DE202014004361U1 - Battery module for a smoke device - Google Patents

Abstract

Battery module for a smoke device (1) having a housing (5), a loadable current source (6) arranged in the housing (5) for operating the smoke device (1) and a charging pole arrangement (7) for charging the current source (6) with at least two Charging poles (8a-g), characterized in that the battery module has a Verpolschutzschaltung (9), which provides an input DC voltage to the Ladepolen (8a-g) a DC output voltage of a predetermined polarity for charging the current source (6).

Description

The invention relates to a battery module for a smoke device according to the preamble of claim 1 and a charging device for a battery module according to claim 16.

Electronic cigarettes have for some time been an alternative to conventional cigarettes. They usually work according to the evaporator principle, according to which the liquid to be evaporated from a tank passes by means of a wick to an electrically powered heating coil and is evaporated there. The electrical energy for the heating coil is provided by a rechargeable battery or a battery as a power source, this power source is associated with an electronic assembly, which controls the delivery of electrical energy through this power source -. B. at the touch of a button - controls. There are both electronic cigarettes for single use, which can be thrown away after consumption of the liquid or the battery, as well as rechargeable electronic cigarettes known. These can either refill or recharge or replace the power source and liquid tank. Here, in particular, it can also be provided that the part of the electronic cigarette with the evaporator is used only once and only that with the power source and the associated electronic circuitry is reusable. In principle, therefore, an electronic cigarette can be subdivided in its construction into a first functional part with the evaporator - which first functional part can also be referred to as evaporator module - and a second functional part with the current source - which second functional part is referred to here and below as battery module - this both functional parts as described may be both firmly connected in a single housing and releasably connected to each having its own housing. In addition to such electronic cigarettes in the strict sense, other types of smoking devices are known which work according to the above evaporator principle such. B. stationary smoking devices for use by several people. Also known are smoking devices which heat tobacco for steam generation without burning it.

Such smoke devices are characterized in that they are operated electrically by a power source such as a battery or a rechargeable battery. For economic and ecological reasons, it is desirable to be able to reuse the smoke device and especially the power source of the smoke device.

In this case, a physical replacement of the power source is often problematic, because by the one hand very compact design of most smoke devices and the requirement of cost-effective production of the replacement mechanism for such a power source can not be designed as user-friendly, as desired by the consumer for a pleasure article. Sockets and the associated electronics for standardized electrical connections from computer technology, such. As the known from mobile phones USB jacks, which can also be used for charging, are relatively expensive, large and complex. Finally, the consumer also expects a charging facility for the smoke device, which is just as "casual" and without complicated manipulation used as the smoking process on the smoke device itself, so that a tedious connection of the smoke device with charging contacts would be perceived as unnecessarily disturbing.

Against this background, the object of the invention is to further develop and improve a known battery module for a smoke device so that the recharging of a power source of the battery module is made possible in a comfortable and at the same time reliable manner.

The above problem is solved in a battery module for a smoke device with the features of the preamble of claim 1 by the features of the characterizing part of claim 1. In a charging arrangement for a battery module, the problem with the features of claim 16 is achieved.

Essential to the invention is the recognition that a Verpolschutzschaltung can be provided in the smoke device, which makes the charging regardless of whether the charging poles of the battery module have the correct orientation to corresponding Aufladepolen a charging station. A polarity reversal of the battery module to the charging station can therefore no longer take place. This in turn makes it possible to design the charging poles or corresponding charging contacts of the smoking device in such a way that even a "casual" or careless placement of the smoking device or the accumulator module on a charging device leads to an effective electrical connection via which the current source of the accumulator module is charged by means of the charging device can be. Thus, the battery module or the smoke device can be approximately simply plugged into a corresponding receptacle, without it being a special orientation, in particular with regard to a rotation of the battery module or the smoke device would be. This finding can not only be applied to contact-based charging, but in principle also to contactless charging.

The preferred embodiment of the subclaim 3 relates to the above-designed in cigarette-like smoke devices preferred arrangement of the charging poles at one longitudinal end of the housing of the battery module.

The preferred variant of the subclaim 4 provides specifically that by a less than complete rotation of the battery module, the charging poles - at least partially - can be brought into coverage. In this way, the charging poles can be compactly arranged in a single plane - with respect to the axis of rotation - of the battery module. The dependent claim 5 provides that this can apply to a wide range of rotation angles.

Further, the dependent claims 7 and 8 relate to a preferred embodiment with an arrangement of loading contacts designed as charging poles on a front surface of the smoking device. Since one end of the smoking device regularly has an opening for sucking on the smoking device, the then opposite front end can preferably be used for the arrangement of the charging contacts.

The subclaims 9 and 10 in turn relate to the arrangement of the charging contacts on a jacket section of a cylinder-like smoke device.

In this case, according to the embodiment of subclaim 11, the extent of the charging poles can be so great that a contact suitable for charging can be produced virtually independently of a position of the battery module.

The dependent claims 13 and 14 further relate to particularly suitable embodiments of the Verpolschutzschaltung.

