CN215779805U - Fascia gun - Google Patents

Abstract

The utility model discloses a fascia gun, which comprises: vibrating the massage member; the driving component is in transmission connection with the vibrating massage piece; an electrode massage member; and the first circuit board is electrically connected with the electrode massage part and the driving component, and controls one of the driving component and the electrode massage part to work and the other one to stop working, so that the vibration massage part and the electrode massage part work in a non-synchronous mode. From this, through being connected first circuit board and drive assembly and electrode massage piece electricity, can make first circuit board control vibration massage piece and electrode massage piece work with asynchronous mode, like this under the richer prerequisite of massage mode of manadesma rifle, make vibration massage piece and electrode massage piece work alone, can make vibration massage piece and electrode massage piece better to human massage effect to can promote user's use and experience.

Description

Fascia gun

Technical Field

The utility model relates to the technical field of massage instruments, in particular to a fascia gun.

Background

With the development of science and technology and the improvement of living standard of people, people increasingly hope that the muscular tension and ache caused by work or life can be relieved, and the fascial gun is accepted by users due to the characteristic that the fascial gun can impact muscles repeatedly, and gradually walks into the life of people.

In the related art, the fascia gun can only massage the muscles of the corresponding parts of the human body in a hot compress or hammering mode, the massage mode of the fascia gun is relatively single, deep muscles of a user cannot be relaxed, and the use experience of the user is poor.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a fascia gun, which can fully meet the use requirements of users, and improve the use experience of users.

The fascia gun according to the present invention comprises: vibrating the massage member; the driving component is in transmission connection with the vibrating massage piece, and when the driving component works, the vibrating massage piece is driven by the driving component to reciprocate; an electrode massage member; and the first circuit board is electrically connected with the electrode massage part, after the first circuit board is electrified with the electrode massage part, the electrode massage part outputs pulse current, the first circuit board is also electrically connected with the driving component, the first circuit board controls the driving component and one of the electrode massage parts to work and the other to stop working, and therefore the vibration massage part and the electrode massage part work in an asynchronous mode.

From this, through being connected first circuit board and drive assembly and electrode massage piece electricity, can make first circuit board control vibration massage piece and electrode massage piece work with asynchronous mode, like this under the richer prerequisite of massage mode of manadesma rifle, make vibration massage piece and electrode massage piece work alone, can make vibration massage piece and electrode massage piece better to human massage effect like this to can promote user's use and experience.

In some examples of the present invention, the electrode massage part is provided to the vibration massage part, the electrode massage part moves synchronously when the vibration massage part reciprocates, and a conductive member having a play margin is connected between the electrode massage part and the first circuit board to allow the electrode massage part to move relative to the first circuit board.

In some examples of the utility model, the electrode massage part is arranged on a side of the vibrating massage part facing the human body, and the surface of the side of the electrode massage part facing the human body is an electrode massage surface and is also a vibrating massage surface of the vibrating massage part.

In some examples of the utility model, the vibrating massage element comprises: the connector is in transmission connection with the driving assembly, and one side, facing the human body, of the connector is opened; electrode massage spare set up in the open one side of connector, electrode massage spare includes: the first electrode and the second electrode are arranged on the mounting plate and are arranged at intervals on the mounting plate, the mounting plate is an insulating plate, and the first electrode and the second electrode are electrically connected with the first circuit board.

In some examples of the present invention, the mounting plate is provided with an insulating spacer protruding toward a human body, the first electrode is provided at an outer periphery of the insulating spacer, and the second electrode is provided at an inner periphery of the insulating spacer so as to be insulated from the first electrode by the insulating spacer.

In some examples of the utility model, the surfaces of the first and second electrodes facing the human body are flush and constitute at least a part of the electrode massage face, and the surfaces of the first and second electrodes facing the human body protrude from the surface of the insulating spacer facing the human body to form a height difference in a protruding direction with the insulating spacer.

In some examples of the utility model, the first electrode comprises: the edge of the mounting plate is arranged on the step part, and the second part is fixedly connected with the end part of the connector.

In some examples of the utility model, the second part is provided with a convex ring protruding towards a direction away from a human body, the end part of the connector is provided with a groove, and the convex ring is matched in the groove so as to be aligned and matched when the electrode massage piece and the connector are installed; and/or the second part is connected with the end part of the connector in an adhesion manner, so that the electrode massage piece is fixed on the connector in an adhesion manner.

In some examples of the utility model, the electrode massage further comprises: the second circuit board is arranged on one side surface, away from the human body, of the mounting plate so as to be isolated from the first electrode and the second electrode, the first electrode and the second electrode are electrically connected with the second circuit board, and the second circuit board is electrically connected with the first circuit board through the conductive pieces.

In some examples of the utility model, the electrode massage further comprises: first electric connector and second electric connector, first electric connector in order to wear to establish the second circuit board with the mode of mounting panel respectively with the second circuit board with first electrode electricity is connected, and the second electric connector in order to wear to establish the second circuit board with the mode of mounting panel respectively with the second circuit board with the second electrode electricity is connected.

In some examples of the present invention, a first pad corresponding to the first electrical connector and a second pad corresponding to the second electrical connector are disposed on the second circuit board, the first electrode is provided with a first mounting column matched with the first electrical connector, the second electrode is provided with a second mounting column matched with the second electrical connector, and the second electrical connector and the first electrical connector are both screws.

In some examples of the present invention, a first limiting portion is disposed on a side of the mounting plate close to the second circuit board, a second limiting portion is disposed on a side of the second circuit board close to the mounting plate, one of the first limiting portion and the second limiting portion is a limiting post, and the other of the first limiting portion and the second limiting portion is a limiting hole, and the limiting post and the limiting hole are in limiting fit.

In some examples of the utility model, the fascia gun further comprises: the physiotherapy lamp is arranged on the second circuit board, is electrically connected with the second circuit board, and is turned on and emits light rays for physiotherapy towards a human body when the second circuit board controls the physiotherapy lamp to work; the mounting plate is a light-transmitting plate and is used for transmitting light rays of the physiotherapy lamp; or the mounting plate is provided with a light hole for transmitting the light of the physiotherapy lamp.

In some examples of the utility model, the mounting plate leaves a light-transmitting area between the first electrode and the second electrode, the plurality of physiotherapy lamps are distributed in an area of the second circuit board corresponding to the light-transmitting area, and the plurality of physiotherapy lamps are arranged at intervals in the area corresponding to the light-transmitting area to form a light ring.

In some examples of the present invention, one side of the mounting plate facing the second circuit board is provided with a receiving groove, one side of the receiving groove is open to the physiotherapy lamp, the physiotherapy lamp is disposed in the receiving groove, and the other side of the receiving groove is in contact with the physiotherapy lamp; or a gap is reserved between the other side of the accommodating groove and the physiotherapy lamp for heat dissipation.

In some examples of the utility model, the electrode massage further comprises: the heating piece is arranged between the second electrode and the mounting plate, the second electrode is a heat conducting piece, the heating piece is electrically connected with the first circuit board, and when the first circuit board controls the heating piece to work, the heating piece generates heat and the generated heat is transferred to the human body through the second electrode.

In some examples of the utility model, the electrode massage further comprises: the second circuit board, the second circuit board set up in the mounting panel deviates from one side of human body, the first electrode the second electrode with the piece that generates heat all with the second circuit board electricity is connected.

In some examples of the utility model, a first electrical connection seat is arranged on one side of the second circuit board, which is away from the human body, a pin is arranged on one side of the heating element, which extends towards the second circuit board, a first through hole is arranged on the mounting plate, a second through hole is arranged on the second circuit board, the first through hole and the second through hole are arranged oppositely, and one side of the pin penetrates through the first through hole and the second through hole and is electrically connected with the first electrical connection seat.

In some examples of the utility model, a buffer sleeve for contacting and matching with the machine body is arranged on the connecting head, a convex third limiting part is arranged on the connecting head, a third through hole is formed in the buffer sleeve, and the third limiting part penetrates through the third through hole.

In some examples of the present invention, the conductive member further includes: first wire, first binding post, second binding post and second wire, the one end of first wire with electrode massage piece electricity is connected and the other end is provided with first binding post, first binding post set up in the connector deviates from one side of electrode massage piece, second binding post set up in drive assembly, the second wire connect in second binding post with between the first circuit board, the second wire has the activity surplus.

In some examples of the utility model, the drive assembly comprises: driving motor, driving medium and executive component, the driving medium set up in driving motor with between the executive component, the vibration massage piece set up in the executive component, driving motor with first circuit board electricity is connected first circuit board control driving motor during operation, driving motor passes through the driving medium drive the executive component with vibration massage piece reciprocating motion, second binding post set up in the executive component.

In some examples of the utility model, the fascia gun further comprises: the third circuit board, the executive component has seted up first mounting groove and fourth and has perforated, the connector set up in first mounting groove, the third circuit board set up in the executive component is last and be located the outside of first mounting groove, second binding post passes through the fourth is perforated to stretch into in the first mounting groove with first binding post electricity is connected.

