RU2808964C2 - Case with rotating holder for aerosol generating device and charging system - Google Patents

Abstract

FIELD: aerosol generating products.

SUBSTANCE: invention is related to a case having a rotating holder for housing an aerosol generating device, and to a charging system containing the case and a docking station. A case (10) is proposed for the aerosol generating device (100). The case (10) contains a case body (12) and a holder (14) for placing an aerosol-generating device (100). The holder (14) is movable relative to the case body (12) between a closed position in which the aerosol generating device (100) is prevented from being removed from the holder (14) and a docking position in which the aerosol generating device (100) is can be removed from the holder (14). The case (10) also contains a case power source (22) located in the case body (12), and a case electrical connector (26) configured to supply power from the case power source (22) to the aerosol generating device (100), when the aerosol generating device (100) is placed in the holder (14). The case (10) also includes a charging connector (28) for receiving power from an external power source and a sensor (32) configured to detect the position of the holder (14) and generate a signal indicating the position of the holder (14). The case (10) also contains a controller (24) configured to receive a signal from the sensor (32). The controller (24) is configured to supply power received by the charging connector (28) from an external power source to the power supply (22) of the case when a signal indicates that the holder (14) is in the closed position. The controller (24) is configured to supply power received by the charging connector (28) from an external power source to the electrical connector (26) of the case when a signal indicates that the holder (14) is in the docking position.

EFFECT: provision of a simple design of the case and simple control of the holder.

25 cl, 15 dwg

Description

The present invention relates to a case having a rotating holder for housing an aerosol generating device. The present invention also relates to a charging system comprising a case and a docking station.

Known electrical aerosol generating systems generally comprise an aerosol generating device having a nebulizer and an electrical power source for supplying power to the atomizer. The nebulizer may be an electric heater. In addition, known systems generally comprise an aerosol-forming substrate that is placed in the device and atomized by a nebulizer to release volatile compounds from the aerosol-forming substrate that form an aerosol for inhalation by the user. Some known systems also include a case for housing the aerosol generating device when not in use. Cases in different systems are known to serve different functions, such as protecting the device when not in use and recharging the device's battery.

In some known aerosol generating systems, the aerosol generating device is configured to accommodate an aerosol generating article containing a solid aerosol generating substrate, such as assembled corrugated tobacco sheet. In these systems, the device typically includes a nebulizer in the form of an electric heater configured to heat the aerosol-forming substrate, and a power source for supplying electrical power to the electric heater. To maintain the desired device size, typically the power source in the aerosol generating device has sufficient capacity to heat only one aerosol generating substrate. Therefore, in systems containing a case, after using the device with one aerosol-generating product, the device must be placed in the case and recharged before use with the next product.

As an alternative to recharging the device using a case, some users prefer to use a docking station, which accepts the device and powers it from an external power source. Although a docking station can provide convenient access to a device when the user is sitting at a desk, the user must, for example, continue to use the case to charge the device when away from the docking station. Thus, in prior art aerosol generating systems, using a docking station in addition to a case results in additional expense to the user and may also require the user to carry both the case and the docking station if the user wishes to use the docking station in several different locations.

It would be desirable to overcome or mitigate at least some of these disadvantages associated with prior art aerosol generating systems and docking stations.

According to a first aspect of the present invention, there is provided a case for an aerosol generating device, the case including a case body and a holder for housing the aerosol generating device. The holder is movable relative to the case body between a closed position in which the aerosol generating device is prevented from being removed from the holder, and a docked position in which the aerosol generating device can be removed from the holder. The case also includes a case power source located in the case body, and a case electrical connector configured to supply power to the aerosol generating device when the aerosol generating device is placed in the holder. The case also includes a charging connector for receiving power from an external power source and a sensor configured to detect the position of the holder and generate a signal indicating the position of the holder. The case also contains a controller configured to receive a signal from the sensor. The controller is configured to supply power received by the charging connector from an external power source to the power supply of the case when a signal indicates that the holder is in a closed position. The controller is configured to supply power received by the charging connector from an external power source to an electrical connector of the case when a signal indicates that the holder is in a docking position.

Supplying power received from an external power source directly to the electrical connector of the case when the holder is in the docking position may enable direct recharging of the power supply of the aerosol generating device housed in the holder when the case is used as a docking station, which is advantageous . This can reduce wear and tear on the case's power supply, which is an advantage.

Providing power to the case power supply when the holder is in the closed position allows the case power supply to be recharged when the case is not being used as a docking station, which is an advantage.

