CN207561380U - A kind of device for flue-cured tobacco and fire-cured tobacco type electronic cigarette - Google Patents

Abstract

This application provides a kind of device for flue-cured tobacco and fire-cured tobacco type electronic cigarette, for the tobacco component after being heated in flue-cured tobacco cigarette in the withdrawal process of flue-cured tobacco cigarette, to be avoided to be sticked on heating parts, remain in device for flue-cured tobacco.The device for flue-cured tobacco that the application provides includes heating parts, slide block assembly and supports component, it supports component and is provided with hollow cavity, so that flue-cured tobacco cigarette is inserted in via the first accent of hollow cavity in hollow cavity, slide block assembly is provided with first through hole along device for flue-cured tobacco axial direction, and the internal perisporium of first through hole matches setting with heating the periphery wall shape of parts, in the case where heating parts pass through first through hole, slide block assembly is used to slide in the guiding for supporting effect lower edge heating parts of the second accent of hollow cavity.

Description

Tobacco curing device and tobacco curing type electronic cigarette

Technical Field

The application relates to the field of electronic cigarettes, in particular to a tobacco flue-curing device and a tobacco flue-curing type electronic cigarette.

Background

The flue-cured electronic cigarette is understood to be an electronic cigarette product which heats tobacco components in flue-cured tobacco cigarettes through a flue-curing machine to form smoke for a user to smoke.

In traditional flue-cured tobacco type electron cigarette, flue-cured tobacco cigarette inserts the installation position that is equipped with the heating portion subassembly on the flue-cured tobacco ware usually in order to accomplish the installation of flue-cured tobacco cigarette, and the back has been installed, and the heating portion subassembly can insert flue-cured tobacco cigarette, and the flue-cured tobacco ware can carry out the ohmic heating work of heating portion subassembly, heats flue-cured tobacco cigarette to form smog, supply the user to smoke.

However, in practical application, the tobacco components heated in the flue-cured tobacco cigarettes are easily adhered to the heating component, after the user sucks the smoke, the tobacco components are often adhered to the heating component and remained in the tobacco baking device when the flue-cured tobacco cigarettes are pulled out, and the user needs to frequently clean the tobacco components, so that the tobacco baking device is inconvenient and difficult to clean.

SUMMERY OF THE UTILITY MODEL

The application provides a tobacco flue-curing device and tobacco flue-curing type electron cigarette for at the tobacco flue-cured cigarette extraction in-process, avoid the tobacco composition after being heated in the tobacco flue-cured cigarette to glue on heating portion subassembly, remain in the tobacco flue-curing device.

This application is in the first aspect, a tobacco flue-curing device is provided, tobacco flue-curing device includes heating portion subassembly, slider component and support and hold the subassembly, it is provided with the cavity to support and hold the subassembly, so that flue-cured tobacco cigarette props up and inserts in locating the cavity via the first accent of cavity, it is provided with first through-hole to run through slider component along tobacco flue-curing device axial direction, and the internal perisporium of first through-hole matches the setting with the periphery wall shape of heating portion subassembly, under the condition that heating portion subassembly passed first through-hole, slider component was used for holding the effect in the support of the second accent of cavity and follows the direction slip of heating portion subassembly down.

Further, heating part subassembly includes electrode subassembly and heating member, and the heating member is inserted and is established and fix on the terminal surface of electrode subassembly orientation cavity body, and the heating member is connected with the electrode subassembly electricity to make at electrode subassembly for the heating member power supply, and the heating member inserts and establish under the condition that is arranged in the flue-cured tobacco cigarette in the cavity body, the heating member heats in order to generate smog for the flue-cured tobacco cigarette.

Further, the tobacco curing apparatus still includes the flexible subassembly of elasticity, the first end of the flexible subassembly supports with the terminal surface of heating portion subassembly orientation cavity, the second end of the flexible subassembly supports with the sliding block subassembly, so that the second chamber mouth of cavity supports and holds the sliding block subassembly and slide along the orientation heating portion subassembly direction, when making the heating member insert and establish in the flue-cured tobacco cigarette that is arranged in the cavity, the flexible subassembly is compression state, still when making the second chamber mouth of cavity break away from with the sliding block subassembly mutually, the flexible subassembly of elasticity is used for promoting the sliding block subassembly and slides along keeping away from heating portion subassembly direction.

