CN211976929U - Novel heating tube structure for ceramic igniter - Google Patents

Abstract

The utility model provides an used novel heating tube structure of ceramic igniter, including some firearm handle, one side of some firearm handle is provided with the press button to the upper end fixedly connected with heating pipe of some firearm handle, the inside of heating pipe is provided with the gas ignition pipe of being connected with the inside ignition of some firearm handle and air feeder between two parties, the terminal fixed of heating pipe is equipped with thermal-insulated lag, the inner wall of thermal-insulated lag constitutes hollow state with the surface of heating pipe, the top of thermal-insulated lag is seted up in the round port with the heating pipe is concentric, the activity is provided with movable end in the round port of the top of thermal-insulated lag to movable end is that the end surface of heating pipe is located to the damping movable sleeve. Can be with high temperature parts income fall thermal-insulated lag 5 in, can effectively avoid some firearm to place improperly, lead to scalding article or lighting combustible substance, increase the security for outdoor fire.

Description

Novel heating tube structure for ceramic igniter

Technical Field

The utility model relates to an some firearm safety structure field especially relates to a used novel heating tube structure of ceramic point firearm.

Background

The igniter can provide enough energy to ignite the pulverized coal and oil (gas) fuel at a moment and can stabilize the flame. The household stove is mainly applied to ignition and manufacturing of household stoves, the using environment is simpler than that of catering stoves, an igniter with a long pipe is used in many restaurants at present, in the life, the igniter carried by the stove is often not fired, and by means of the igniter, for safety, the pulse igniter is mostly adopted, but now many young people who like field barbecue are obviously unable to use the pulse igniter for firing the carbon of the oven in the field, and still need to use the traditional igniter for firing the gas by pressing ceramic spark which can fire the open fire, because the charcoal is ignited for a long time, the tail end of the heating pipe is in contact with fire for a long time to cause burning red, the temperature is very high, heat cannot be quickly dissipated after the heating pipe is used, articles can be scalded or a human body can be scalded when the heating pipe is placed in a mess, and inflammable substances can be ignited to cause fire in serious conditions.

Accordingly, there is a need for a novel heater tube structure for a ceramic igniter that addresses the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an used novel heating tube structure of ceramic igniter has solved the end of heating pipe because long-time and fire contact, lead to burning red, and the temperature is very high, and the heat can not distribute fast yet after finishing using, and indiscriminate the placing probably scalds article or scalds the human body, and the condition is serious still can ignite the problem that the inflammable matter leads to the conflagration.

In order to solve the technical problem, the utility model provides a novel heating tube structure for a ceramic igniter, which comprises an igniter handle, wherein one side of the igniter handle is provided with a press button, the upper end of the igniter handle is fixedly connected with a heating tube, a gas ignition tube connected with an ignition device and an air supply device inside the igniter handle is arranged in the middle of the heating tube, the tail end of the heating tube is fixedly provided with a heat insulation protective sleeve, the inner wall of the heat insulation protective sleeve and the surface of the heating tube form a hollow state, the upper part of the heat insulation protective sleeve is arranged at a round port concentric with the heating tube, a movable end head is movably arranged in the square round port of the heat insulation protective sleeve, the movable end head is a damping movable sleeve arranged on the surface of the end head of the heating tube, the two sides of the movable end head are fixedly connected with sliding rods, and the sliding rods are movably penetrated through the outside through notches, the heat-insulating protective sleeve is characterized in that a heat-conducting pipe is fixedly arranged in the heat-insulating protective sleeve and below the movable range of the movable end, a plurality of radiating fins are arranged on the surface of the heat-conducting pipe, and the upper portion of the heat-conducting pipe is connected with the movable end through a telescopic heat-conducting sleeve.

Preferably, elastic protruding round grains are arranged on two sides of the surface of the heating pipe and below the movable end, and clamping holes matched with the elastic protruding round grains are formed in two sides of the movable end.

Preferably, the plurality of radiating fins are sequentially arranged from the surface of the heat conducting pipe at equal intervals from top to bottom, and the radiating fins are in a circular sheet shape.

Preferably, the telescopic heat-conducting sleeve is formed by sleeving two sleeves, and the sleeves are made of copper.

