CN216963313U - Portable electronic acupuncture device - Google Patents

Abstract

The utility model discloses a portable electronic acupuncture device, which comprises a body, wherein the body comprises a shell and a circuit board assembly arranged in the shell, the shell is provided with a control area, the control area is electrically connected with the circuit board assembly, the circuit board assembly comprises a functional module matched with the control area, the circuit board assembly comprises a main circuit board and an output circuit board which are arranged up and down, the main circuit board comprises a first functional module, the output circuit board comprises a second functional module, the first functional module and the second functional module are matched with the control area, the whole area of the circuit board assembly is reduced by splitting the circuit board assembly, the size and the space occupation of the body are further reduced, the body is miniature and portable, the practicability is higher, the cost can be reduced, and the processing efficiency is improved.

Description

Portable electronic acupuncture device

Technical Field

The utility model relates to the technical field of acupuncture, in particular to a portable electronic acupuncture device.

Background

Acupuncture is a medical means for treating systemic diseases through the effects of meridians and acupoints and a certain technique, along with the development of the technology, an electronic acupuncture therapeutic apparatus is born on the basis of the traditional acupuncture, stimulates the acupoints through audio pulses or electric pulses, has the advantages of no skin puncture and no trauma, and has a good health-care effect.

SUMMERY OF THE UTILITY MODEL

To overcome the above disadvantages, the present invention provides a portable electronic acupuncture device.

In order to achieve the purpose, the utility model adopts the technical scheme that: the utility model provides a portable electron acupuncture device, includes the body, the body includes the casing and sets up circuit board components in the casing, be equipped with the control area on the casing, the control area with circuit board components electric connection, circuit board components include with control area complex functional module, circuit board components is including the main line board and the output line board that set up from top to bottom, the main line board includes first functional module, the output line board includes the second functional module, first functional module and second functional module with the control area cooperation.

The portable light-weight circuit board has the advantages that the circuit board assembly in the shell is split into the main circuit board and the output circuit board which are arranged up and down, the main circuit board and the output circuit board are stacked to reduce the projection area of the circuit board assembly relative to the shell, the whole area of the circuit board assembly is reduced in such a way, the size of the required shell is further reduced, the whole size of the body is smaller, the portable light-weight requirement is met, the portable light-weight circuit board is convenient for a user to carry, and the applicability is stronger; the surface of the shell is provided with a control area, a user can conveniently control the body through the control area, and the user can adjust the parameters of the electronic acupuncture device according to actual requirements; the main circuit board is provided with the first function module, the output circuit board is provided with the second function module, the two function modules are matched with the control area, the size of the output circuit board is reduced, the function of the control area can be guaranteed, and the practicability is high.

Illustratively, the first function module includes a power module, a mode module, a frequency module, a timing module and a pulse width module, the power module is electrically connected to the mode module, and the frequency module, the timing module and the pulse width module are respectively electrically connected to the mode module. The power on and power off of the body are controlled through the power supply module, different pulse modes are selected through the mode module, and the frequency module, the timing module and the pulse width module adjust the mode module to set different pulse parameters so as to meet different requirements of users.

It can be understood that the first functional module further includes a pulse module electrically connected to the mode module, the pulse module is configured to generate an electrical pulse, and the mode module controls the pulse module to select different pulse modes.

Illustratively, the second function module includes a cut-off module and an interface module, the cut-off module is electrically connected to the interface module, and the interface module is electrically connected to the power module through the cut-off module. The power on and off of the interface module are controlled through the cut-off module, so that the peripheral component is prevented from immediately starting to work after being connected into the interface of the body, and the use safety is ensured.

Exemplarily, the first functional module further includes a memory module, and the mode module is electrically connected to the power module through the memory module. The memory module enables the body to have a memory function, can memorize the setting data of a user before shutdown, and improves the use convenience of the user.

Exemplarily, the second functional module further comprises a voltage transformation module, and the mode module is electrically connected to the power supply module through the voltage transformation module. Guarantee that pulse output is stable, promote to use and experience.

Exemplarily, the casing includes epitheca and inferior valve, epitheca and inferior valve detachable connection, the control area sets up epitheca one side, the main line board with the epitheca is connected, the output circuit board with the inferior valve is connected. The positioning and installation of the circuit board assembly are facilitated, the operation is simple and convenient, and the installation efficiency is high.