Furthermore, the tobacco curing device further comprises a tobacco pipe sleeved on the peripheral wall of the abutting component, the tobacco pipe is provided with a first pipe orifice and a second pipe orifice which are communicated with each other along the axial direction of the tobacco curing device, the tobacco curing cigarette is used for being inserted into the hollow cavity through the first pipe orifice, and an electrode component is inserted into the second pipe orifice.

Furthermore, the heating part assembly also comprises a first bracket assembly, a second bracket assembly, a first fixed sleeve assembly and a second fixed sleeve assembly;

electrode subassembly includes the outer electrode, inner electrode and grommet, the first end of outer electrode is inserted and is established and be fixed with the inner electrode, insert and establish and be fixed with the grommet between outer electrode and the inner electrode, the second end of outer electrode is inserted and is established and be fixed with first bracket component, the second bracket component is pegged graft with first bracket component and is linked to each other, the heating member is located and is stretched out in the through-hole department of second bracket component on the first bracket component and follow, the second bracket component overcoat is equipped with first fixed sleeve subassembly, first fixed sleeve subassembly overcoat is equipped with the fixed sleeve subassembly of second, be equipped with the flexible subassembly of elasticity between first fixed sleeve subassembly and the fixed sleeve subassembly of second.

Furthermore, the elastic telescopic assembly comprises a spring, and the first fixed sleeve assembly is arranged in the spring;

or,

the plurality of groups of springs are arranged around the first fixed sleeve assembly.

Furthermore, at least one convex block or convex ring is arranged on the inner side of one end of the second fixing sleeve component, which is far away from the heating component, and the convex block is used for blocking the sliding block component so as to limit the maximum sliding position of the sliding block component in the direction away from the heating component;

the inner diameter of the raised ring is smaller than the diameter of the slider assembly to limit the maximum sliding position of the slider assembly in a direction away from the heating assembly.

Further, the diameter of the inner side of one end, away from the heating assembly, of the second fixing sleeve assembly is gradually reduced along the direction away from the heating assembly until the diameter of the second fixing sleeve assembly is smaller than that of the sliding block assembly, so that the maximum sliding position of the sliding block assembly in the direction away from the heating assembly is limited.

Furthermore, the heating element is of a sheet structure, and an acute angle is formed at the end part of the heating element.

Furthermore, one end of the heating part assembly, which deviates from the sliding block assembly, is provided with a first thread, the first thread is matched with a second thread of a lower half part assembly arranged on the tobacco curing device to fix the lower half part assembly, the lower half part assembly comprises a battery assembly and a control circuit, the battery assembly provides a working power supply for the heating part assembly and the control circuit, and the control circuit controls the electrifying heating work of the heating part assembly.

This application provides a flue-cured tobacco type electron cigarette in the second aspect, and flue-cured tobacco type electron cigarette includes that flue-cured tobacco props up and the flue-cured tobacco ware as that provides like above-mentioned first aspect, props up when installing in the flue-cured tobacco ware when flue-cured tobacco, and heating portion subassembly carries out the ohmic heating, and heating portion subassembly heating flue-cured tobacco props up, and flue-cured tobacco props up to be heated and forms smog and output.

According to the technical scheme, the embodiment of the application has the following advantages:

when the user extracts flue-cured tobacco cigarette from the tobacco roasting device, at first will insert the subassembly of holding that is equipped with flue-cured tobacco cigarette and extract, at its in-process, the sliding block subassembly can hold with the second chamber mouth counterbalance of cavity to along with supporting the pulling out and sliding of holding the subassembly, the heating member of heating element subassembly is extracted from flue-cured tobacco cigarette gradually, and along with the support of sliding block subassembly and the second chamber mouth of cavity, tobacco composition after being heated in the flue-cured tobacco cigarette is failed to glue on the heating member, glue on heating element subassembly promptly, remain in the tobacco roasting device. Then, the user can be simple extract flue-cured tobacco cigarette from the cavity body, accomplishes flue-cured tobacco cigarette's extraction, and the user need not frequently to clear up, and user experience is better.