The holder may be configured to rotate through an angle of 80 degrees to 110 degrees relative to the case body as the holder moves between a closed position and a docking position. This may allow the case to be used as a docking station, which is an advantage. For example, when the holder is in a docking position, the case body may function as a base to allow the case to stand on a flat surface, and the holder may protrude from the flat surface to allow the aerosol generating device to be conveniently inserted into the holder and to be removed from the holder. holder.

Preferably, the holder is rotatable through an angle of from about 85 degrees to about 105 degrees relative to the case body as the holder moves between a closed position and a docking position. Preferably, the holder is configured to rotate through an angle of approximately 90 degrees relative to the case body as the holder moves between a closed position and a docking position. An angle of approximately 90 degrees can maximize the stability of the case when used as a docking station with the holder in the docked position, which is an advantage. An angle of approximately 90 degrees may increase or maximize the contact area between the case body and the surface on which the case is located while allowing the holder to extend substantially vertically relative to the surface, allowing the case to be used as a docking station, which is advantageous.

Preferably the holder has a longitudinal axis. Preferably, the holder is configured to insert the aerosol generating device into the holder along a longitudinal axis when the holder is in a mating position. Preferably, the holder is rotatably movable between a closed position and a mating position about an axis of rotation, the axis of rotation being substantially perpendicular to the longitudinal axis of the holder.

According to a second aspect of the present invention, there is provided a case for an aerosol generating device. The case contains a case body and a holder for placing an aerosol-generating device in it. The holder is movable relative to the case body between a closed position in which the aerosol generating device is prevented from being removed from the holder, and a docked position in which the aerosol generating device can be removed from the holder. The holder is configured to rotate through an angle of about 80 degrees to about 110 degrees relative to the case body as the holder moves between a closed position and a docking position. The case also includes a case power source located in the case body, and a case electrical connector configured to supply electrical power from the case power supply to the aerosol generating device when the aerosol generating device is housed in the holder.

The holder is configured to rotate through an angle of about 80 degrees to about 110 degrees relative to the case body as the holder moves between a closed position and a docking position. This may allow the case to be used as a docking station, which is an advantage. For example, when the holder is in a docking position, the case body may function as a base to allow the case to stand on a flat surface, and the holder may protrude from the flat surface to allow the aerosol generating device to be conveniently inserted into the holder and to be removed from the holder. holder.

Preferably, the holder is rotatable through an angle of from about 85 degrees to about 105 degrees relative to the case body as the holder moves between a closed position and a docking position. Preferably, the holder is configured to rotate through an angle of approximately 90 degrees relative to the case body as the holder moves between a closed position and a docking position. An angle of approximately 90 degrees can maximize the stability of the case when used as a docking station with the holder in the docked position, which is an advantage. An angle of approximately 90 degrees may increase or maximize the contact area between the case body and the surface on which the case is located while allowing the holder to extend substantially vertically relative to the surface, allowing the case to be used as a docking station, which is advantageous.

Preferably the holder has a longitudinal axis. Preferably, the holder is configured to insert the aerosol generating device into the holder along a longitudinal axis when the holder is in a mating position. Preferably, the holder is rotatably movable between a closed position and a mating position about an axis of rotation, the axis of rotation being substantially perpendicular to the longitudinal axis of the holder.

Preferably, the case in accordance with the second aspect of the present invention includes a charging connector for receiving power from an external power source, wherein the charging connector is configured to supply power from the external power source to at least one of the power supply of the case and the electrical connector of the case. The power received by the charging connector from an external power source can be used to recharge at least one of the power supply of the case and the power supply of the aerosol generating device housed in the holder, which is advantageous.

The case in accordance with the second aspect of the present invention may include a sensor configured to detect the position of the holder and generate a signal indicating the position of the holder. The case may include a controller configured to receive a signal from the sensor.

Preferably, the controller is configured to supply power received by the charging connector from an external power source to the power supply of the case when a signal indicates that the holder is in a closed position. Providing power to the case power supply when the holder is in the closed position allows the case power supply to be recharged when the case is not being used as a docking station, which is an advantage.

Preferably, the controller is configured to supply power received by the charging connector from an external power source to an electrical connector of the case when a signal indicates that the holder is in a docking position. Supplying power received from an external power source directly to the electrical connector of the case when the holder is in the docking position may enable direct recharging of the power supply of the aerosol generating device housed in the holder when the case is used as a docking station, which is advantageous . This can reduce wear and tear on the case's power supply, which is an advantage.

The following optional and preferred features may be applied to cases in accordance with both the first aspect of the present invention and the second aspect of the present invention.

