CN217067036U - Thermal-insulated installation cover and moxibustion instrument - Google Patents

Abstract

The utility model provides a separate heat exchanger and moxibustion instrument, include the separate heat exchanger body of being connected with the combustion chamber, separate the heat exchanger body and include: an opening; the smoke outlet is arranged on the heat insulation cover body; the first connecting part is arranged on the heat shield body; the second connecting portion are arranged on the combustion bin. Through the cooperation of first connecting portion and second connecting portion so that this body coupling of heat shield on the combustion chamber, the oil smoke that the moxa stick burning produced is discharged from the smoke outlet. Moxa stick combustion temperature in the combustion chamber is stable, and the heat of its production can be attached to on this inner wall of heat shield body, and the heat shield body adopts high temperature resistant non-metallic material to make the heat can not be attached to the combustion chamber inner wall, so that the combustion chamber can not gather the heat and produce the deformation to the shell production. When first connecting portion and second connecting portion separation, thereby can dismantle the oil smoke on the clearance separates heat exchanger body inner wall with the cleanness of guaranteeing heat exchanger body inner wall with separating the heat exchanger body fast with the heat exchanger body.

Description

Thermal-insulated installation cover and moxibustion instrument

Technical Field

The utility model relates to a moxibustion instrument technical field particularly, relates to a thermal-insulated installation cover and moxibustion instrument.

Background

Moxa-moxibustion is a moxa-moxibustion material made of folium artemisiae argyi, generally, moxa wool is wrapped by cotton paper to make cylindrical moxa sticks, and the generated moxa heat stimulates acupuncture points or characteristic parts on the body surface to stimulate the movement of meridian qi to adjust the physiological and biochemical functions of human body disorder, thereby achieving the purposes of preventing and treating diseases. Among the prior art, adopt the moxibustion instrument to carry out the naked light moxa-moxibustion basically, the moxibustion instrument includes the shell, is equipped with the combustion chamber in the shell, and the combustion chamber of naked light moxa-moxibustion is made for metal material usually, adopts the whole combustion chamber of non-metal material processing higher price and processing difficulty, and the temperature that is close to moxa stick combustion end position in addition is up to 400 ~ 500 ℃, needs to adopt high temperature resistant casing to protect to the shell that makes and is close to moxa stick combustion end position does not produce the deformation.

Therefore, the problem to be solved is to prevent the shell close to the burning end of the moxa stick from being deformed.

SUMMERY OF THE UTILITY MODEL

The utility model solves the problem that how to lead the shell close to the burning end of the moxa stick not to deform.

In order to solve the above problem, the utility model provides a thermal-insulated installation cover, include the thermal-insulated cover body of being connected with the combustion chamber, the thermal-insulated cover body includes: the opening is formed in the heat shield body; the smoke outlet is arranged on the heat insulation cover body; the first connecting part is arranged on the heat shield body; the second connecting part is arranged on the combustion bin; wherein, the first connecting part and the second connecting part are connected or separated so as to connect or separate the heat shield body and the combustion chamber.

Compared with the prior art, the technical effect that this scheme of adoption can reach: through the cooperation of first connecting portion and second connecting portion so that this body coupling of heat shield on the combustion chamber, the oil smoke that the moxa stick burning produced is discharged from the smoke outlet. Moxa stick combustion temperature in the combustion chamber is stable, and the heat of its production can be attached to on this inner wall of heat shield body, and the heat shield body adopts high temperature resistant non-metallic material to make the heat can not be attached to the combustion chamber inner wall, so that the combustion chamber can not gather the heat and produce the deformation to the shell production. When first connecting portion and second connecting portion separation, thereby can dismantle the oil smoke on the clearance separates heat exchanger body inner wall with the cleanness of guaranteeing heat exchanger body inner wall with separating the heat exchanger body fast with the heat exchanger body.

In this embodiment, the heat shield body includes a heat-insulating mounting base, and the first connecting portion is disposed on the heat-insulating mounting base; the heat shield shell is fixedly connected with the heat shield mounting base; wherein, the heat shield casing passes through first connecting portion with thermal-insulated installation base and is connected.

The technical effect who adopts behind this technical scheme does, separates the heat exchanger body and adopts the setting of thermal-insulated installation base and heat exchanger casing, separates the heat exchanger casing and adopts high temperature resistant non-metallic material to make to the heat can not be attached to the combustion chamber inner wall, so that the combustion chamber can not gather the heat and produce the deformation to the shell, and the setting of first connecting portion is so that separates the heat exchanger casing and separates heat installation base fixed connection.