Drawings

FIG. 1 is a schematic view of a partial structure of a tobacco curing apparatus according to an embodiment of the present application;

FIG. 2 is another schematic view of a partial structure of a tobacco curing apparatus according to an embodiment of the present application;

FIG. 3 is a schematic view of another embodiment of the present application;

FIG. 4 is a schematic view of another embodiment of the present application;

FIG. 5 is a schematic view of another embodiment of the present application;

FIG. 6 is a schematic view of another partial structure of the tobacco roaster according to the embodiment of the present application;

FIG. 7 is a partial schematic view of a heating element according to an embodiment of the present application;

FIG. 8 is a schematic structural view of the lower half assembly of the embodiment of the present application;

fig. 9 is a schematic structural diagram of a flue-cured electronic cigarette in the embodiment of the present application.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments.

The application provides a tobacco flue-curing device and tobacco flue-curing type electron cigarette for at the tobacco flue-cured cigarette extraction in-process, avoid the tobacco composition after being heated in the tobacco flue-cured cigarette to glue on heating portion subassembly, remain in the tobacco flue-curing device.

The following description begins with specific details of embodiments of the present application.

Referring to fig. 1, fig. 1 is a partial schematic structural view of a tobacco curing device according to an embodiment of the present application, which includes a heating part assembly 101, a slide block assembly 102, and a holding assembly 103, wherein the holding assembly 103 may be configured in a cylindrical shape, which is provided with a hollow structure to form a hollow cavity 1031, the shape of the hollow cavity 1031 is matched with the shape of the flue-cured tobacco cigarette, two ends of the hollow cavity 1031 are respectively provided with a first cavity 10311 and a second cavity 10312, so that the flue-cured tobacco can be inserted into the hollow chamber 1031 through the first opening 10311 of the hollow chamber 1031, a first through hole 1021 is arranged through the slide block assembly 102 along the axial direction of the tobacco curing device, and the inner peripheral wall of the first through hole 1021 is matched with the outer peripheral wall of the heating part assembly 101 in shape, the slider assembly 102 is adapted to slide along the guide of the heater assembly 102 by the abutting action of the second chamber 10312 of the hollow chamber 1031, with the heater assembly 101 passing through the first through hole 1021.

It can be understood that when the user pushes the supporting component 103 to support the sliding block component 102, and the sliding block component 102 slides towards the heating component 101 until being fixed, in the process, the heating element 1011 of the heating component 101 gradually extends into the hollow cavity 1031 of the supporting component 103, at this time, the user can insert the tobacco into the hollow cavity 1031 of the supporting component 103, and the heating element 1011 of the heating component 101 can be inserted into the tobacco. Of course, the user may also insert the flue-cured tobacco into the hollow chamber 1031 of the supporting component 103, and then push the supporting component 103 to support the sliding block component 102, and slide the sliding block component 102 towards the heating component 101, so that the heating component 1011 of the heating component 101 can be inserted into the flue-cured tobacco.

Subsequently, when the heating circuit on the heating member 1011 of heating element subassembly 101 carries out the ohmic heating, can heat flue-cured tobacco cigarette, its tobacco composition forms smog and output promptly after flue-cured tobacco cigarette is heated, and the user can carry out the smoking of smog.

When the user pulls out the flue-cured tobacco cigarette from the tobacco roasting device, the supporting component 103 inserted with the flue-cured tobacco cigarette is pulled out, in the process, the sliding block component 102 can be abutted against the second cavity 10312 of the hollow cavity 1031 and slides along with the pulling out of the supporting component 103, the heating component 1011 of the heating component 101 is gradually pulled out from the flue-cured tobacco cigarette, and along with the supporting of the sliding block component 102 and the second cavity 10312 of the hollow cavity 1031, the tobacco components heated in the flue-cured tobacco cigarette are not adhered to the heating component 1011, namely, adhered to the heating component 101 and remained in the tobacco roasting device. Then, the user can be simple with flue-cured tobacco cigarette pull out from the cavity body 1031, accomplish the pull out of flue-cured tobacco cigarette.

Through this setting, avoid flue-cured tobacco to glue on heating portion subassembly 101, remain in the tobacco flue-curing apparatus tobacco composition after being heated in cigarette greatly, the user need not frequently to clear up, and user experience is better.

In addition, it is worth mentioning that in practical application, if a user frequently cleans tobacco components stuck on the heating element 1011, the heating element 1011 is easily worn, and if the force application is too large, the heating element 1011 may be broken, so that after the application of the embodiment of the present application, the user does not need to frequently clean the heating element 1011, the wear and the breakage of the heating element 1011 can be avoided, and the service life of the heating element 1011 is ensured.

