CN220046501U

CN220046501U - Graphene acupuncture auxiliary instrument

Info

Publication number: CN220046501U
Application number: CN202321015862.2U
Authority: CN
Inventors: 陶和平; 张现风; 夏立松; 刘元庆
Original assignee: Shenzhen Thai Huayuan Trading Co ltd
Current assignee: Shenzhen Thai Huayuan Trading Co ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2023-11-21
Anticipated expiration: 2033-04-28

Abstract

The utility model discloses a graphene acupuncture auxiliary instrument, which comprises a needle tube unit, wherein the needle tube unit comprises a transmission rod for pushing and pulling a needle tube to enable the needle tube to advance and retreat, a needle tube seat connected to one end of the transmission rod, and a needle tube fixing part which is positioned on the needle tube seat and used for fixing the needle tube; the needle tube seat comprises a block structure, two symmetrical extension arms extend outwards from the left end and the right end of the block structure, a needle tube fixing part is uniformly arranged on each extension arm, a groove recessed in the surface of the block structure is formed in the middle part of the block structure, and a mounting position for connecting a transmission rod is formed in the middle section of the groove; the transmission rod is connected to a supporting structure in a sliding way. The number of the transmission rods and the needle tube seats is 1:2, so that the working efficiency is improved; the transmission rod, the needle tube seat and the needle tube fixing part are arranged, so that the connecting structure is stable; the needle passing channel is arranged, so that the safety performance in work is enhanced, and the service life of the needle tube is prolonged.

Description

Graphene acupuncture auxiliary instrument

Technical Field

The utility model relates to a graphene acupuncture auxiliary instrument.

Background

The graphene heating film can generate far infrared rays beneficial to human body when electrified and heated, and has certain benefit to human body health. In the actual society, the application field of the graphene heating film is also increasing. For example, when the silver needle is used for acupuncture, the silver needle is often required to be inserted into an acupoint, and then the silver needle has an irreplaceable function. Many people want to apply the heating of the graphene heating film and the application of far infrared rays to acupuncture, and certainly, no achievement exists. It is important to design a product that uses graphene and is useful for acupuncture.

Disclosure of Invention

The utility model aims to overcome the existing defects, and provides a graphene acupuncture auxiliary instrument which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

the graphene acupuncture auxiliary instrument comprises a needle tube unit, wherein the needle tube unit comprises a transmission rod for pushing and pulling a needle tube to enable the needle tube to advance and retreat, a needle tube seat connected to one end of the transmission rod, and a needle tube fixing part which is positioned on the needle tube seat and used for fixing the needle tube; the needle tube seat comprises a block structure, two symmetrical extension arms extend outwards from the left end and the right end of the block structure, a needle tube fixing part is uniformly arranged on each extension arm, a groove recessed in the surface of the block structure is formed in the middle part of the block structure, and a mounting position for connecting a transmission rod is formed in the middle section of the groove; the transmission rod is connected to a supporting structure in a sliding way; the transmission rod is at least one.

The support structure comprises a baffle structure positioned in the middle of the outer part of the support structure, a first support structural member positioned at the left side and a second support structural member positioned at the right side; the first support structure comprises a first shell section, the second support structure comprises a second shell section, a first support structure channel penetrating through the head end of the first shell section and used for the transmission rod to pass through is arranged on the first shell section, and a second support structure channel penetrating through the tail end of the second shell section and used for the transmission rod to pass through is arranged on the second shell section.

The first supporting structural member and the second supporting structural member positioned on the right side enclose a hollow inner cavity; an elastic structural member for pushing the needle tube seat backwards is connected to the transmission rod; the elastic structural member is positioned in the hollow inner cavity.

The needle tube comprises a plug, a buckling bowl-shaped cover body and a vertical pipe, wherein the plug is positioned at the bottom and used for being inserted into a needle tube fixing part, the buckling bowl-shaped cover body is positioned above the plug, the vertical pipe is positioned above the buckling bowl-shaped cover body, the buckling bowl-shaped cover body is communicated with the vertical pipe, a cross connecting piece used for being connected with the plug is arranged in the buckling bowl-shaped cover body, and an interval is arranged between the cross connecting piece and the tail end of the buckling bowl-shaped cover body.