Preferably, the heat conducting pipe is aligned with a notch at the side of the heat insulating protective sleeve.

Preferably, the sliding rod is a glass fiber rod.

Compared with the prior art, the utility model provides a used novel heating tube structure of ceramic point firearm has following beneficial effect:

the utility model provides an used novel heating tube structure of ceramic igniter can fall thermal-insulated lag with high temperature component income, can effectively avoid some firearm to place improperly, leads to scalding article or lighting the combustible substance, increases the security for outdoor fire.

The utility model provides an used novel heating tube structure of ceramic igniter removes the thermal-insulated lag of falling through promoting the slide bar with the movable end for block hole and elastic bulge circle grain carry out the block, increase damping nature, prevent that the movable end from not exposing easily.

Drawings

Fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

fig. 2 is an enlarged view of a portion of fig. 1.

Reference numbers in the figures: 1. igniter handle, 2, press button, 3, heating pipe, 4, gas ignition pipe, 5, thermal-insulated lag, 6, activity end, 7, slide bar, 8, heat pipe, 9, fin, 10, flexible heat-conducting sleeve, 11, elastic protruding round grain, 12, card hole.

Detailed Description

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

Please refer to fig. 1 and fig. 2 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of the present invention; fig. 2 is an enlarged view of a portion of fig. 1. A novel heating pipe structure for a ceramic igniter comprises an igniter grip 1, wherein one side of the igniter grip 1 is provided with a press button 2, the upper end of the igniter grip 1 is fixedly connected with a heating pipe 3, a gas ignition pipe 4 connected with an ignition device and an air supply device inside the igniter grip 1 is arranged in the middle of the inside of the heating pipe 3, the tail end of the heating pipe 3 is fixedly additionally provided with a heat insulation protective sleeve 5, the inner wall of the heat insulation protective sleeve 5 and the surface of the heating pipe 3 form a hollow state, a round port concentric with the heating pipe 3 is arranged above the heat insulation protective sleeve 5, a movable end 6 is movably arranged in the square round port of the heat insulation protective sleeve 5, the damping of the movable end 6 is movably sleeved on the surface of the end of the heating pipe 3, the two sides of the movable end 6 are fixedly connected with sliding rods 7, and the sliding rods 7 penetrate through the outside through the movable notches arranged on the two sides of the heat, a heat conduction pipe 8 is fixedly arranged in the heat insulation protective sleeve 5 below the movable range of the movable end 6, a plurality of radiating fins 9 are arranged on the surface of the heat conduction pipe 8, and the upper part of the heat conduction pipe 8 is connected with the movable end 6 through a telescopic heat conduction sleeve 10.

The below that the surperficial both sides of heating pipe 3 are located movable end 6 sets up elastic bulge circle grain 11, and the both sides of movable end 6 offer with the card hole 12 of the installation of elastic bulge circle grain 11 matching, what this kind of design adopted is the principle of flexible umbrella pole among the prior art, carries out the block through setting up card hole 12 and elastic bulge circle grain 11 at the junction and increases the damping nature, can keep fixed under the condition of not exerting oneself.

The plurality of radiating fins 9 are sequentially arranged from top to bottom at equal intervals on the surface of the heat conducting pipe 8, and the radiating fins 9 are in a disc shape, so that the contact surface with air can be increased, and the radiating is facilitated.

The telescopic heat-conducting sleeve 10 is formed by sleeving two sleeves, the sleeves are made of copper, the copper has good heat conductivity, and the telescopic heat-conducting sleeve 10 can adapt to the movable end head 6 to move up and down to be telescopic.

The notch of heat pipe 8 and thermal-insulated lag 5 side aligns, and the notch is in external intercommunication, does benefit to the circulation of air, and the heat pipe 8 of being convenient for carries out the heat exchange to external air, increases the radiating efficiency.

The sliding rod 7 is made of a glass fiber rod, the glass fiber is an inorganic non-metallic material with excellent performance and is various, and the sliding rod 7 has the advantages of being good in insulativity, strong in heat resistance, good in corrosion resistance and high in mechanical strength, and the glass fiber is usually used as a reinforcing material, an electric insulating material and a heat insulation material in a composite material, so that hands are not scalded when the sliding rod 7 is pushed.