Illustratively, the control area includes a power supply component cooperating with the power supply module, a mode selection component cooperating with the mode module for selecting different pulse modes, a frequency adjustment component cooperating with the frequency module, a time adjustment component cooperating with the timing module, and a pulse width adjustment component cooperating with the pulse width module, the frequency adjustment component, the time adjustment component, and the pulse width adjustment component adjusting the pulse modes selected by the mode selection component.

Furthermore, the power supply assembly, the mode selection assembly, the frequency adjusting assembly, the time adjusting assembly and the pulse width adjusting assembly are all arranged as keys, and a user can operate the keyboard through the keys, so that the use is simple and convenient.

Illustratively, the control area comprises an interface on-off component matched with the cut-off module and an interface matched with the interface module, the interface on-off component controls the on-off of the interface, and the interface is connected with a peripheral component.

Furthermore, the interface on-off assembly is set to be a knob, and a user controls the interface through the knob, so that the operation is convenient.

Illustratively, the control area further comprises a display screen, and the first function module further comprises a display module matched with the display screen. The display screen can show user's setting information and time setting information, and convenient to use person observes in real time, promotes to use and experiences.

Illustratively, the lower shell comprises a battery accommodating part and a power interface, and the power interface is electrically connected with the circuit board assembly or the battery accommodating part. The user accessible power interface inserts the electricity and uses, also can use through the battery power supply, and when power interface and battery accommodation portion electric connection, accessible power interface charges the battery, and the flexibility is strong.

Drawings

FIG. 1 is a schematic overall structure diagram of a main body according to a preferred embodiment of the present invention;

FIG. 2 is an exploded view of the body of the preferred embodiment of the present invention;

FIG. 3 is a schematic diagram of a preferred embodiment of the present invention;

FIG. 4 is another schematic diagram of a preferred embodiment of the present invention;

FIG. 5 is another schematic diagram of a preferred embodiment of the present invention.

In the figure:

10-upper shell; 11-power supply components; 12-a mode selection component; 13-a frequency adjustment component; 14-a time adjustment component; 15-a pulse width adjustment assembly; 16-an interface on-off component; 17-an interface; 18-an indicator light; 19-a display screen;

20-a lower shell; 21-a battery housing; 22-a power interface;

30-a main circuit board; 31-a contact; 32-a display module; 33-convex feet;

40-an output circuit board; 41-connecting rod; 411-card slot; 42-terminal; 43-transformation module.

Detailed Description

The following detailed description of the preferred embodiments of the present invention, taken in conjunction with the accompanying drawings, will make the advantages and features of the utility model easier to understand by those skilled in the art, and thus will clearly and clearly define the scope of the utility model.

As shown in fig. 1, the portable electronic acupuncture device in this embodiment includes a body, the body includes a housing and a circuit board assembly disposed in the housing, the housing is provided with a control area, the control area is electrically connected to the circuit board assembly for controlling function output of the body, and the circuit board assembly bears a function module of the body, so that the control area realizes corresponding function control through the function module.

In an example of this embodiment, the housing includes an upper housing 10 and a lower housing 20, the upper housing 10 and the lower housing 20 are detachably connected, the control area is disposed on one side of the upper housing 10, and with reference to fig. 1 and fig. 2, the control area includes a power supply component 11, a mode selection component 12, a frequency adjustment component 13, a time adjustment component 14, a pulse width adjustment component 15, and an interface on-off component 16, an interface 17 that is engaged with the interface on-off component 16 is disposed on the upper housing 10, and function selection and control of the main body are realized through the control area;

the power supply assembly 11 controls the body to be turned on and off, that is, the circuit of the circuit board assembly is controlled to be turned on and off, and the mode selection assembly 12 controls the pulse mode of the body, wherein in the embodiment, the pulse mode comprises a continuous wave mode, a sparse-dense wave mode and a spaced wave mode;

when in the adjusting mode, the user adjusts the primary mode selecting assembly 12, the mode is adjusted to the continuous wave mode, the primary mode selecting assembly 12 is adjusted again when the current mode is the continuous wave mode, the mode is adjusted to the sparse-dense wave mode, the primary mode selecting assembly 12 is adjusted again when the current mode is the sparse-dense wave mode, the mode is adjusted to the interval wave mode, the primary mode selecting assembly 12 is adjusted again when the current mode is the sparse-dense wave mode, and the mode is adjusted to the continuous wave mode, so that the operation is simple;