When the number of the transmission rods is at least two, the number of the needle tube seats positioned on the two transmission rods is two, the number of the extension arms positioned on the two needle tube seats is four, and the number of the needle tube fixing parts positioned on the four extension arms is four; the two needle tube seats are arranged in a crossed way, and the four needle tube fixing parts are positioned on the same straight line.

A shell for protecting the outer part of the needle tube unit is connected to the outer part of the needle tube unit, and the shell comprises a main shell; a cavity for the needle tube seat and the needle tube to move towards a specified direction is arranged in the main shell, a needle passing channel for preventing the needle tube from shaking violently is arranged in the cavity, a protruding structural member for preventing the needle tube seat from moving forward is arranged in the cavity, and an external thread for external connection is arranged on the outer surface of the left side of the main shell; an insertion connection end for insertion connection with the main housing is provided on an outer surface of the second support structure.

The tail end of the main shell is connected with a rear shell, an inner shell is inserted into the rear shell, the inner shell passes through the rear shell, and the tail end of the rear shell wraps the head end of the inner shell; the upper and lower sides of the inner shell are arranged in a closing-up shape from the head end to the tail end, and the end face of the tail end of the inner shell is provided with pinholes with the same number as that of the needle tube fixing part.

The block structure and two extending arms extending outwards from the left end and the right end of the block structure enclose a U-shaped framework.

The block structure and two extending arms extending outwards from the left end and the right end of the block structure enclose a rectangular framework.

Connecting the control end with a transmission rod; when connected, external threads on the outer surface of the left side of the main housing are required to be connected.

Working principle: the control end pushes the transmission rod, and power continuously acts on the needle tube seat and the needle tube, and the needle tube seat and the needle tube move in the specified direction in the cavity. The transmission rod performs telescopic movement, so that the needle tube seat and the needle tube are driven to perform telescopic movement.

In application, if the first supporting structural member and the second supporting structural member positioned on the right side enclose a hollow inner cavity; an elastic structural member for pushing the needle tube seat backwards is connected to the transmission rod; the elastic structural member is positioned in the hollow inner cavity; the support structure is a split structure and the first support structure channel is a short channel; when the elastic structural member is installed, the transmission rod is required to be connected with the needle tube seat, then the transmission rod is inserted into the channel of the second supporting structural member, the elastic structural member is installed on the transmission rod, and then the second supporting structural members of the first supporting structural member are connected together, so that the transmission rod is ensured to be exposed in the channel of the first supporting structural member at the head end position of the first supporting structural member.

In application, if the support structure is a unitary structure, then the first support structure channel is a long channel; when the elastic structural member is installed, the elastic structural member is firstly installed on the transmission rod, then the elastic structural member and the transmission rod enter the first supporting structural member channel from the head end of the first shell section until the transmission rod is exposed from the second supporting structural member channel, and then the transmission rod is connected with the needle tube seat for connection installation.

In applications where the effect of the raised structural element in preventing the needle hub from advancing and the resistance of the resilient structural element is simply a matter of knowledge, it will not be described in detail.

When the system is used, the technology of other parts of the control end can be changed according to the technical prompt of the control end, so that the application environment of the control end is perfected.

In application, in order to adapt to the relative environment, the design type of one transmission rod is adopted, and the design type of two transmission rods can also be adopted.

When in use, the acupuncture needle is preheated around the acupuncture points to adapt to the relative acupuncture environment, and simultaneously far infrared rays are applied to play a role in treatment.