In some examples of the present invention, the second connection terminal includes: the base is electrically connected with the third circuit board, the ejector pin is telescopically arranged in the base, and the elastic piece is arranged in the base to provide elastic thrust for the ejector pin.

In some examples of the utility model, the fascia gun further comprises: the vibration massage device comprises a machine body and a handle, wherein one end of the handle is connected to the machine body, a through hole is formed in one end of the machine body, the driving assembly and the first circuit board are arranged on the machine body, and the vibration massage piece is at least partially positioned in the through hole and is in transmission connection with the driving assembly; the electrode massage piece is arranged on the machine body and is positioned at the other end of the machine body opposite to the through hole; and/or the electrode massage piece is arranged on the handle and positioned at the other end of the handle, which deviates from the machine body.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a schematic view of a fascial gun according to an embodiment of the utility model;

FIG. 2 is a schematic view of a vibrating massage member according to an embodiment of the present invention;

FIG. 3 is a cross-sectional view of a vibrating massage element according to an embodiment of the present invention in a first direction;

FIG. 4 is an exploded view of a vibrating massage member according to an embodiment of the present invention;

FIG. 5 is a cross-sectional view of the vibrating massage element according to an embodiment of the present invention in a second orientation;

FIG. 6 is a schematic view of a second electrode and a heat generating member plate according to an embodiment of the present invention;

FIG. 7 is a schematic diagram of a second circuit board according to an embodiment of the utility model;

FIG. 8 is a schematic diagram of a second circuit board according to an embodiment of the present invention;

FIG. 9 is a schematic view of a fascial gun according to an embodiment of the utility model;

FIG. 10 is a perspective cross-sectional view of the fascial gun of FIG. 9 taken along the line A-A;

FIG. 11 is a plan cross-sectional view of a fascia gun according to an embodiment of the utility model;

FIG. 12 is a schematic view of region A of FIG. 9;

FIG. 13 is a schematic view of a fascial gun according to an embodiment of the utility model;

FIG. 14 is a schematic view of a second housing according to an embodiment of the utility model;

FIG. 15 is a schematic view of an actuator according to an embodiment of the utility model;

FIG. 16 is a schematic view of a fascial gun according to an embodiment of the utility model;

FIG. 17 is a schematic diagram of a first circuit board according to an embodiment of the utility model;

FIG. 18 is a schematic diagram of a fourth circuit board according to an embodiment of the utility model;

figure 19 is a cross-sectional view of a portion of a fascial gun according to an embodiment of the utility model.

Reference numerals:

100-fascial gun;

10-a vibrating massage element;

20-a connector; 21-a rod part; 22-a head; 23-a first wire; 231-a first connection terminal; 24-a buffer sleeve; 241-third perforations; 25-a third limiting part; 26-a groove;

30-electrode massage members; 31-a first electrode; 311-first part; 312 — a second portion; 313-a step portion; 314-a convex ring; 315-a first mounting post; 32-a second electrode; 321-a second mounting post; 33-a mounting plate; 331-a first limiting part; 332-insulating spacers; 333-accommodating grooves; 334-first perforation; 34-a second electrical connector; 35-a first electrical connector; 36-a heat generating member; 361-pin;

40-a second circuit board; 41-a first electrical connection socket; 42-a second perforation; 43-a first pad; 44-a second pad; 45-a second limiting part; 50-physiotherapy lamp;

60-a fuselage; 61-a housing; 611-a first housing; 6111-first rib; 612-a second housing; 6121-second convex rib; 613-wiring groove; 614-fuselage; 615-a handle; 62-a drive assembly; 63-a third circuit board; 631 — a second connection terminal; 6311-base; 6312-elastic member; 6313-thimble; 632-second conductive line; 64-fascia buttons; 65-heating hot compress button; 66-electrical stimulation keys; 67-electrical stimulation gear key; 68-a battery; 69-a fourth circuit board; 691-a charging port; 692-general switch; 693-electric quantity indicator light;

70-an actuator; 71-a first mounting groove; 72-fourth perforation; 73-fifth perforation; 74-a fourth limiting part;

80-a first circuit board; 81-fascial switch; 82-infrared hot compress switch; 83-electrical stimulation switch; 84-electrical stimulation gear switch; 85-fascia indicator light; 86-infrared hot compress indicator light; 87-electrical stimulation indicator lights; 88-gear indicator lamp.

Detailed Description

Embodiments of the present invention will be described in detail below, the embodiments described with reference to the drawings being illustrative, and the embodiments of the present invention will be described in detail below.

A fascia gun 100 according to an embodiment of the utility model is described below with reference to fig. 1-19.

As shown in fig. 3, the fascia gun 100 according to an embodiment of the present invention may mainly include: the massage device comprises a vibrating massage part 10, a driving component 62, an electrode massage part 30 and a first circuit board 80, wherein the driving component 62 is in transmission connection with the vibrating massage part 10, the driving component 62 can drive the vibrating massage part 10 to reciprocate, so that the vibrating massage part 10 can repeatedly hammer the part of the human body needing massage, and the muscle of the part of the human body needing massage is relaxed.

The first circuit board 80 is electrically connected with the electrode massage member 30, after the first circuit board 80 and the electrode massage member 30 are electrified, the electrode massage member 30 outputs pulse current, and the pulse current output by the electrode massage member 30 can electrically stimulate and relax muscles in the deep layer of the human body. The electrical stimulation signal can be an EMS pulse signal, and the EMS pulse signal can not only relax muscles, but also avoid inflammation and muscle atrophy, accelerate muscle healing and stimulate muscle growth.

Further, as shown in fig. 10 and 1, the first circuit board 80 is also electrically connected to the driving assembly 62, and the first circuit board 80 controls one of the driving assembly 62 and the electrode massage member 30 to operate and the other to stop operating, so that the vibration massage member 10 and the electrode massage member 30 operate in an asynchronous manner, and with this arrangement, a user can selectively use the vibration massage member 10 or the electrode massage member 30 to relax his muscles according to his or her muscle requirements under different conditions, so that the vibration massage member 10 and the electrode massage member 30 operate independently, the massage mode of the fascial gun 100 is richer, and the user experience is better.

It can be understood that, when the vibration massage member 10 is in normal operation, the vibration massage member 10 needs to perform reciprocating motion to hammer the human body, and when the electrode massage member 30 is in normal operation, the electrode massage member 30 needs to continuously and directly contact the human body, so that one of the driving assembly 62 and the electrode massage member 30 is controlled by the first circuit board 80 to operate, and the other stops operating, so that the vibration massage member 10 and the electrode massage member 30 operate in an asynchronous manner, that is, when the vibration massage member 10 performs reciprocating motion, the electrode massage member 30 cannot output pulse current, when the electrode massage member 30 outputs pulse current, the vibration massage member 10 cannot perform reciprocating motion, so that when one of the vibration massage member 10 and the electrode massage member 30 operates alone, the massage effect on the human body is better, the user experience is further improved, and the vibration massage member 10 and the electrode massage member 30 can be prevented from operating simultaneously, the electrode massage part 30 can not continuously contact with the human body directly, and the electric energy is wasted while the massage effect of the electrode massage part 30 on the human body is reduced.

In addition, with such an arrangement, the user can be prevented from opening one of the vibrating massage element 10 and the electrode massage element 30 by mistake when massaging the other, so that the user experience can be further improved.

Referring to fig. 10 and 11, the electrode massage member 30 is provided to the vibration massage member 10 such that the electrode massage member 30 is moved in synchronization when the vibration massage member 10 reciprocates, and a conductive member having a play margin is connected between the electrode massage member 30 and the first circuit board 80 to allow the electrode massage member 30 to move relative to the first circuit board 80. Specifically, the electrode massage member 30 is disposed on the vibration massage member 10, so that the structure of the fascial gun 100 can be more compact, and the conductive member is disposed with a movement margin, that is, the actual length of the conductive member is greater than the distance between the electrode massage member 30 and the first circuit board 80, so that when the electrode massage member 30 reciprocates along with the vibration massage member 10, the conductive member will not hinder the movement of the electrode massage member 30, and will always maintain the stable and firm connection with the electrode massage member 30 and the first circuit board 80.

Referring to fig. 10 and 11, the electrode massage member 30 is disposed on one side of the vibration massage member 10 facing the human body, and a surface of one side of the electrode massage member 30 facing the human body is an electrode massage surface and is also a vibration massage surface of the vibration massage member 10, so that when the first circuit board 80 controls the electrode massage member 30 to normally operate and outputs a pulse current, the electrode massage member 30 can face one side of the human body, i.e. the electrode massage surface directly contacts with the human body, and when the first circuit board 80 controls the vibration massage member 10 to normally operate and repeatedly hammer the human body, the surface of one side of the electrode massage member 30 facing the human body, i.e. the vibration massage surface repeatedly hammers the human body, so that the surface of one side of the electrode massage member 30 facing the human body is an electrode massage surface and a vibration massage surface simultaneously, which not only makes the structure of the gun 100 more compact, but also can be convenient for the user to use the fascial gun 100, and has certain fool-proof effect.

