RU2840707C2 - Aerosol-generating device comprising cover element with cavity - Google Patents

Abstract

FIELD: smoking accessories.

SUBSTANCE: present invention relates to aerosol-generating device (1), which comprises housing (2) comprising opening (4) configured to accommodate an aerosol-generating article, cover member (3) configured to move relative to housing (2) between closed position and open position, wherein in the closed position, cap-like element (3) at least partially closes opening (4), and wherein in the open position opening (4) is at least partially open, wherein element (3) in form of cover forms cavity (10) of element in form of cover, and wherein guide element (14) protrudes from housing (2), wherein guide element (14) is arranged in cavity (10) of element in form of covers. Present invention further relates to a method of opening and closing hole (4) of aerosol-generating device (1), and a method of assembling element (3) in form of cover on housing (2) of aerosol-generating device (1).

EFFECT: implementing the purpose.

14 cl, 7 dwg

Description

The present invention relates to an aerosol generating device comprising a lid-shaped element. The present invention also relates to a method for opening and closing an opening of the aerosol generating device and a method for assembling the lid-shaped element on the body of the aerosol generating device.

One type of aerosol generating system is an electric smoking system. Known hand-held electric smoking systems typically include an aerosol generating device that includes a battery, control electronics, and an electric heater for heating an aerosol generating article that is designed specifically for use with the aerosol generating device. In some examples, the aerosol generating article includes an aerosol generating substrate, such as a tobacco rod or tobacco plug, and a heater contained within the aerosol generating device is inserted into or around the aerosol generating substrate when the aerosol generating article is inserted into the aerosol generating device. In an alternative electric smoking system, the aerosol generating article may include a capsule that includes an aerosol generating substrate, such as loose tobacco.

In known electric smoking systems, the aerosol-generating article may be placed inside a heater chamber in the aerosol-generating device. Some aerosol-generating devices may include a sliding cover element that the user can slide smoothly over the opening of the heater chamber when the aerosol-generating device is not in use. However, if the sliding cover element is accidentally opened when the aerosol-generating device is not in use, dirt or foreign objects may contaminate the heater chamber and may damage the heater.

According to a first aspect of the present invention, an aerosol generating device is provided, which comprises a housing comprising an opening configured to accommodate an aerosol generating article, a cover element configured to move relative to the housing between a closed position and an open position, wherein in the closed position the cover element at least partially closes the opening, and wherein in the open position the opening is at least partially open. Preferably, in the closed position, the opening is completely closed by the cover element. Preferably, in the open position, the opening is completely open. The cover element forms a cavity of the cover element, and a guide element projects from the housing and is received in the cavity of the cover element. In particular, the guide element is partially located in the cavity of the cover element. The guide element preferably engages with the inner surface of the cavity of the cover element. The cavity of the cover element is preferably open only on the side of the cover element facing the housing. The cover element can make possible a compact sliding mechanism for opening and closing the opening. In particular, the guide element is not visible to the consumer or open to damage or contamination.

The cover element may be adapted to move between a closed position and an open position along a first path. The first path may extend in the transverse direction or have at least a component in the transverse direction of the aerosol generating device. The first path may be rectilinear or curved. The transverse direction may be perpendicular or have a component perpendicular to the longitudinal direction of the aerosol generating device. The longitudinal direction may be the main direction of the extension of the aerosol generating device, namely, the direction in which the aerosol generating device has its greatest length. In a vertical orientation of the aerosol generating device, the longitudinal direction is the height direction, and the transverse direction may be the horizontal direction. The transverse direction may be perpendicular to the width direction of the aerosol generating device. Any subsequent indications regarding "upper" and "lower" refer to the longitudinal direction, which is the height direction.

The aerosol-generating article can be inserted through the opening of the aerosol-generating device in the longitudinal direction so that the aerosol-generating article is at least partially located in the heating chamber. When the aerosol-generating article is adjacent to the restrictive element or the end surface of the heating chamber, a portion of the mouthpiece end of the aerosol-generating article can protrude from the heating chamber in the longitudinal direction.

The guide element can be adapted to apply a downward pressing force against the housing on the cover element, at least when the cover element is in the closed position. This makes it possible to pull the cover element toward the housing. It is possible to minimize clearance tolerances between the cover element and the housing. It is possible to reduce or prevent the drawing in of dust and other contaminants between the cover element and the housing.

The cover element may comprise a sealing element which is in contact with the housing and extends around the opening when the cover element is in the closed position. In particular, the sealing element may be provided in a sealing recess or on the lower surface of the cover element facing the housing. The upper surface of the housing which is in contact with the sealing element preferably at least partially complements the lower surface of the cover element and is preferably substantially flat. The force applied by the guide element with respect to the cover element in the direction of the housing may improve the sealing efficiency.

The guide element can be elastically biased toward the housing. Preferably, the elastic bias is provided by an elastic element, which can be part of the guide element or engage with it. The guide element can be pulled downwards in the longitudinal direction by the elastic element.

