CN212854370U - Ultrasonic and medium-low frequency composite treatment equipment - Google Patents

Abstract

An ultrasonic and medium-low frequency composite treatment device comprises a host and a composite treatment head which generates ultrasonic waves and medium-low frequency during working, wherein the composite treatment head is external and is provided with a connecting wire and is electrically connected with the host through the connecting wire, or the composite treatment head is built-in and is integrally arranged on the host and is electrically connected with the host, or a power supply module is built in the composite treatment head and is wirelessly connected with the host or an intelligent APP, so that the ultrasonic treatment function and the medium-low frequency treatment function of the treatment device are realized. The utility model discloses be in the same place and constitute compound treatment head with ultrasonic wave function and well low frequency function combination, link together control, or directly adopt built-in mode and host computer to link together to control, or adopt wireless connection to control this compound treatment head through connecting wire and host computer again to realize that a treatment facility can realize ultrasonic treatment function and well low frequency treatment function, improve user experience.

Description

Ultrasonic and medium-low frequency composite treatment equipment

Technical Field

The utility model relates to an ultrasonic and medium and low frequency composite treatment device.

Background

The existing low-frequency physiotherapy instrument generally comprises a control host and an adhesive electrode pad attached to the skin, wherein the host and the electrode pad are connected by a lead, and when the physiotherapy instrument is used, the electrode pad is attached to a muscle pain part and is transmitted to the pain part by outputting pulses through the host, so that the aim of relieving the muscle pain is fulfilled; because the middle-low frequency physiotherapy instrument can not produce obvious physiotherapy effect on the pain in the deep layer of the muscle, the physiotherapy instrument has certain limitation on the physiotherapy effect. On the other hand, the Ultrasonic waves (the Ultrasonic waves are expressed by ultrasonics) can penetrate deep into the muscles to achieve the effect of treating the deep muscles, and the effect is obvious; however, the current ultrasonic therapeutic apparatus on the market is often bulky, inconvenient to carry, and expensive due to the fact that the mains supply (such as 220V) supplies power, and cannot meet the demand of people on fast-paced life. Along with the improvement of consumption level, people are more and more emphasized to the theory of healthy life, if can practical novel a small in size, portable has the product of two kinds of physiotherapy functions of well low frequency and ultrasonic wave simultaneously concurrently and decides to receive consumer's favor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an ultrasonic wave and medium and low frequency composite treatment equipment that simple structure is reasonable, the performance is excellent, the dismouting is swift, convenient to use, safe and reliable, small in size and portable to overcome the weak point among the prior art.

The ultrasonic and medium-low frequency composite treatment equipment designed according to the purpose is characterized in that: comprises a host machine and a composite treatment head which generates ultrasonic waves and medium-low frequency waves during work; wherein,

the composite treatment head is external, is provided with a connecting wire and is electrically connected with the host machine through the connecting wire so as to realize the ultrasonic treatment function and the medium and low frequency treatment function of the treatment equipment.

Or the composite treatment head is integrally arranged on the host and is electrically connected with the host so as to realize the ultrasonic treatment function and the medium-low frequency treatment function of the treatment equipment.

Or the power supply module is arranged in the composite treatment head and is wirelessly connected with the host or the intelligent APP, so that the ultrasonic treatment function and the medium-low frequency treatment function of the treatment equipment are realized.

The composite treatment head at least comprises an ultrasonic ceramic wafer and a medium-low frequency output electrode; the ultrasonic ceramic chip and the medium-low frequency output electrode are respectively and electrically connected with the connecting wire, or the ultrasonic ceramic chip and the medium-low frequency output electrode are arranged on the host and are electrically connected with the host, or the ultrasonic ceramic chip and the medium-low frequency output electrode are electrically connected with a PCBA (printed circuit board assembly) arranged in the composite treatment head.

The composite treatment head is external and also comprises a face shell and a bottom shell; the face shell is fixedly connected with the bottom shell, and a cavity is formed between the face shell and the bottom shell; the ultrasonic ceramic plate is arranged in the cavity; the middle and low frequency output electrode is arranged on the surface shell.

One end of the connecting wire is electrically connected with the host, and the other end of the connecting wire extends into the cavity from the side part or the bottom part of the bottom shell and is respectively electrically connected with the ultrasonic ceramic chip and the medium-low frequency output electrode, or one end of the connecting wire is electrically connected with the host, and the other end of the connecting wire is electrically connected with the built-in PCBA board of the composite treatment head.