As shown in fig. 2, 3 and 4 in conjunction, the vibrating massage member 10 may mainly include: the connector 20, the connector 20 is connected with the drive assembly 62 transmission, and the connector 20 opens towards one side of human body and sets up, and the electrode massage piece 30 sets up in the open one side of connector 20, and the electrode massage piece 30 can mainly include: the electrode assembly comprises a first electrode 31, a second electrode 32 and a mounting plate 33, wherein the first electrode 31 and the second electrode 32 are arranged on the mounting plate 33 and are arranged at intervals on the mounting plate 33, the mounting plate 33 is an insulating plate, and the first electrode 31 and the second electrode 32 are electrically connected with a first circuit board 80. Specifically, the open one side of connector 20 is towards the human body, set up electrode massage piece 30 in the open one side of connector 20, can make the user when using manadesma rifle 100 to massage self muscle, make electrode massage piece 30 can with the position direct contact that needs relax, the pulse current that sends when electrode massage piece 30 circular telegram like this alright direct transport to the human body, and make pulse current can carry out the electro photoluminescence to the deep muscle of human body and relax, thereby can promote manadesma rifle 100 to the massage effect of human body, and then can promote user's use and experience.

Further, as shown in fig. 2, 3 and 4, the first electrode 31 and the second electrode 32 are both disposed on the mounting plate 33, so that the stability of the mounting arrangement of the first electrode 31 and the second electrode 32 on the connector 20 can be improved, the mounting plate 33 is disposed as an insulating plate, and both the first electrode 31 and the second electrode 32 are electrically connected to the first circuit board 80, so that the mounting plate can be prevented from affecting the output currents of the first electrode 31 and the second electrode 32, and the stability and the continuity of the pulse currents generated by the first electrode 31 and the second electrode 32 can be further improved. It should be noted that the pulse current can be generated only when the first electrode 31 and the second electrode 32 are simultaneously energized.

As shown in fig. 3 and 5 in conjunction, the mounting plate 33 is provided with an insulating spacer 332 protruding toward the human body, the first electrode 31 is provided at the outer periphery of the insulating spacer 332, and the second electrode 32 is provided at the inner periphery of the insulating spacer 332 so as to be provided insulated from the first electrode 31 by the insulating spacer 332. Specifically, the mounting plate 33 is provided with an insulating spacer 332 protruding toward the human body, the inner circumference of the insulating spacer 332 is provided with a receiving groove, the shape of the receiving groove is matched with that of the second electrode 32, the second electrode 32 is arranged in the receiving groove of the inner circumference of the insulating spacer 332, and the first electrode 31 is arranged at the outer circumference of the insulating spacer 332, so that not only the second electrode 32 and the first electrode 31 can be stably and firmly mounted on the mounting plate 33, but also the second electrode 32 and the first electrode 31 can be spaced from each other, wherein one of the second electrode 32 and the first electrode 31 is a positive electrode, the other is a negative electrode, the human body can be a good electric conductor, so that the second electrode 32 and the first electrode 31 are spaced from each other by the insulating spacer 332, so that when the second electrode 32 and the first electrode 31 are electrified, the second electrode 32, the first electrode 31 and the human body can form a complete circuit, the second electrode 32 and the first electrode 31 can stably and continuously generate the electrical stimulation signal, so that the electrical stimulation massage of the fascial gun 100 on the human body can be more stable and reliable.

As shown in fig. 3 and 5, the surfaces of the first electrode 31 and the second electrode 32 facing the human body are flush with each other and constitute at least a part of the electrode massage surface, and the surfaces of the first electrode 31 and the second electrode 32 facing the human body protrude from the surface of the insulating spacer 332 facing the human body to form a height difference in the protruding direction with the insulating spacer 332. Specifically, after the first electrode 31 and the second electrode 32 are respectively installed and arranged on the outer periphery and the inner periphery of the insulating partition portion 332, the first electrode 31 and the second electrode 32 are flush with the surface of the human body, so that the human body can be prevented from being abutted to the outer side by one of the first electrode 31 and the second electrode 32 which protrudes towards the human body, the other one of the first electrode 31 and the second electrode 32 can not be in contact with the human body, the pulse current can not be continuously and stably generated by the second electrode 32 and the first electrode 31, the electrode massage piece 30 can not effectively perform the electric stimulation massage on the human body, and the structural reliability of the electrode massage piece 30 can be improved.

Further, as shown in fig. 3 and 5, the surfaces of the first electrode 31 and the second electrode 32 facing the human body are protruded from the surfaces of the insulating spacer 332 facing the human body, so that the insulating spacer 332 can be prevented from abutting the human body to the outside, and the first electrode 31 and the second electrode 32 can not be in direct contact with the human body, thereby further improving the reliability of the electrode massage member 30.

As shown in connection with fig. 5, the first electrode 31 may mainly include: a first portion 311 and a second portion 312, the second portion 312 surrounds the outer circumference of the first portion 311, and the thickness of the second portion 312 is greater than that of the first portion 311. Specifically, the thickness of the second portion 312 is greater than that of the first portion 311, and the surfaces of the second portion 312 and the first portion 311 facing the human body are flush with each other, so that on the premise that the thickness of the second portion 312 is greater than that of the first portion 311, the first electrode 31 is prevented from being uneven on the side facing the human body, and the massage experience of the human body is prevented from being affected.

Further, as shown in fig. 5, a step 313 is formed between the second part 312 and the first part 311 on the side away from the human body, and the second part 312 is fixedly connected with the end of the connecting head 20. Specifically, since the thickness of the second portion 312 is greater than that of the first portion 311, and the surfaces of the second portion 312 and the first portion 311 facing the human body are flush with each other, the side of the second portion 312 facing away from the human body protrudes from the side of the first portion 311 facing away from the human body, a step 313 is formed between the second portion 312 and the first portion 311 facing away from the human body, the outer periphery of the mounting plate 33 can be attached to the first electrode 31, and the edge of the mounting plate 33 can abut against the step 313, so that relative displacement between the mounting plate 33 and the first electrode 31 can be prevented, and the stability between the mounting plate 33 and the first electrode 31 can be improved. Further, the second portion 312 is fixedly connected to the end of the connection head 20, so as to improve the stability and reliability of the installation of the electrode massage member 30 on the connection head 20.

Alternatively, as shown in fig. 3 and 5, the second portion 312 is provided with a protruding ring 314 protruding toward a direction away from the human body, the end of the connector 20 is provided with a groove 26, the protruding ring 314 is fitted in the groove 26 to be aligned when the electrode massage member 30 and the connector 20 are mounted, specifically, the protruding ring 314 is extended into the groove 26, and the protruding ring 314 and the inner and outer walls of the peripheral wall of the groove 26 are mutually abutted and fitted, so that when the electrode massage member 30 is subjected to a radial force, the abutting and fitting of the protruding ring 314 and the peripheral wall of the groove 26 can prevent the electrode massage member 30 from shifting, and thus, the stability and reliability of the mounting and setting of the electrode massage member 30 on the connector 20 can be further improved.

Alternatively, as shown in fig. 4, the second portion 312 is adhesively connected to the end of the connector 20 to fix the electrode massage member 30 to the connector 20 by adhesion, so that not only the first electrode 31 can be stably and reliably fixed to the connector 20, and thus the electrode massage member 30 can be more firmly fixed to the connector 20, but also the adhesive connection is simpler, and the manufacturing of the fascial gun 100 can be facilitated.

As shown in fig. 4 and 5, the fascial gun 100 may further include: and the second circuit board 40, the second circuit board 40 is arranged on one side surface of the mounting plate departing from the human body so as to be isolated from the first electrode 31 and the second electrode 32, the first electrode 31 and the second electrode 32 are both electrically connected with the second circuit board 40, and the second circuit board 40 is electrically connected with the first circuit board 80 through a conductive piece. Specifically, the second circuit board 40 is disposed on a side surface of the mounting plate 33 facing away from the human body, and the first electrode 31 and the second electrode 32 are electrically connected to the second circuit board 40, so that the second circuit board 40 can continuously and stably supply power to the first electrode 31 and the second electrode 32, and stability and reliability of the electrical stimulation signals transmitted by the first electrode 31 and the second electrode 32 to the human body can be improved. Further, the second circuit board 40 is arranged on the surface of the mounting plate 33, which is away from the human body, and the second circuit board 40 is separated from the first electrode 31 and the second electrode 32, so that not only can the space on the mounting plate 33 be fully utilized, and the structure of the fascial gun 100 is more compact, but also the installation arrangement of the second circuit board 40 on the mounting plate 33 can be prevented from influencing the installation arrangement of the first electrode 31 and the second electrode 32, and the arrangement layout of the second circuit board 40 can be more reasonable, and the structural reliability of the fascial gun 100 can be further improved. In addition, the electrical connection between the second circuit board 40 and the first and second electrodes 31 and 32 can be relatively short, so that the stability and reliability of the electrical connection can be improved.

