, the low-frequency electric pulse stimulation output by the electric pulse stimulation device 100 is beneficial to promoting blood circulation, and has anti-inflammatory, detumescence and analgesic effects on soft tissue injury, scapulohumeral periarthritis, cervical spondylosis, lumbar muscle strain, low back pain (including postpartum low back pain), external humeral epicondylitis (tennis elbow), stenosing tenosynovitis (mother's hand), pubic symphysis pain, stiff neck and dysmenorrhea.

As shown in fig. 1 to 8, the electrical pulse stimulation apparatus 100 includes at least one first host 60, the at least one first host 60 includes a first control device 61, a first power device 62 and a first connection wire 63, and two ends of the connection wire 63 are electrically connected to the first control device 61 and the first power device 62 respectively; the first power supply device 62 includes a housing 621 and a rotating portion rotatably provided in a first accommodating portion 6211 of the housing 621; wherein, rotating the rotating part along the first direction, the first connecting line 63 is wound on the outer wall surface of the rotating part; by rotating the rotating portion in the second direction, the first connecting line 63 is screwed out of the first through hole 6215 of the housing 621.

As shown in fig. 2 and 3, the electric pulse stimulation apparatus 100 further includes a second main unit 70, wherein the second main unit 70 may have the same structure as or a different structure from the first main unit 60. In this embodiment, the second host 70 includes a second control device 71, a second power device 72 and a second connection line 73, the second connection line 73 connects the second control device 71 and the second power device 72, the second control device 71 of the second host 70 has a different structure from the first control device 61 of the first host 60, and a communication module of the second control device 71 is different from a communication module of the first control device 61, for example, a bluetooth communication module is not disposed on a main control board of the second control device 71, that is, the second host 70 cannot establish a wireless connection with the mobile terminal through the bluetooth communication module alone during use, and therefore cannot be controlled to output a corresponding electrical pulse stimulus alone.

The main control board of the first control device 61 of the first host 60 includes a wireless communication module, which can respectively communicate with the second control device 71 of the second host 70 and the wireless communication module of the mobile terminal,

as shown in fig. 4, the first main unit 60 and the second main unit 70 can be respectively placed in a box of the electrical pulse stimulation apparatus 100, the box comprises a charging base 10 and a flip 20, and one side of the flip 20 is pivotally connected to one side of the charging base 10 through a hinge 50. In this embodiment, the space between the charging base 10 and the flip cover 20 is used for accommodating the first host 60 and the second host 70, wherein the charging base 10 can charge the first host 60 and the second host 70 and simultaneously complete the accommodation of the first host 60 and the second host 70.

In this embodiment, the shape of the box body is a heart shape, but not limited thereto. In other embodiments of the present invention, the box body may also be in any shape such as rectangle, square, etc.

As shown in fig. 4 and 5, the first bottom 11 of the charging base 10 is formed with a plurality of limiting grooves, and the shapes of the limiting grooves are matched with the shapes of the first main unit 60 and the second main unit 70. In this embodiment, the first main unit 60 and the second main unit 70 have the same shape, and the first main unit 60 is taken as an example to describe a matching manner of a plurality of limiting grooves on the first bottom 11 of the charging base 10.

Specifically, the first bottom 11 is provided with a first limit groove 12 and a second limit groove 13 which are adjacent to each other, the first limit groove 12 is used for limiting the first control device 61, and the second limit groove 13 is used for limiting the first power supply device 62; the first limit groove 12 is provided with a first magnetic buckle 14, and the second limit groove 13 is provided with a second magnetic buckle 15 and a conductive column 16. In addition, the first control device 61 is provided with a third magnetic catch 612 facing the first bottom 11 side; the first power supply device 62 is provided with a fourth magnetic catch 6222 and a charging hole 6223 toward a side of the first bottom part 11.

Preferably, the third magnetic catch 612 is disposed at the bottom of the outer casing 611 of the first control device 61.

Preferably, the fourth magnetic catch 6222 and the charging hole 6223 are respectively disposed on the second bottom portion 6221 of the rotating portion 622 of the first power device 62.