the frequency adjusting component 13 is used for adjusting the frequency of the pulse mode, the pulse width adjusting component 15 is used for adjusting the pulse width of the pulse mode, a user can select proper individual setting according to actual conditions, the duration time of the pulse mode of the body is controlled through the time adjusting component 14, the user can use the pulse mode conveniently according to set time, the use effect is prevented from being influenced by overlong or overlong time, the interface on-off component 16 is used for controlling the on-off of the interface 17, and the interface 17 is used for connecting peripheral components such as a patch and the like;

when the acupuncture device is used, a user can start the acupuncture device through the power supply assembly 11, various parameters and time parameters of the pulse mode are adjusted, the peripheral assembly can be connected with the interface 17, the position of the peripheral assembly relative to the human body is adjusted, and then the interface on-off assembly 16 controls the interface 17 to be electrified to start acupuncture.

Exemplarily, be equipped with pilot lamp 18 on the epitheca 10, pilot lamp 18 corresponds the setting with continuous wave mode, sparse and dense wave mode and interval wave mode respectively, and when adjusting corresponding pulse through mode selection subassembly 12, corresponding pilot lamp 18 lights, reminds the user that the current mode is which, promotes user's use and experiences.

Illustratively, the number of the interface on-off assemblies 16 is six, and the number of the interfaces 17 is six, so that a user can conveniently acupuncture and moxibustion a plurality of parts at the same time, and the flexibility is higher.

Illustratively, the upper shell 10 is provided with a display screen 19, and the display screen 19 is used for displaying information such as pulse mode, frequency, pulse width, time setting of the body, and whether the interface 17 is connected.

In one example of this embodiment, the circuit board assembly includes main circuit board 30 and output circuit board 40, main circuit board 30 and output circuit board 40 are the setting that stacks from top to bottom, main circuit board 30 sets up the one side that is close to epitheca 10, output circuit board 40 sets up the one side that is close to inferior valve 20, so set up, make the circuit board assembly under the prerequisite of guaranteeing the function of this body, the projected area on epitheca 10 and inferior valve 20 reduces, thereby make required casing area reduce, the overall dimension and the weight of body reduce, can practice thrift the cost, and simultaneously, satisfy small-size, portable requirement, the space area occupied is little.

Illustratively, the main circuit board 30 is connected with the upper shell 10, and the output circuit board 40 is connected with the lower shell 20, and during the assembly, at first fix a position the main circuit board 30 with the upper shell 10 and install the output circuit board 40 with the lower shell 20, and then with the upper shell 10 with the lower shell 20 erection joint, the installation of completion body, the location is swift, and the installation is high-efficient.

The main circuit board 30 is provided with a first functional module, the output circuit board 40 is provided with a second functional module, and the first functional module and the second functional module are matched and correspond to a control area on the upper shell 10;

with reference to fig. 3 and fig. 4, the first functional module includes a power module, a mode module, a frequency module, a timing module and a pulse width module, the power module is electrically connected to the mode module, the frequency module, the timing module and the pulse width module are electrically connected to the mode module, the power module controls the power on and off of the mode module and the on-off module, the frequency module, the timing module and the pulse width module control the mode module, it can be understood that the first functional module further includes a pulse module electrically connected to the mode module, the pulse module is used for generating electric pulses, the mode module controls the pulse module to select different pulse modes, the power module is matched with the power module 11, the mode module is matched with the mode selection module 12, the frequency module is matched with the frequency adjustment module 13, the timing module is matched with the time adjustment module 14, the pulse width module is arranged in cooperation with the pulse width adjusting assembly 15.

In an example of this embodiment, the first function module further includes a memory module, the mode module is electrically connected to the power module through the memory module, and the memory module is used for memorizing the last mode selection of the user, that is, the user directly enters the last pulse mode when using the power module 11 next time, so as to improve the use experience.