As shown in fig. 4 and 5, the fascial gun 100 may further include: the first electric connector 35 is electrically connected with the second circuit board 40 and the first electrode 31 in a manner of penetrating the second circuit board 40 and the mounting plate 33, and the second electric connector 34 is electrically connected with the second circuit board 40 and the second electrode 32 in a manner of penetrating the second circuit board 40 and the mounting plate 33. Specifically, the first electrical connector 35 penetrates through the second circuit board 40 and is electrically connected with the first electrode 31 and the second circuit board 40 after being installed, the contact position of the first electrical connector 35 and the second circuit board 40 is conductive, the second circuit board 40 transmits current to the first electrical connector 35, and the first electrical connector 35 transmits current to the first electrode 31, so that the first electrode 31 and the second circuit board 40 can be electrically connected. Furthermore, the second electrical connector 34 is electrically connected to the second circuit board 40 and the second electrode 32 after passing through the second circuit board 40 and the mounting plate 33, the contact position of the second electrical connector 34 and the second circuit board 40 is conductive, the second circuit board 40 transmits the current to the second electrical connector 34, the second electrical connector 34 transmits the current to the second electrode 32, so that the electrical connection between the second electrode 32 and the second circuit board 40 can be realized,

the second electrical connector 34 and the first electrical connector 35 simultaneously transmit the current on the second circuit board 40 to the second electrode 32 and the first electrode 31, respectively, so that the electrode massage component 30 can stably and reliably transmit an electrical stimulation signal to the human body, and the massage effect of the fascial gun 100 on the user can be improved.

Referring to fig. 7, a first pad 43 corresponding to the first electrical connector 41 and a second pad 44 corresponding to the second electrical connector 34 are disposed on the second circuit board 40, the first electrode 31 is provided with a first mounting post 315 engaged with the first electrical connector 35, the second electrode 32 is provided with a second mounting post 321 engaged with the second electrical connector 34, and the second electrical connector 34 and the first electrical connector 35 are both screws. Specifically, after the second electrical connector 34 and the first electrical connector 35 respectively pass through the second pad 44 and the first pad 43 of the second circuit board 40, the second electrical connector 34 and the first electrical connector 35 are respectively connected and fixed with the second mounting post 321 on the second electrode 32 and the first mounting post 315 on the first electrode 31, wherein the second electrical connector 34 and the first electrical connector 35 are both screws, the outer peripheries of the screws are provided with external threads, the inner peripheries of the second mounting post 321 and the first mounting post 315 are provided with internal threads matched with the external threads of the screws, the internal threads and the external threads are connected and fixed with each other, and the screws, the second electrode 32 and the first electrode 31 are metal pieces.

Thus, when the second electrical connector 34 is fixedly connected to the second mounting post 321 and the first electrical connector 35 is fixedly connected to the first mounting post 315, the electrical connection between the second electrode 32 and the second circuit board 40 can be directly realized, and the electrical connection between the first electrode 31 and the second circuit board 40 can be directly realized, so that the stability and reliability of the electrical connection between the second circuit board 40 and the second electrode 32 as well as the first electrode 31 can be ensured, the electrical connection can be simple and direct, a complex electrical connection structure is not required, the mounting and setting of the fascia gun 100 can be facilitated, and the structure of the fascia gun 100 can be more compact.

Referring to fig. 4, 5 and 8, a first limiting portion 331 is disposed on one side of the mounting plate 33 close to the second circuit board 40, a second limiting portion 45 is disposed on one side of the second circuit board 40 close to the mounting plate 33, one of the first limiting portion 331 and the second limiting portion 45 is a limiting column, and the other is a limiting hole, and the limiting column is in limiting fit with the limiting hole. Specifically, directly stretch into spacing hole with spacing post, can realize the spacing cooperation in spacing post and spacing hole, spacing post not only can prevent that mounting panel 33 and second circuit board 40 from taking place radial movement each other with the spacing cooperation in spacing hole, and set up second circuit board 40 installation in mounting panel 33 time, spacing post can also play the effect of location with the spacing cooperation in spacing hole, stretch into back in spacing hole at spacing post, second circuit board 40 alright be in exact position with relative mounting panel 33, can promote second circuit board 40 installation like this and set up in mounting panel 33's accuracy and speed.

As shown in connection with fig. 4, the second electrical connector 34 and the first electrical connector 35 are each at least two, and the center axes are located in the same plane. Specifically, the central axes of the at least two second electrical connectors 34 and the at least two first electrical connectors 35 are located in the same plane, so that the first electrode 31 and the second electrode 32 can stably and continuously deliver electrical stimulation signals to the human body, for example: the number of the second electric connectors 34 and the number of the first electric connectors 35 can be two, the second electric connectors 34 and the first electric connectors 35 are located on the same straight line, and the first electric connectors 35 are located on two opposite sides of the two second electric connectors 34, so that not only can the first electrode 31 and the second electrode 32 stably and continuously transmit electric stimulation signals to a human body, but also the first electric connectors 35 and the second electric connectors 34 can be conveniently installed.

As shown in fig. 3, 4, and 7, the fascial gun 100 can further include: physiotherapy lamp 50, physiotherapy lamp 50 sets up on second circuit board 40, physiotherapy lamp 50 is connected with 40 electricity of second circuit board, and at the 50 during operation of second circuit board 40 control physiotherapy lamp, physiotherapy lamp 50 is lighted to be used for the light of physiotherapy towards human transmission, mounting panel 33 is the light-passing board, with the light of transmission physiotherapy lamp 50, or mounting panel 33 is provided with the light trap, with the light of transmission physiotherapy lamp 50. Specifically, physiotherapy lamp 50 can be connected with 40 electricity of second circuit board, second circuit board 40 can be for the continuous stable power supply of physiotherapy lamp 50, can send light after 50 circular telegrams of physiotherapy lamp, thereby carry out the physiotherapy to the human body, set up mounting panel 33 into the light-passing board, or set up the light trap on mounting panel 33, the light that physiotherapy lamp 50 sent can be followed mounting panel 33 and seen through, so set up, mounting panel 33 not only can protect physiotherapy lamp 50, prevent that external foreign matter from damaging physiotherapy lamp 50's structure, but also can guarantee that the infrared ray that physiotherapy lamp 50 sent sees through from vibrating massage 10 fully, thereby can guarantee physiotherapy lamp 50's performance. Wherein, the physiotherapy lamp 50 can be an infrared physiotherapy lamp, and the infrared physiotherapy lamp can emit infrared rays.

As shown in fig. 3, 4 and 7, the mounting plate 33 leaves a light-transmitting region between the first electrode 31 and the second electrode 32, and the therapeutic lamps 50 are distributed in the region of the second circuit board 40 corresponding to the light-transmitting region. Specifically, the physiotherapy lamp 50 and the second electrode 32 and the first electrode 31 are arranged at intervals in the circumferential direction of the connector 20, and since the second electrode 32 and the first electrode 31 are arranged at intervals, a space exists between the projections of the second electrode 32 and the first electrode 31 on the second circuit board 40, the physiotherapy lamp 50 is arranged on the second circuit board 40, and the physiotherapy lamp 50 is positioned in the space between the projections of the second electrode 32 and the first electrode 31 on the second circuit board 40, so that the light of the physiotherapy lamp 50 can be directly transmitted to the human body from the space between the second electrode 32 and the first electrode 31 after being transmitted out from the light-transmitting region on the mounting plate 33, and the light emitted by the physiotherapy lamp 50 can be prevented from being blocked by the second electrode 32 and the first electrode 31 due to the ingenious design, and special processing of the second electrode 32 and the first electrode 31 is not required, it can be made optically transparent so that the structural design of the mounting plate 33 can be optimized.

Combine fig. 7 to show, physiotherapy lamp 50 is a plurality of, a plurality of physiotherapy lamps 50 set up around second electrode 32 interval, in order to form the aureole, so set up, under the prerequisite that second electrode 32 and first electrode 31 can not shelter from the light that physiotherapy lamp 50 sent, make full use of second electrode 32 and first electrode 31 the projected interval space on second circuit board 40, can further promote the volume of the light of sending of physiotherapy lamp 50 like this, thereby can promote the massage effect of physiotherapy lamp 50 to the human body. In addition, the physiotherapy lamp 50 is arranged around the second electrode 32 at intervals to form a light ring, so that physiotherapy massage of the physiotherapy lamp 50 to a user is more uniform, and the area is larger.

One kind optionally, as shown in fig. 3, the mounting plate 33 is provided with a holding groove toward one side of the second circuit board 40, one side of the holding groove opens towards the physiotherapy lamp 50 and sets up, the physiotherapy lamp 50 sets up in the holding groove, the other side of the holding groove contacts with the physiotherapy lamp 50, thus not only can make the holding groove 333 on the mounting plate 33 protect the physiotherapy lamp 50, can prevent other components in the fascial gun 100 from damaging the physiotherapy lamp 50, can improve the service life of the physiotherapy lamp 50, but also can improve the light transmittance of the mounting plate 33, thereby further improving the reliability of the mounting plate 33.