Finally, the dependent claim 17 provides an advantageous application of the rotational independence of the battery module described above to a corresponding charging station for such a battery module.

Further details, features, objects and advantages of the present invention will be explained in more detail below with reference to a purely exemplary embodiments of the drawings. In the drawing shows:

1 a perspective view of a proposed battery module and a charging station for the proposed battery module,

2 an exploded view of the battery module the 1 .

3a) a perspective view of a front surface of the battery module of 1

3b) a perspective view of a front surface of a second embodiment of a proposed battery module,

3c) a perspective view of a front surface of a third embodiment of a proposed Akkumoduls and

4 a sectional view of the battery module and the charging station of 1 ,

The proposed battery module is for a smoke device 1 provided, which is in this case specifically and as in the 1 represented by an electronic cigarette 1a is. In addition to the battery module, this also includes an evaporator module - here exchangeable 2 , which is detachably connected to the battery module. The evaporator module 2 , on whose inner structure it does not matter here, shows how from the 1 recognizable, a suction port 3 at a suction end 4 the smoke device 1 on. The proposed battery module can also - together with the evaporator module 2 - Solid and insoluble part of such a smoke device 1 be.

The proposed battery module has a housing 5 and one in the housing 5 arranged loadable current source 6 for operating the smoke device 1 on. Specifically, by the power source 6 a - not shown here - heating coil in the evaporator module 2 for evaporation of - also in the evaporator module 2 arranged - Liquid fed. Likewise, a sensor of the smoke device 1 as well as further functionalities of the smoke device 1 , which will be exemplified below, from the power source 6 be fed in their respective operation. In the case 5 The battery module can also be the case 5 the smoke device 1 Act altogether. Likewise, the housing 5 , like in the 2 shown formed in several parts.

Furthermore, the proposed battery module comprises a charging pole arrangement 7 for charging the power source 6 with at least two charging poles 8a -G. The Ladepolanordnung 7 So takes a supply current through the charging pole 8a -G, which then, possibly after a conversion, the power source 6 is fed to their charging.

The proposed battery module is now characterized in that it has a polarity reversal protection circuit 9 which has an input DC voltage, in particular with any input polarity, at the charging poles 8a -G a DC output voltage of a predetermined polarity for charging the power source 6 provided. In other words, the application of a DC input voltage of any polarity leads to the charging poles 8a - g means that a DC output voltage from the polarity reversal protection circuit 9 is provided, which always has the same predetermined polarity. In this way, the polarity of the DC output voltage is also opposite to a reverse polarity of the charging poles 8a -G at an external charging voltage source invariant. In the 4 are charging pins 9a , b, which are electrically connected to such, not shown external charging voltage source.

The charging poles 8a -G can in principle be inside the case 5 arranged and thus be configured for about a contactless charging. However, it is preferred that the Ladepolanordnung 7 as on the case 5 arranged charging contact arrangement 7a is formed and that the at least two charging poles 8a -G as charging contacts 10a -G are formed. For charging the power source 6 So then is an electrical contact between about the external charging voltage source and here especially the charging pins 9a , b with the charging contacts 10a , B of the battery module according to the illustration of 4 produced.

According to one embodiment of the smoking device 1 in approaching a conventional cigarette as shown in the drawing, it is preferred that the housing 5 oblong with a longitudinal axis 14 and is designed in particular cylinder-like. Then it may be that the Ladepolanordnung 7 on an axial front surface 11 of the housing 5 , This variant is in the 3a and 3c shown. Alternatively or additionally, the Ladepolanordnung 7 also on a jacket section 12 around the axial front end 13 of the housing 5 be arranged, what in the 3b is shown. In principle, any desired longitudinal end of the housing 5 as a front end 13 be viewed, preferably at the front end 13 around the intake end 4 opposite longitudinal end of the housing 5 is.

Basically, the charging poles 8a G be arranged so that z. B. via an axial offset, especially in an arrangement on the shell portion 12 , just a single one of the charging poles 8a -G can come into electrical contact with a respective Aufladekontakt. As a particularly compact arrangement, however, it is preferred that the charging poles 8a -G are at least partially overlapping with respect to a position before rotation when the housing 5 around an overlap angle around the longitudinal axis 14 Partially turned. This applies both to the design of the 3a c. So there is an angle smaller than 360 ° - the overlap angle, which corresponds to a partial rotation and not a complete rotation - around the housing 5 around the longitudinal axis 14 can be rotated so that - in the exemplary case of two charging poles 8a , b - a loading pole 8a after the partial rotation the other Ladepol 8b at least partially overlapped. The two charging poles 8a , b so exchange their respective place by the partial rotation, at least partially.