In practical applications, the tobacco flue-curing device may also have more optimized implementations so as to further enhance the user experience, and for understanding, the following description continues to list several preferred implementations for introduction.

First, in a possible implementation manner, the heating part assembly 101 includes an electrode assembly 1012 and a heating element 1011, the heating element 1011 is inserted and fixed on an end surface of the electrode assembly 1012 facing the hollow cavity 1031, and the heating element 1011 is electrically connected to the electrode assembly 1012, the electrode assembly 1012 includes a conductive medium such as copper or graphite, a battery assembly of the tobacco roaster may be electrically connected to the electrode assembly 1012 so as to supply power to the heating element 1011, and the heating element 1011 heats the tobacco rods to generate smoke in a case where the heating element 1011 is inserted into the tobacco rods located in the hollow cavity 1031.

Secondly, in another possible implementation manner, as shown in fig. 2 and fig. 3, which are schematic partial structural diagrams of the tobacco flue-curing device respectively, the tobacco flue-curing device further includes an elastic expansion component 104, the elastic expansion component 104 is made of an elastic material capable of expanding and contracting, or made of an elastic material capable of expanding and contracting and other materials not easy to deform, a first end of the elastic expansion component 104 abuts against an end surface of the heating part component 101 facing the hollow cavity 1031, and a second end of the elastic expansion component 104 abuts against the slider component 102.

On one hand, when the user pushes the abutting component 103, the second cavity 10312 of the hollow cavity 1031 abuts against the sliding block component 103 to slide along the direction towards the heating component 101, so that the heating component 1011 is inserted into the flue-cured tobacco rod in the hollow cavity 1031, and the elastic telescopic component 104 is in a compressed state; on the other hand will insert the subassembly 103 that holds that is equipped with the flue-cured tobacco cigarette and extract at the user, when making the second chamber 10312 of hollow cavity 1031 break away from with slider component 102 mutually, elastic telescopic component 104 can be used to push slider component 102 through self elasticity and continue to hold the second chamber 10312 of hollow cavity 1031 and slide along keeping away from heating unit 101 direction, slider component 102 supports the second chamber 10312 of hollow cavity 1031 always from this, when heating element 1011 of heating unit 101 extracts from the flue-cured tobacco cigarette, the tobacco composition after being heated in the flue-cured tobacco cigarette fails to continue to glue on heating element 1011 of heating unit 101.

Through the elastic telescopic component 104, the tobacco components heated in the flue-cured tobacco cigarettes can be greatly ensured not to be continuously adhered to the heating element 1011 of the heating component 101, and the buffer brought by the self elasticity can also prevent the user from exerting too much force when pushing the abutting component 103 to abut against the sliding block component 102.

Then, in another possible implementation manner, as shown in fig. 2 and fig. 3, the tobacco roasting device further includes a smoke tube 105 disposed around the outer peripheral wall of the abutting assembly 103, the abutting assembly 103 and the smoke tube 105 may form a sleeve structure, along the axial direction of the tobacco roasting device, the smoke tube 105 is provided with a first tube opening 1051 and a second tube opening 1052 which are communicated with each other, the first tube opening 1051 corresponds to the first cavity opening 10311, the second tube opening 1052 corresponds to the second cavity opening 10312, and the flue-cured tobacco cigarettes may be inserted into the hollow cavity 1031 through the first tube opening 1051 and the first cavity opening 10311.

When the abutting assembly 103 abuts against the slider assembly 102 and the slider assembly 102 is slid toward the heating part assembly 101 until being fixed, the electrode assembly 1012 is inserted into the second nozzle 1052 at this time.

It should be noted that the electrode assembly 1012 may be provided with a first thread, the inner wall of the smoke tube 105 may be provided with a second thread at the second tube port 1052, and the smoke tube 105 may be firmly fixed on the electrode assembly 1012 by the threaded connection of the first thread and the second thread, and is not easy to loosen and fall off.

In yet another possible implementation manner, as shown in the partial structural schematic diagrams of the tobacco flue-curing oven shown in fig. 2, 3 and 4, respectively, the heating part assembly 101 further includes a first bracket assembly 1013, a second bracket assembly 1014, a first fixing sleeve assembly 1015 and a second fixing sleeve assembly 1016.