Another kind is optional, leaves the clearance between the opposite side of holding tank and physiotherapy lamp 50 to be used for the heat dissipation, can prevent that the heat that produces from burning mounting panel 33 when physiotherapy lamp 50 is luminous under the prerequisite of the guard action of guaranteeing the holding tank to physiotherapy lamp 50 like this, can make physiotherapy lamp 50's the overall arrangement that sets up more reasonable like this, can promote the reliability of manadesma rifle 100.

As shown in fig. 4 and 6, the fascial gun 100 may further include: the heating element 36, the heating element 36 is arranged between the second electrode 32 and the mounting plate 33, the second electrode 32 is a heat conducting element, the heating element 36 is electrically connected with the first circuit board 80, when the first circuit board 80 controls the heating element 36 to work, the heating element 36 generates heat, and the generated heat transfers heat to the human body through the second electrode 32. Specifically, after the heating element 36 is electrified and heated, the heating element 36 can be closely attached to the second electrode 32 through the second electrode 32 with good heat conductivity, so that the heat loss of the heating element 36 in the process of transferring heat to the second electrode 32 can be reduced, and the reliability of the fascia gun 100 can be further improved.

As shown in connection with fig. 5, the fascial gun 100 can also essentially comprise: the second circuit board 40, the second circuit board 40 sets up in the one side that the mounting panel 33 deviates from the human body, and first electrode 31, second electrode 32 and heating element 36 all are connected with second circuit board 40 electricity. Specifically, the heating element 36 is electrically connected to the second circuit board 40, so that the second circuit board 40 can be fully utilized, the structure of the fascial gun 100 can be simplified, the second circuit board 40 can stably and continuously supply power to the heating element 36, and the reliability of the electrical connection between the heating element 36 and the second circuit board 40 can be ensured.

As shown in fig. 5, a first electrical connection socket 41 is disposed on a side of the second circuit board 40 away from the human body, a pin 361 extends from the heat generating element 36 toward the second circuit board 40, a first through hole 334 is disposed on the mounting plate 33, a second through hole 42 is disposed on the second circuit board 40, the first through hole 334 and the second through hole 42 are disposed opposite to each other, and the first through hole 334 and the second through hole 42 are disposed on one side of the pin 361 and electrically connected to the first electrical connection socket 41. Specifically, the first electrical connector 41 may be a contact point for electrical connection, the contact point is electrically connected to a circuit on the second circuit board 40, and the contact point may be connected to the pin 361, so that the current on the second circuit board 40 may be transmitted to the pin 361 connected to the contact point, and then the current may be transmitted to the heat generating member 36 through the pin 361, so as to maintain the normal operation of the heat generating member 36, thereby improving the reliability of the heat generating member 36.

Further, as shown in fig. 5, the first electrical connection socket 41 is disposed on a side of the second circuit board 40 away from the human body, so that the temperature of the heat generating member 36 is prevented from being high, and the first electrical connection socket 41 is directly contacted with the heat generating member 36 to damage the first electrical connection socket 41, thereby ensuring the structural reliability of the first electrical connection socket 41.

Further, as shown in fig. 4 and 5, by forming the first through hole 334 on the mounting plate 33, forming the second through hole 42 on the second circuit board 40, and making the pin 361 directly pass through the first through hole 334 and the second through hole 42 and then electrically connect with the first electrical connection socket 41, not only the arrangement length of the pin 361 can be reduced, and the structural stability of the pin 361 can be improved, but also the pin 361 can be prevented from being wound around the edge of the mounting plate 33 and the second circuit board 40 to the side of the second circuit board 40 away from the human body and being connected with the first electrical connection socket 41, which causes the friction and scratch of the pin 361, the edge of the mounting plate 33 and the second circuit board 40, and the side wall of the connector 20, and damages of the structure of the pin 361 are caused, so that the structural reliability of the pin 361 can be improved. In addition, compared with the method that the pin 361 is wound to the side, away from the human body, of the second circuit board 40 from the edges of the mounting plate 33 and the second circuit board 40 and is connected with the first electric connecting seat 41, the occupied space of the pin 361 can be reduced, and therefore the size of the connecting head can be reduced.

As shown in fig. 2 to 4, the connecting head 20 is provided with a buffer sleeve 24 for contacting and matching with the body 60. Specifically, because the vibration massage part 10 needs to do reciprocating motion under the drive of the driving component 62 in the machine body 60, the buffer sleeve 24 is arranged on the connecting head 20, so that the friction between the vibration massage part 10 and the machine body 60 when doing reciprocating motion can be reduced, and the buffer sleeve 24 can play a buffering role in the reciprocating motion of the vibration massage part 10, so that the reciprocating motion of the vibration massage part 10 is more stable and smooth, and the massage experience of a user can be improved. In addition, the buffer sleeve 24 can also improve the sealing performance between the vibration massage part 10 and the machine body 60, and can prevent external foreign matters from entering the interior of the machine body 60 from the joint of the vibration massage part 10 and the machine body 60 to damage corresponding parts in the interior of the machine body 60, wherein the buffer sleeve 24 can be one of a rubber buffer sleeve, a silica gel buffer sleeve and a latex buffer sleeve.

As shown in fig. 3 and 4, the fascial gun 100 may further include: first wire 23, first binding post 231, second binding post 631 and second wire 632, the one end and the second circuit board 40 electricity of first wire 23 are connected to the other end is provided with first binding post 231, first binding post 231 sets up in the one side that the connector 20 deviates from the electrode massage piece 30. Specifically, the other end of the first wire 23 may receive power from the first connection terminal 231 and may transmit the power to the second circuit board 40, so that the second circuit board 40 stably and continuously maintains the normal operation of the therapeutic lamp 50 and the electrode massage member 30, which may improve the structural reliability of the fascial gun 100.

Further, a second terminal 631 is disposed on the driving element 62, a second wire 632 is connected between the second terminal 631 and the first circuit board 80, and the second wire 632 has a moving margin. Specifically, the second wire 632 is disposed between the second connection terminal 631 and the first circuit board 80, so that the first circuit board 80 can stably and continuously control the normal operation of the driving assembly 62, wherein the second wire 632 is disposed with a movement margin, that is, the actual length of the second wire 632 is greater than the distance between the second connection terminal 631 and the first circuit board 80, and such an arrangement can not only prevent the second wire 632 from obstructing the normal operation of the driving assembly 62, but also can make the second wire 632 stably connected with the second connection terminal 631 and the first circuit board 80 all the time.

As shown in connection with fig. 9, 10 and 15, the driving assembly 62 may mainly include: the vibration massage part comprises a driving motor, a transmission part and an execution part 70, wherein the transmission part is arranged between the driving motor and the execution part 70, the vibration massage part 10 is arranged on the execution part 70, the driving motor is electrically connected with a first circuit board 80, when the first circuit board 80 controls the driving motor to work, the driving motor drives the execution part 70 and the vibration massage part 10 to reciprocate through the transmission part, and a second wiring terminal 631 is arranged on the execution part 70. In particular, the actuator 70 may be interconnected with the transmission member at one end, with the vibratory massage member 10 at the other end, because the transmission member is electrically connected with the driving motor, the driving motor is electrically connected with the first circuit board 80, therefore, the first circuit board 80 can control the driving motor to normally work, when the driving motor normally works, the driving force is transmitted to the actuating member 70 through the transmission member, the actuating member 70 performs the axial linear reciprocating motion, the actuator 70 will drive the vibrating massage element 10 to reciprocate linearly in the axial direction, so that the actuator 70 as an output end can output the power of the driving assembly 62 to the vibrating massage element 10, so as to realize the massage of the fascia gun 100 to the human body, the arrangement, the transmission principle and the structure are relatively simple, not only can simplify the structural design of the fascia gun 100, but also can improve the structural reliability of the normal work of the fascia gun 100.

Further, as shown in fig. 9, 10 and 15, the fascial gun further comprises: third circuit board 63, executive 70 have seted up first mounting groove 71 and fourth perforation 72, and connector 20 sets up in first mounting groove 71, and third circuit board 63 sets up on executive 70 to be located the outside of first mounting groove 71, second binding post 631 stretches into in first mounting groove 71 through fourth perforation 72 and is connected with first binding post 231 is electric. Specifically, one side of the actuator 70 close to the connection head 20 is opened, and the connection head 20 can be installed in the first installation groove 71 through the opened side of the actuator 70, the third circuit board 63 is installed on the actuator 70, and the third circuit board 63 is located outside the first installation groove 71, one side of the third circuit board 63 close to the first installation groove 71 is provided with the second connection terminal 631, and the second connection terminal 631 can extend into the first installation groove 71 through the fourth through hole 72 and is electrically connected with the first connection terminal 231, so that the structure distribution in the fascia gun 100 can be reasonable, and the structure of the fascia gun 100 can be more compact under the condition that the first connection terminal 231 and the second connection terminal 631 are stably and electrically connected, and the fascia gun 100 can normally and stably work, so that the volume of the fascia gun 100 can be reduced.