In this embodiment, the moxa stick burning end passes through the opening such that the heat shield body surrounds the moxa stick burning end.

The technical effect after adopting this technical scheme does, and the heat that the moxa stick burning in the combustion chamber produced can be attached to on heat exchanger body inner wall, and heat exchanger body adopts high temperature resistant non-metallic material to make to the heat can not be attached to the combustion chamber inner wall, so that the combustion chamber can not produce to the shell and gather the heat and produce the deformation.

In this embodiment, the number of smoke outlets is a plurality of, and arranges and sets up with first connecting portion in the lateral wall circumference of following the heat exchanger body.

The technical effect after adopting this technical scheme does, the setting of a plurality of outlet smokes is favorable to the emission of the oil smoke that the moxa stick burning produced, and the outlet smokes sets up with first connecting portion is crisscross so that the oil smoke does not contact with first connecting portion, and has guaranteed the compactedness of structure.

In this embodiment, the first connecting portion includes a plurality of spring plungers, and the second connecting portion includes the spacing hole that cooperates with the spring plunger, and a plurality of spring plungers are installed along the circumference of heat shield casing.

The technical effect after adopting this technical scheme does, the cooperation of spring plunger and spacing hole can make the heat exchanger body relatively tighter install on the combustion chamber, makes the heat exchanger body can not produce and rocks, has guaranteed that the installation of heat exchanger body is firm.

In this embodiment, thermal-insulated installation base has seted up the through-hole, is equipped with the recess of holding spring plunger in the heat shield casing, and the through-hole setting is passed to spring plunger's one end.

The technical effect after adopting this technical scheme does, for the convenience of the installation of spring plunger, sets up the recess in the heat shield casing, through putting into spring plunger to the recess in order to accomplish spring plunger's installation.

In this embodiment, first connecting portion include a plurality of spouts, and a plurality of spouts distribute along the circumference of thermal-insulated installation base, and second connecting portion include a plurality of spliced poles, and the bottom of spliced pole is provided with the spiro union portion, and the spliced pole passes the spout so that separate heat exchanger body and combustion bin and connect.

The technical effect who adopts behind this technical scheme does, the effect of spliced pole so that to separate the connection that heat exchanger body and combustion chamber can be better, when setting up convenient to detach heat exchanger body of spout, dismantles through rotating heat exchanger body, but the spliced pole spout slides in order to guarantee the feasibility of dismantling this moment.

In this embodiment, the spout includes round head portion and arc portion, and round head portion is connected with the arc portion.

The technical effect who adopts behind this technical scheme does, when this body coupling of heat exchanger is on the combustion chamber, the spliced pole passes the button head setting, then slides in the arc portion to make the spliced pole be difficult for deviating from in the spout, when the heat exchanger body need be dismantled from the combustion chamber, the spliced pole slides in the arc portion so that the spliced pole moves towards the button head, and the spliced pole can be followed the button head and deviate from.

In this embodiment, the width of the round head is greater than that of the arc-shaped part, the diameter of the connecting column is smaller than that of the screw head part, and the diameter of the screw head part is smaller than that of the round head part.

The technical effect after the technical scheme is adopted is that the diameter of the screw head part is smaller than the width of the round head part in order to facilitate the connection column and the screw head part to pass through the round head part; simultaneously, for the convenience spliced pole slides in the spout when separating heat exchanger body and dismantling, the width that so set up round head is greater than the width of arc portion, and the diameter of spliced pole is less than the diameter of spiral shell head portion.

In this embodiment, a moxibustion instrument is provided that includes a thermally insulated mounting shield.

Drawings

FIG. 1 is a schematic structural view of the heat shield of the present invention;

FIG. 2 is a schematic structural view of the top view of FIG. 1;

FIG. 3 is a schematic view of the position of the limiting hole of the present invention;

FIG. 4 is a schematic view of the thermal shield of the present invention installed on the moxibustion instrument;

FIG. 5 is a schematic structural view of the thermal shield of the present invention after being detached from the moxibustion instrument;

fig. 6 is a schematic sectional view of a moxibustion instrument of the present invention.

Fig. 7 is an enlarged view of a point a in fig. 5.