The utility model provides an used novel heating tube structure's of ceramic point firearm theory of operation as follows: when the ignition is carried out in the field, the igniter handle 1 is held by hand, the press button 2 is pressed to ignite the tail end of the gas ignition tube 4, the steps are all common use methods in the prior art, the flame is ejected from the movable end head 6, after the ignition is finished, the temperature of the movable end head 6 is higher, the movable end 6 is moved into the heat insulation protective sleeve 5 by pushing the sliding rod 7, so that the clamping hole 12 and the elastic convex round particle 11 are clamped, the damping property is increased, the movable end 6 is prevented from being exposed easily, the high temperature on the movable end 6 can be radiated through the heat conduction pipe 8, thus, the high-temperature components can be put into the heat-insulating protective sleeve 5, the phenomenon that the igniter is improperly placed to scald articles or ignite combustible materials can be effectively avoided, the safety of outdoor fire generation is improved, when the next time the fire needs to be started, the movable end head 6 can be pushed out through the sliding rod 7.

Compared with the prior art, the utility model provides a used novel heating tube structure of ceramic point firearm has following beneficial effect:

the utility model provides an used novel heating tube structure of ceramic igniter can fall thermal-insulated lag 5 with high temperature component income, can effectively avoid some firearm to place improperly, leads to scalding article or lighting the combustible substance, increases the security for outdoor fire.

The utility model provides an used novel heating tube structure of ceramic igniter is through promoting slide bar 7 and will move movable end 6 and remove and fall thermal-insulated lag 5 for block is carried out to card hole 12 and elastic bulge circle grain 11, increases the damping nature, prevents that movable end 6 from not exposing easily.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an used novel heating tube structure of ceramic igniter, includes some firearm handle (1), one side of some firearm handle (1) is provided with press button (2) to the upper end fixedly connected with heating pipe (3) of some firearm handle (1), the inside of heating pipe (3) is provided with gas ignition pipe (4) of being connected with some firearm handle (1) inside ignition and air feeder between two parties, its characterized in that: the heat pipe is characterized in that a heat insulation protective sleeve (5) is fixedly arranged at the tail end of the heating pipe (3), the inner wall of the heat insulation protective sleeve (5) and the surface of the heating pipe (3) form a hollow state, a round port concentric with the heating pipe (3) is arranged above the heat insulation protective sleeve (5), a movable end (6) is movably arranged in the round port above the heat insulation protective sleeve (5), the movable end (6) is movably sleeved on the surface of the end of the heating pipe (3) in a damping mode, sliding rods (7) are fixedly connected to two sides of the movable end (6), the sliding rods (7) movably penetrate through the outside through notches formed in two sides of the heat insulation protective sleeve (5), a heat conduction pipe (8) is fixedly arranged below the movable range of the movable end (6) in the heat insulation protective sleeve (5), and a plurality of cooling fins (9) are arranged on the surface of the heat conduction pipe (8), the upper part of the heat conducting pipe (8) is connected with the movable end (6) through a telescopic heat conducting sleeve (10).

2. The novel heater tube structure for a ceramic igniter as claimed in claim 1, wherein: elastic protruding round grains (11) are arranged on the two sides of the surface of the heating pipe (3) and below the movable end head (6), and clamping holes (12) matched with the elastic protruding round grains (11) are formed in the two sides of the movable end head (6).

3. The novel heater tube structure for a ceramic igniter as claimed in claim 1, wherein: the plurality of radiating fins (9) are sequentially arranged from the surface of the heat conduction pipe (8) to the bottom at equal intervals, and the radiating fins (9) are in a disc shape.

4. The novel heater tube structure for a ceramic igniter as claimed in claim 1, wherein: the telescopic heat-conducting sleeve (10) is formed by sleeving two sleeves, and the sleeves are made of copper.

5. The novel heater tube structure for a ceramic igniter as claimed in claim 1, wherein: the heat conduction pipe (8) is aligned with a notch on the side edge of the heat insulation protective sleeve (5).

6. The novel heater tube structure for a ceramic igniter as claimed in claim 1, wherein: the sliding rod (7) is a glass fiber rod.

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