CN210020332U - Moxa cone perforating device - Google Patents

Abstract

The utility model provides a moxa cone perforating device, which comprises a base and a plurality of perforating rods arranged on the base, wherein the perforating rods are used for perforating moxa cones, the perforating rods are rotatably connected with the base, and a positioning mechanism used for limiting the rotating positions of the perforating rods is arranged between the perforating rods and the base; and the electric heating wire is wound on the piercing post and is electrically connected with a power supply. Through rotating the perforated rod with the base and being connected and set up the heating wire on the perforated rod, can be more convenient perforate and light the moxa cone.

Description

Moxa cone perforating device

Technical Field

The utility model belongs to the technical field of traditional chinese medical science temperature acupuncture and moxibustion and specifically relates to a moxa cone perforating device.

Background

The warm acupuncture is an acupuncture method combining acupuncture and moxibustion, namely, in the process of needle remaining, a moxa cone is hung on a needle handle and ignited, and heat is transferred to acupuncture points through a needle body. This manipulation has the actions of warming and activating meridians, moving qi and activating blood, and is indicated for the syndrome of excessive cold and dampness, and the stagnation of meridians. The warm acupuncture has the characteristics of simplicity, convenience, effectiveness, cheapness and effectiveness, and is widely popularized in clinic. However, the warm acupuncture therapy is inconvenient in clinical use, and the moxa cone cannot be directly hung on the needle handle because no gap is formed in the middle of the moxa cone. At present, most of the moxa cones are inserted with local materials by using tweezers or other self-made appliances, but the inserted holes are different in size and too large, and are easy to fall off when hung on a needle handle, so that the scalding risk is increased; the hole is too small, the needle handle can be inserted only by repeatedly twisting, the needling depth can be changed in the operation process, and pain and trauma are brought to patients.

"stab chinese utility model device of chinese of moxa ware" (notice number CN205286925U) discloses a stab moxa ware, and it has many supports, and the first pole portion of many supports collects and forms the handle, and the second pole portion of many supports is radial interval setting around the axial lead of handle, adopts second pole portion to stab moxa cone to light many moxa cones on the alcohol burner. But this prick moxa ware still has a great deal of inconvenience in using, firstly, each straight-bar of pricking the moxa ware is radial interval setting, mutual interference when manual prick the moxa section, especially lie in the edge when the straight-bar near the middle on the operation easily stabs in one's hand, secondly need hold and prick the moxa ware handle and come to light the moxa cone on the alcohol burner one by one, scald accident not only takes place easily like this, and because every moxa cone lights the time difference and the point needs the moxa cone that inclines when winding, the uneven or phenomenon of taking place the burning skew of moxa cone appears easily. Accordingly, it is desirable to provide a moxa cone perforating device that is more convenient to use.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a moxa cone perforating device rotates the perforating rod and is connected and set up the heating wire on the perforating rod with the base to can more conveniently perforate and light the moxa cone.

The utility model provides a technical scheme that its technical problem adopted is: a moxa cone perforating device comprises a base and a plurality of perforating rods arranged on the base, wherein the perforating rods are used for perforating moxa cones, the perforating rods are rotatably connected with the base, and a positioning mechanism used for limiting the rotating positions of the perforating rods is arranged between the perforating rods and the base; and the electric heating wire is wound on the piercing post and is electrically connected with a power supply.