When the first host 60 is placed in the charging base 10, the first host is limited in the first limiting groove 12, the first magnetic catch 14 and the third magnetic catch 612 are magnetically attracted, and the first control device 61 cannot rock in the first limiting groove 12; the first power supply device 62 is limited in the second limit groove 13, the second magnetic buckle 15 and the fourth magnetic buckle 6222 are magnetically attracted, the conductive column 16 is inserted into the charging hole 6223, the conductive column 16 is electrically connected with the terminal in the charging hole 6223, and therefore when the charging base 10 is powered on, the first power supply device 62 is charged through the conductive column 16.

In addition, the charging manner of the second power device 72 of the second host 70 is similar to the charging manner of the first power device 62 of the first host 60, and therefore, reference may be made to the above-mentioned manner of matching the first power device 62 with the charging base 10, which is not described herein again.

The electrical pulse stimulation apparatus 100 further includes a power adapter 30, one end 31 of the power adapter 30 is electrically connected to a charging interface (not shown) of the charging base 10 in a pluggable manner, and the other end of the power adapter is provided with a plug 32. Wherein, power adapter 30 includes the wire, and the one end of wire sets up connecting terminal, and connecting terminal is connected with charging base 10's the interface plug-in that charges. The connection terminal may be of any configuration to mate with the charging interface.

In addition, an indicator lamp 32 is further disposed at one end of the lead provided with the connection terminal, and when the plug 32 is inserted into the socket, the charging base 10 is powered on, and the first power supply device 62 of the first main unit 60 is charged through the conductive post 16, the indicator lamp 32 is turned on to indicate the charging state. Of course, the color change of the indicator light 32 is also controlled to indicate the current charging status of the first power supply device 62, for example, the indicator light is green when charging is completed, yellow when charging is in progress, and red when the charging is in low-power state.

As shown in fig. 2 and 3, in order to accommodate the power adapter 30, the flip 20 faces a side cover 21 of the charging stand 10, the cover 21 is opened by pressing the button 22, that is, the button 22 is pressed, the cover 21 rotates around the rotating shaft, and is flipped toward a side away from the flip 20 to expose the third accommodating portion 23, and the power adapter 30 can be accommodated in the third accommodating portion 23.

The utility model provides an among the electric pulse stimulation device 100, accomodate power adapter 30 with flip 20 to charging base 10 is accomodate and is charged first host computer 60, second host computer 70, promptly, make full use of the space of box body thickness direction (or direction of height), when realizing charging, accomodating the function, avoided the box body volume increase.

In addition, the flip cover 20 and the charging base 10 are respectively provided with a latch 40, and the flip cover 20 covers and the latch 40 locks the flip cover 20 and the charging base 10 when the flip cover 20 is on the charging base 10. The latch 40 is a pressing latch, and pressing the latch 40 moves the latch 40 toward the flip 20, so that the latch 40 is unlocked from the groove in the charging base 10, and the flip 20 can be opened from the charging base 10.

As shown in fig. 5 to 8, the first host 60 includes a first control device 61 and a first power device 62 electrically connected to opposite ends of the first connection line 63, a first end 631 of the first connection line 63 is fixedly connected to the first control device 61, and a second end 632 of the first connection line 63 passes through a first through hole 6215 of the housing 621 of the first power device 62 and is electrically connected to the circuit board 625 through a connector terminal.

The first power supply device 62 includes a housing 621 and a rotating portion, the housing 621 includes a first accommodating portion 6211, and the rotating portion is rotatably accommodated in the first accommodating portion 6211. When the rotary part rotates in the opposite direction, the first connection line 63 may be gradually screwed from the first through hole 6215 and wound around the outer wall surface of the rotary part, or the first connection line 63 may be gradually unscrewed from the first through hole 6215 and unwound from the outer wall surface of the rotary part.

The housing 621 includes an inner wall surface 6212, and a first sliding slot 6213 and a first sliding block 6214 protrude from the inner wall surface 6212, wherein the first sliding slot 6213 is disposed at a bottom end of the inner wall surface 6212, and the first sliding block 6214 is disposed at a top end of the inner wall surface 6212, the bottom end being opposite to the top end. The first sliding groove 6213 is a ring-shaped sliding groove, the number of the first sliders 6214 is plural, and the plural first sliders 6214 are arranged at the tip of the inner wall surface 6212 uniformly or non-uniformly in the circumferential direction.