Advantageous effects

The number of the transmission rods and the needle tube seats is 1:2, so that the working efficiency is improved; two transmission rods are arranged, and the working efficiency is doubled; the transmission rod, the needle tube seat and the needle tube fixing part are arranged, so that the connecting structure is stable; the needle passing channel is arranged, so that the safety performance in work is enhanced, and the service life of the needle tube is prolonged. The graphene heating film is arranged, the periphery of the acupuncture point is preheated firstly, and simultaneously far infrared rays are applied to play a role in treatment.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present utility model;

FIG. 2 is a second schematic diagram of the structure of the embodiment of the present utility model;

FIG. 3 is a third schematic diagram of an embodiment of the present utility model;

FIG. 4 is a diagram showing a fourth embodiment of the present utility model;

FIG. 5 is a fifth schematic diagram of the structure of the embodiment of the present utility model;

FIG. 6 is a diagram of a sixth embodiment of the present utility model;

FIG. 7 is a diagram of a seventh embodiment of the present utility model.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

Referring to fig. 1 to 7, a graphene acupuncture auxiliary instrument comprises a needle tube unit, wherein the needle tube unit comprises a transmission rod 2 for pushing and pulling a needle tube to enable the needle tube to advance and retract, a needle tube seat 3 connected to one end of the transmission rod, and a needle tube fixing part 4 positioned on the needle tube seat and used for fixing the needle tube; the needle tube seat comprises a block structure, two symmetrical extension arms 5 extend outwards from the left end and the right end of the block structure, a needle tube fixing part is uniformly arranged on each extension arm, a groove 6 recessed on the surface of the block structure is formed in the middle part of the block structure, and a mounting position 7 for connecting a transmission rod is formed in the middle section of the groove; the transmission rod is connected to a supporting structure in a sliding way; the transmission rod is at least one.

The support structure comprises a baffle structure 8 positioned in the middle of the outer part of the support structure, a first support structural member positioned at the left side and a second support structural member positioned at the right side; the first support structure comprises a first shell section 9, the second support structure comprises a second shell section, a first support structure channel penetrating through the head end of the first shell section and used for the transmission rod to pass through is arranged on the first shell section, and a second support structure channel penetrating through the tail end of the second shell section and used for the transmission rod to pass through is arranged on the second shell section; the first support structure and the second support structure on the right side enclose a hollow interior 11.

The needle tube comprises a plug 1 positioned at the bottom and used for plugging the needle tube fixing part, a buckling bowl-shaped cover body 10 positioned above the plug, a vertical tube 22 positioned above the buckling bowl-shaped cover body, the buckling bowl-shaped cover body is communicated with the vertical tube, a cross connecting piece 23 used for being connected with the plug is arranged in the buckling bowl-shaped cover body, and a space is arranged between the cross connecting piece and the tail end of the buckling bowl-shaped cover body.

An elastic structural member 12 for pushing the needle tube seat backward is connected to the transmission rod; the elastic structural member is positioned in the hollow inner cavity.

The tail end of the transmission rod is connected to the control end, the graphene heating film is covered on the extension arm, the transmission rod is provided with a hollow inner cavity, an electric wire for connecting graphene is connected in the inner cavity, and the electric wire penetrates through the inner cavity of the transmission rod and is exposed from an opening of the control end.

A shell for protecting the outer part of the needle tube unit is connected to the outer part of the needle tube unit, and comprises a main shell 13; a cavity 14 for the needle tube seat and the needle tube to move towards a specified direction is arranged in the main shell, a needle passing channel 15 for preventing the needle tube from shaking violently is arranged in the cavity, a protruding structural member 16 for preventing the needle tube seat from moving forward is arranged in the cavity, and an external thread 17 for external connection is arranged on the outer surface of the left side of the main shell; an insertion connection end 18 for insertion connection to the main housing is provided on the outer surface of the second support structure.

The tail end of the main shell is connected with a rear shell, an inner shell 19 is inserted into the rear shell, the inner shell penetrates through the rear shell, and the tail end of the rear shell wraps the head end of the inner shell; the upper and lower sides of the inner shell are arranged in a closing-up shape from the head end to the tail end, and the end face of the tail end of the inner shell is provided with pinholes 20 with the same number as that of the needle tube fixing part.

A feed hole 21 is provided in the inner shell. The application of the feeding hole and the extended technology are all the prior art, and only the feeding hole is simply integrated with the tattoo device.