The utility model has the advantages that: the utility model discloses a moxa cone perforating device adopts the perforating rod to rotate with the base and is connected for the perforating rod can rotate for the base, consequently can pack up the perforating rod that temporarily can not use when carrying out the perforation operation, thereby avoids stabbing user's hand, but also can pack up all perforating rods when not using in order to reduce occupation space. And a positioning mechanism for limiting the rotation position of the piercing post is arranged between the piercing post and the base, and can fix the piercing post at a certain position so as to facilitate the piercing operation when the piercing post rotates relative to the base, wherein the piercing post can be limited at a position vertical to the base or at a position with a certain inclination angle by the positioning mechanism. Moreover, the diameter of the perforated rod is set according to the thickness of the needle handle of the moxibustion needle, and is preferably 0.2 to 1 mm thicker than the diameter of the needle handle, because if the hole penetrating the moxa cone is too large, the moxa cone hanger is easily detached from the needle handle; if the hole is too small, the moxa cone is not easy to be inserted on the needle handle, thereby possibly causing pain and trauma to the patient. And secondly, the electric heating wire is arranged on the piercing post, so that the plug-in easily ignited by an electric heating mode, and compared with the existing direct ignition by using an alcohol lamp, a lighter and the like, the plug-in easily ignited and safer operation by the electric heating mode is realized. Wherein the heating wire may be powered by an external power source or an internal battery. Therefore, when the moxa cone perforating device is used, a user can select to open the perforating rods one by one from one side or from inside to outside to perforate, so that the interference of other perforating rods on the moxa poking operation can be avoided, and then all moxa cones are powered together and uniformly ignited by the power supply of the heating wire. Therefore, the utility model discloses a moxa cone perforating device uses more conveniently, perforates and ignites the moxa cone more easily.

Further setting the following steps: the perforated rod is rotatably connected with the base through a hinge structure, the hinge structure comprises a rotating pin arranged on the perforated rod and a hinge seat arranged on the base, and a hinge hole for inserting the rotating pin is formed in the hinge seat.

Adopt above-mentioned technical scheme, make the piercing post can rotate for the base through rotating pin and hinge hole cooperation. The hinged seat on the base can be arranged on the end face of the base in a protruding mode or can be positioned in a groove or a hole formed in the base. It should be noted that the hinge structure may also be other hinge forms known to the person skilled in the art, for example the positions of the hinge holes and the rotation pins may be interchanged.

Further setting the following steps: the positioning mechanism comprises a clamping groove arranged on the hinged seat and an elastic bulge which is arranged on the piercing post and matched with the clamping groove, and the elastic bulge is clamped in the clamping groove to limit the rotation of the piercing post.

By adopting the technical scheme, the positioning mechanism for limiting the rotation of the perforating rod is arranged, and the rotation position of the perforating rod is limited by matching the elastic protrusions with the clamping grooves. Since the piercing member is heated, it is preferable that the elastic projection is made of a heat-resistant elastic material, or an insulating layer is provided between the elastic projection and the piercing member. In other embodiments, the resilient protrusion comprises a protrusion and a resilient member for connecting the protrusion to the piercing post, wherein the resilient member may be a spring or a resilient tab. The arrangement of these resilient projections is of conventional construction known to those skilled in the art.

Further setting the following steps: the rotation pin is positioned at the bottom end or the middle of the piercing post.

Adopt above-mentioned technical scheme, can adopt the centre or the bottom of perforating pole and base articulated, as long as do not influence the perforating pole and rotate for the base can. In some cases, the piercing member is disposed at the edge of the base, and the middle of the piercing member is hinged to the base by a rotating pin, so that when the piercing member is in the positioning state, the portion of the piercing member below the base can support the moxa column perforating device, and the base is prevented from being in direct contact with the outside (such as a table), thereby reducing the heat conduction between the moxa column perforating device and the outside; simultaneously, the moxa cone perforating device is convenient to place. The bottom end of the piercing rod herein means the other end opposite to the end of the piercing rod that pierces the moxa cone; the middle of the piercing member refers to any position on the piercing member other than the ends.

Further setting the following steps: the surface of the perforation rod is provided with a thread structure.

Adopt above-mentioned technical scheme, set up helicitic texture in order to more do benefit to the perforation on the piercing post surface. It is preferable that a screw structure is provided on the surface of one end of the transmission rod for perforating the moxa cone.

Further setting the following steps: the ash receiving support is fixedly arranged on the perforating rod, is of a disc structure and is positioned at the middle part or the lower part of the perforating rod.

Adopt above-mentioned technical scheme, collect the moxa ash that fires the moxa and produce, prevent that the moxa ash from scattering and polluting operational environment or accidentally injuring operating personnel. The diameter of the ash receiving tray is preferably larger than that of the moxa cone to completely collect the burning moxa ash.