In the present embodiment, as shown in fig. 2, the power module, the mode module, the frequency module, the timing module and the pulse width module are arranged in cooperation with the power module 11, the mode selection module 12, the frequency adjustment module 13, the time adjustment module 14 and the pulse width adjustment module 15 by using the contact 31 as a medium, and in the present embodiment, the power module 11, the mode selection module 12, the frequency adjustment module 13, the time adjustment module 14 and the pulse width adjustment module 15 are all arranged as keys to cooperate with the contact 31, thereby facilitating the operation.

Illustratively, the first functional module further includes a display module 32, the display module 32 is electrically connected to the power module, the power module controls the power on and off of the display module 32, and the display module 32 is electrically connected to the display screen 19.

Illustratively, a plurality of protruding pins 33 are disposed on one side of the main circuit board 30 close to the upper case 10, a guide post (not shown in the figure) is disposed on the upper case 10 and is engaged with the protruding pins 33, and a receiving hole for receiving the protruding pins 33 is disposed on the guide post, so that the main circuit board 30 is quickly positioned and connected with the upper case 10 by engaging the protruding pins 33 with the guide post, and the mounting is convenient and quick, and the operation is simple.

The second functional module comprises an on-off module and an interface module, the on-off module is matched with the interface on-off component 16, the interface module is matched with the interface 17, when the main circuit board 30 and the output circuit board 40 are installed, the on-off module is electrically connected with the power supply module, and the interface module is electrically connected with the power supply module through the on-off module.

In this embodiment, as shown in fig. 2, the on-off module is connected to the interface on-off assembly 16 by using a connection rod 41 as a medium, the interface on-off assembly 16 is provided as a knob, the knob is rotatably disposed on one side of the connection rod 41 away from the output circuit board 40, the on-off of the interface 17 is controlled by rotating the knob, the interface module uses a terminal 42 as a medium, protrudes out of the upper shell 10 to form the interface 17, and the connection between the peripheral assembly and the body is realized through the interface 17;

when the acupuncture needle is used, the knob is rotated clockwise, so that the connection of the interface 17 can be realized, the pulse is transmitted to the peripheral component through the interface 17, the acupuncture function is realized, and the knob is rotated anticlockwise, so that the disconnection of the interface 17 is realized.

Illustratively, a clamping groove 411 is formed in one side, close to the knob, of the extension rod 41, a clamping block matched with the clamping groove 411 is arranged on the knob, and the knob can conveniently rotate the extension rod 41 through the matching of the clamping groove 411 and the clamping block.

In this example, the second functional module further includes a voltage transformation module 43, as shown in fig. 5, the mode module is connected to the power module through the voltage transformation module 43, the voltage transformation module 43 stabilizes pulse output to ensure acupuncture effect, and the voltage transformation module 43 uses a transformer as a medium to realize voltage transformation.

In one example of the present embodiment, the lower case 20 includes a battery receiving portion 21, the battery receiving portion 21 is used for receiving a battery, a power interface 22 is provided on one side of the lower case 20, and the body is connected to a power supply device through the power interface 22, and the power supply device supplies power to the body.

Illustratively, the power interface 22 is electrically connected to the power module, and the power module is directly powered through the power interface 22.

Exemplarily, power source 22 and battery container 21 electric connection set up rechargeable battery (like the lithium cell) in the battery container 21, charge rechargeable battery through power source 22, are convenient for use at any time, and the flexibility is strong.

The present embodiment further provides a method for manufacturing a portable electronic acupuncture device, comprising the following steps:

the main circuit board processing step: providing a first metal base material, and arranging a power supply module, a mode module, a frequency module, a timing module and a pulse width module on the first metal base material to form a main circuit board 30;

and (3) contact processing: contacts 31 are arranged at the corresponding positions of the power module, the mode module, the frequency module, the timing module and the pulse width module;

processing an output circuit board: providing a second metal base material, and arranging a switching-on/off module and an interface module on the second metal base material to form an output circuit board 40;

the connecting rod processing step: a connecting rod 41 is arranged at the position corresponding to the on-off module;

a terminal processing step: arranging terminals 42 at the corresponding positions of the interface modules;

an upper shell processing step: machining the upper case 10 such that the upper case 10 fits the power supply module 11, the mode selection module 12, the frequency adjustment module 13, the time adjustment module 14, and the pulse width adjustment module 15;

a first positioning and mounting step: connecting the main circuit board 30 with the upper shell 10, and connecting the power supply component 11, the mode selection component 12, the frequency adjusting component 13, the time adjusting component 14 and the pulse width adjusting component 15 with the contact 31 in a matching way;

a second positioning and mounting step: the output circuit board 40 is connected with the lower case 20;

a body mounting step: connecting the upper shell 10 and the lower shell 20, arranging the interface on-off assembly 16 on the upper shell 10, connecting the interface on-off assembly 16 with the extension rod 41, and enabling the terminal 42 to protrude out of the upper shell 10 to form the interface 17, thereby completing the installation of the body.