The electrode assembly 1012 comprises an outer electrode 10121, an inner electrode 10122 and an insulating ring 10123, the inner electrode 10122 is fixedly inserted into a first end of the outer electrode 10121, the insulating ring 10123 is fixedly inserted between the outer electrode 10121 and the inner electrode 10122, the insulating ring 10123 is used for isolating the outer electrode 10121 from the inner electrode 10122 and avoiding short circuit, the outer electrode 10121 and the inner electrode 10122 are respectively connected with the positive electrode and the negative electrode of a battery of a tobacco flue-curing device so as to form a complete closed loop with a heating circuit on a heating element 1011 of the heating assembly 101, power is supplied to the heating circuit, and the heating circuit is electrified and heated.

A first bracket component 1013 is inserted and fixed at the second end 10121 of the external electrode, the second bracket component 1014 is connected with the first bracket component 1013 in an inserting way, the heating element 1011 is arranged on the first bracket component 1013 and extends out of the through hole of the second bracket component 1014, a first fixing sleeve component 1015 is sleeved outside the second bracket component 1014, a second fixing sleeve component 1016 is sleeved outside the first fixing sleeve component 1015, and an elastic telescopic component 104 is arranged between the first fixing sleeve component 1015 and the second fixing sleeve component 1016.

Further, in practical applications, the elastic expansion assembly 104 specifically includes a spring, and as shown in fig. 5, as another partial structural schematic diagram of the tobacco flue-curing device, the first fixing sleeve assembly 1015 is sleeved in the spring.

At this moment, the spring can be obtained for a spring or the coiling of many sub-springs, and under this setting, the spring only needs to overlap the spring directly and installs sliding component 102 on heating portion subassembly 101 in the installation, can accomplish the installation of spring, can install between heating portion subassembly 101 and sliding component 102 comparatively conveniently, the equipment of being more convenient for.

Alternatively, as shown in fig. 6, a partial structure of the tobacco roaster may be provided, in which a plurality of sets of springs are disposed around the first fixing sleeve assembly 1015.

Under this arrangement, the number of the springs can be adjusted so as to adjust the elastic force of the elastic telescopic assembly 104, for example, in the case of a small number of springs, the abutting assembly 103 can more easily press the slider assembly 102 to slide toward the heating part assembly 101, or when the second cavity 10312 of the hollow cavity 1031 is separated from the slider assembly 102, the elastic telescopic assembly 104 can push the slider assembly 102 to continuously and firmly abut against the second cavity 10312 of the hollow cavity 1031 by its own larger elastic force and slide along the direction away from the heating part assembly 101.

In yet another possible implementation manner, the inner side of the end of the second fixing sleeve assembly 1016 facing away from the heating assembly 101 is provided with at least one protruding block, which protrudes from the inner side of the end of the heating assembly 101 and can hinder the sliding of the slider assembly 102 in the second fixing sleeve assembly 1016 in the direction away from the heating assembly 101, so as to limit the maximum sliding position of the slider assembly 102 in the direction away from the heating assembly 101, where the slider assembly 1026 is maintained at the maximum sliding position due to the elastic force of the elastic telescopic assembly 104 when the sleeve assembly 104 is not installed, and the distance between the slider assembly 102 and the heating assembly 101 is the longest.

It will be appreciated that by limiting the maximum sliding position of the slider assembly 102 within the second fixed sleeve assembly 1016 in a direction away from the heating assembly 101, it is ensured that the slider assembly 102 will not slide out of the second fixed sleeve assembly 1016.

Under the arrangement, the heating element 1011 can be limited from extending out of the lowest position of the slider assembly 102, when the slider assembly 102 is in the maximum sliding position, if the heating element 1011 extends out of the slider assembly 102 at this time, it means that when the heating element 1011 is pulled out of the flue-cured tobacco cigarette, the pulling-out of the heating element 1011 may bring out tobacco components due to friction force between the heating element 1011 and tobacco components in the flue-cured tobacco cigarette. Therefore, when the slider assembly 102 is in the maximum sliding position described above, if the heating element 1011 does not protrude from the slider assembly 102, the sticking of tobacco components to the heating element 1011 can be further prevented.