The guide element may be pulled downwards in the longitudinal direction by the elastic element. Alternatively or additionally, the guide element may be pushed downwards in the longitudinal direction in addition to or instead of the pulling. The elastic element may act downwards with respect to the guide element. The elastic element may be a spring plate. The elastic element may be located inside the cover element. The elastic element may be attached to the upper surface of the housing. The elastic element may engage with the guide element from above, from inside the cover element.

One of the cover element and the guide element comprises a projection, and the other of the cover element and the guide element comprises a recess, wherein the projection and the recess engage with each other when the cover element is in the closed position. In particular, the guide element comprises a projection, and the cover element comprises a first recess, wherein the projection and the first recess engage with each other when the cover element is in the closed position. The cover element is held in the closed position and the probability of accidental opening can be reduced.

In particular, the required release force with respect to the cover element along the first path for starting the sliding, which starts from the closed position, is determined by the geometry of the protrusion and the recess, as well as the downward pressing force. Preferably, the release force from the closed position is two or more times, preferably five or more times, greater than the release force in the intermediate position between the open position and the closed position. In particular, the release force in the intermediate position is determined by the static friction between the cover element and the body.

When the lid-like element reaches the closed position, the projection and recess engage in such a way that the consumer feels a tactile response, in particular a click.

One of the cover element and the guide element comprises a projection, and the other of the cover element and the guide element comprises a recess, wherein the projection and the recess engage with each other when the cover element is in the open position. In particular, the guide element comprises a projection, and the cover element comprises a second recess, wherein the projection and the second recess engage with each other when the cover element is in the open position. The cover element is held in the open position, and the probability of accidental closing can be reduced. Preferably, the release force from the open position is two or more times, preferably five or more times, greater than the release force in the intermediate position between the open position and the closed position.

One of the cover-shaped element and the guide element may comprise a protrusion, and the other of the cover-shaped element and the guide element may comprise a first recess and a second recess, wherein the protrusion and the first recess engage with each other when the cover-shaped element is in the closed position, and wherein the protrusion and the second recess engage with each other when the cover-shaped element is in the open position.

One of the cover-shaped element and the guide element may comprise a recess, and the other of the cover-shaped element and the guide element may comprise a first projection and a second projection, wherein the recess and the first projection engage with each other when the cover-shaped element is in the closed position, and wherein the recess and the second projection engage with each other when the cover-shaped element is in the closed position.

When the lid-like element reaches the open position, the projection and recess engage in such a way that the consumer feels a tactile response, in particular a click.

In particular, the cover-shaped element may comprise two recesses in the same position along the first path and on opposite sides in the width direction. The guide element may comprise two projections in the same position along the first path and on opposite sides in the width direction.

The guide element can be adapted to be inserted with a force of the projection into the recess. In particular, the force with which the projection is pressed into the recess is a counterforce with respect to the downward pressing force with which the guide element is pressed against the housing. In this way, a triple function is provided, namely: tightly holding the element in the form of a lid on the housing, fixing the element in the form of a lid in the closed position or the open position, and providing tactile feedback when the lid reaches the closed position or the open position.

The guide element may comprise a leg, wherein the leg extends from the inner side of the housing to the outer side of the housing, wherein the elastic element may engage with the leg inside the housing. The elastic element may be completely located inside the housing. This may reduce the likelihood of damage to the elastic element and improve the appearance, as well as the ease of cleaning of the device. In particular, the elastic element pushes the leg in the direction of the inner side of the housing. In an alternative embodiment, the elastic element may be the leg itself.

The elastic element may be a spring latch. In particular, the spring latch may be formed as a bent part of a thin sheet metal. Alternatively, the spring latch may be formed as a spiral wire spring. This enables a relatively high elastic force, a long service life and a small required space for the elastic element.

The resilient member may be located in a spring cavity in the housing, wherein the spring cavity comprises an opening, wherein the leg passes through this opening. The spring cavity may be hermetically sealed relative to an inner compartment of the housing. The inner compartment may contain control electronics, a heater, or a battery. This may prevent any liquid or dust entering the spring cavity through the opening from moving further into the device to the inner compartment, which could cause damage.

The spring cavity may be formed as a single piece in the housing plug. To improve the assembly, the spring cavity may be closed by a lower closing part, such as a bottom wall. The lower closing part may be isolated from the side walls of the spring cavity by a sealing element. The sealing element may be a gasket. The sealing element may isolate the spring cavity from the internal compartment of the device, which may in particular contain control electronics. The opening of the spring cavity may correspond in shape to the cross-section of the leg, thus minimizing the gap.