The case electrical connector may be configured to supply electrical power from the case power supply to the aerosol generating device when the aerosol generating device is housed in the holder and when the holder is in each of the docking position and the closed position. Supplying power from the case power supply to the aerosol generating device when the holder is in the closed position allows the aerosol generating device to be recharged when the case is used as a carrying case for the aerosol generating device, which is advantageous. Supplying power from the case's power supply to the aerosol generating device when the holder is in the docked position allows the aerosol generating device to be recharged when the case is being used as a docking station, particularly when the case is not connected to an external power source, which is advantage.

Preferably, the case is configured such that at least a portion of the holder is located within the case when the holder is in the closed position. This may make it possible to enclose the aerosol generating device in a case when the aerosol generating device is placed in a holder and the holder is in a closed position, which is advantageous. Enclosing the aerosol generating device in a case can protect the aerosol generating device when the aerosol generating device is not in use, which is advantageous.

Preferably, the holder is rotatable relative to the case body into an open position between a closed position and a docking position. The open position may allow the aerosol generating device to be inserted into the holder and removed from the holder without having to move the full range of movement between the closed position and the docking position, which is advantageous. The open position may be particularly advantageous when the case is used as a case for transporting an aerosol generating device.

Preferably, the case includes a rotating assembly, wherein the holder is rotatable about the rotating assembly relative to the case body. The holder can be connected to the case body using a rotating unit. The holder may be movable around the rotating assembly between the docking and closed positions. Connecting the holder to the case body with a rotary assembly can ensure a simple structure of the case and easy operation of the holder, which is advantageous. For example, a rotating assembly allows the user to simply rotate the holder around the rotating assembly between a closed position and a docking position.

In embodiments in which the holder is pivotable to an open position, the holder may be pivotable about the pivot assembly to an open position.

The rotating assembly may include at least one protrusion on the holder and at least one hole defined by the case body, wherein the at least one protrusion is rotatably positioned in the at least one hole.

The rotating assembly may include at least one protrusion on the case body and at least one hole defined by the holder, wherein the at least one protrusion is rotatably positioned in the at least one hole.

Forming a rotating assembly using at least one projection and at least one opening can allow the case to be manufactured simply and economically, which is an advantage. For example, in embodiments in which at least one of the case body and the holder is formed using an injection molding process or a 3D printing process, the at least one projection and the at least one hole may be formed by an injection molding process or 3D printing process.

The case may include a connecting element having a first end and a second end, wherein the connecting element is movably connected to the case body at the first end of the connecting element, and wherein the holder is rotatably attached to the second end of the connecting element.

The connecting element may allow the holder to be more complexly moved relative to the case body, which is advantageous. More complex movement of the holder relative to the body may allow optimization of the orientation of the holder relative to the case body when the case is used as a docking station with the holder in a docked position, which is advantageous.

The connector and holder may be configured to provide both translational movement of the holder relative to the case body and rotational movement of the holder relative to the case body as the holder moves between a closed position and a mating position.

The connecting element may comprise at least one of a rod and a plate.

Preferably, the first end of the connecting element is slidably connected to the body of the case. The sliding movement provided by the connecting member may allow the holder to be moved completely outside the case body when the holder is moved from a closed position, which is advantageous. Moving the holder completely outside the case body may allow the orientation of the holder relative to the case body to be optimized when rotating the holder into a mating position, which is advantageous.

The case body may define at least one groove, and the first end of the connecting element may include at least one projection, wherein said at least one projection is slidably positioned in said at least one groove.

The holder may be connected to the second end of the connecting element by a rotary assembly. In embodiments in which the holder is movable to an open position, the rotating assembly may allow the holder to be moved relative to the connecting element between a closed position and an open position, which is advantageous.

The coupling assembly may comprise a shaft, the shaft comprising a first shaft portion defining a first end of the coupling element and a second shaft portion defining a second end of the coupling element. The second shaft part is rotatably connected to the first shaft part. Rotating the second shaft portion relative to the first shaft portion may allow the holder to rotate into a mating position, which is advantageous. Rotation of the second shaft portion relative to the first shaft portion may be particularly advantageous in embodiments in which the holder is connected to the second end of the coupling element by a rotating assembly. The combination of the rotating assembly and the rotating second shaft portion can provide the holder with two degrees of rotational freedom, which is an advantage. Two degrees of rotational freedom may allow the orientation of the holder relative to the case body to be optimized when the holder is rotated into a mating position, which is advantageous. This may increase or maximize the contact area between the case body and the surface on which the case is located while allowing the holder to extend substantially vertically relative to the surface, allowing the case to be used as a docking station, which is advantageous.