Further setting the following steps: the base includes base, brace table and connects the support column between base and brace table, and this perforating rod sets up on brace table.

Further setting the following steps: the support column is provided with a handle part for holding, and the handle part is provided with anti-skid grains or anti-skid bulges.

Adopt above-mentioned technical scheme, through setting up base and support column so that this chinese mugwort post perforating device place or hold, wherein set up the base so that chinese mugwort post perforating device is stable to be placed, set up the support column and hold for the user, can also reduce the heat-conduction between this chinese mugwort post perforating device and the outside (for example place the desktop) simultaneously. To prevent the grip from falling off, a slip-resistant thread or a slip-resistant protrusion, which is a slip-resistant structure known to those skilled in the art, is provided at the handle portion of the support column.

Drawings

Fig. 1 is a schematic structural view of a moxa cone perforating device according to a first embodiment of the present invention;

fig. 2 is an exploded view of a hinge structure of a moxa cone perforating device according to a first embodiment of the present invention;

FIG. 3 is a schematic structural view of the upper portion of the piercing post according to the first embodiment of the present invention;

fig. 4 is a schematic structural view of a moxa cone perforating device according to a second embodiment of the present invention;

fig. 5 is a schematic view of a hinge structure of the edge of the moxa cone perforating device according to the second embodiment of the present invention;

the ash collecting device comprises a base 1, a supporting table 11, a supporting column 12, a handle part 121, a base 13, a perforated rod 2, an electric heating wire 21, a threaded structure 22, a rotating pin 23, a convex block 24, an elastic sheet 25, a hinge seat 15, a hinge hole 151, a clamping groove 152 and an ash collecting support 3.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

for convenience of description, as shown in FIG. 1, the top end of piercing cylinder 2 refers to the end of piercing cylinder 2 for piercing the moxa column, and the bottom end refers to the end opposite to the top end of piercing cylinder 2.

In a first embodiment, as shown in fig. 1 to 3, the moxa column perforation device of this embodiment includes a base 1 and a plurality of perforation rods 2 disposed on the base 1, the base 1 includes a base 13, a support platform 11 and a support column 12 connected between the base 13 and the support platform 11, the support column 12 is provided with a handle portion 121 for holding, the handle portion 121 is provided with anti-skid threads, the anti-skid threads can be replaced by anti-skid protrusions, the base 13 is used for stably placing the moxa column perforation device, and the handle portion 121 is used for holding by a user.

Perforated rod 2 is arranged on support platform 11, the bottom end of perforated rod 2 is rotatably connected with support platform 11 through a hinge structure, the hinge structure comprises a rotating pin 23 arranged on perforated rod 2 and a hinge seat 15 convexly arranged on base 13, and a hinge hole 151 for inserting rotating pin 23 is arranged on hinge seat 15. Wherein the hinge seat 15 may also be located in a recess and a through hole in the end face of the base 13. And meanwhile, a positioning mechanism for limiting the rotation position of the perforated rod 2 is arranged between the perforated rod 2 and the support platform 11, the positioning mechanism comprises a clamping groove 152 arranged on the hinged seat 15 and an elastic bulge which is arranged on the perforated rod 2 and matched with the clamping groove 152, and the elastic bulge comprises a lug 24 and an elastic sheet 25 used for connecting the lug 24 with the perforated rod 2. Wherein the resilient protrusions may also be other resilient protrusion structures known to those skilled in the art. Perforated rod 2 is rotatable with respect to base 1 by rotation pin 23 engaging with hinge hole 151, and rotation of perforated rod 2 is restricted when projection 24 on perforated rod 2 engages with catch 152, so that the moxa cone can be perforated thereon. Therefore, when using this moxa cone perforating device, the user can choose to open piercing post 2 from one side or from inside to outside one by one and perforate to can avoid other piercing posts 2 to stab the interference of moxa operation, thereby can pack up all piercing posts 2 when not using simultaneously and reduce the occupation space of device.