In other examples of this embodiment, the processing step of the output circuit board may be performed first, and then the processing step of the main circuit board may be performed, or may be performed simultaneously; the second positioning and mounting step may be performed first, and then the first positioning and mounting step may be performed at the same time, which should not be construed as a limitation on the sequence of the steps.

Illustratively, the manufacturing method of the present embodiment further includes the steps of:

a memory module processing step: a memory module is disposed on the first metal substrate.

Illustratively, the manufacturing method of the present embodiment further includes the steps of:

processing a display module: the display module is arranged on the first metal base material, the display screen 19 is arranged on the upper shell 10, and the display module is electrically connected with the display screen 19.

Illustratively, the manufacturing method of the present embodiment further includes the steps of:

and (3) processing an indicator light: an indicator lamp 18 is disposed on the first metal base material, and the indicator lamp 18 is disposed to protrude from the upper case 10.

Illustratively, the manufacturing method of the present embodiment further includes the steps of:

and (3) processing a voltage transformation module: and arranging a voltage transformation module on the second metal substrate.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the present invention is not limited thereto, and any equivalent changes or modifications made according to the spirit of the present invention should be included in the scope of the present invention.

Claims (10)

1. A portable electronic acupuncture device is characterized in that: the multifunctional portable power supply comprises a body, the body includes the casing and sets up circuit board assembly in the casing, be equipped with the control area on the casing, the control area with circuit board assembly electric connection, circuit board assembly include with control area complex functional module, circuit board assembly is including the main circuit board and the output line board that set up from top to bottom, the main circuit board includes first functional module, the output line board includes the second functional module, first functional module and second functional module with the control area cooperation.

2. The portable electronic acupuncture device of claim 1, wherein: the first function module comprises a power module, a mode module, a frequency module, a timing module and a pulse width module, wherein the power module is electrically connected with the mode module, and the frequency module, the timing module and the pulse width module are respectively electrically connected with the mode module.

3. The portable electronic acupuncture device of claim 2, wherein: the second functional module comprises a cut-off module and an interface module, the cut-off module is electrically connected with the interface module, and the interface module is electrically connected with the power supply module through the cut-off module.

4. The portable electronic acupuncture device of claim 2, wherein: the first functional module further comprises a memory module, and the mode module is electrically connected with the power supply module through the memory module.

5. The portable electronic acupuncture device of claim 3, wherein: the second functional module further comprises a transformation module, and the mode module is electrically connected with the power module through the transformation module.

6. The portable electronic acupuncture device of claim 1, wherein: the casing includes epitheca and inferior valve, epitheca and inferior valve detachable connection, the control area sets up epitheca one side, the main line board with the epitheca is connected, the output line board with the inferior valve is connected.

7. The portable electronic acupuncture device of claim 2, wherein: the control area comprises a power supply component matched with the power supply module, a mode selection component matched with the mode module, a frequency adjustment component matched with the frequency module, a time adjustment component matched with the timing module and a pulse width adjustment component matched with the pulse width module, wherein the mode selection component is used for selecting different pulse modes, and the pulse modes selected by the mode selection component are adjusted by the frequency adjustment component, the time adjustment component and the pulse width adjustment component.

8. The portable electronic acupuncture device of claim 3, wherein: the control area comprises an interface on-off assembly matched with the cut-off module and an interface matched with the interface module, the interface on-off assembly controls the on-off of the interface, and the interface is connected with a peripheral assembly.

9. The portable electronic acupuncture device of claim 2, wherein: the control area further comprises a display screen, and the first functional module further comprises a display module matched with the display screen.

10. The portable electronic acupuncture device of claim 6, wherein: the lower shell comprises a battery accommodating part and a power interface, and the power interface is electrically connected with the circuit board assembly or the battery accommodating part.

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