The holder may be connected to the second end of the connecting element by a universal joint. The universal joint can provide the holder with two degrees of freedom of rotation, which is an advantage. Two degrees of rotational freedom may allow the orientation of the holder relative to the case body to be optimized when the holder is rotated into a mating position, which is advantageous.

The holder may be connected to the second end of the connecting element by a ball joint. The ball joint can provide the holder with three degrees of freedom of rotation, which is an advantage. Three degrees of rotational freedom may allow optimization of the orientation of the holder relative to the case body when rotating the holder into a docking position, which is an advantage.

The electrical connector of the case may be any suitable type of electrical connector for electrical connection with the aerosol generating device housed in the holder. The electrical connector of the case may comprise any suitable number of electrical contacts. Preferably, the electrical connector of the case comprises a plurality of electrical contacts.

The electrical connector of the case is configured to transmit power to the aerosol generating device located in the holder. The electrical connector of the case may have at least one power electrical contact configured to transmit electrical power. The electrical connector of the case may have at least one electrical data contact configured to transmit data to an aerosol generating device located in the holder, transmit data from an aerosol generating device located in the holder, or both.

Preferably, the electrical connector of the case is located on the holder. This makes it possible to provide electrical connection with the aerosol generating device housed in the holder when the holder is in the docking position and when the holder is in the closed position, which is advantageous. The holder may include a first end through which the aerosol generating device can be inserted into the holder and a second end at which an electrical connector of the case is located.

Preferably, the case includes a flexible connector that provides an electrical connection between the case's electrical connector and the case's power source. The advantage is that the flexible connector allows relative movement between the holder and the case body. The flexible connector may comprise an electrical wire. The flexible connector may include a ribbon cable.

The charging connector may include any suitable connector for connecting the case's power supply to an external power source. The charging connector may include a connector that conforms to the Universal Serial Bus (USB) standard. The charging connector may include a micro USB connector. The charging connector may include a USB-C connector.

The sensor may comprise at least one of a mechanical switch, an optical sensor, an inductive sensor, a magnetic sensor, and a capacitive sensor.

The sensor may be located at any suitable location on or within the case to determine the relative position of the holder and the case body. In some embodiments, the sensor may be located on or within the holder and may be configured to sense the position of the case body or one or more components housed within the case body relative to the holder. In some preferred embodiments, the sensor may be located on or within the case body and configured to sense the position of the holder relative to the case body. In some particularly preferred embodiments, the sensor may be configured to sense the presence of an aerosol generating device in the holder. For example, the sensor may be configured to detect an aerosol generating device when said device is placed in a holder and the holder is in a closed position.

The optical sensor may be an optical distance sensor comprising a light source and an optical transducer configured to receive reflected light from the light source when an object is located near or in the vicinity of the sensor. Preferably, the optical distance sensor is an infrared distance sensor. An infrared distance sensor may employ a light source that emits light in the infrared region of the electromagnetic spectrum, typically having wavelengths in the range of about 700 nanometers to about 1100 nanometers.

The mechanical switch may include a button or lever movable to open or close an electrical circuit. The switch may be movable between an open position and a closed position. The switch can be pressed to one of the open or closed positions. In other words, the switch can be forced to return to one of the open or closed positions in the absence of an external force acting in the opposite direction. In some embodiments, the switch may be a push-button switch. As used herein, the term “push-button switch” refers to a switch comprising a button that is movable linearly along an axis between an open position and a closed position. In some embodiments, the switch may be a rocker switch or a lever switch. As used herein, “toggle switch” or “lever switch” refers to a switch comprising a lever movable, typically rotatable, between an open position and a closed position.

Preferably, the mechanical switch is operable by moving the holder relative to the case between a mating position and a closed position.

In some embodiments, the mechanical switch is located on or within the holder. In these embodiments, the case body or one or more components enclosed within the case body may include a switch-engaging portion configured to actuate the switch when the holder is moved between a mating position and a closed position. In some of these embodiments, the switch-engaging portion may include a projection extending from the case body or a profiled member of the case body that contacts and actuates the switch when the holder is moved relative to the case body.

In some preferred embodiments, the mechanical switch is located on or within the body of the case. In these embodiments, the holder may include a switch-engaging portion configured to actuate the switch when the holder is moved between a mating position and a closed position. In some of these embodiments, the switch-engaging portion may include a projection extending from the holder or a shaped holder member that contacts and actuates the switch when the holder is moved relative to the case body.

The power supply for the case may be any suitable type of power supply. For example, the power supply of the case may include one or more batteries and capacitors. The power supply for the case may include a lithium-ion battery. Preferably, the power source of the case is a rechargeable power supply.