In addition, as shown in fig. 10 and 11, in the process of reciprocating the actuator 70, since the third circuit board 63 is mounted on the actuator 70, the third circuit board 63 will also move along with the reciprocating movement of the actuator 70, and thus the actuator 70 can drive the first connection terminal 231 in the connector 20 and the second connection terminal 631 on the third circuit board 63 to move together, so that it can be ensured that the first connection terminal 231 and the second connection terminal 631 do not move relatively, the connection stability of the first connection terminal 231 and the second connection terminal 631 can be ensured, and the structural reliability of the fascia gun 100 can be further improved.

As shown in fig. 15, the actuator 70 is provided with a fifth through hole 73, the third circuit board 63 is connected to a second lead 632, and the second lead 632 passes through the fifth through hole 73. Specifically, the second lead 632 may extend from the fifth perforation 73 and be connected to the corresponding component, so as to energize the third circuit board 63, and the fifth perforation 73 is disposed at a position perpendicular to the fourth perforation 72, so that the structure of the fascial gun 100 may be more compact, and the size of the fascial gun 100 may be further reduced. In addition, the fifth through hole 73 can also limit and guide the arrangement of the second lead 632, so that the arrangement of the second lead 632 can be more stable and firm.

As shown in fig. 12, the second connection terminal 631 may mainly include: the base 6311 is electrically connected to the third circuit board 63, the thimble 6313 is telescopically disposed in the base 6311, and the elastic member 6312 is disposed in the base 6311 for providing an elastic pushing force to the thimble 6313. Specifically, after the connector 20 is installed in the first installation groove 71, the first connection terminal 231 on the first wire 23 may apply a pressing force to the thimble 6313, so as to contract the elastic member 6312, one end of the elastic member 6312 is connected to the thimble 6313, and the other end of the elastic member is in contact with the third circuit board 63, such that the electrical connection between the first connection terminal 231 and the second connection terminal 631 is relatively close and reliable, correspondingly, when the connector 20 is disassembled, and the connector 20 is separated from the body 60, the elastic member 6312 may provide an elastic pushing force to the thimble 6313, so as to enable the thimble 6313 to push the first connection terminal 231, and further, the connector 20 may be disassembled more conveniently and quickly.

As shown in fig. 3 and 4, the connecting head 20 may further mainly include: a rod part 21 and a head part 22, wherein the head part 22 is connected with one side of the rod part 21 facing the electrode massage part 30, and the edge of the first electrode 31 is fixedly connected with the head part 22. Specifically, the rod part 21 is connected and matched with the machine body 60, the head part 22 is connected to one side of the rod part 21 facing the electrode massage part 30, and the size of the head part 22 is larger than that of the rod part 21, so that the size of the first electrode 31 connected with the head part 22 can be larger, the massage area of the electrode massage part 30 on a human body can be increased, the massage effect of the electrode massage part 30 can be improved, the head part 22 can be prevented from entering the machine body 60, the fault of the fascia gun 100 is avoided, and the reliability of the fascia gun 100 can be improved.

Referring to fig. 3 and 4, a third protruding limiting portion 25 is disposed on the connecting head 20, a third through hole 241 is disposed on the cushion sleeve 24, and the third limiting portion 25 penetrates the third through hole 241. Specifically, the third limiting portion 25 penetrates through the third through hole 241, so that the third limiting portion 25 can limit the movement of the cushion collar 24, and thus the cushion collar 24 can be prevented from moving in the reciprocating process, and the cushion collar 24 cannot normally buffer the vibration massage member 10, so that the reliability of the cushion collar 24 and the vibration massage member 10 can be improved.

As shown in fig. 1 and 9, the fascial gun 100 may further include: the vibrating massage device comprises a body 60 and a handle 615, wherein one end of the handle 615 is connected to the body 60, one end of the body 60 is provided with a through hole, a driving component 62 and a first circuit board 80 are arranged on the body 60, and the vibrating massage element 10 is at least partially positioned in the through hole so as to be in transmission connection with the driving component 62. Specifically, by connecting one end of the handle 615 to the main body 60, the vibrating massage element 10 is partially disposed at the through hole of the main body 60, so that the user can massage himself by holding the handle 615, thereby improving the user experience of the fascial gun 100. In addition, the driving assembly 62 and the first circuit board 80 are disposed on the body 60, so that the body 60 can protect the driving assembly 62 and the first circuit board 80, and the service life of the driving assembly 62 and the first circuit board 80 can be prolonged.

After the connector 20 is connected to and disposed on the body 60, the third limiting portion 25 can limit the position of the corresponding component on the body 60, so that the third limiting portion 25 can limit the relative rotation between the connector 20 and the body 60, and the reliability of the fascial gun 100 can be improved.

Further, the electrode massage member 30 is disposed on the body 60 at the other end of the body 60 opposite to the through hole, and/or the electrode massage member 30 is disposed on the handle 615 at the other end of the handle 615 opposite to the body 60. Specifically, the electrode massage part 30 can be selectively disposed at the two positions according to the structural layout of the fascial gun 100 and the specific process requirements, so that not only the applicability of the electrode massage part 30 can be improved, but also different choices can be provided for people with different habits, and the use experience of the user on the fascial gun 100 can be further improved.

As shown in fig. 13 and 15, the actuator 70 is provided with a fourth limiting portion 74 for circumferentially limiting the connection head 20. Specifically, the third limiting portion 25 on the connecting head 20 is in limiting fit with the fourth limiting portion 74 on the actuating element 70, so that the mounting arrangement of the connecting head 20 on the actuating element 70 can be completed, the rotation of the connecting head 20 relative to the actuating element 70 can be limited by the limiting fit of the third limiting portion 25 and the fourth limiting portion 74, and the mounting arrangement stability of the connecting head 20 can be improved. In addition, the third limiting part 25 can be a limiting block, the fourth limiting part 74 can be a limiting groove, and the limiting block and the limiting groove are in limiting fit to achieve a guiding effect on installation of the connector 20, namely, the limiting block directly stretches into the limiting groove, so that installation of the connector 20 and the executive part 70 can be completed, certain fool-proof effect is achieved, and production and manufacturing of the fascia gun 100 can be facilitated.

As shown in fig. 10 and 12, a first connection terminal 231 is disposed on a side of the connection head 20 facing away from the massage component, and the body 60 may mainly include: the connector comprises a shell 61, a driving assembly 62 and a third circuit board 63, wherein the driving assembly 62 and the third circuit board 63 are arranged in the shell 61, and the driving assembly 62 is in transmission connection with the connector 20. Specifically, the driving assembly 62 is in transmission connection with the connecting head 20, and the driving assembly 62 can drive the connecting head 20 to perform reciprocating linear motion, so that the whole body of the vibrating massage part 10 can perform reciprocating linear motion to perform reciprocating physical impact on human muscles, and thus the reciprocating linear motion of the vibrating massage part 10 can be continuously and stably performed.

As shown in fig. 12, the third circuit board 63 is disposed on the output terminal of the driving assembly 62, and the third circuit board 63 is provided with a second connection terminal 631, and the second connection terminal 631 is electrically connected to the first connection terminal 231. Specifically, when the vibration massage part 10 is installed on the body 60, the first connection terminal 231 can be electrically connected to the second connection terminal 631, so as to supply power to the second circuit board 40, and further maintain the normal operation of the vibration massage part 10, when the vibration massage part 10 is detached and the vibration massage part 10 is separated from the body 60, the first connection terminal 231 and the second connection terminal 631 can be easily separated, the electrical connection between the first connection terminal 231 and the second connection terminal 631 will not affect the detachment of the vibration massage part 10, and thus the structural design of the fascial gun 100 can be optimized. In addition, when the vibrating massage part 10 is installed on the body 60 next time, the first connection terminal 231 and the second connection terminal 631 can be electrically connected with each other relatively easily, so that not only the versatility of the vibrating massage part 10 can be improved, but also the structural design of the fascial gun 100 can be further optimized.

As shown in fig. 1, 9, and 11, the fascial gun 100 can also mainly include: a second lead 632 (shown in fig. 11) and a first circuit board 80, the first circuit board 80 is disposed on a side of the housing 61 away from the vibrating massage element 10, the second lead 632 is connected between the third circuit board 63 and the first circuit board 80, and the first circuit board 80 is further electrically connected to the driving assembly 62. Specifically, the second wire 632 connected between the third circuit board 63 and the first circuit board 80 can guide the current on the first circuit board 80 to the third circuit board 63, so as to maintain the normal operation of the fascial gun 100, and the first circuit board 80 is disposed on the side of the casing 61 away from the vibration massage member 10, so that the fascial gun 100 has a reasonable structure distribution and uniform mass distribution, and further, the first circuit board 80 can be electrically connected to the driving assembly 62, and the first circuit board 80 can provide power to the driving assembly 62, so that the driving assembly 62 can continuously and stably drive the reciprocating motion of the vibration massage member 10, and the reliability of the fascial gun 100 can be further improved.