The medium and low frequency output electrode is made of a conductive material; the face shell is made of non-conductive materials.

The host is at least provided with a power supply module, an ultrasonic output control module, a medium and low frequency output control module, a key and a display and/or acousto-optic indication module.

The equipment also comprises a composite treatment head fixing device, wherein the fixing device comprises a fixing paste, a fixing piece and a fixing cover; wherein, the fixed part is detachably arranged on the fixed sticker and is provided with a fixed cavity, the two ends of the fixed cavity are respectively provided with a placing opening and a treatment opening, and the fixed cover is detachably arranged on the placing opening of the fixed cavity; the composite treatment head is fixedly placed in the fixed cavity through the placing opening.

An application method of ultrasonic and medium-low frequency composite treatment equipment is characterized in that: the ultrasonic medium and low frequency composite treatment equipment comprises the ultrasonic medium and low frequency composite treatment equipment, wherein the composite treatment head and/or the host can be disassembled on the fixing device and is matched with the fixing device to treat a treatment part in a movable or fixed mode; the host or APP can control one or more compound treatment heads to work; the composite treatment head can be used independently with an ultrasonic treatment function or a low-frequency treatment function during working, and can also be used in a composite way with the ultrasonic treatment function and the low-frequency treatment function.

The utility model combines the ultrasonic function and the middle and low frequency functions together to form a composite treatment head, and then the composite treatment head is connected with a host machine through a connecting wire to be controlled, or is directly connected with the host machine in a built-in mode to be controlled, or is controlled by wireless connection, thereby realizing that one treatment device can realize the ultrasonic treatment function and the middle and low frequency treatment function, and not only avoiding the single function of the middle and low frequency physiotherapy instrument and the ultrasonic treatment instrument in the prior art, large volume, inconvenient use for users, a series of problems such as high use cost and the like because the ultrasonic treatment function and the middle and low frequency treatment function are simultaneously integrated into the composite treatment head; moreover, the composite treatment head has no other components after being assembled, and does not need to be disassembled and assembled after leaving a factory, so that the size is small, and a user can conveniently carry and use the composite treatment head; and, because the compound treatment head is directly connected with the host computer through a connecting wire in an electric control way, or is directly arranged on the host computer in a built-in way, or can be controlled in a wireless way, so the user can use the compound treatment head and/or the host computer on the fixing device according to the requirement, and the compound treatment head and/or the host computer can be disassembled on the fixing device and mutually matched with the fixing device to treat the local position of the body in a moving or fixing way, meanwhile, the user can also use the ultrasonic treatment function or the medium-low frequency treatment function independently according to the actual use requirement during treatment, and also can use the ultrasonic treatment function and the medium-low frequency treatment function simultaneously, thereby greatly facilitating the use of.

In summary, the portable multifunctional electric water heater has the advantages of being simple and reasonable in structure, excellent in performance, fast in dismounting, convenient to use, safe, reliable, small in size, convenient to carry and the like, and is high in practicability.

Drawings

Fig. 1 is a schematic view of the assembly structure of the host, the connecting wire, the composite treatment head and the fixing device according to the first embodiment of the present invention.

Fig. 2 is a schematic view of the connecting line, the composite treatment head and the fixing device according to the first embodiment of the present invention.

Fig. 3 and fig. 4 are the exploded structural schematic diagrams of the connecting wire, the composite treatment head and the fixing device of the present invention.

Fig. 5 and 6 are schematic exploded views of the connecting wire and the composite treatment head according to the first embodiment of the present invention.

Fig. 7 and 8 are schematic views of the fixing device assembly structure according to the first embodiment of the present invention.

Fig. 9 is an exploded view of the fixing device according to the first embodiment of the present invention.

Fig. 10 and 11 are schematic structural diagrams of a host according to a first embodiment of the present invention.

Fig. 12 is a schematic view of the decomposition structure of the composite therapeutic head, the fixing device and the plaster according to the first embodiment of the present invention.

Fig. 13 is a schematic view of the combined therapy head, the fixing device and the plaster assembly structure according to the first embodiment of the present invention.

Fig. 14 is a schematic view of the connecting line and the combined treatment head assembly according to the second embodiment of the present invention.

Fig. 15 is an exploded view of the connecting wire and the composite treatment head according to the second embodiment of the present invention.

Fig. 16 and 17 are schematic views of the host and the composite treatment head according to the third embodiment of the present invention.

Fig. 18 is a schematic view of the connecting line and the combined treatment head assembly structure according to the fourth embodiment of the present invention.