Therefore, the maximum sliding position mentioned above is a position beyond the end of the heating member 1011 in the direction of the slider assembly 102 away from the heating part assembly 101, preferably, so that the heating member 1011 does not protrude from the slider assembly 102 when the slider assembly 102 is in the maximum sliding position.

In another possible implementation manner, in addition to the above-mentioned protrusion, the inner side of the second fixing sleeve assembly 1016 facing away from the end of the heating assembly 101 may be provided with a convex ring, the inner diameter of the convex ring is smaller than the diameter of the slider assembly 102, so as to limit the maximum sliding position of the slider assembly 102 in the direction away from the heating assembly 101, and the effect is similar to the above-mentioned protrusion, and detailed description is not repeated here.

In yet another possible implementation manner, an inside diameter of the end of the second fixing sleeve assembly 1016 facing away from the heating assembly 101 is gradually reduced to be smaller than a diameter of the slider assembly 102 in a direction facing away from the heating assembly 101, so as to limit a maximum sliding position of the slider assembly 102 in a direction facing away from the heating assembly 101, which is similar to the above-mentioned protruding block, and detailed description is omitted here.

In yet another possible implementation, as shown in fig. 7, which is a partial schematic view of the heating element 1011, the heating element 1011 has a sheet-like structure, and the end of the heating element 1011 forms an acute angle.

On one hand, the sheet-shaped structure can greatly reduce the resistance borne by the heating element 1011 when the heating element is inserted into a flue-cured tobacco cigarette, so that the heating element can be inserted into the flue-cured tobacco cigarette more laborsavingly; on the other hand the design of acute angle also can make heating member 1011 insert during flue-cured tobacco cigarette, the resistance that heating member 1011 received can be reduced greatly to the contact surface of its slope, but also can exert more concentrated, bigger effort to flue-cured tobacco cigarette to this can insert during flue-cured tobacco cigarette more laborsavingly.

In yet another possible implementation manner, a first thread is provided at an end of the heating component 101 away from the slider component 102, the first thread is matched with a second thread provided on a lower half component 106 of the tobacco curing device to fix the lower half component 106, the lower half component 106 includes a battery component 1061 and a control circuit 1062, the battery component 1061 provides a working power source for the heating component 101 and the control circuit 1062, and the control circuit 1062 controls the energization and heating operations of the heating component 101.

It can be understood that, by means of the screw connection, the lower half component 106 of the tobacco flue-curing device can be firmly installed and fixed below the heating component 101, and is not easy to loosen and fall off.

To further understand the lower assembly 106 mentioned above, the lower assembly 106 may include a battery assembly 1061 and a control circuit 1062, as shown in fig. 8 for the structure of the lower assembly 106.

The battery assembly 1061 generally includes a secondary battery, i.e., a rechargeable battery. The secondary battery may be specifically a nickel-metal hydride battery, a nickel-cadmium battery, a lead-acid battery (lead storage battery), or a lithium ion battery (including a lithium battery and a lithium ion polymer battery), or the like. Of course, the battery assembly 1061 may also include a primary battery, and is not limited herein. Battery assembly 1061 also includes a power transmission circuit (not explicitly shown in fig. 4) such that battery assembly 1061 provides operating power to power consuming components such as control circuit 1062 and heating element 101 via the power transmission circuit.

The control circuit 1062 may include a circuit board, an integrated circuit or a chip, etc. in addition to control circuits with the battery assembly 1061 and the heating unit assembly 103, so as to control the operations of the components of the cigarette roaster.

Further, the circuit board may be a Printed Circuit Board (PCB) having a simple process, an excellent performance-to-cost ratio, and a relatively stable structure, or may also be a flexible printed circuit board (FPC) having a high wiring density, a light weight, a thin thickness, a good bending property, and an easy installation, or may also be a rigid-flex circuit board combining structures and characteristics of the PCB and the FPC, and in practical applications, the specific structure is not limited herein.

Similar to the outer electrode 10121, inner electrode 10122 and insulating ring 10123 of the electrode assembly 1012, the end of the lower half subassembly 106 may also be provided with an outer electrode 1063, an inner electrode 1064 and an insulating ring 1065 for mating, which will not be described in detail herein.

When the end of the lower half sub-assembly 106 is mounted below the heating part assembly 101, the outer electrode 1063 and the inner electrode 1064 of the lower half sub-assembly 106 are electrically connected to the outer electrode 10121 and the inner electrode 10122 of the electrode assembly 1012, respectively, so that the battery assembly 1061 supplies operating power to the heating part assembly 101.