The elastic element may comprise a head, wherein the head is placed in the cavity of the element in the form of a lid, wherein the head has a width that is greater than the width of the leg. The head may be arranged in such a way that the main extension of the head is in the width direction perpendicular to the first path and, in particular, perpendicular to the transverse direction. At least one projecting part of the head may project in the width direction above the leg and may engage with the element in the form of a lid. The projecting parts may be provided on both sides of the head in the width direction.

The cover element may comprise a guide groove on its surface adjacent to the body, through which the leg of the guide element passes, wherein the head engages with the inner surface of the cavity of the cover element near the guide groove. In particular, the head engages with the inner surfaces of the cavity of the cover element on both sides of the guide groove. The cross-section of the head in the width direction may correspond to the necessary tolerances for the cross-section of the cavity of the cover element in the width direction.

The cover element may comprise a lower part and an upper plug, wherein the cavity of the cover element is formed between the upper plug and the lower part. The lower part may be a flat lower plate. Preferably, the guide groove is provided in the lower part. The upper plug may have a concave surface limiting the cavity of the cover element. The assembly of the cover element from at least two parts, namely the upper plug and the lower part, enables an efficient assembly operation. The upper plug may be attached to the lower part, in particular by means of glue, a geometric fit, in particular a locking connection, or a combination thereof. Alternatively, the cover element may be only one part. In this case, it is preferable to insert the head into the guide groove in a first orientation and then rotate it so that it engages with the inner side of the cavity of the cover element.

The cover element may comprise at least one guide projection directed along a guide surface in the housing. In particular, two guide projections are arranged on opposite sides in the width direction of the cover element. In particular, two guide surfaces are provided in the housing, running along a first path. Preferably, the guide surfaces are arranged on the side walls in the upper part of the housing. The side wall may at least partially run along the first path and project in the longitudinal direction, in particular in the region of the guide surface. The guide surface preferably runs along the first path and is curved or rectilinear in the direction perpendicular to the first path.

In an alternative embodiment, the cover element may comprise at least one guide projection which is directed into a guide recess in the housing. In particular, two guide projections are arranged on opposite sides in the width direction of the cover element. In particular, two guide recesses are provided in the housing which extend along a first path. Preferably, the guide recesses are arranged in the side walls in the upper part of the housing. The side wall may extend at least partially along the first path and project in the longitudinal direction, in particular in the region of the guide recesses. The guide recess may be a guide groove in the side wall.

The guide projection may be rigid. In an alternative embodiment, the guide projection may be elastic to compensate for tolerances, in particular in the case of a change in clearance. The guide projection may be formed as a leaf spring. The guide projection may be considered elastic when its most protruding end, when subjected to a downward pressing force, moves more than the thickness of the guide projection. In other cases, the guide projection may be considered rigid. When subjected to a downward pressing force, the most protruding end of the guide projection may move a distance greater than twice, in particular greater than five times, the thickness of the guide projection.

According to a second aspect of the present invention, there is provided an aerosol generating system, which comprises an aerosol generating device according to the first aspect of the present invention in accordance with any of the embodiments described herein. The aerosol generating system also comprises an aerosol generating article, which comprises an aerosol forming substrate. In the context of this document, the term "aerosol generating article" refers to an article, which comprises an aerosol forming substrate, which upon heating releases volatile compounds, which can form an aerosol.

The aerosol-forming substrate may comprise a tobacco rod. The tobacco rod may comprise one or more of: powder, granules, pellets, pieces, thin tubes, strips or sheets comprising one or more of: tobacco leaf, tobacco rib fragments, reconstituted tobacco, homogenized tobacco, extruded tobacco and expanded tobacco. The tobacco rod may optionally comprise additional tobacco or non-tobacco volatile flavor compounds intended to be released upon heating of the tobacco rod. The tobacco rod may optionally also comprise capsules which, for example, comprise additional tobacco or non-tobacco volatile flavor compounds. Such capsules may melt during heating of the tobacco rod. Alternatively or additionally, such capsules may be destroyed before, during or after heating of the tobacco rod.

If the tobacco rod comprises homogenized tobacco material, the homogenized tobacco material may be formed by agglomerating loose tobacco. The homogenized tobacco material may be in the form of a sheet. The homogenized tobacco material may have an aerosol forming agent content of greater than 5 percent by dry weight. The homogenized tobacco material may alternatively have an aerosol forming agent content of from 5 percent to 30 percent by weight on a dry weight basis. The sheets of homogenized tobacco material may be formed by agglomerating loose tobacco obtained by grinding or otherwise breaking one or both of the lamellae of tobacco leaf and the veins of tobacco leaf; alternatively or additionally, the sheets of homogenized tobacco material may contain one or more of tobacco dust, tobacco fines, and other loose tobacco waste generated, for example, during the processing, handling, and shipping of tobacco. The sheets of homogenized tobacco material may comprise one or more internal binders that are tobacco endogenous binders, one or more external binders that are tobacco exogenous binders, or a combination thereof to support the agglomeration of the bulk tobacco. Alternatively or additionally, the sheets of homogenized tobacco material may comprise other additives, including, but not limited to, tobacco and non-tobacco fibers, aerosol forming agents, humectants, plasticizers, flavors, fillers, aqueous and non-aqueous solvents, and combinations thereof. The sheets of homogenized tobacco material are preferably formed by a molding process of the type that typically includes molding a slurry containing bulk tobacco and one or more binders onto a conveyor belt or other support surface, drying the molded slurry to form a sheet of homogenized tobacco material, and removing the sheet of homogenized tobacco material from the support surface.

