CN108420118B - Heating non-burning tobacco appliance - Google Patents

Abstract

The invention provides a heating non-combustion tobacco appliance, which comprises a tobacco substance accommodating sleeve, a heating element and a self-pushing element, wherein the heating element and the self-pushing element are arranged in the tobacco substance accommodating sleeve, the tobacco substance accommodating sleeve comprises a tobacco substance accommodating cavity for accommodating tobacco substances, the heating element is axially arranged in the tobacco substance accommodating cavity, the tobacco substances can be embedded by the heating element, the self-pushing element is positioned at the inner bottom of the tobacco substance accommodating sleeve, and the self-pushing element starts to bend and deform after the self-pushing element reaches a set threshold value, so that the tobacco substances are axially pushed to a certain displacement from the tobacco substance accommodating cavity along the heating element. The invention can spontaneously adjust the heating effect of the heating element on the tobacco material, and avoid the condition that the heating element heats the tobacco material to cause local overheating.

Description

Heating non-burning tobacco appliance

Technical Field

The invention relates to the field of heating non-combustible tobacco, in particular to a heating non-combustible tobacco appliance.

Background

The current heating non-burning tobacco smoking device is easy to generate uneven heating and local overheating of tobacco substances when in use, so that the inlet flue gas temperature is too high to cause discomfort to consumers.

Disclosure of Invention

The invention provides a heating non-combustion tobacco appliance, which is based on a principle mechanism of responding to the temperature of a heating cavity of a heating non-combustion tobacco suction device, so that the heating effect of a heating element on tobacco materials can be spontaneously adjusted by responding to the temperature in the heating cavity under the influence of different use variables, and the condition that the heating of the heating element causes local overheating in the tobacco materials is avoided.

The invention is realized by adopting the following technical scheme:

the utility model provides a heating incombustible tobacco utensil, includes tobacco material holds the sleeve pipe, locates the inside heating element of tobacco material and from pushing element, tobacco material holds the sleeve pipe and contains the tobacco material that is used for holding tobacco material holds the chamber, tobacco material holds the intracavity along the axial and places heating element, tobacco material can by heating element embedment, from pushing element is located the intraductal bottom of tobacco material holds the sleeve, from pushing element begins bending deformation after self temperature reaches the settlement threshold value, with tobacco material follow in the tobacco material holds the chamber along heating element axial promotes certain displacement.

Further, the self-pushing element comprises a temperature-sensing deformer and a fixing foot, one end of the temperature-sensing deformer is fixed at the inner bottom of the tobacco substance accommodating sleeve by the fixing foot, and the other end of the temperature-sensing deformer can start bending deformation after the temperature reaches a set threshold value, and the temperature-sensing deformer is from a state of attaching the inner bottom of the tobacco substance accommodating sleeve to a state of being far away from the inner bottom of the tobacco substance accommodating sleeve.

Further, a part of the fixing leg is fixed at the inner bottom of the tobacco material containing sleeve, and a clamping tongue structure with a proper gap with the inner bottom surface of the tobacco material containing sleeve is formed by extending the fixing leg, and a gap between the clamping tongue structure and the inner bottom surface of the tobacco material containing sleeve can be embedded into a part of the temperature sensing deformer and fixed.

Further, the temperature sensing deformer is made of materials including but not limited to heat shrinkable plastics, bimetal alloys, multi-metal alloys and the like.

According to the self-pushing element, the self-pushing element is arranged in the tobacco material accommodating sleeve, so that the distance between the tobacco material and the bottom of the heating cavity of the heating non-burning tobacco material can be spontaneously adjusted according to the temperature in the use state of the heating non-burning tobacco material, the axial depth of the heating element embedded in the tobacco material and used for heating the non-burning tobacco material in the tobacco material is adjusted, the situation that the heating element heats the tobacco material locally and overheat is avoided, and the heating element is promoted to transfer heat to the tobacco material more uniformly.