Of course, the lower subassembly 106 may also include other components, for example, a protection gasket 1066 may be disposed at any one end or both ends of the battery assembly 1061, and the protection gasket 1066 may be made of ethylene-vinyl acetate copolymer (EVA) or silica gel, so as to protect the battery assembly 1061 from being isolated, buffered, insulated, and the like, and ensure the operation stability of the battery assembly 1061.

For another example, the lower module 106 has a receiving cavity for assembling and fixing the internal battery module 1061 and the control circuit 1062, and correspondingly, one end of the receiving cavity is closed by the second mounting element of the heating module 101, and the other end of the receiving cavity can be closed by a cover 1067, so as to ensure the assembling and fixing of the modules in the lower module 106.

Further, if the battery assembly 1061 includes a secondary battery, the cover 1056 may further have a charging interface 1068, and a charging assembly 1069 is further disposed between the charging interface 1068 and the battery assembly 1061, when the secondary battery is charged, the charging connector outside the smoke curing oven may be mounted and fixed with the charging interface 1068, and the charging connector may provide an external power source to the battery assembly 1061 through the charging assembly 1069, so as to charge the battery assembly 1061.

In addition, the lower module 106 may further be provided with an operation indicator, for example, disposed on the cover 1067, or disposed at any housing of the lower module 106, and under the control of the control circuit 1062, when the heating module 101 performs an electric heating operation or the battery module 1061 performs a charging operation, a related light effect may be output to the user to indicate different operation states of the smoking device. For example, the green light effect represents a standby state, the red light effect represents a heating state, the yellow light effect represents a charging state, and the like, and the specific light effect depends on the actual situation and is not limited herein.

The above is an introduction to the tobacco flue-curing device provided in the embodiment of the present application, and a tobacco flue-curing type electronic cigarette provided in another embodiment of the present application is described below.

As shown in fig. 9, the structural schematic diagram of the flue-cured type electronic cigarette, provided in the embodiment of the present application, includes not only the flue-cured tobacco device 100, but also the flue-cured tobacco rod 200 corresponding to the flue-cured tobacco device 100, when the flue-cured tobacco rod 200 is installed in the flue-cured tobacco device 100, and the heating part 101 is powered on to heat, the heating part 101 heats the flue-cured tobacco rod 200, and the flue-cured tobacco rod 200 is heated to form smoke and output.

It should be noted that, for the specific contents of the flue-cured electronic cigarette, reference may be made to the contents of the above embodiments, and details are not repeated herein.

In conclusion, in this application embodiment, when the user extracts flue-cured tobacco cigarette from the tobacco roasting ware, at first will insert the subassembly of holding that is equipped with flue-cured tobacco cigarette and extract, at its in-process, the sliding block subassembly can offset with the second chamber mouth of cavity to along with support the subassembly extract and slide, the heating member of heating element subassembly is extracted from flue-cured tobacco cigarette gradually, and along with the support of the second chamber mouth of sliding block subassembly with the cavity, tobacco composition after being heated in the flue-cured tobacco cigarette fails to glue on the heating member, glues on the heating element subassembly promptly, remains in the tobacco roasting ware. Then, the user can be simple extract flue-cured tobacco cigarette from the cavity body, accomplishes flue-cured tobacco cigarette's extraction, and the user need not frequently to clear up, and user experience is better.

The terms "first," "second," "third," "fourth," and the like in the description and in the claims of the present application and in the drawings described above, if any, are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It will be appreciated that the data so used may be interchanged under appropriate circumstances such that the embodiments described herein may be practiced otherwise than as specifically illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.

The above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (11)

1. The utility model provides a tobacco flue-curing device, its characterized in that, tobacco flue-curing device includes heating element, slider assembly and supports and holds the subassembly, it is provided with the cavity to support and holds the subassembly to make flue-cured tobacco cigarette via the first accent of cavity is inserted and is located in the cavity, follow tobacco flue-curing device axial direction runs through slider assembly is provided with first through-hole, just the internal perisporium of first through-hole with the periphery wall shape of heating element matches the setting heating element passes under the condition of first through-hole, slider assembly is used for the support of the second accent of cavity is held and is followed under the effect the direction of heating element slides.