The aerosol generating article may have an overall length of about 30 millimeters to about 100 millimeters. The aerosol generating article may have an outside diameter of about 5 millimeters to about 13 millimeters.

The aerosol generating article may comprise a mouthpiece located downstream of the tobacco rod. The mouthpiece may be located at the downstream end of the aerosol generating article. The mouthpiece may be an acetyl cellulose filter rod. Preferably, the mouthpiece has a length of approximately 7 millimeters, but may have a length of from approximately 5 millimeters to approximately 10 millimeters.

The tobacco rod may be approximately 10 millimeters long. The tobacco rod may be approximately 12 millimeters long.

The diameter of the tobacco rod can range from approximately 5 millimeters to approximately 12 millimeters.

In a preferred embodiment, the aerosol-generating article has a total length of about 40 millimeters to about 50 millimeters. Preferably, the aerosol-generating article has a total length of about 45 millimeters. Preferably, the aerosol-generating article has an outer diameter of about 7.2 millimeters.

According to a third aspect of the present invention, a method for opening and closing an opening of an aerosol generating device is provided, wherein the opening is adapted to accommodate an aerosol generating article, wherein the cover element moves along a first path, in particular in a transverse direction relative to the opening between an open position, in which the opening is at least partially open, and a closed position, in which the cover element at least partially closes the opening. The cover element moves relative to a guide element, wherein the guide element pulls the cover element toward the housing at least in the closed position. In this way, the tolerances for gaps between the cover element and the housing can be reduced, which can enable an improved closing of the opening. Preferably, in the closed position, the opening is completely closed by the cover element.

In particular, the cover element comprises a sealing element that is in contact with the housing and extends around the opening when the cover element is in the closed position.

In particular, one of the cover-shaped element and the guide element comprises a protrusion, and the other of the cover-shaped element and the guide element comprises a recess, wherein the protrusion and the recess engage with each other when the cover-shaped element is in the closed position.

In particular, one of the cover-shaped element and the guide element comprises a protrusion, and the other of the cover-shaped element and the guide element comprises a recess, wherein the protrusion and the recess engage with each other when the cover-shaped element is in the open position.

When the cover element moves along the first path between the open position and the closed position, the guide element can move elastically in a direction that differs from the first path. Thus, by increasing the elastic potential of the elastic element, the counteraction force with respect to the movement along the first path can change as the cover element moves relative to the guide element. In this way, a tactile response can be provided in specific positions, in particular, in the open position, the closed position, or the open position and the closed position. In addition, the cover element can be held in the open position, the closed position, or the open position and the closed position in order to prevent unwanted movement.

The guide element can pull the cover element toward the housing during the entire movement between the open position and the closed position. In this way, the gap between the cover element and the housing can be maintained at a minimum level during the entire movement, and the movements of the cover element outside the first path can be reduced to ensure that the cover element can be accurately guided.

The pulling force of the guide element can press at least one guide projection of the cover element against the wall of the guide recess in the housing. The guide projection can be provided on the side of the cover element. In particular, the guide recess is arranged in a projecting side wall of the housing. Preferably, the guide recesses can be arranged on both sides of the cover element. The guide recess extends, in particular, along a first path.

According to a fourth aspect of the present invention, there is provided the use of a guide element for elastically pressing with force a cover element to the body of an aerosol generating device, during the movement of the cover element relative to the guide element, in order to close an opening in the body with improved insulating properties.

According to a fifth aspect of the present invention, a method is provided for assembling a cover element on a housing of an aerosol generating device, in particular according to the first aspect of the present invention, wherein the lower part of the cover element is arranged on the upper side of the housing of the aerosol generating device, and then the leg of the guide element is inserted through a guide groove in the lower part into the opening of the cavity for a spring in the housing in such a way that the elastic element located in the cavity for the spring engages with a recess in the leg. In this way, the leg is secured by means of a geometrically locked fit in the cavity for the spring. Since the head of the guide element can engage with the upper side of the lower part, the lower part is mounted with the possibility of sliding on the upper side of the housing. The elastic element can pull the lower part toward the housing.

The upper plug can then be positioned on the lower part in such a way that a cavity of the cover element is formed, whereby the head of the guide element is positioned in the cavity of the cover element. In this way, the guide element is no longer visible and is protected.