The case may also further comprise holding means provided for releasably retaining the aerosol generating device in the holder. The holding means may be any suitable means for releasably holding the aerosol generating device in the holder.

The holding means may include a frictional fit between the aerosol generating device and the holder.

The holding means may comprise a magnetic holding means. The magnetic holding means may comprise a first magnetic material and a second magnetic material. The first magnetic material may be provided in the aerosol generating device, and the second magnetic material may be provided in the case.

The first and second magnetic materials may be arranged such that the first and second magnetic materials are in proximity to each other when the aerosol generating device is placed in the holder. Preferably, the first and second magnetic materials may be arranged such that the first and second magnetic materials are attracted to each other when the aerosol generating device is positioned in the holder.

The first magnetic material may be located at or near the end of the aerosol generating device, and the second magnetic material may be located at or near the end of the holder. In embodiments in which the case electrical connector is located at the end of the holder, the second magnetic material may be located adjacent to the case electrical connector. The electrical connector of the case may include a second magnetic material.

The case may be of any suitable size and shape to accommodate the aerosol generating device. Typically the case is portable. In other words, the case is of a suitable size and shape to be worn by the user. Preferably the case is a hand held case. In other words, the case is of a suitable size and shape to be held in the user's hand. The case may have a size and shape similar to a regular pack of cigarettes. The case can have any suitable diameter and any suitable length. The case may have a length of from about 50 millimeters to about 200 millimeters. The case may have an outer diameter of from about 10 millimeters to about 50 millimeters.

The case may have a cross-section of any suitable shape. For example, the case may have a substantially circular, elliptical, triangular, square, diamond-shaped, trapezoidal, pentagonal, hexagonal, or octagonal cross-section. The case may have a substantially rectangular cross-section. The sheath may have a substantially constant cross-section along its length. The case may have a substantially rectangular cross-section along its length. In specific embodiments, the case may be a substantially rectangular parallelepiped.

The case body may comprise any suitable material or combination of materials. Examples of suitable materials include metals, alloys, plastics or composite materials containing one or more of such materials, or thermoplastic materials suitable for use in the food or pharmaceutical industries, for example polypropylene, polyetheretherketone (PEEK) and polyethylene. In certain embodiments, the material is lightweight and non-fragile.

According to a third aspect of the present invention, there is provided a charging system comprising a charging base and a case according to the first aspect of the present invention in accordance with any of the embodiments described herein, or a case according to the second aspect of the present invention in accordance with any of the embodiments described herein document. The charging base is configured to accommodate at least part of the case. The charging base includes a charging base power supply connector for receiving power from an external power source. The charging base also includes a charging base electrical connector configured to supply electrical power received by the charging base power supply connector from an external power source to the charging connector of the case when at least a portion of the case is housed in the charging base. Preferably, the charging base is configured to receive at least a portion of the case when the holder is in a docking position.

The charging base can make it easier to transfer power from an external power supply to the case, which is an advantage. For example, the charging base can remain permanently connected to an external power source, and the case can be easily inserted into and removed from the base as needed.

The charging base may allow the case to be used as a docking station in embodiments in which the case body includes one or more curved portions, which is advantageous. The charging base may include a substantially flat portion that allows it to stand on a flat surface, and a profiled portion to accommodate at least a portion of the case body. Preferably, the profiled portion of the base and at least the body portion of the case have complementary shapes. In embodiments in which the case body includes one or more curved parts, preferably the profiled portion of the base has a curved shape.

Since the case can be used as a docking station for the aerosol generating device when the holder is in the docking position, there is no need to configure the charging base to accommodate the aerosol generating device, which is an advantage. Accordingly, the charging base, configured to accommodate at least a portion of the case, may have a simpler design than known docking stations for housing and recharging an aerosol generating device.

The charging base may have a cross-sectional shape corresponding to the cross-sectional shape of at least a portion of the case. The charging base may have a U-shaped cross-section.

Each of the charging base power supply connector and the charging base electrical connector may comprise any suitable connector. Each of the charging base power supply connector and the charging base electrical connector may include a connector compatible with a universal serial bus (USB) standard. Each of the charging base power supply connector and the charging base electrical connector may include a micro USB connector. Each of the charging base power supply connector and the charging base electrical connector may include a USB-C connector.