Referring to fig. 13, a wiring groove 613 is formed in the housing 61, and the second lead 632 is disposed in the wiring groove 613. Specifically, the second wire 632 connecting the third circuit board 63 and the first circuit board 80 is installed in the wire trough 613, the wire trough 613 can limit the movement of the second wire 632, prevent the second wire 632 from moving in the working process of the fascial gun 100 and affecting the installation and setting of other components, and the wire trough 613 can guide the installation and setting of the second wire 632, so that the reliability of the fascial gun 100 can be further improved. In addition, the second lead 632 is disposed in the cabling slot 613, so that the second lead 632 can be prevented from rubbing or scraping against other components, and the wear of the second lead 632 is accelerated, which can prolong the service life of the second lead 632.

As shown in fig. 1, 11, 13, 15, and 19, the housing 61 may mainly include: the first shell 611 and the second shell 612 are arranged oppositely, the first shell 611 is provided with a first rib 6111, a wiring groove 613 which is open towards the second shell 612 is formed between the first shell 611 and the second shell 612, and the second shell 612 is provided with a second rib 6121 which is used for stopping the opening of the wiring groove 613. Specifically, one side of the wire trough 613 facing the second housing 612 is open, after the second wire 632 is installed in the wire trough 613, the second housing 612 and the first housing 611 are connected and fixed relatively, and the second rib 6121 on the second housing 612 can be stopped at the open side of the wire trough 613, so that the movement of the second wire 632 in each direction can be limited, the second wire 632 can be stably installed in the wire trough 613, and the stability of the second wire 632 can be further improved.

Referring to fig. 16 and 17, a fascia switch 81, an infrared hot compress switch 82 and an electrical stimulation switch 83 are disposed on a side of the first circuit board 80 away from the vibrating massage part 10, and a fascia button 64, an infrared hot compress button 65 and an electrical stimulation button 66 are correspondingly disposed on a side of the housing 61 away from the vibrating massage part 10. Specifically, the fascia key 64, the infrared hot compress key 65 and the electrical stimulation key 66 which are correspondingly arranged on one side of the shell 61 departing from the vibration massage piece 10 are respectively in one-to-one correspondence with the fascia switch 81, the infrared hot compress switch 82 and the electrical stimulation switch 83 which are correspondingly arranged on one side of the first circuit board 80 departing from the vibration massage piece 10, and the fascia key 64, the infrared hot compress key 65 and the electrical stimulation key 66 can respectively control the fascia switch 81, the infrared hot compress switch 82 and the electrical stimulation switch 83 to be turned on or turned off.

Further, as shown in fig. 16 and 17, when the user presses the fascia button 64 for a long time, the fascia switch 81 can be controlled to turn on the fascia massage mode, at this time, the fascia gun 100 can control the driving assembly 62 to drive the vibration massage member 10 to make reciprocating linear motion, the reciprocating linear motion of the vibration massage member 10 can physically impact the muscles of the human body, so that the muscles of the user can be relaxed, the fascia massage mode has five gears, the five gears have different massage degrees on the muscles of the human body and sequentially increase the massage degrees, so that the user can adjust the gears of the fascia massage mode according to the specific requirements under different conditions, by pressing the fascia button 64 once again, one gear can be raised, after the massage mode is adjusted to the maximum gear, by pressing the fascia button 64 once again, the fascia massage mode can be turned off, by pressing the fascia button 64 once again within 10 seconds of turning off the fascia massage mode, the fascia massage mode can be turned on again, and after the fascia massage mode is turned off for 10 seconds, if the fascia massage mode is turned on, the fascia button 64 needs to be pressed again, so that the switch design of the fascia gun 100 is more reasonable, the fascia massage mode can be turned on again quickly and easily when the fascia massage mode is turned off due to accidental touch of a user, and the use experience of the user can be further improved.

Further, combine fig. 16 and fig. 17 to show, press infrared hot compress button 65 to control infrared hot compress switch 82 and open infrared hot compress massage mode when the user, piece 36 and the work of can circular telegram simultaneously of generating heat, massage the human body, infrared hot compress massage mode has the heating low grade, the heating medium grade and the high-grade three gear of heating, the heat that piece 36 that generates heat under the three gear sent and the light that physiotherapy lamp 50 sent all are different, and increase gradually in proper order, can adjust the gear of infrared hot compress massage mode according to the different demands of user under the different situation like this, thereby promote user's use and experience.

As shown in fig. 16 and 17, the first circuit board 80 is further provided with a fascia indicator 85, an infrared hot compress indicator 86 and an electrical stimulation indicator 87, and the fascia indicator 85, the infrared hot compress indicator 86 and the electrical stimulation indicator 87 are respectively in one-to-one correspondence with the fascia button 64, the infrared hot compress button 65 and the electrical stimulation button 66. Specifically, when the user presses the manadesma button 64, when opening manadesma massage mode, manadesma pilot lamp 85 lights, press infrared hot compress button 65 when the user, when opening infrared hot compress massage mode, infrared hot compress pilot lamp 86 lights, press electric stimulation button 66 when the user, when opening electric stimulation massage mode, electric stimulation pilot lamp 87 lights, the user can light the condition through observing the pilot lamp, judge whether the operation is successful, and manadesma rifle 100 is in what kind of massage mode, so not only can convenience of customers's operation, and can make the user know the massage mode of manadesma rifle 100 more directly perceivedly, thereby make the user switch manadesma rifle 100 to required massage mode according to the in service behavior of difference, can promote user's use and experience.

Further, as shown in fig. 16 and 17, the first circuit board 80 is provided with a plurality of shift indicator lamps 88, that is, the first circuit board 80 is further provided with a plurality of shift indicator lamps 88, so that a user can more intuitively and specifically know which shift of the fascial massage mode is, and the user can more accurately adjust the fascial gun 100 to a working state required by the user, so that the fascial gun 100 can achieve a relatively optimal massage effect on the user, and the use experience of the user can be further improved.

As shown in fig. 16 and 17, the first circuit board 80 is further provided with an electrical stimulation shift switch 84, the position of the body 60 corresponding to the electrical stimulation shift switch 84 is provided with an electrical stimulation shift key 67, the electrical stimulation shift switch 84 can be controlled by pressing the electrical stimulation shift key 67, and the electrical stimulation shift in the electrical stimulation massage mode can be increased or decreased, so that the electrical stimulation massage mode can meet the use requirements of the user under different conditions.

As shown in fig. 1, 10, and 11, the housing 61 includes: the body 614 and the handle 615, the driving assembly 62 and the first circuit board 80 are all arranged in the body 614; fascia gun 100 further includes: the battery 68 and the fourth circuit board 69, the battery 68 and the fourth circuit board 69 are disposed in the handle 615, and specifically, the body 614 and the handle 615 may be disposed perpendicular to each other, so that the structural arrangement of the fascial gun 100 may be more reasonable, and the fascial gun 100 may be prevented from being excessively long in a certain direction, which may cause the structure of the fascial gun 100 to be not compact, resulting in a large space occupied by the fascial gun 100, in addition, when the user uses the fascial gun 100 to massage the muscle of the user, the user may hold the handle 615 to operate, and the body 614 and the handle 615 may be disposed perpendicular to each other, which may further facilitate the operation of the user, thereby further improving the user experience.

Further, as shown in fig. 1, 10 and 11, by disposing both the driving assembly 62 and the first circuit board 80 in the body 614 and disposing the battery 68 and the fourth circuit board 69 in the handle 615, the available space in the fascial gun 100 can be utilized, which not only can make the structure distribution in the fascial gun 100 reasonable, but also can make the mass distribution in the fascial gun 100 uniform.

Further, as shown in fig. 9, the fourth circuit board 69 is located at the bottom of the battery 68, and the fourth circuit board 69 is electrically connected to the first circuit board 80. Specifically, the fourth circuit board 69 is electrically connected to the battery 68, the battery 68 can continuously and stably input a current to the fourth circuit board 69, the fourth circuit board 69 is electrically connected to the first circuit board 80, the fourth circuit board 69 can be made to continuously and stably input the current to the first circuit board 80, the second wire 632 can transmit the current on the first circuit board 80 to the third circuit board 63, by the electrical connection of the second connection terminal 631 on the third circuit board 63 to the first connection terminal 231 at one end of the first wire 23, it is possible to input a current to the first wire 23, and finally to input a current from the first wire 23 to the second circuit board 40, so that the second circuit board 40 supplies power to the infrared physiotherapy lamp 50 and the graphene heating element 36, this allows the entire current to be transmitted through fascial gun 100, which allows fascial gun 100 to operate properly and stably.

As shown in fig. 18, a side of the fourth circuit board 69 facing the end of the handle 615 is provided with a charging port 691, a main switch 692, and a charge indicator lamp 693. Specifically, the total switch 692 may control the opening and closing of the fascia gun 100, and before the user adjusts the massage mode of the fascia gun 100, the user needs to first press the total switch 692 to open the fascia gun 100 for subsequent adjustment, and when the user does not use the fascia gun 100, the user may close the fascia gun 100 by pressing the total switch 692, thereby preventing the user from mistakenly touching the adjustment switch of the massage mode of the fascia gun 100, resulting in the massage mode corresponding to the opening of the fascia gun 100, resulting in the waste of the power of the fascia gun 100, and thus improving the reliability of the fascia gun 100.