Before inserting the leg into the spring cavity, the elastic element can be positioned in the spring cavity, and then the spring cavity can be closed with a closing part. The closing part can be a lower closing part, in particular a lower wall. Between the lower closing part and the side walls of the spring cavity, a sealing element such as a gasket can be positioned. The closing part can be positioned on the side of the spring cavity opposite the opening.

According to a sixth aspect of the present invention, an aerosol generating device is provided, comprising an opening, wherein the opening is adapted to accommodate an aerosol generating article, wherein the cover element is adapted to move in a first direction relative to the opening between an open position, in which the opening is at least partially open, and a closed position, in which the cover element at least partially covers the opening, wherein the cover element is adapted to move relative to a guide element, wherein the guide element is adapted to pull the cover element toward the body at least in the closed position.

The device according to the first or sixth aspect of the present invention can be used in accordance with the method according to the third aspect of the present invention. The method according to the third aspect of the present invention can be performed using the device according to the first or sixth aspect of the present invention in any of its embodiments. The use of the guide member according to the fourth aspect of the present invention can be performed using the device according to the first or sixth aspect of the present invention by using the steps of the method according to the third aspect of the present invention. The assembly method according to the fifth aspect can be used to assemble the device according to the first or sixth aspect of the present invention.

The present invention is defined in the claims. However, a non-exhaustive summary is given below.

a list of non-limiting examples. Any one or more of the features of these examples may be combined with any one or more features of another example, embodiment, or aspect described herein.

Example Ex1: An aerosol generating device that comprises a housing that comprises an opening configured to accommodate an aerosol generating article, a cover element configured to move relative to the housing between a closed position and an open position, wherein in the closed position the cover element at least partially covers the opening, and wherein in the open position the opening is at least partially open, wherein the cover element forms a cavity of the cover element, and wherein a guide element protrudes from the housing, wherein the guide element is located in the cavity of the cover element.

Example Ex2: An aerosol generating device according to the previous Ex1, wherein the cover-shaped element can be adapted to move between a closed position and an open position along a first path, wherein the first path represents a transverse direction of the aerosol generating article.

Example Ex3: An aerosol generating device according to the preceding Ex1 or Ex2, wherein the guide element is adapted to apply a downward pressing force against the housing on the cover element, at least when the cover element is in the closed position.

Example Ex4: An aerosol generating device according to any of the previous examples Ex1-Ex3, wherein the cover element comprises a sealing element that is in contact with the housing and extends around the opening when the cover element is in the closed position.

Example Ex5: An aerosol generating device according to any of the previous examples Ex1-Ex4, wherein the guide element is elastically biased in the direction towards the housing.

Example Ex6: An aerosol generating device according to any of the previous examples Ex1-Ex5, wherein one of the cover element and the guide element comprises a protrusion, and the other of the cover element and the guide element comprises a recess, wherein the protrusion and the recess engage with each other when the cover element is in the closed position.

Example Ex7: An aerosol generating device according to any of the previous examples Ex1-Ex6, wherein one of the cover element and the guide element comprises a protrusion, and the other of the cover element and the guide element comprises a recess, wherein the protrusion and the recess engage with each other when the cover element is in the open position.

Example Ex8: An aerosol generating device according to any of the previous examples Ex1-Ex5, wherein one of the cover element and the guide element comprises a protrusion, and the other of the cover element and the guide element comprises a first recess and a second recess, wherein the protrusion and the first recess engage with each other when the cover element is in the closed position, and wherein the protrusion and the second recess engage with each other when the cover element is in the closed position.

Example Ex9: An aerosol generating device according to any of the previous examples Ex6-Ex8, wherein the guide element is adapted to be inserted with force of the protrusion into the recess.

Example Ex10: An aerosol generating device according to any of the previous examples Ex1-Ex9, wherein the guide element comprises a leg, wherein the leg extends from the inner side of the housing to the outer side of the housing, wherein the elastic element engages with the leg inside the housing.

Example Ex11: An aerosol generating device according to example Ex11, wherein the elastic element is a spring latch.

Example Ex12: An aerosol generating device according to example Ex10 or Ex11, wherein the elastic element is located in a spring cavity in the housing, wherein the spring cavity comprises an opening, wherein the leg passes through the opening of the spring cavity, and wherein the spring cavity is hermetically sealed relative to the inner compartment of the housing.

Example Ex13: An aerosol generating device according to example Ex12, wherein the guide element comprises a head, wherein the head is placed in a cavity of the element in the form of a lid, wherein the head has a width that is greater than the width of the leg.

Example Ex14: An aerosol generating device according to example Ex13, wherein the cover element comprises a guide groove on its surface adjacent to the housing, through which the leg of the guide element passes, wherein the head engages with the inner surface of the cavity of the cover element near the guide groove.

Example Ex15: An aerosol generating device according to any of the previous examples Ex1-Ex14, wherein the cover element comprises a lower portion and an upper plug, wherein the cavity of the cover element is formed between the upper plug and the lower portion.