Fig. 19 is a schematic sectional view of the connecting wire and the composite treatment head according to the fourth embodiment of the present invention.

Fig. 20 is a schematic view of the connecting line and the combined therapeutic head assembly structure according to the fifth embodiment of the present invention.

Fig. 21 is a schematic view of the connecting line and the combined treatment head according to the sixth embodiment of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

First embodiment

Referring to fig. 1-13, the ultrasonic medium and low frequency composite treatment device comprises a host 1 and a composite treatment head which generates ultrasonic waves and medium and low frequencies during working, wherein the composite treatment head is external and is provided with a connecting wire 2, and is electrically connected with the host 1 through the connecting wire 2 so as to realize the ultrasonic treatment function and the medium and low frequency treatment function of the treatment device.

Besides, the composite treatment head can also be internally provided with a power supply module, and is wirelessly connected with the host 1 or the intelligent APP, so that the ultrasonic treatment function and the medium-low frequency treatment function of the treatment equipment can be realized.

The composite treatment head at least comprises an ultrasonic ceramic sheet 3 and a middle and low frequency output electrode, wherein the middle and low frequency output electrode is provided with two, and the middle and low frequency output electrode is respectively a middle and low frequency electrode I4 and a middle and low frequency electrode II 5; the ultrasonic ceramic sheet 3, the first middle and low frequency electrode 4 and the second middle and low frequency electrode 5 are respectively electrically connected with the connecting wire 2.

The compound treatment head also comprises a face shell 7 and a bottom shell 8; the face casing 7 and the bottom casing 8 are fixedly connected, and a cavity is formed between the face casing 7 and the bottom casing 8, specifically, a fixing screw 9 is arranged between the face casing 7 and the bottom casing 8, and the face casing 7 and the bottom casing 8 are mutually fixed through the fixing screw 9.

The cavity is also internally provided with a PCBA (printed Circuit Board Assembly) board 6, and the PCBA board 6 is respectively and electrically connected with the ultrasonic ceramic piece 3 and the connecting wire 2. The PCBA board 6 may or may not be provided as required. The present embodiment is preferably provided with a PCBA board 6.

Specifically, as shown in fig. 5 and 6, one end of the connection line 2 is electrically connected to the host 1, and the other end thereof extends into the cavity from the side of the bottom case 8. The ultrasonic ceramic piece 3 is connected to the PCBA board 6 through two electric leads, four electric leads are separated from the end part of the connecting wire 2 extending into the cavity, two of the four electric leads are connected to the medium-low frequency electrode I4 and the medium-low frequency electrode II 5, and the other two electric leads are connected to the PCBA board 6, so that the electric connection among the ultrasonic ceramic piece 3, the medium-low frequency electrode I4, the medium-low frequency electrode II 5, the PCBA board 6 and the host 1 is achieved.

The medium-low frequency electrode I4 and the medium-low frequency electrode II 5 are made of conductive materials respectively; the face shell 7 and the bottom shell 8 are made of non-conductive materials.

Specifically, the shape of the face case 7 and the bottom case 8 is the same, and is circular, or elliptical, or polygonal, or a combination thereof, and the face case 7 and the bottom case 8 of the present embodiment are preferably circular; the shapes of the medium-low frequency electrode I4 and the medium-low frequency electrode II 5 are the same or different, and the shapes of the medium-low frequency electrode I4 and the medium-low frequency electrode II 5 can be circular, oval, polygonal or combined shapes of the medium-low frequency electrode I4 and the medium-low frequency electrode II 5, the medium-low frequency electrode I4 and the medium-low frequency electrode II 5 are preferably half-moon-shaped and are respectively fixedly arranged on the left side and the right side of the surface of the face shell 7, meanwhile, a plurality of positioning through holes are further formed in the face shell 7, the positioning through holes can be used for fixing the medium-low frequency electrode I4 and the medium-low frequency electrode II 5, and the parts of the medium-low frequency electrode I4 and the medium-low frequency electrode II 5.

The back of the face shell 7 is provided with a fixing groove, and the ultrasonic ceramic plate 3 can be fixedly arranged on the fixing groove after being electrically connected with the PCBA plate 6. Still be provided with mount 16 in the same time space intracavity, connecting wire 2 stretches into in the cavity through mount 16, can connecting wire 2's convenient assembling nature effectively, and this mount 16 can also prevent simultaneously that the user from dragging connecting wire 2 in the use, leads to the problem that connecting wire 2 pine takes off.