The present invention will be further described, by way of example only, with reference to the accompanying drawings, in which:

in Fig. 1 is a cross-sectional view of a case according to a first embodiment of the present invention with the holder in a closed position;

in Fig. 2 is a sectional view of the case shown in FIG. 1, with the holder in a docking position and the aerosol generating device located in the holder;

in Fig. 3 is a perspective view of the case shown in FIG. 1, with the holder in the docking position;

in Fig. 4 is a rear view of a charging system containing the case shown in FIG. 1, and charging base;

in Fig. 5 is a perspective view of a case according to a second embodiment of the present invention with the holder in a mating position;

in Fig. 6 is a cross-sectional view of a case according to a third embodiment of the present invention with the holder in a closed position ;

in Fig. 7 is a sectional view of the case shown in FIG. 6, with the holder in the first open position;

in Fig. 8 is a sectional view of the case shown in FIG. 6, with the holder in the second open position;

in Fig. 9 is a sectional view of the case shown in FIG. 6, with the holder in the third open position;

in Fig. 10 is a sectional view of the case shown in FIG. 6, with the holder in the docking position;

in Fig. 11 is a cross-sectional view of a case according to a fourth embodiment of the present invention with the holder in a closed position ;

in Fig. 12 is a sectional view of the case shown in FIG. 11, with the holder in the first open position;

in Fig. 13 is a sectional view of the case shown in FIG. 11, with the holder in the second open position;

in Fig. 14 is a sectional view of the case shown in FIG. 11, with the holder in the docking position; And

in Fig. 15 is a perspective view of the case shown in FIG. 11, with the holder in the docking position.

In FIG. 1 and 2 are cross-sectional views of a case 10 for an aerosol generating device 100 according to a first embodiment of the present invention. The case 10 includes a case body 12 and a holder 14 movably connected to the case body 12. The holder 14 may accommodate an aerosol generating device 100, as shown in FIG. 2.

The holder 14 is connected to the case body 12 by a rotating assembly 20. The holder 14 and the rotating assembly 20 are configured such that the holder 14 can be rotated through an angle of approximately 90 degrees relative to the case body 12 between the closed position shown in FIG. 1, and the docking position shown in FIG. 2. In the docking position, the case 10 may be positioned on a surface such that the holder 14 extends in a vertical direction and allows the case 10 to be used as a docking station for the aerosol generating device 100. This orientation of the case 10 is shown in the perspective view of the case 10 in FIG. 4.

Case 10 also includes a case power supply 22, a controller 24, and a case electrical connector 26. The case power source 22 contains a rechargeable battery. The charging connector 28, in the form of a micro-USB connector, allows the case 10 to receive power from an external power source to recharge the case's power supply 22.

The electrical connector 26 of the case is located at the end of the holder 14 and is connected to the power source 22 of the case by a flexible connector 30. The flexible connector 30 contains a ribbon cable and allows the holder 14 to move between the docking position and the closed position. When the aerosol generating device 100 is placed in the holder 14 as shown in FIG. 2, an electrical connector 102 of the aerosol generating device 100 is in contact with an electrical connector 26 of the case. To enable the case 10 to be used as a docking station for the aerosol generating device 100, the case control circuit 24 is configured to control the supply of power from the case power supply 22 to the aerosol generating device 100 via the flexible connector 30 and the case electrical connector 26. when the holder 14 is in both the closed position and the docking position. Power supplied to the aerosol generating device 100 can be used to charge a power source of the aerosol generating device 100.

The case 10 also includes a sensor 32 located on the case body 12 adjacent to the holder 14. The sensor 32 includes an optical distance sensor located to determine whether the holder 14 is in the docking position or the closed position. The sensor 32 generates a signal indicating the position of the holder 14, and the controller 24 is configured to receive the signal from the sensor 32.

In FIG. 4 is a rear view of the charging system 200 including the case 10 shown in FIG. 1, and a charging base 202. The case 10 is shown with the holder 14 in a docking position and the case body 12 partially inserted into the charging base 202. The charging base 202 includes a charging base power supply connector 204 for receiving power from an external power source, such as an AC power source. nutrition. The charging base 202 also includes a charging base electrical connector 206 configured to connect to a charging connector 28 of the case 10 when the case 10 is placed in the charging base 202. The charging base 202 is configured to supply electrical power received by the charging base power supply connector 204 to the case. 10 via electrical connector 206 of the charging base.

The controller 24 is configured to supply power received from the charging base 202 to the case power supply 22 when a signal from the sensor 32 indicates that the holder 14 is in the closed position. Power supplied to the case power supply 22 recharges the case power supply 22.

When the signal from the sensor 32 indicates that the holder 14 is in the docking position, the controller 24 supplies power received from the charging base 202 directly to the aerosol generating device 100 housed in the holder 14 to recharge the power supply of the aerosol generating device 100 . Supplying power received from the charging base 202 directly to the aerosol generating device 100 when the holder 14 is in the docking position bypasses the case power supply 22, which can reduce wear on the case power source 22.