Example Ex16: An aerosol generating device according to any of the previous examples Ex1-Ex14, wherein the cover-shaped element comprises at least one guide projection that is directed into a guide recess in the housing.

Example Ex17: An aerosol generating system comprising an aerosol generating device according to any of examples Ex1-Ex14 and an aerosol generating article, wherein the aerosol generating article comprises an aerosol forming substrate.

Example Ex18: A method for opening and closing an opening of an aerosol generating device, wherein the opening is adapted to accommodate an aerosol generating article, wherein the cover element is moved between an open position in which the opening is at least partially open and a closed position in which the cover element at least partially covers the opening, wherein the cover element is moved relative to a guide element, wherein the guide element pulls the cover element toward the body at least in the closed position.

Example Ex19: The method according to example Ex18, wherein the cover element forms a cavity of the cover element, and wherein the guide element is arranged in the cavity of the cover element.

Example Ex20: The method according to example Ex18 or Ex19, wherein the cover element comprises a sealing element that is in contact with the housing and extends around the opening when the cover element is in the closed position.

Example Ex21: The method according to any of the previous examples Ex18-Ex20, wherein one of the cover element and the guide element comprises a protrusion, and the other of the cover element and the guide element comprises a recess, wherein the protrusion and the recess engage with each other when the cover element is in the closed position.

Example Ex22: The method according to any of the previous examples Ex18-Ex20, wherein one of the cover element and the guide element comprises a protrusion, and the other of the cover element and the guide element comprises a recess, wherein the protrusion and the recess engage with each other when the cover element is in the open position.

Example Ex23: The method according to any of the previous examples Ex18-Ex20, wherein the cover element moves along the first path, and wherein the guide element elastically moves in a direction that differs from the first path when the cover element moves along the first path between the open position and the closed position.

Example Ex24: The method according to any of the previous examples Ex18-Ex23, wherein the guide element pulls the cover element towards the housing during the entire movement between the open position and the closed position.

Example Ex25: The method according to any of the previous examples Ex18-Ex24, in which the pulling force of the guide element presses at least one guide projection of the cover element against the wall of the guide recess in the housing.

Example Ex26: Using a guide element for elastically pressing with force a cover element against the housing of an aerosol generating device, during movement of the cover element relative to the guide element, in order to close an opening in the housing with improved insulating properties.

Example Ex27: A method for assembling a cover element on the body of an aerosol generating device, in particular according to any of the examples Ex1-Ex17 or Ex30, which comprises the following steps:

- the location of the lower part of the element in the form of a cover on the upper side of the body of the aerosol generating device, and

- inserting the leg of the guide element through the guide groove in the lower part into the opening of the cavity for the spring in the housing in such a way that the elastic element located in the cavity for the spring engages with the recess in the leg.

Example Ex28: The assembly method according to example Ex27, which further comprises the step of arranging the upper plug on the lower part in such a way that a cavity of the cover element is formed, wherein the head of the guide element is located in the cavity of the cover element.

Example Ex29: The assembly method according to example Ex27 or Ex28, which further comprises the step of placing the elastic element in the spring cavity and closing the spring cavity with the closing part.

Example Ex30: An aerosol generating device comprising an opening, wherein the opening is adapted to receive an aerosol generating article, wherein a cover element is adapted to move in a first direction relative to the opening between an open position in which the opening is at least partially open and a closed position in which the cover element at least partially covers the opening, wherein the cover element is adapted to move relative to a guide element, wherein the guide element is adapted to pull the cover element toward the housing at least in the closed position.

The examples will be further described below with reference to the drawings, in which:

Fig. 1 is a perspective view of an aerosol generating device according to an embodiment of the present invention;

Fig. 2 - cross-section through the element in the form of a cover;

Fig. 3 is a partial perspective view of the aerosol generating device without the upper plug of the lid-like element;

Fig. 4 is a partial perspective view of the aerosol generating device without the cover element and the guide element;

Fig. 5 is a partial perspective view of the lower part of the element in the form of a cover, a guide element and an elastic element;

Fig. 6 - perspective view of the guide element; and

Fig. 7 is a partial cross-sectional perspective view of an aerosol generating device.

Fig. 1 shows an aerosol generating device 1 in a vertical orientation according to an embodiment of the present invention. The aerosol generating device 1 comprises a housing 2 and an element 3 in the form of a cover, located on the housing 2 with the possibility of sliding along a first path in the transverse direction 100. The housing 2 preferably extends in the longitudinal direction 200 of the height and has its comparatively smallest extension in the direction 300 of the width.

In the closed position, the cover element 3 closes the opening 4 of the heating chamber 5, as shown in Fig. 4. In the open position, the cover element 3 enables the insertion of a rod-shaped aerosol-generating article through the opening 4 in the heating chamber 5. A portion of the mouthpiece end of the aerosol-generating article typically projects above the opening 4, and when the aerosol-generating article is heated in the heating chamber 5, the aerosol-generating article can be used substantially like a cigarette.