The surface of the face shell 7 is planar or non-planar with the height difference less than 10 MM. The left side and the right side of the surface of the face shell 7 of the present embodiment are respectively provided with a recess corresponding to the first low-frequency electrode 4 and the second low-frequency electrode 5, and the first low-frequency electrode 4 and the second low-frequency electrode 5 are fixedly arranged in the recesses, so that the surface of the face shell 7 of the present embodiment is planar after the first low-frequency electrode 4 and the second low-frequency electrode 5 are assembled.

As shown in fig. 10 and 11, the main unit 1 is at least provided with a power supply module, an ultrasonic output control module, a medium-low frequency output control module, a key, and a display and/or sound-light indication module. The power supply module is arranged in the host 1 and can provide working power for the host 1 and the composite treatment head, the keys are arranged on the front surface, the side surface and the like of the host 1, the ultrasonic output control module and the medium-low frequency output control module are respectively arranged in the host 1, and the display and/or acousto-optic indication module is arranged on the front surface of the host 1. When the ultrasonic wave display device is used, a user can enable the ultrasonic wave output control module and the medium-low frequency output control module to output the ultrasonic wave function and the medium-low frequency function respectively through the operation of the keys, and meanwhile, the working state of the ultrasonic wave output control module and the medium-low frequency output control module can be watched through the display and/or acousto-optic indication module, so that the ultrasonic wave display device is convenient to use for the. In order to facilitate carrying and using of a user, the back of the host 1 is also provided with a buckle.

The equipment also comprises a fixing device which is shown in figures 7-9 and comprises a fixing paste 10, a fixing piece 11, a fixing cover 12 and an elastic piece 13 top piece 14; wherein, the fixed plaster 10 is provided with a fixed plaster support 17, the fixed part 11 is provided with a fixed cavity 15, two ends of the fixed cavity 15 are respectively provided with a placing opening and a treatment opening, the treatment opening is detachably arranged on the fixed plaster support 17 of the fixed plaster 10 through a buckle, or a magnetic attraction, or a fastener, or a thread, the top part 14 is arranged on the fixed cover 12, the elastic part 13 is positioned between the top part 14 and the fixed cover 12, the top part 14 is movably arranged on the fixed cover 12 through the elastic part 13, the fixed cover 12 is detachably arranged on the placing opening of the fixed cavity 15, and the fixed cavity 15 is opened or closed during the dismounting or the assembling; the composite treatment head is placed in the fixed cavity 15 through the placing opening when the fixed cavity 15 is opened, and the composite treatment head is always elastically movable towards the treatment opening direction through the matching of the top piece 14 and the elastic piece 13 when the fixed cavity 15 is closed.

The size of the fixed pasting support 17 is smaller than that of the composite treatment head, so when the composite treatment head is placed in the fixed cavity 15, the top part 14 can be abutted against the bottom shell 8 of the composite treatment head through the elastic part 13, the composite treatment head can move elastically towards the treatment opening all the time, and simultaneously, as the surface of the face shell 7 is planar or non-planar with the height difference smaller than 10MM, at least parts of the first low-frequency electrode 4 and the second low-frequency electrode 5 on the face shell 7 can also extend out of the fixed pasting support 17, so that the contact between the composite treatment head and a human body is facilitated.

In order to prevent the fixed cover 12 from dropping, a drop-preventing line 18 is further provided between the fixed cover 12 and the fixed member 11; in order to improve the assembly stability of the fixing piece 11 and the fixing paste bracket 17, a fixing ring 19 is arranged between the fixing piece and the fixing paste bracket; in order to enhance the aesthetic appearance of the product, the fixing cover 12 is further provided with a fitting 20.

The application method of the ultrasonic and medium-low frequency composite treatment equipment is as follows, the composite treatment head and/or the host 1 can be disassembled on the fixing device and is matched with the fixing device to carry out treatment on the user in a movable or fixed mode. During treatment, the ultrasonic therapy function or the medium-low frequency therapy function can be used independently, and the ultrasonic therapy function or the medium-low frequency therapy function can be used in a combined way.