In FIG. 5 is a perspective view of a case 300 according to a second embodiment of the present invention. Case 300 is substantially the same as case 10 shown in FIG. 1, except for the location of the holder 14 relative to the case body 12. Instead of positioning the holder 14 on the side of the case body 12 (FIG. 3), the holder 14 of the case 300 is located on the front of the case body 12 (FIG. 5). Due to the rectangular cross-sectional shape of the case body 12, the configuration shown in FIG. 5 may be more stable than the configuration shown in FIG. 3, when used as a docking station, particularly when the case 300 is used as a docking station without a base to provide additional support to the case 300.

In FIG. 6-10 show a cross-sectional view of a case 400 according to a third embodiment of the present invention. Case 400 is similar to case 10 shown in FIG. 1, and like reference numbers are used to designate like parts. The electrical components of case 400 and their operation are identical to those of case 10 shown in FIG. 1. The case 400 differs from the case 10 by attaching the holder 14 to the case body 12.

The case 400 includes a connecting member 402 connecting the holder 14 to the case body 12. The connecting member 402 includes a pin 404 at the first end of the connecting member 402, the pin 404 being slidably positioned in a groove 406 defined by the case body 12. The holder 14 is rotatably connected to the second end of the connecting element 402 by a rotating assembly 420. The connecting element 402 includes a first part 408 defining the first end of the connecting element 402, and a second part 410 defining the second end of the connecting element 402. The second part 410 is rotatably configured relative to the first part of 408.

From the closed position shown in FIG. 6, the holder 14 may be rotated about the pivot assembly 420 to the first open position shown in FIG. 7. In the first open position, the aerosol generating device can be inserted into the holder 14 or removed from the holder 14.

From the first open position shown in FIG. 7, the pin 404 of the connecting member 402 can move along the slot 406 to move the holder 14 to the second open position shown in FIG. 8. In the second open position, the holder 14 is located substantially outside the case body 12.

From the second open position shown in FIG. 8, holder 14 may be rotated about hinge 420 to a third open position shown in FIG. 9. In the third open position, the holder 14 is substantially parallel to the case body 12.

From the third open position shown in FIG. 9, the second portion 410 of the coupling member 402 may be rotated relative to the first portion 408 of the coupling member 402, rotating the holder 14 through an angle of approximately 90 degrees relative to the case body 12 into the mating position shown in FIG. 10.

In FIG. 11-14 show a cross-sectional view of a case 500 according to a fourth embodiment of the present invention. Case 500 is similar to case 400 in FIG. 6 and case 10 in FIG. 1. Like item numbers are used to identify like parts. The electrical components of case 500 and their operation are identical to those of case 10 shown in FIG. 1. The case 500 differs from the case 400 in the configuration of the connecting element connecting the holder 14 to the case body 12.

The case 500 includes a connecting member 502 connecting the holder 14 to the case body 12. The connecting member 502 includes a pin 504 at the first end of the connecting member 502, the pin 504 being slidably and rotatably positioned in a groove 506 defined by the case body 12. The holder 14 is rotatably connected to the second end of the connecting element 502 by a ball joint. The ball joint includes a socket portion 508 attached to the holder 14 and a ball portion 510 formed at the second end of the connecting member 502. The ball portion 510 is rotatably positioned in the socket portion 508.

From the closed position shown in FIG. 11, the socket portion 508 may be rotated about the ball portion 510, and the pin 504 may be rotated within the slot 506 to rotate the holder 14 to the first open position shown in FIG. 12. In the first open position, the aerosol generating device can be inserted into the holder 14 or removed from the holder 14.

From the first open position shown in FIG. 12, the socket portion 508 may be rotated about the ball portion 510, and the pin 504 may be rotated within the slot 506 and moved along the slot 506 to move the holder 14 to the second open position shown in FIG. 13. In the second open position, the holder 14 is located substantially outside the case body 12 and extends substantially parallel to the case body 12.

From the second open position shown in FIG. 13, the socket portion 508 may be rotated about the ball portion 510 by rotating the holder 14 through an angle of approximately 90 degrees relative to the case body 12 into the mating position shown in FIG. 14.

In FIG. 15 is a perspective view of the case 500 with the holder 14 in a mating position. It should be understood that the case 400 shown in FIG. 6 has the same configuration when the holder 14 is in the docking position.