The moxa cone was perforated using the top end of the perforated rod 2. To facilitate the piercing, the top end of the piercing member 2 is conical and is provided with a thread formation 22 on its surface. The heating wire 21 is wound around the piercing post 2, and the heating wire 21 of each moxa cone can be electrically connected to a power source (not shown) through a lead wire. When the moxa cone is inserted into the piercing rod 2, the surface of the moxa cone is in contact with the heating wire 21, so that the moxa cone is electrically ignited. Compared with the prior art that the moxa cone is directly ignited by using an alcohol lamp, a lighter and the like, the ignition operation is easier to operate, and a plurality of moxa cones can be ignited at one time. As shown in FIG. 3, a dust collecting tray 3 may be further provided on the piercing member 2, and the dust collecting tray 3 is a disk structure and is located at the middle of the piercing member 2. The ash receiving support 3 is used for collecting the moxa ash generated by combusting moxa and preventing the moxa ash from scattering to pollute the working environment or accidentally injure operators.

Second embodiment, as shown in fig. 4 and 5, the moxa cone perforating device of the present embodiment includes a base 1 and a plurality of perforating rods 2 disposed on the base 1, the base 1 is a circular chassis, and the perforating rods 2 are disposed on the base 1. Piercing member 2 is connected with base 1 through a hinge structure, and the hinge structure includes rotating pin 23 arranged on piercing member 2 and hinge seat 15 arranged on base 1, and hinge seat 15 is provided with hinge hole 151 for rotating pin 23 to insert. In which rotation pin 23 of piercing member 2, located at the edge of base 1, is located in the middle of piercing member 2, i.e. in the middle of piercing member 2 is hinged to base 1 by rotation pin 23. In this case, when piercing cylinder 2 located at the edge of base 1 is in the positioning state, the portion of piercing cylinder 2 located below base 1 can support the moxa column perforating device, thereby acting as a support leg of the moxa column perforating device, avoiding base 1 from directly contacting with the outside, and reducing the heat conduction of the moxa column perforating device with the outside; simultaneously, the moxa cone perforating device is convenient to place. The positioning mechanism and the structure of piercing member 2 described in the first embodiment are equally applicable to this embodiment and will not be described again.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. All modifications, equivalents, improvements and the like which come within the spirit and principle of the invention are intended to be included within the scope of the invention.

Claims (8)

1. A moxa column perforating device comprises a base and a plurality of perforating rods arranged on the base, wherein the perforating rods are used for perforating moxa columns, and the moxa column perforating device is characterized in that the perforating rods are rotatably connected with the base, and a positioning mechanism used for limiting the rotating positions of the perforating rods is arranged between the perforating rods and the base; and is

The heating wire is wound on the piercing post and is electrically connected with a power supply.

2. The moxa cone perforating device according to claim 1, wherein the perforating rod is rotatably connected to the base by a hinge structure, the hinge structure comprises a rotating pin provided on the perforating rod and a hinge seat provided on the base, and the hinge seat is provided with a hinge hole into which the rotating pin is inserted.

3. The moxa cone perforating device according to claim 2, wherein the positioning mechanism comprises a slot provided on the hinge base and an elastic protrusion provided on the perforating rod and engaged with the slot, wherein the elastic protrusion limits the rotation of the perforating rod when the elastic protrusion is engaged with the slot.

4. The moxa cone perforating device of claim 2, wherein the rotation pin is located at the bottom end or in the middle of the perforating rod.

5. The moxa cone perforating device of any one of claims 1 to 4, wherein the surface of the perforating rod is provided with a thread structure.

6. The moxa cone perforating device according to claim 5, wherein the piercing member is provided with a dust receiving tray, and the dust receiving tray is of a disk structure and is located at the middle or lower part of the piercing member.

7. The moxa column perforating device of claim 1, wherein the base comprises a base, a support platform, and a support post connected between the base and the support platform, and the perforating rod is disposed on the support platform.

8. The moxa cone perforating device of claim 7, wherein the support pole is provided with a handle portion for holding, and the handle portion is provided with anti-skid threads or anti-skid protrusions.

Images