Description of reference numerals: the heat shield comprises a heat shield body 100, an opening 101, a smoke outlet 102, a heat shield mounting base 103, a heat shield shell 104, a spring plunger 210, a limiting hole 310, a shell 400, a combustion chamber 410, a sliding groove 500, a round head portion 510, an arc portion 520, a connecting column 600, a screw head portion 610, a first connecting portion 700 and a second connecting portion 800.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, 2, and 4, a thermal shield assembly is provided for a first embodiment of the present invention, including a thermal shield body 100 connected to a combustion chamber 410, the thermal shield body 100 including: an opening 101, the opening 101 being provided in the heat shield body 100; a smoke outlet 102, wherein the smoke outlet 102 is arranged on the heat shield body 100; a first connection part 700, wherein the first connection part 700 is arranged on the heat shield body 100; the second connecting part 800, the second connecting part 800 is arranged on the combustion bin 410; wherein the first connection portion 700 and the second connection portion 800 are connected or separated to connect or separate the heat shield body 100 and the combustion chamber 410.

In this embodiment, the combustion chamber 410 is disposed in the housing 400 of the moxibustion instrument in the prior art, the combustion chamber 410 is made of a metal material, in fig. 6, the combustion end of the moxa roll is located at the lower position of the combustion chamber 410, and the heat shield body 100 is also disposed at the lower position of the combustion chamber 410, so that the combustion temperature of the moxa roll in the combustion chamber 410 is stable, the heat generated by the combustion chamber can be attached to the inner wall of the heat shield body 100, and the heat shield body 100 is made of a high temperature resistant non-metal material, so that the heat cannot be attached to the inner wall of the combustion chamber 410, and the combustion chamber 410 cannot generate heat accumulation to the housing 400 and deform.

When the moxa roll burns, the oil smoke that produces is discharged through the oil-out to guarantee that the oil smoke can not be too much piling up at heat exchanger body 100 lateral wall, can guarantee to separate heat exchanger body 100 inner wall and keep relative clean state.

For the convenience of heat shield body 100 detachable installation in the lower part position of combustion chamber 410, so set up first connecting portion 700 and second connecting portion 800, through the effect of first connecting portion 700 and second connecting portion 800, can make heat shield body 100 quick detachable connect in the lower part of combustion chamber 410, first connecting portion 700 and second connecting portion 800 can be the part of common detachable connection mode among the prior art, if adopt the buckle to connect, then first connecting portion 700 and second connecting portion 800 can be the buckle and with buckle complex recess. If a magnetically detachable connection is used, the first connection part 700 and the second connection part 800 may be a magnetic block and a magnetic block.

The opening 101 is shown in fig. 1 and 2, so that the moxa roll and the combustion chamber 410 can pass through the opening, and the heat shield body 100 can surround the combustion end of the moxa roll, so that the heat generated by the combustion of the moxa roll can not adhere to the inner wall of the combustion chamber 410, and the combustion chamber 410 can not generate heat accumulation to the casing 400 to cause deformation.

Referring to fig. 1, 2, and 4, the heat shield body 100 includes a heat insulating mounting base 103, and a first connection portion 700 is provided on the heat insulating mounting base 103; the heat shield shell 104 is fixedly connected with the heat shield mounting base 103; the heat shield case 104 and the heat shield mounting base 103 are connected by a first connection portion 700.

In the above embodiment, the heat shield body 100 is composed of the heat shield mounting base 103 and the heat shield shell 104, the heat shield mounting base 103 is an annular structure as a whole, and a circle of groove is formed in an inner ring of the heat shield mounting base 103, so that the tightness of the fit with the combustion chamber 410 can be increased. The heat shield shell 104 is a hollow annular shell made of a high temperature resistant non-metallic material so that heat does not adhere to the inner wall of the combustion chamber 410. The first connecting portion 700 is used to connect the heat shield shell 104 and the heat shield mounting base 103, so that when the heat shield body 100 is in use, the heat shield shell 104 and the heat shield mounting base 103 are kept in a relatively stable and firm state, and a better heat insulation effect can be achieved.

Referring to fig. 1, 6, the moxa stick burning end passes through the opening 101 such that the heat shield body 100 surrounds the moxa stick burning end.

In this embodiment, the burning end of the moxa stick passes through the opening 101 to reach the position where the heat shield body 100 surrounds the burning end of the moxa stick, so that the heat generated by the burning of the moxa stick is not attached to the inner wall of the burning chamber 410, and the burning chamber 410 is not deformed due to the heat accumulated in the housing 400.