Drawings

FIG. 1 is a transverse cross-sectional view of one embodiment of the present invention;

FIG. 2 is a top view of an embodiment of the present invention from the self-propelled element toward the outer end of the heating element;

FIG. 3 is a transverse cross-sectional view of an embodiment of the present invention without the addition of tobacco material from the point of view of the pushing element when not in operation;

FIG. 4 is a transverse cross-sectional view of an embodiment of the present invention operating without the addition of tobacco material from the pushing element;

FIG. 5 is a transverse cross-sectional view of an embodiment of the present invention with the self-urging member not in operation after addition of tobacco material;

fig. 6 is a transverse cross-sectional view of an embodiment of the present invention in operation from a pusher member after addition of tobacco material.

In the figure: 101-tobacco material-containing sleeve, 102-self-pushing element, 103-heating element, 104-tobacco material, 1021-fixing leg, 1022-temperature-sensitive deformer.

Detailed Description

The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings.

Fig. 1 to 4 show in a simplified manner one embodiment of a self-propelled element for a temperature-activated heated non-combustion tobacco appliance of the invention and its components, in particular the self-propelled element is not drawn to scale in the figures, components which are not relevant for an understanding of this embodiment having been omitted in order to simplify fig. 1 to 4.

As shown in fig. 1-3, one embodiment of a heated non-combustible tobacco containing appliance includes a tobacco material containing sleeve 101, a heating element 103 disposed within the tobacco material containing sleeve 101, and a self-urging element 102. The tobacco material containment sleeve 101 contains a tobacco material containment cavity (or heating cavity) within which is disposed a heating element 103. The heating element 103 is generally a heating element maintained by electric energy, the heating temperature of the heating element ranges from 20 ℃ to 800 ℃, and the tobacco material 104 matched with the heating element can be smoothly embedded by the heating element 103. The self-pushing element 102 is located at the inner bottom of the tobacco substance containing sleeve 101, in particular between the end face of the tobacco substance and the inner bottom of the tobacco substance containing sleeve 101.

As shown in fig. 2, the self-pushing element 102 includes a temperature-sensitive deformer 1022 and a fixing leg 1021. The temperature-sensitive deformer 1022 is placed at the bottom inside the tobacco material containing casing 101, and one end of the temperature-sensitive deformer 1022 is clamped by the fixing leg 1021. A part of the fixing leg 1021 is fixed at the inner bottom of the tobacco material accommodating sleeve 101, and extends therefrom to form a clamping tongue structure with a proper gap with the inner bottom surface of the tobacco material accommodating sleeve 101, and a gap between the clamping tongue and the inner bottom surface of the tobacco material accommodating sleeve 101 can be embedded into a part of the temperature sensing deformer 1022 and fixed (as shown in fig. 3), so that the assembly is prevented from shaking and falling off during use.

As shown in fig. 4, the self-pushing element 102 starts to bend and deform after the temperature reaches a set threshold, and at this time, one end of the temperature-sensitive deformer 1022 is deflected and displaced, and the other end is fixed to the bottom inside the tobacco material-containing casing 101 by the fixing leg 1021. The deflection displacement of one end of the temperature-sensitive deformer 1022 means that a part of the temperature-sensitive deformer 1022 caused by physical deformation is from a state of attaching to the inner bottom of the tobacco material accommodating casing 101 to a state of being away from the inner bottom of the tobacco material accommodating casing 101. As shown in fig. 6, during the deflection displacement of the temperature-sensitive deformer 1022, the tobacco material 104 is driven by the temperature-sensitive deformer 1022 and is far away from the inner bottom of the tobacco material accommodating sleeve 101, so that the tobacco material 104 and the heating element 103 embedded in the tobacco material 104 slide relatively, which is beneficial for the heating element 103 to move and uniformly heat the interior of the tobacco material 104 in use.