In this embodiment, the housing 621 is, for example, a bowl-shaped housing, and the top end and the bottom end of the bowl-shaped housing are respectively open structures. In other embodiments of the present invention, the housing may be shaped as a hollow cylinder or other shapes.

The rotating portion includes a base 622, an upper housing 623, an upper cover 632 and a support frame 626, wherein the base 622 includes a second accommodating portion 6220, the support frame 626 is accommodated in the second accommodating portion 6220, the upper housing 623 is assembled to the top end of the base 622, and the upper cover 632 is stacked outside the upper housing 623. The base 622, the support frame 626, the upper casing 623 and the upper cover 632 are fixedly connected to each other to form a whole, and can rotate in the first accommodating portion 6211 of the housing 621.

The base 622 includes an outer wall 6224, a concave portion 6225 is formed on the outer wall 6224, the concave portion 6225 is recessed inward from the outer wall and has an arc-shaped cross section (e.g., U-shaped groove, C-shaped groove, etc.), and the first connecting wire 63 is wound in the concave portion 6225 of the outer wall 6224. When the base 622 is located in the first accommodating portion 6211 of the housing 621, the opening of the concave portion 6225 is adjacent to the inner wall surface 6212 of the housing 621, and at this time, the first connecting wire 63 is confined in the space between the concave portion 6225 and the inner wall surface 6212, facilitating the take-up and pay-out of the first connecting wire 63.

Therefore, the first connecting wire 63 is wound inside the first power supply device 62, the first connecting wire 63 is completely invisible outside the first power supply device 62, the winding mode of the first connecting wire 63 is more reliable and stable, and the problems of scattering, looseness and the like are avoided. In addition, the length of the first connecting line 63 can be freely and telescopically rotated according to habits of users, the first connecting line 63 cannot slide and move, and experience, usability and attractiveness are greatly improved.

A second sliding block 6227 is arranged at the bottom end of the base 622, and a second sliding groove 6228 is arranged at the top end of the base 622; the second sliding block 6227 is inserted into the first sliding slot 6213, the first sliding block 6214 is inserted into the second sliding slot 6228, when the base 622 rotates, the second sliding block 6227 slides in the first sliding slot 6213, and the first sliding block 6214 rotates in the second sliding slot 6228.

Preferably, the second slider 6227 is correspondingly disposed below a sidewall of the concave portion 6225 and extends toward the first sliding slot 6213. In addition, the first sliding groove 6213 is far away from the side wall of the inner wall face 6212, an avoiding groove is formed on the base 622, and the side wall part is embedded into the avoiding groove, wherein the side wall of the first sliding groove 6213 is matched with the avoiding groove, and the second sliding block 6227 is separated from the first sliding groove 6213 when sliding, so that the sliding stability is improved.

Preferably, the upper shell 623 is mounted at the top end of the base 622, and the space between the edge 6231 of the upper shell 623 and the top edge 6229 of the base 622 is a second sliding slot 6228. That is, edge 6231 is suspended above top edge 6229.

As shown in fig. 8, the first power supply device 62 further includes a circuit board 625, a support frame 626 and a battery 627, which are respectively located in the second accommodating portion 6220, the circuit board 625 and the battery 627 are respectively located on two opposite sides of the support frame 626, the circuit board 625 is located on the lower side of the support frame 626, and the battery 627 is located on the upper side of the support frame 626; the second end 632 of the first connecting line 63 is connected to the circuit board 625 through the plug terminal, so that a portion of the first connecting line 63 close to the second end 632 is received in the second accommodating portion 6220 of the base 622.

Preferably, the battery 627 is electrically connected to the circuit board 625 through a plug terminal, and the electric energy in the battery 627 is transmitted to the second end portion 632 of the first connection line 63 through the circuit board 625, and is supplied to the first control device 61 through the first end 631 of the first connection line 631.

When the first power supply device 62 is charged, the wire hole 6223 at the bottom of the base 622 is provided with an electrical plug terminal, the electrical plug terminal is electrically connected to the circuit board 625, and the circuit board 625 transmits the electrical energy of the conductive column 16 of the charging base 10 to the battery 627, so as to charge the battery 627.