Further, as shown in fig. 18, a power indicator 693 on the side of the fourth circuit board 69 facing the end of the handle 615 can indicate the remaining power of the fascial gun 100, and when the fascial gun 100 needs to be charged, the user can charge the battery 68 through a charging port 691 on the side of the fourth circuit board 69 facing the end of the handle 615, so that the use of the user can be further facilitated, and the use experience of the user can be further improved.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the utility model.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example.

While embodiments of the utility model have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the utility model, the scope of which is defined by the claims and their equivalents.

Claims (24)

1. A fascial gun, comprising:

vibrating the massage member;

the driving component is in transmission connection with the vibrating massage piece, and when the driving component works, the vibrating massage piece is driven by the driving component to reciprocate;

an electrode massage member; and

the first circuit board is electrically connected with the electrode massage part, the electrode massage part outputs pulse current after the first circuit board is electrified, the first circuit board is also electrically connected with the driving assembly, the first circuit board controls the driving assembly to work with one of the electrode massage part and the other electrode massage part to stop working, and therefore the vibration massage part and the electrode massage part work in an asynchronous mode.

2. The fascia gun as claimed in claim 1, wherein the electrode massage part is provided to the vibration massage part, the electrode massage part moves synchronously when the vibration massage part reciprocates, and a conductive member is connected between the electrode massage part and the first circuit board, the conductive member having a movement margin to allow the electrode massage part to move relative to the first circuit board.

3. The fascial gun of claim 2, wherein the electrode massage part is arranged on one side of the vibration massage part facing the human body, and the surface of one side of the electrode massage part facing the human body is an electrode massage surface and is also a vibration massage surface of the vibration massage part.

4. The fascial gun of claim 2, wherein the vibrating massage member comprises: the connector is in transmission connection with the driving assembly, and one side, facing the human body, of the connector is opened;

electrode massage spare set up in the open one side of connector, electrode massage spare includes: the first electrode and the second electrode are arranged on the mounting plate and are arranged at intervals on the mounting plate, the mounting plate is an insulating plate, and the first electrode and the second electrode are electrically connected with the first circuit board.

5. The fascia gun according to claim 4, wherein the mounting plate is provided with an insulating spacer protruding toward the human body, the first electrode is provided at an outer periphery of the insulating spacer, and the second electrode is provided at an inner periphery of the insulating spacer so as to be insulated from the first electrode by the insulating spacer.

6. The fascia gun as claimed in claim 4, wherein the first electrode and the second electrode are flush with the surface facing the human body and constitute at least a part of the electrode massage face, and the surface facing the human body of the first electrode and the second electrode protrudes from the surface facing the human body of the insulating spacer to form a height difference in the protruding direction with the insulating spacer.

7. The fascial gun of claim 4, wherein the first electrode comprises: the edge of the mounting plate is arranged on the step part, and the second part is fixedly connected with the end part of the connector.

8. The fascia gun as claimed in claim 7, wherein the second part is provided with a convex ring protruding towards the direction away from the human body, the end of the connector is provided with a groove, and the convex ring is fitted in the groove to align and fit when the electrode massage piece and the connector are installed; and/or

The second part is connected with the end part of the connector in an adhesion mode, so that the electrode massage piece is fixed on the connector in an adhesion mode.

9. The fascial gun of claim 4, wherein the electrode massage further comprises: the second circuit board is arranged on one side surface, away from the human body, of the mounting plate so as to be isolated from the first electrode and the second electrode, the first electrode and the second electrode are electrically connected with the second circuit board, and the second circuit board is electrically connected with the first circuit board through the conductive pieces.

10. The fascial gun of claim 9, wherein the electrode massage further comprises: first electric connector and second electric connector, first electric connector in order to wear to establish the second circuit board with the mode of mounting panel respectively with the second circuit board with first electrode electricity is connected, and the second electric connector in order to wear to establish the second circuit board with the mode of mounting panel respectively with the second circuit board with the second electrode electricity is connected.

11. The fascia gun as claimed in claim 10, wherein the second circuit board is provided with a first pad corresponding to the first electrical connector and a second pad corresponding to the second electrical connector, the first electrode is provided with a first mounting post engaged with the first electrical connector, the second electrode is provided with a second mounting post engaged with the second electrical connector, and the second electrical connector and the first electrical connector are both screws.

12. The fascia gun as claimed in claim 11, wherein a first position-limiting portion is disposed on a side of the mounting plate close to the second circuit board, a second position-limiting portion is disposed on a side of the second circuit board close to the mounting plate, one of the first position-limiting portion and the second position-limiting portion is a position-limiting post, and the other one of the first position-limiting portion and the second position-limiting portion is a position-limiting hole, and the position-limiting post and the position-limiting hole are in position-limiting engagement.

13. The fascia gun of claim 9, further comprising: the physiotherapy lamp is arranged on the second circuit board, is electrically connected with the second circuit board, and is turned on and emits light rays for physiotherapy towards a human body when the second circuit board controls the physiotherapy lamp to work;

the mounting plate is a light-transmitting plate and is used for transmitting light rays of the physiotherapy lamp; or

The mounting panel is provided with the light trap to the transmission the light of physiotherapy lamp.

14. The fascia gun as claimed in claim 13, wherein the mounting plate is provided with a light-transmitting region between the first electrode and the second electrode, the plurality of physiotherapy lamps are distributed in the region of the second circuit board corresponding to the light-transmitting region, and the plurality of physiotherapy lamps are arranged at intervals in the region corresponding to the light-transmitting region to form a light ring.

15. The fascia gun according to claim 13, wherein the mounting plate is provided with a receiving groove at one side thereof facing the second circuit board, one side of the receiving groove is open to the physiotherapy lamp, the physiotherapy lamp is disposed in the receiving groove, and the other side of the receiving groove is in contact with the physiotherapy lamp; or

A gap is reserved between the other side of the containing groove and the physiotherapy lamp for heat dissipation.

16. The fascial gun of claim 4, wherein the electrode massage further comprises: the heating piece is arranged between the second electrode and the mounting plate, the second electrode is a heat conducting piece, the heating piece is electrically connected with the first circuit board, and when the first circuit board controls the heating piece to work, the heating piece generates heat and the generated heat is transferred to the human body through the second electrode.

17. The fascial gun of claim 16, wherein the electrode massage further comprises: the second circuit board, the second circuit board set up in the mounting panel deviates from one side of human body, the first electrode the second electrode with the piece that generates heat all with the second circuit board electricity is connected.

18. The fascia gun as claimed in claim 17, wherein a first electrical connection socket is provided on a side of the second circuit board facing away from the human body, a pin is provided on the heat generating element extending towards a side of the second circuit board, a first through hole is provided on the mounting plate, a second through hole is provided on the second circuit board, the first through hole and the second through hole are disposed opposite to each other, and one side of the pin penetrates through the first through hole and the second through hole and is electrically connected to the first electrical connection socket.

19. The fascia gun as claimed in claim 4, wherein the connection head is provided with a buffer sleeve for contacting and matching with the body, the connection head is provided with a third protruding position-limiting part, the buffer sleeve is provided with a third through hole, and the third position-limiting part penetrates through the third through hole.

20. The fascia gun of claim 4, wherein the conductive member further comprises: first wire, first binding post, second binding post and second wire, the one end of first wire with electrode massage piece electricity is connected and the other end is provided with first binding post, first binding post set up in the connector deviates from one side of electrode massage piece, second binding post set up in drive assembly, the second wire connect in second binding post with between the first circuit board, the second wire has the activity surplus.

21. The fascial gun of claim 20, wherein the drive assembly comprises: driving motor, driving medium and executive component, the driving medium set up in driving motor with between the executive component, the vibration massage piece set up in the executive component, driving motor with first circuit board electricity is connected first circuit board control driving motor during operation, driving motor passes through the driving medium drive the executive component with vibration massage piece reciprocating motion, second binding post set up in the executive component.

22. The fascia gun of claim 21, wherein the fascia gun further comprises: the third circuit board, the executive component has seted up first mounting groove and fourth and has perforated, the connector set up in first mounting groove, the third circuit board set up in the executive component is last and be located the outside of first mounting groove, second binding post passes through the fourth is perforated to stretch into in the first mounting groove with first binding post electricity is connected.

23. The fascia gun of claim 22, wherein the second wire connection terminal comprises: the base is electrically connected with the third circuit board, the ejector pin is telescopically arranged in the base, and the elastic piece is arranged in the base to provide elastic thrust for the ejector pin.

24. The fascia gun of claim 1, further comprising: the vibration massage device comprises a machine body and a handle, wherein one end of the handle is connected to the machine body, a through hole is formed in one end of the machine body, the driving assembly and the first circuit board are arranged on the machine body, and the vibration massage piece is at least partially positioned in the through hole and is in transmission connection with the driving assembly;

the electrode massage piece is arranged on the machine body and is positioned at the other end of the machine body opposite to the through hole; and/or

The electrode massage piece is arranged on the handle and is positioned at the other end of the handle, which deviates from the machine body.

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