Specifically, because the composite treatment head is directly electrically connected with the main machine 1 through only one connecting wire 2, the connecting wire 2 can be a rotating wire, can be correspondingly elongated when in use and can automatically contract when not in use, so that the length of the composite treatment head can be elongated and shortened, and meanwhile, the connecting wire 2 can be detachably matched with the main machine 1 in an inserting way. When the compound treatment head is used, the compound treatment head can be treated in a handheld mode independently according to the use requirements of a user, and the compound treatment head can also be placed on a fixing device and is attached to the part of a human body needing treatment through the fixing paste 10 of the fixing device. Meanwhile, as shown in fig. 12 and 13, if the user needs to treat the part with plaster 20 or other medical fixing components, the fixing plaster 10 can be detached, the plaster 20 or other medical fixing components are provided with holes 21, the fixing pieces 11 with the fixing plaster 10 detached are placed in the holes 21, the composite treatment head is placed in the fixing cavity 15, and finally the fixing cover 12 is covered, so that different using states of the composite treatment head are realized.

Meanwhile, when a user is in treatment, the ultrasonic therapy function or the medium-low frequency therapy function can be independently used according to actual use requirements, and the ultrasonic therapy function or the medium-low frequency therapy function can also be simultaneously used, so that the use of the user is greatly facilitated.

Second embodiment

Referring to fig. 14 and 15, the present ultrasonic and mid-low frequency compound treatment device differs from the first embodiment in that: one end of the connecting wire 2 is electrically connected with the host 1, and the other end of the connecting wire extends into the cavity from the bottom of the bottom shell 8 and is respectively and electrically connected with the ultrasonic ceramic plate 3, the medium and low frequency electrode I4, the medium and low frequency electrode II 5 and the PCBA plate 6.

The other parts not described are the same as those of the first embodiment.

Third embodiment

Referring to fig. 16 and 17, the present ultrasonic and mid-low frequency compound treatment device differs from the first embodiment in that: the combined treatment head is built-in and is arranged on the host 1 in an integrated manner and is electrically connected with the host 1 so as to realize the ultrasonic treatment function and the medium-low frequency treatment function of the treatment equipment.

The ultrasonic ceramic plate 3, the first middle and low frequency electrode 4 and the second middle and low frequency electrode 5 are arranged in the host 1 and are electrically connected with the host 1.

A main control mainboard is arranged in the host 1, and the treatment head is positioned on the back of the host 1 and is electrically connected with the main control mainboard. Host computer 1 can be according to user's user demand when using, can adopt the mode of removing to treat the local position of health with compound treatment head, also can aim at compound treatment head with the health through fixed bolster with host computer 1 fixed back again and treat, and the user can also be according to actual user demand when treating simultaneously, but exclusive use ultrasonic therapy function or medium and low frequency treatment function, can also use ultrasonic therapy function and medium and low frequency treatment function simultaneously, has greatly made things convenient for user's use.

The other parts not described are the same as those of the first embodiment.

Fourth embodiment

Referring to fig. 18 and 19, the present ultrasonic and mid-low frequency compound treatment device differs from the first embodiment in that: the ultrasonic ceramic plate 3 and the middle and low frequency electrode II 5 are respectively arranged on the outer surface of the face shell 7, the middle and low frequency electrode I4 is arranged in the cavity and is positioned below the ultrasonic ceramic plate 3, the ultrasonic ceramic plate 3 and the middle and low frequency electrode I4 are both circular, and the middle and low frequency electrode II 5 is circular and is positioned on the periphery of the ultrasonic ceramic plate 3 and the middle and low frequency electrode I4. The connecting wire 2 is respectively and electrically connected with the ultrasonic ceramic sheet 3, the middle and low frequency electrode I4 and the middle and low frequency electrode II 5.

The other parts not described are the same as those of the first embodiment.

Fifth embodiment

Referring to fig. 20, the present ultrasonic and mid-low frequency composite treatment apparatus differs from the first embodiment in that: the ultrasonic ceramic plate 3, the first middle and low frequency electrodes 4 and the second middle and low frequency electrodes 5 are respectively arranged on the outer surface of the face shell 7, the first middle and low frequency electrodes 4 and the second middle and low frequency electrodes 5 are in the same semicircular shape, and the ultrasonic ceramic plate 3 is in the annular shape and is positioned on the peripheries of the first middle and low frequency electrodes 4 and the second middle and low frequency electrodes 5. The connecting wire 2 is respectively and electrically connected with the ultrasonic ceramic sheet 3, the middle and low frequency electrode I4 and the middle and low frequency electrode II 5.

The other parts not described are the same as those of the first embodiment.