2. The tobacco flue-curing device of claim 1, wherein the heating assembly comprises an electrode assembly and a heating element, the heating element is inserted and fixed on the end face of the electrode assembly facing the hollow cavity, the heating element is electrically connected with the electrode assembly, so that the electrode assembly supplies power to the heating element, and the heating element is inserted and arranged in the hollow cavity under the condition that the tobacco flue-cured tobacco is in the tobacco flue-cured tobacco, and the heating element heats the tobacco flue-cured tobacco to generate smoke.

3. The tobacco flue-curing device according to claim 2, further comprising an elastic telescopic component, wherein a first end of the elastic telescopic component abuts against the heating part component towards the end face of the hollow cavity, and a second end of the elastic telescopic component abuts against the sliding block component, so that a second cavity of the hollow cavity abuts against the sliding block component to slide along the direction towards the heating part component, so that when the heating component is inserted into the tobacco flue-curing cigarette located in the hollow cavity, the elastic telescopic component is in a compressed state, and when the second cavity of the hollow cavity is separated from the sliding block component, the elastic telescopic component is used for pushing the sliding block component to slide along the direction away from the heating part component.

4. The tobacco flue-curing device of claim 2, further comprising a smoke tube sleeved on the outer peripheral wall of the abutting component, wherein the smoke tube is provided with a first tube opening and a second tube opening which are communicated with each other along the axial direction of the tobacco flue-curing device, the tobacco flue-curing device is used for inserting the tobacco flue-curing device into the hollow cavity through the first tube opening, and the electrode component is inserted into the second tube opening.

5. The smoking article of claim 3, wherein said heating assembly further comprises a first bracket assembly, a second bracket assembly, a first fixed sleeve assembly, and a second fixed sleeve assembly;

the electrode assembly comprises an outer electrode, an inner electrode and an insulating ring, wherein the first end of the outer electrode is inserted and fixed with the inner electrode, the outer electrode and the inner electrode are fixedly inserted and fixed with the insulating ring, the second end of the outer electrode is inserted and fixed with the first bracket assembly, the second bracket assembly is connected with the first bracket assembly in an inserting mode, the heating element is arranged on the first bracket assembly and extends out of the through hole of the second bracket assembly, the second bracket assembly is sleeved with the first fixing sleeve assembly, the first fixing sleeve assembly is sleeved with the second fixing sleeve assembly, and the elastic telescopic assembly is arranged between the first fixing sleeve assembly and the second fixing sleeve assembly.

6. The smoking apparatus of claim 5, wherein said resilient bellows assembly includes a spring, said first fixed sleeve assembly being disposed in said spring;

or,

the plurality of groups of springs are arranged around the first fixed sleeve assembly.

7. The smoker according to claim 5, wherein the end of the second fixing sleeve assembly facing away from the heating assembly is provided with at least one protrusion or a raised ring on its inner side, the protrusion being adapted to block the slider assembly to limit the maximum sliding position of the slider assembly in a direction facing away from the heating assembly;

the inner diameter of the convex ring is smaller than the diameter of the slider assembly so as to limit the maximum sliding position of the slider assembly in the direction away from the heating assembly.

8. The smoking article of claim 5, wherein an inside diameter of the end of the second sleeve assembly facing away from the heating assembly is tapered in a direction away from the heating assembly to a diameter less than the diameter of the slider assembly to limit a maximum sliding position of the slider assembly in a direction away from the heating assembly.

9. A smoking apparatus according to claim 2, wherein the heating element is of sheet-like construction, the ends of the heating element forming an acute angle.

10. The smoking apparatus of claim 1, wherein an end of the heating assembly facing away from the slider assembly is provided with first threads that mate with second threads provided on a lower half of the smoking apparatus to secure the lower half, the lower half including a battery assembly that provides a source of operating power for the heating assembly and the control circuitry, and a control circuit that controls the energization heating operation of the heating assembly.

11. A flue-cured type electronic cigarette, characterized in that, the flue-cured type electronic cigarette comprises a flue-cured tobacco rod and the flue-cured tobacco device of any one of claims 1 to 10, when the flue-cured tobacco rod is installed in the flue-cured tobacco device, and the heating part is heated by the heating part, the flue-cured tobacco rod is heated to form smoke and output.