When the device is applied, the block structure and the shape of the extension arm are selected according to the requirement, and the conventional device is as follows:

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

Claims

1. Graphene acupuncture auxiliary instrument, its characterized in that: the needle tube unit comprises a transmission rod for pushing and pulling the needle tube to enable the needle tube to advance and retreat, a needle tube seat connected to one end of the transmission rod, and a needle tube fixing part which is positioned on the needle tube seat and used for fixing the needle tube; the needle tube seat comprises a block structure, two symmetrical extension arms extend outwards from the left end and the right end of the block structure, a needle tube fixing part is uniformly arranged on each extension arm, a groove recessed in the surface of the block structure is formed in the middle part of the block structure, and a mounting position for connecting a transmission rod is formed in the middle section of the groove; the transmission rod is connected to a supporting structure in a sliding way; the transmission rod is at least one.

2. The graphene acupuncture assisting instrument according to claim 1, wherein: the support structure comprises a baffle structure positioned in the middle of the outer part of the support structure, a first support structural member positioned at the left side and a second support structural member positioned at the right side; the first support structure comprises a first shell section, the second support structure comprises a second shell section, a first support structure channel penetrating through the head end of the first shell section and used for the transmission rod to pass through is arranged on the first shell section, and a second support structure channel penetrating through the tail end of the second shell section and used for the transmission rod to pass through is arranged on the second shell section; the first supporting structural member and the second supporting structural member positioned on the right side enclose a hollow inner cavity.

3. The graphene acupuncture assisting instrument according to claim 2, wherein: an elastic structural member for pushing the needle tube seat backwards is connected to the transmission rod; the elastic structural member is positioned in the hollow inner cavity.

4. A graphene acupuncture assisting instrument according to claim 3, characterized in that: the needle tube comprises a plug, a buckling bowl-shaped cover body and a vertical pipe, wherein the plug is positioned at the bottom and used for being inserted into a needle tube fixing part, the buckling bowl-shaped cover body is positioned above the plug, the vertical pipe is positioned above the buckling bowl-shaped cover body, the buckling bowl-shaped cover body is communicated with the vertical pipe, a cross connecting piece used for being connected with the plug is arranged in the buckling bowl-shaped cover body, and an interval is arranged between the cross connecting piece and the tail end of the buckling bowl-shaped cover body.

5. The graphene acupuncture assisting instrument according to claim 1, wherein: when the number of the transmission rods is at least two, the number of the needle tube seats positioned on the two transmission rods is two, the number of the extension arms positioned on the two needle tube seats is four, and the number of the needle tube fixing parts positioned on the four extension arms is four; the two needle tube seats are arranged in a crossed way, and the four needle tube fixing parts are positioned on the same straight line.

6. The graphene acupuncture assisting instrument according to claim 2, wherein: a shell for protecting the outer part of the needle tube unit is connected to the outer part of the needle tube unit, and the shell comprises a main shell; a cavity for the needle tube seat and the needle tube to move towards a specified direction is arranged in the main shell, a needle passing channel for preventing the needle tube from shaking violently is arranged in the cavity, a protruding structural member for preventing the needle tube seat from moving forward is arranged in the cavity, and an external thread for external connection is arranged on the outer surface of the left side of the main shell; an insertion connection end for insertion connection with the main housing is provided on an outer surface of the second support structure.

7. The graphene acupuncture assisting instrument according to claim 6, wherein: the tail end of the main shell is connected with a rear shell, an inner shell is inserted into the rear shell, the inner shell passes through the rear shell, and the tail end of the rear shell wraps the head end of the inner shell; the upper and lower sides of the inner shell are arranged in a closing-up shape from the head end to the tail end, and the end face of the tail end of the inner shell is provided with pinholes with the same number as that of the needle tube fixing part.

8. The graphene acupuncture assisting instrument according to claim 1, wherein: the tail end of the transmission rod is connected to the control end, the graphene heating film is covered on the extension arm, the transmission rod is provided with a hollow inner cavity, an electric wire for connecting graphene is connected in the inner cavity, and the electric wire penetrates through the inner cavity of the transmission rod and is exposed from an opening of the control end.