The housing 2 comprises an upper surface 6, along which the element 3 in the form of a cover can move by sliding. In addition, the housing 2 comprises an edge portion 7, which surrounds the upper surface 6. The edge portion 7 projects in the longitudinal direction 200 above the upper surface 6, forming side walls on the upper part of the housing 2. In the closed position, the element 3 in the form of a cover is located adjacent to the edge portion 7 on one side in the transverse direction 100. In the open position, the element 3 in the form of a cover is located on the edge portion 7 on the opposite side in the transverse direction 100.

Fig. 2 shows a cross-section through the element 3 in the form of a lid. The element 3 in the form of a lid comprises an upper plug 8, located on the lower part 9 and connected to the lower part 9. The upper plug 8 is attached to the lower part 9. Between the lower part 9 and the upper plug 8, a cavity 10 of the element in the form of a lid is provided. The guide groove 11 extends in the transverse direction 100 in the lower part 9. Adjacent to the opposite ends of the guide groove 11, first recesses 12 and second recesses 13 are provided. In particular, aligned pairs of the first recesses 12 and aligned pairs of the second recesses 13 are provided on both sides of the guide groove 11.

As shown in Fig. 3, the guide element 14 is arranged on the housing 2. In particular, the guide element 14 is elastically movable in the height direction 200. The guide element 14 is pulled by the elastic element 15 in the form of a spring latch, as shown in Fig. 5, downwards in the longitudinal direction 200 in such a way that the guide element 14 pulls the element 3 in the form of a cover toward the housing 2. In particular, the guide element 14 is partially arranged in the cavity 16 for a spring of the housing 2. The elastic element 15 is completely arranged in the cavity 16 for a spring.

The guide element 14 comprises a head 17 located in the cavity 10 of the element 3 in the form of a cover. The guide element 14 additionally comprises a leg 18, which is at least partially located in the cavity 16 for the spring. A recess 19 is formed on the leg 18. The elastic element 15 engages with the recess 19 for applying an elastic force in the longitudinal direction 200 downwards in order to pull the guide element 14 toward the inner side of the cavity 16 for the spring.

As shown in Fig. 6, projections 20 are provided on the lower side of the head 17 of the guide element 14. When the lid element 3 is in the closed position, the projections 20 are engaged with the first recesses 12 in the lid element 3, as shown in Fig. 3. When the lid element 3 is in the open position, the projections 20 of the guide element 14 are engaged with the second recesses 13. During the sliding movement between the closed position and the open position, the projections 20 slide along sliding surfaces 21 running adjacent to and parallel to the guide groove 11 on the lower part 9 of the lid element 3. The engagement of the projections 20 with the recesses 12 or 13 provides a tactile response in the form of a click, which confirms to the consumer that the lid element 3 has reached the open position or the closed position.

The element 3 in the form of a cover may comprise a guide projection 22 on each corresponding side in the width direction 300. The guide projections 22 engage with the curved surfaces 23 of the edge portion 7.

As shown in Fig. 7, the cavity 16 for the spring, in which the elastic element 15 is located, is closed on its lower side by a closing part 24 in the form of a lower wall. In particular, a gasket or adhesive is provided around the closing part 24, so that the cavity 16 for the spring is isolated from the section of the housing containing the control electronics.

According to an embodiment of the method according to the present invention, the cover element 3 moves along a first path in the transverse direction 100 from the closed position, as shown in Fig. 1, in which the projections 20 of the head 17 of the guide element 14 are in engagement with the first recesses 12. During the movement of the cover element 3, the guide element 14 remains stationary, so that the projections 20 disengage from the first recesses 12. Then, the cover element 3 moves in such a way that the sliding surfaces 21 of the lower part 9 slide along under the projections 20 of the head 17 of the guide element 14. When the cover element 3 reaches the open position, the projections 20 engage with the second recesses 13 in such a way that the consumer feels a tactile response. In this position, the opening 4 is fully open and the consumer can insert the rod-shaped aerosol generating article into the heating chamber 5.

In an embodiment of the assembly method according to the present invention, first the elastic element 15 in the form of a spring latch is inserted into the spring cavity 16 from below. Then the spring cavity is closed with a lower closing part 24 in the form of a lower wall of the spring cavity 16. Then, in the state shown in Fig. 4, the lower part 9 of the element 3 in the form of a cover is mounted on the upper surface 6 of the housing 2. The guide element 14 is inserted with its leg 18 through the guide groove 11 and pressed into the cavity 16 for the spring, where the spring latch 15 engages with the recess 19 of the guide element 14. The spring latch 15 pulls the guide element 14 downwards in such a way that the head 17 of the guide element 14 is pressed with its projections 20 against the sliding surfaces 21 or against one of the pairs of recesses 12, 13. Thus, by means of a simple rectilinear movement of the insert, the guide element 14 is attached to the spring latch 15, and the guide element 14 holds the lower part 9 in tight contact with the upper surface 6 of the housing 2. Then the upper plug 8 is attached to the lower part 9, preferably with the help of snap elements. Thus, the assembly of element 3 in the form of a lid is complete.