Claims (38)

1. A case for an aerosol generating device, containing: case body; a holder for housing the aerosol generating device, wherein the holder is movable relative to the case body between a closed position in which the aerosol generating device is prevented from being removed from the holder, and a docking position in which the aerosol generating device can be removed from holder; a case power supply located inside the case body; a case electrical connector configured to supply power to the aerosol generating device when the aerosol generating device is placed in the holder; a charging connector for receiving power from an external power source; a sensor configured to detect a position of the holder and capable of generating a signal indicating the position of the holder; And a controller configured to receive a signal from the sensor; wherein the controller is configured to supply power received by the charging connector from an external power source to the power supply of the case when the signal indicates the holder is in a closed position; And wherein the controller is configured to supply power received by the charging connector from an external power source to an electrical connector of the case when a signal indicates that the holder is in a docking position. 2. The case according to claim 1, characterized in that the holder is designed to rotate through an angle from 80 degrees to 110 degrees relative to the case body when moving the holder between the closed position and the docking position. 3. The case according to claim 1 or 2, further comprising a rotating unit, wherein the holder is designed to rotate around the rotating unit relative to the case body. 4. The case according to claim 3, characterized in that the holder is connected to the case body through a rotating assembly, and the holder is rotatable around the rotating assembly between the docking and closed positions. 5. The case according to claim 1 or 2, further comprising a connecting element having a first end and a second end, wherein the connecting element is movably connected to the case body at the first end of the connecting element, and wherein the holder is rotatably connected to the second end of the connecting element . 6. The case according to claim 5, characterized in that the first end of the connecting element is slidingly connected to the case body. 7. The case according to claim 5 or 6, characterized in that the holder is connected to the second end of the connecting element by means of a rotary unit. 8. Case according to any one of paragraphs. 5-7, characterized in that the connecting element contains a shaft, wherein the shaft contains a first shaft part forming a first end of the connecting element, and a second shaft part forming a second end of the connecting element, and wherein the second shaft part is rotatably connected to the first part shaft 9. The case according to claim 5 or 6, characterized in that the holder is connected to the second end of the connecting element through at least one of a ball joint and a universal joint. 10. The case according to any of the previous claims, characterized in that the electrical connector of the case is configured to supply electrical power from the case power source to the aerosol generating device when the aerosol generating device is placed in the holder, and when the holder is in each of the docking positions and closed position. 11. The case as claimed in any one of the preceding claims, wherein the case's electrical connector is located on the holder, and the case further comprises a flexible connector providing an electrical connection between the case's electrical connector and the case's power source. 12. The case according to any of the previous paragraphs, characterized in that the holder is rotatable relative to the case body into an open position between a closed position and a docking position. 13. The case according to any of the previous claims, characterized in that the holder has a longitudinal axis, and the holder is configured to insert the aerosol generating device into the holder along the longitudinal axis when the holder is in a docking position. 14. The case according to any of the previous claims, characterized in that the holder is rotatably movable between a closed position and a docking position about an axis of rotation, and the axis of rotation is substantially perpendicular to the longitudinal axis of the holder. 15. The case according to any of the previous paragraphs, characterized in that the case is designed in such a way that at least part of the holder is placed inside the case when the holder is in the closed position. 16. The case according to any of the previous claims, characterized in that the electrical connector of the case contains at least one power electrical contact configured to transmit power to the aerosol generating device when the aerosol generating device is placed in the holder. 17. The case according to any of the previous claims, characterized in that the electrical connector of the case contains at least one electrical data contact configured to transmit data to an aerosol generating device located in the holder, and with the ability to transmit data from the aerosol generating device, placed in a holder, or both. 18. The case according to any of the previous paragraphs, characterized in that the electrical connector of the case is located on the holder. 19. The case according to claim 18, characterized in that the holder includes a first end through which the aerosol generating device is capable of being inserted into the holder, and a second end at which an electrical connector of the case is located. 20. The case according to any of the previous claims, characterized in that the sensor is configured to recognize the presence of an aerosol generating device in the holder. 21. The case as claimed in any one of the preceding claims, further comprising a holding means provided for releasably holding the aerosol generating device in the holder. 22. The case according to claim 21, characterized in that the holding means provides a frictional fit between the aerosol generating device and the holder. 23. The case according to claim 21 or 22, characterized in that the holding means comprises a magnetic holding means. 24. The case according to claim 23, wherein the magnetic holding means comprises a first magnetic material provided in the aerosol generating device and a second magnetic material provided in the case. 25. Charging system containing: a case according to any of the previous paragraphs; And a charging base configured to accommodate at least a portion of the case, the charging base comprising: a charging base power supply connector configured to receive power from an external power source; And a charging base electrical connector configured to supply electrical power received by the charging base power supply connector from an external power source to the charging connector of the case when at least a portion of the case is placed in the charging base.

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