The self-propelled element 102 is arranged in the heating chamber of the non-combustible tobacco smoking device in response to heating, such that the heating effect of the heating element 103 on the tobacco material 104 can be autonomously adjusted by responding to the temperature in the heating chamber under the influence of different usage variables. The self-propelled element 102 acts as a deformable component between the inner bottom surface of the heating chamber of the heated non-combustible tobacco appliance and the outer surface of the nebulizable tobacco consumable (tobacco material 104), which means that it begins to deform autonomously when its own temperature exceeds a certain threshold value.

The fixing leg 1021 is a connecting component for physically supporting and fixing the temperature-sensing deformer 1022 and the heating non-combustion tobacco appliance, and keeps the temperature-sensing deformer 1022 from being completely separated from the heating non-combustion tobacco appliance during operation. The temperature-activated self-pushing element functions to heat the heating chamber in the non-combustion tobacco appliance, and after the temperature of the temperature-sensitive deformer 1022 reaches a threshold temperature or higher after absorbing heat, the temperature-sensitive deformer 1022 starts to deform, and the deformation occurs between the inner bottom surface of the heating chamber in the heating non-combustion tobacco appliance and the outer surface of the nebulizable tobacco consumable (tobacco substance 104), so that the nebulizable tobacco consumable (tobacco substance 104) and the heating chamber in the heating non-combustion tobacco appliance relatively displace, and the final physical change is represented by that the nebulizable tobacco consumable is spontaneously pushed to displace from the heating chamber in the heating non-combustion tobacco appliance.

The arrangement of the temperature-sensing deformer 1022 should facilitate axial displacement of the nebulizable tobacco consumable in the tobacco material receiving chamber within the heating chamber of the heated non-combustible tobacco appliance.

The spontaneous longitudinal displacement of the tobacco material 104 in the heating chamber of the heated non-combustible tobacco appliance is in the range from 0 to infinity.

The fixing leg 1021 is not necessarily connected to the temperature-sensitive deformer 1022 and the heating non-combustible tobacco device in a completely fixed manner, but may be connected to the temperature-sensitive deformer 1022 and the heating non-combustible tobacco device in a semi-fixed and relatively movable manner.

The foregoing is merely illustrative embodiments of the present invention, and the present invention is not limited thereto, and any changes or substitutions that may be easily contemplated by those skilled in the art within the scope of the present invention should be included in the scope of the present invention.

Claims (1)

1. A heating incombustible tobacco utensil, includes tobacco material and holds the sleeve pipe, locates the inside heating element of tobacco material and hold the sleeve pipe, tobacco material holds the sleeve pipe and contains the tobacco material that is used for holding tobacco material holds the chamber, tobacco material holds the intracavity and places along the axial heating element, its characterized in that: the self-pushing element is arranged in the tobacco substance accommodating sleeve, tobacco substances are embedded by the heating element, the self-pushing element is positioned at the bottom in the tobacco substance accommodating sleeve, and the self-pushing element starts to bend and deform after the self-pushing element reaches a set threshold value, so that the tobacco substances are pushed to a certain displacement from the tobacco substance accommodating cavity along the axial direction of the heating element; the self-pushing element comprises a temperature-sensing deformer and fixing legs, one end of the temperature-sensing deformer is fixed at the inner bottom of the tobacco material accommodating sleeve by the fixing legs, the other end of the temperature-sensing deformer can start bending deformation after the temperature reaches a set threshold value, a part of the fixing legs are fixed at the inner bottom of the tobacco material accommodating sleeve from a state of attaching the inner bottom of the tobacco material accommodating sleeve to a state of keeping away from the inner bottom of the tobacco material accommodating sleeve, a clamping tongue structure with a proper gap with the inner bottom surface of the tobacco material accommodating sleeve is formed by extending the fixing legs, one end of the temperature-sensing deformer is embedded and fixed in a gap between the clamping tongue structure and the inner bottom surface of the tobacco material accommodating sleeve, and the temperature-sensing deformer is made of a multi-metal alloy.