Referring to fig. 1 and 4, the smoke outlet 102 is plural in number, and is circumferentially arranged along the side wall of the heat shield body 100 and staggered with the first connecting portion 700.

The arrangement of the smoke outlets 102 is beneficial to the emission of oil smoke generated by the burning of the moxa roll, the smoke outlets 102 and the first connecting parts 700 are arranged in a staggered manner so that the oil smoke does not contact with the first connecting parts 700, and the compactness of the structure is ensured.

Referring to fig. 1 and 3, the first connection part 700 includes a plurality of spring plungers 210, the second connection part 800 includes a position limiting hole 310 engaged with the spring plungers 210, and the plurality of spring plungers 210 are installed along the circumferential direction of the heat shield case 104.

In this embodiment, the first connecting portion 700 is the spring plunger 210, and the arrangement of the spring plunger 210 can enable the heat shield body 100 to be relatively tightly installed on the combustion chamber 410, so that the heat shield body 100 does not shake, and the heat shield body 100 is ensured to be stably installed. The spring plunger 210 includes a base portion and a plunger portion, the plunger portion protrudes from the base portion, in the first embodiment, the first connecting portion 700 is the plunger portion in the spring plunger 210, the second connecting portion 800 is the limiting hole 310, and the plunger portion enters the limiting hole 310 to enable the first connecting portion 700 and the second connecting portion 800 to be matched with each other, so that the heat shield body 100 can be relatively tightly installed at the lower portion of the combustion chamber 410.

In the second embodiment, the first connecting portion 700 is a base portion, and is disposed in the heat shield body 100 through the base portion, so as to connect the heat shield case 104 and the heat shield mounting base 103.

The stroke of the spring plunger 210 may preferably be 3 mm.

Referring to fig. 1 and 2, a through hole is formed in the thermal insulation mounting base 103, a groove for accommodating the spring plunger 210 is formed in the thermal insulation cover shell 104, and one end of the spring plunger 210 penetrates through the through hole.

In this embodiment, in order to provide an installation space for the spring plunger 210, a through hole is formed in the thermal insulation mounting base 103, a groove for accommodating the spring plunger 210 is formed in the thermal insulation housing 104, and the spring plunger 210 penetrates through the through hole and is placed into the groove of the thermal insulation housing 104, so that when the spring plunger 210 is installed, the thermal insulation housing 104 and the thermal insulation mounting base 103 can be connected through the action of the base portion in the spring plunger 210, and the thermal insulation housing 104 and the thermal insulation mounting base 103 are stably connected.

Referring to fig. 1, 2 and 7, the first connection part 700 includes a plurality of sliding grooves 500, the plurality of sliding grooves 500 are distributed along the circumferential direction of the heat insulation mounting base 103, the second connection part 800 includes a plurality of connection columns 600, the bottom ends of the connection columns 600 are provided with screw head parts 610, and the connection columns 600 penetrate through the sliding grooves 500 to connect the heat insulation cover body 100 and the combustion chamber 410.

In this embodiment, the connection column 600 is used for better connecting the heat shield body 100 and the combustion chamber 410, and when the chute 500 is arranged to facilitate the detachment of the heat shield body 100 from the combustion chamber 410, the heat shield body 100 is rotated by rotating the heat shield body 100, so that the connection column 600 slides in the chute 500, the spring plunger 210 is no longer matched with the limiting hole 310, and the heat shield body 100 is separated from the combustion chamber 410 under the action of the spring plunger 210.

Referring to fig. 1 and 2, the chute 500 includes a round head portion 510 and an arc portion 520, and the round head portion 510 is connected to the arc portion 520.

In this embodiment, when the heat shield body 100 is connected to the combustion chamber 410, the connecting column 600 passes through the round head 510 and then slides in the arc portion 520, so that the connecting column 600 is not easily separated from the sliding groove 500, and when the heat shield body 100 needs to be detached from the combustion chamber 410, the connecting column 600 slides in the arc portion 520 to move the connecting column 600 towards the round head 510, and the connecting column 600 can be separated from the round head 510.

Referring to fig. 1 and 2, the width of the round head 510 is greater than that of the arc part 520, the diameter of the connection column 600 is smaller than that of the screw head 610, and the diameter of the screw head 610 is smaller than that of the round head 510.