In order to allow the first connection line 63 to pass through the second accommodating portion 6220 and enter the first accommodating portion 6211, the base 622 further includes a second through hole 6226, and the first connection line 63 passes through the second through hole 6226, is wound around the concave portion 6225 of the outer wall 6224, passes through the first through hole 6215 of the housing 621, and is electrically connected to the first control device 61 through the first end 631 of the connection line 63.

That is, the base 622 is provided with a second through hole 6226, and the housing 621 is provided with a first through hole 6215, wherein the second through hole 6226 communicates the second accommodating portion 6220 and the first accommodating portion 6211.

As shown in fig. 8, after the second end 632 of the first connecting wire 63 is electrically and fixedly connected to the circuit board 625, the pressing wire cover 64 and the silicone sleeve 65 are further disposed on the path through which the other first connecting wire 63 passes from the second accommodating portion 6220, the pressing wire cover 64 and the silicone sleeve 65 are respectively accommodated in the second accommodating portion 6220, and the pressing wire cover 64 and the silicone sleeve 65 are used for limiting the path of the first connecting wire 63 and preventing the first connecting wire 63 from swaying in the base 622, which results in poor electrical performance.

In other examples of this utility model, line ball lid and silica gel cover can also be other soft protective sheaths, restrict the part constraint that is located the second holding portion with the connecting wire in support frame or base through soft protective sheath, can realize avoiding the connecting wire to rock and restrict its purpose of wearing out the route equally. In addition, the connecting wire damage caused by contact friction between the connecting wire and the supporting frame or the base can be further protected.

As shown in fig. 7 and 8, the wire pressing cover 64 includes at least one side wall 641 protruding toward the base 622, each side wall 641 is provided with a slot 642, the first connecting wire 63 is clamped in the slot 642, and preferably, the first connecting wire 63 is clamped in a portion of the slot 642, and a protective sleeve 66 is sleeved outside the first connecting wire 63. The protective sleeve 66 increases the protection of the first connecting wire 63 and, at the same time, increases the clamping strength between the connecting wire and the card slot.

Further, a silica gel sleeve 65 is arranged between the line pressing cover 64 and the second through hole 6226, the first connecting line 63 penetrates through a third through hole 651 in the silica gel sleeve 65 and enters the second through hole 6226, and the anti-impact capability of the connecting line 63 is improved by the silica gel sleeve.

In addition, the third through hole 651 extends toward one side of the second through hole 6226 and is inserted into the second through hole 6226, that is, the first connection line 63 passes through the third through hole 651 and also passes through the second through hole 6226. The third through hole 651 extends into the second through hole 6226, so that the base 622 can position the silicone sleeve 65 and fully utilize the inner space of the second accommodating portion 6220.

Referring to fig. 8, the paying-off and taking-up processes of the first main unit 60 of the present invention are as follows:

a wire take-up process: rotating the rotating portion in a first direction (counterclockwise or clockwise), the base 622 rotates in the first accommodating portion 6211 of the housing 621, and the first connecting line 63 enters the first accommodating portion 6211 from the first through hole 6215 and winds around the concave portion 6225 of the outer wall surface 6224 of the base 622.

And (3) paying off: the housing of the first power device 62 is fixed, so that the first control device 61 moves toward a direction away from the first power device 62, the first control device 61 drives the first connection line 63 to unscrew from the first through hole 6215 of the housing 621 in the first power device 62, that is, when the first connection line 63 is pulled, the first connection line 63 gradually extends out from the first through hole 6215, the rotating part is driven to rotate along the second direction (clockwise or counterclockwise), the base 622 rotates along the second direction, and the first connection line 63 is gradually unwound from the outer wall surface 6224 until being completely unscrewed.

Wherein the first direction and the second direction are opposite.

In addition, a main control board (not shown) is disposed inside the casing of the first control device 61, a power button is further disposed on the casing of the first control device 61, and after the power button is pressed to control the main control board to be started, the main control board is electrically connected to the first power device 62 through a first connection line 63.