Sixth embodiment

Referring to fig. 21, the present ultrasonic and mid-low frequency composite treatment apparatus is different from the first embodiment in that: the ultrasonic ceramic plate 3 and the middle and low frequency electrodes two 5 are respectively arranged on the outer surface of the face shell 7, the middle and low frequency electrodes one 4 are arranged in the cavity and are positioned below the ultrasonic ceramic plate 3, the ultrasonic ceramic plate 3 and the middle and low frequency electrodes one 4 are semicircular, and the middle and low frequency electrodes two 5 are semicircular and are positioned on the outer sides of the ultrasonic ceramic plate 3 and the middle and low frequency electrodes one 4. The connecting wire 2 is respectively and electrically connected with the ultrasonic ceramic sheet 3, the middle and low frequency electrode I4 and the middle and low frequency electrode II 5.

The other parts not described are the same as those of the first embodiment.

The drawings are for illustrative purposes only and are presented in the form of illustrations only, not illustrations as physical or logical, and should not be construed as limiting the present patent; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product; it will be understood by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted.

Moreover, like or similar reference numerals in the drawings of the embodiments of the present invention correspond to like or similar parts; in the description of the present invention, it should be understood that, if there are any terms such as "upper", "lower", "left", "right", "vertical", "horizontal", "longitudinal", "top", "bottom", "inner", "outer", etc., indicating orientations or positional relationships based on the orientations or positional relationships shown in the drawings, the description is for convenience and simplicity, and it is not intended to indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and therefore, the terms describing the positional relationships in the drawings are used for illustrative purposes only and are not to be construed as limiting the present patent.

Claims (7)

1. An ultrasonic wave and medium and low frequency composite treatment device is characterized in that: comprises a host machine and a composite treatment head which generates ultrasonic waves and medium-low frequency waves during work; wherein,

the composite treatment head is external, is provided with a connecting wire and is electrically connected with the host machine through the connecting wire so as to realize the ultrasonic treatment function and the medium and low frequency treatment function of the treatment equipment;

or the composite treatment head is integrally arranged on the host and is electrically connected with the host so as to realize the ultrasonic treatment function and the medium-low frequency treatment function of the treatment equipment;

or the power supply module is arranged in the composite treatment head and is wirelessly connected with the host or the intelligent APP, so that the ultrasonic treatment function and the medium-low frequency treatment function of the treatment equipment are realized.

2. The ultrasonic and mid-low frequency compound treatment device of claim 1, wherein: the composite treatment head at least comprises an ultrasonic ceramic wafer and a medium-low frequency output electrode; the ultrasonic ceramic chip and the medium-low frequency output electrode are respectively and electrically connected with the connecting wire, or the ultrasonic ceramic chip and the medium-low frequency output electrode are arranged on the host and are electrically connected with the host, or the ultrasonic ceramic chip and the medium-low frequency output electrode are electrically connected with a PCBA (printed circuit board assembly) arranged in the composite treatment head.

3. The ultrasonic and mid-low frequency compound treatment device of claim 2, wherein: the composite treatment head is external and also comprises a face shell and a bottom shell; the face shell is fixedly connected with the bottom shell, and a cavity is formed between the face shell and the bottom shell; the ultrasonic ceramic plate is arranged in the cavity; the middle and low frequency output electrode is arranged on the surface shell.

4. The ultrasonic and mid-low frequency compound treatment device of claim 3, wherein: one end of the connecting wire is electrically connected with the host, and the other end of the connecting wire extends into the cavity from the side part or the bottom part of the bottom shell and is respectively electrically connected with the ultrasonic ceramic chip and the medium-low frequency output electrode, or one end of the connecting wire is electrically connected with the host, and the other end of the connecting wire is electrically connected with the built-in PCBA board of the composite treatment head.

5. The ultrasonic and mid-low frequency compound treatment device of claim 3, wherein: the medium and low frequency output electrode is made of a conductive material; the face shell is made of non-conductive materials.

6. The ultrasonic and mid-low frequency compound treatment device of claim 1, wherein: the host is at least provided with a power supply module, an ultrasonic output control module, a medium and low frequency output control module, a key and a display and/or acousto-optic indication module.

7. The ultrasonic and mid-low frequency compound treatment device according to any one of claims 1 to 6, wherein: the composite treatment head fixing device comprises a fixing paste, a fixing piece and a fixing cover; wherein, the fixed part is detachably arranged on the fixed sticker and is provided with a fixed cavity, the two ends of the fixed cavity are respectively provided with a placing opening and a treatment opening, and the fixed cover is detachably arranged on the placing opening of the fixed cavity; the composite treatment head is fixedly placed in the fixed cavity through the placing opening.

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