To facilitate the connection of the post 600 and the screw head 610 through the round head 510, the diameter of the screw head 610 is smaller than the width of the round head 510; meanwhile, in order to facilitate the connecting column 600 to slide in the sliding groove 500 when the heat shield body 100 is detached, the width of the round head portion 510 is larger than that of the arc portion 520, and the diameter of the connecting column 600 is smaller than that of the screw head portion 610.

Referring to fig. 2 and 7, the width of the round head 510 is D1 in the figure, the width of the arc 520 is D2 in the figure, the diameter of the connecting column 600 is D3 in the figure, and the diameter of the screw head 610 is D4 in the figure. Preferably, D1> D2; d3< D4; d4< D1, thus, D3< D1.

Referring to fig. 4, 5, 6 and 7, the present embodiment provides an moxibustion instrument including a heat insulating mounting cover. The moxibustion instrument comprises a shell 400, wherein the combustion chamber 410 is arranged in the shell 400, moxa sticks are placed in the combustion chamber 410, the combustion end of the moxa sticks is ignited through a fire source to realize the combustion of the moxa sticks, the heat insulation mounting cover is arranged at a position close to the combustion end of the moxa sticks, and the heat insulation mounting cover reduces the heat on the inner wall of the combustion chamber 410 so that the combustion chamber 410 cannot generate heat accumulation to the shell 400 to deform.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one of ordinary skill in the pertinent art without departing from the scope or spirit of the present invention, and the scope of the present invention is defined by the appended claims.

Claims (10)

1. A thermal shield mount comprising a thermal shield body (100) connected to a combustion bin (410), the thermal shield body (100) comprising:

an opening (101), wherein the opening (101) is arranged on the heat shield body (100);

a smoke outlet (102), wherein the smoke outlet (102) is arranged on the heat shield body (100);

a first connection portion (700), the first connection portion (700) being provided to the heat shield body (100);

a second connection portion (800), the second connection portion (800) being provided to the combustion chamber (410);

wherein the first connection portion (700) and the second connection portion (800) are connected or separated to connect or separate the heat shield body (100) and the combustion bin (410).

2. The heat shield mounting shroud of claim 1, wherein said heat shield body (100) comprises:

a heat insulation mounting base (103), the first connection portion (700) being provided to the heat insulation mounting base (103);

a heat shield shell (104), the heat shield shell (104) being fixedly connected with the heat shield mounting base (103);

wherein the heat shield shell (104) and the heat shield mounting base (103) are connected by the first connection portion (700).

3. The heat shield mounting cup of claim 1, wherein a moxa stick burning end passes through said opening (101) such that said heat shield body (100) surrounds the moxa stick burning end.

4. The heat shield mounting according to claim 1, wherein the smoke outlet (102) is plural in number and arranged circumferentially along a side wall of the heat shield body (100) and staggered from the first connection portion (700).

5. The heat shield mounting cup of claim 2, wherein said first connection portion (700) comprises a plurality of spring plungers (210), said second connection portion (800) comprises a retaining hole (310) engaged with said spring plungers (210), and said plurality of spring plungers (210) are mounted along a circumference of said heat shield shell (104).

6. The heat shield mounting according to claim 5, wherein the heat shield mounting base (103) is provided with a through hole, a groove for accommodating the spring plunger (210) is formed in the heat shield shell (104), and one end of the spring plunger (210) is arranged through the through hole.

7. The heat shield mounting according to claim 5, wherein the first connecting portion (700) comprises a plurality of sliding grooves (500), the plurality of sliding grooves (500) are distributed along the circumferential direction of the heat shield mounting base (103), the second connecting portion (800) comprises a plurality of connecting columns (600), the bottom ends of the connecting columns (600) are provided with screw portions (610), and the connecting columns (600) penetrate through the sliding grooves (500) to connect the heat shield body (100) and the combustion chamber (410).

8. The heat shield according to claim 7, wherein the chute (500) comprises a rounded head portion (510) and an arcuate portion (520), the rounded head portion (510) being connected to the arcuate portion (520).

9. The heat shield according to claim 8, wherein the width of the rounded head portion (510) is greater than the width of the arc portion (520), the diameter of the connecting column (600) is less than the diameter of the screw head portion (610), and the diameter of the screw head portion (610) is less than the width of the rounded head portion (510).

10. A moxibustion instrument comprising a thermally insulated mounting cup according to claims 1-9.

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