In addition, the third magnetic button 612 on the first control device 61 or the fourth magnetic button 6222 on the first power supply device 62 may be magnetically attracted to the magnetic buttons on the electrode sheet, respectively, so as to apply the electrode sheet to the skin surface of the user to realize electrical stimulation.

To sum up, the utility model provides an electric pulse stimulation device, include power supply unit and controlling means through the connection of electric lines, be equipped with the rotating part of casing rotation relatively among the power supply unit, rotate in opposite direction through the rotating part, realize the connecting wire and realize winding wire in power supply unit inside, and the connecting wire winding mode is reliable, stable, can not produce scatter, not hard up scheduling problem. In addition, the host can be accommodated and charged in the box body, and the size miniaturization of the whole device is facilitated.

Of course, the present invention can have other various embodiments, and those skilled in the art can make various corresponding changes and modifications according to the present invention without departing from the spirit and the essence of the present invention, and these corresponding changes and modifications should fall within the protection scope of the appended claims.

Claims (10)

1. An electrical pulse stimulation apparatus comprising at least a first host, wherein the first host comprises:

the power supply device comprises a first control device, a first power supply device and a first connecting wire, wherein two ends of the first connecting wire are respectively and electrically connected with the first control device and the first power supply device;

the first power supply device comprises a shell and a rotating part, the shell comprises a first accommodating part and a first through hole, and the rotating part is rotatably arranged in the first accommodating part along a river;

the rotating part rotates along a first direction, and the first connecting line is wound on the outer wall surface of the rotating part; the rotating part rotates along a second direction, and the first connecting line is screwed out of the first through hole; the first direction and the second direction are opposite.

2. The electric pulse stimulation apparatus of claim 1, wherein the rotating portion comprises a base having the outer wall surface, wherein the outer wall surface is provided with a recess, and wherein the first connection wire is wound in the recess.

3. The electric pulse stimulation apparatus according to claim 2, further comprising a support frame, a battery, and a circuit board, wherein the base has a second receiving portion, the support frame and the circuit board are received in the second receiving portion, the connecting wire is partially received in the second receiving portion, the base comprises a second through hole, the second through hole is communicated with the first through hole, and the first connecting wire passes through the second through hole and extends out of the housing from the first through hole.

4. The electric pulse stimulation apparatus of claim 3, further comprising a wire cover, wherein the wire cover is located in the second receiving portion, a groove is formed in one side of the wire cover, and the first connecting wire is snapped into the groove.

5. The electric pulse stimulation device according to claim 4, further comprising a silicone sleeve disposed between the second through hole and the pressure wire cover, the silicone sleeve having a third through hole, the first connection wire passing through the third through hole into the second through hole.

6. The electric pulse stimulation apparatus of claim 2, wherein the housing comprises a first slide and a first slide protruding from an inner wall surface of the housing; the base comprises a second sliding block and a second sliding groove; wherein the second sliding block is inserted into the first sliding groove, and the first sliding block is inserted into the second sliding groove; the first sliding groove and the second sliding groove are annular sliding grooves respectively.

7. The electric pulse stimulation apparatus as claimed in claim 6, wherein the rotating portion further comprises an upper housing, the upper housing is mounted on the top end of the base, and the space between the edge of the upper housing and the edge of the top end of the base is the second sliding groove.

8. The electric pulse stimulation apparatus according to claim 2, wherein the opening of the recess is provided adjacent to an inner wall surface of the housing, and the first connection line is confined in a space between the recess and the inner wall surface.

9. The electric pulse stimulation device according to claim 1, further comprising a case, wherein the case comprises a charging base and a flip, one side of the flip is pivotally connected to the charging base, and a space between the charging base and the flip is used for placing the host; the bottom of the first power supply device is provided with a charging hole, the charging base is provided with a conductive column, the conductive column is inserted into the charging hole, and the charging base faces the first power supply device to be charged.

10. The electric pulse stimulation device according to claim 9, further comprising a power adapter, wherein one end of the power adapter is electrically connected with the charging interface of the charging base in a pluggable manner, and the other end of the power adapter is provided with a plug; the flip cover comprises a third accommodating part, and the power adapter is accommodated in the third accommodating part.

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