For the purpose of the present specification and the appended claims, except where otherwise indicated, all numbers expressing quantities, amounts, percentages, etc., are to be understood as modified in all instances by the term "about". Also, all ranges include the maximum and minimum points disclosed and include any intermediate ranges therebetween that may or may not be specifically recited herein. Accordingly, in this context, the number A is understood to be A ±10% of A. In this context, the number A may be considered to include numerical values that are within the common standard error for the measurement of the property that the number A modifies. The number A, in some instances, when used in the appended claims, may deviate by the percentages listed above, provided that the amount by which A deviates does not materially affect the essential and novel characteristic(s) of the claimed invention. Also, all ranges include the disclosed high and low points and include any intermediate ranges therebetween that may or may not be specifically listed herein.

Claims (29)

1. An aerosol generating device comprising: a housing having an opening configured to accommodate an aerosol-generating article, a cover-shaped element capable of moving relative to the housing between a closed position and an open position, wherein in the closed position the cover element at least partially covers the opening, and in the open position, the opening is at least partially open, wherein the cover element forms a cavity of the cover element, in this case, a guide element protrudes from the housing, wherein the guide element is placed in the cavity of the element in the form of a cover, wherein the guide element comprises a leg, wherein the leg extends from the inner side of the housing to the outer side of the housing, wherein an elastic element engages with the leg inside the housing. 2. An aerosol generating device according to claim 1, wherein the guide element is configured to apply a downward pressing force against the housing on the lid element, at least when the lid element is in the closed position. 3. An aerosol generating device according to claim 1 or 2, wherein one of the cover element and the guide element comprises a protrusion, and the other of the cover element and the guide element comprises a first recess and a second recess, wherein the protrusion and the first recess engage with each other when the cover element is in the closed position, and wherein the protrusion and the second recess engage with each other when the cover element is in the open position. 4. An aerosol generating device according to any of the preceding claims, wherein the elastic element is located in a spring cavity in the housing, wherein the spring cavity comprises an opening, wherein the leg passes through the opening of the spring cavity, wherein the spring cavity is hermetically sealed relative to the inner compartment of the housing. 5. An aerosol generating device according to any of the preceding claims, wherein the guide element comprises a head, wherein the head is located in a cavity of the element in the form of a lid, wherein the head has a width exceeding the width of the leg. 6. An aerosol generating device according to any of the preceding claims, wherein the cover member comprises a guide groove on its surface adjacent to the body through which a leg of the guide member passes, and wherein the head engages with the inner surface of the cavity of the cover member near the guide groove. 7. An aerosol generating device according to any one of the preceding claims, wherein the lid member comprises a lower portion and an upper plug, wherein the cavity of the lid member is formed between the upper plug and the lower portion. 8. An aerosol generating device according to any one of the preceding claims, wherein the cover-shaped element comprises at least one guide projection which is directed into a guide recess in the housing. 9. An aerosol generating system comprising an aerosol generating device according to any of the preceding paragraphs and an aerosol generating article, wherein the aerosol generating article comprises an aerosol forming substrate. 10. A method for closing an opening in the housing of an aerosol generating device, wherein the opening is designed to accommodate an aerosol-generating product, wherein the cover element is moved between an open position in which the opening is at least partially open and a closed position in which the cover element at least partially covers the opening, in this case, the element in the form of a cover moves relative to the guide element, wherein the guide element pulls the cover element towards the housing at least in the closed position, wherein the guide element comprises a leg, wherein the leg extends from the inner side of the housing to the outer side of the housing, wherein an elastic element engages with the leg inside the housing. 11. The method according to claim 10, wherein the cover element is moved along a first path, wherein the guide element is elastically moved in a direction that differs from the first path when the cover element is moved along the first path between an open position and a closed position. 12. A method for assembling an element in the form of a cover on the body of an aerosol generating device, in particular according to any of paragraphs 1-8, comprising: the arrangement of the lower part of the element in the form of a cover on the upper side of the body of the aerosol generating device, and inserting the leg of the guide element through the guide groove in the lower part into the opening of the cavity for the spring in the housing in such a way that the elastic element located in the cavity for the spring engages with the recess in the leg. 13. The assembly method according to item 12, further comprising arranging the upper plug on the lower part in such a way that a cavity of the element in the form of a lid is formed, wherein the head of the guide element is located in the cavity of the element in the form of a lid. 14. The assembly method according to paragraph 12 or 13, further comprising placing the elastic element in the spring cavity and closing the spring cavity with a closing part.