As in the present embodiments of the 3a This can even apply to a whole range of overlap angles to the housing 5 can be partially turned. Therefore, it is preferable that the overlap angle is in an angular range of overlap angles. Consequently, each angle in this angular range is an overlap angle, so that a partial rotation of the housing 5 such overlap angle results in the above, at least partial overlap. Such an angle range may for example be between 10 ° and 350 °, so that each partial rotation between 10 ° and 350 ° leads to the above, at least partial overlap. In other words, essentially only a very small or an almost complete partial rotation does not lead to such an overlap. This is particularly true of the embodiment of the 3a to recognize. It is further preferred that this angular range has an area size of at least 90 °, in particular of at least 180 ° or even - as just described - of at least 340 °.

It is also preferred that the charging poles 8a -G mirror symmetry to a plane of symmetry through the longitudinal axis 14 of the housing 5 are arranged. The charging poles 8a , b can also be axisymmetric to a surface symmetry axis 14b the front surface 11 be arranged.

As in the embodiments of the 3a and 3c illustrated, it is preferred according to a variant that the charging contacts 10a , b, e-g each have a front contact 15a -E include, which on the front surface 11 is arranged. It offers, according to a preferred embodiment, that the front contacts 15a -E substantially flush with the front surface 11 are arranged. In other words, they do not protrude significantly from the front surface 11 out.

These front contacts 15a -E have recognizable essentially the same radial distance 16 to the longitudinal axis 14 on. So it is preferable that the front contacts 15a -E with respect to a radial distance 16 to a center of the front surface 11 , in particular to a longitudinal axis 14 of the housing 5 , are arranged at least partially overlapping. In this case, the front contacts 15a -Ee even essentially with respect to a radial distance 16 completely overlapping arranged.

For safer contacting is preferably provided that the front contacts 15a -E circular arc and in particular semicircular are formed. As in the 3a and 3c they are shown here preferably at an outer edge of the front surface 11 arranged.

According to the variant of 3b Again, it is preferred that the charging contacts 10c , d one jacket contact each 17a , b, which on the shell portion 12 is arranged. In analogy to the above front contacts 15a -E on the front surface 11 is for the sheath contacts 17a , B preferably provided that they with respect to an axial extent along the longitudinal axis 14 of the housing 5 are arranged at least partially overlapping. In the embodiment of 3b this is given by the fact that the jacket contacts 17a , b with respect to the longitudinal axis 14 have the identical axial position.

Like also in the 3b shown, the jacket contacts 17a , B cylinder-cylinder arch-like and in particular be designed half-cylinder coat arch-like. A cylinder jacket arc is thus a part of a lateral surface of a cylinder, which is formed analogously to a circular arc on the respective lateral surface. Likewise, according to the illustration of 3b is preferably provided that the jacket contacts 17a , b substantially flush with the skirt portion 12 are arranged.

Although for the charging poles 8a -G principle, the largest possible extent is desired, so it is still an electrical separation between them required. Therefore, it is preferably provided that the charging poles 8a -G by at least one electrically insulating separation section 18a -G of the housing 5 are separated from each other. Because such a separation section 18a -G forms a region which is not suitable for an electrical connection to the external charging voltage source, it is preferably provided that a contact circumference extension 19a , b of the charging contacts 10a -G is at least five times larger than a separation extent extension 20a , b of the separating sections 18a , b. In particular, it may be that the contact circumference extension 19a , B is at least ten times larger than the separation extent extension 20a , b.

In imitation of conventional cigarettes, it may be desirable to anneal the cigarette through the smoking device 1 imitate, especially if just a user at the intake 3 inhales. This can be z. B. by a not shown here and coupled to the energization of the heating coil diode array at the front end 13 be effected. In this connection, it is preferable that the housing 5 an at least semi-transparent glow cover 21 having. This can then be illuminated by this diode array. Preferred is the glowlight cover 21 on the front surface 11 arranged and forms the at least one separating section 18a , b. Further it may be that, as in the 3a and 3c represented the front contacts 15a -E around the glowlight cover 21 are arranged.

The above reverse polarity protection circuit 9 can in principle be formed by any circuit which outputs a DC voltage of the predetermined polarity to an input DC voltage as the output voltage. Here it is not necessary that the polarity reversal protection circuit 9 to a DC input voltage of any polarity provides a non-zero DC output voltage. What is required is that any of the polarity reversal protection circuit 9 provided output DC voltage only has the predetermined polarity and not about a reverse polarity.

Preferably, the polarity reversal protection circuit 9 a bridge circuit 22 and specifically, a diode bridge for providing the DC output voltage of the predetermined polarity. In such a bridge circuit may be both a half-bridge circuit, as well as one in the 4 illustrated full bridge circuit 23 act.

Only optionally has the polarity reversal protection circuit 9 a rectifier circuit, since it is basically not mandatory that the polarity reversal protection circuit 9 generates an output DC voltage to an input change or input mixing voltage. The preferred variant in this regard provides that the polarity reversal protection circuit 9 on one in particular at the loading poles 8a -G applied mixed voltage an output mixing voltage of the predetermined polarity for charging the power source 6 provides.

As already described above are the charging poles 8a G preferred by an electrically insulating separation section 18a -G separated from each other, wherein the separation circumference extension 20a , b can be dimensioned as small as possible. Here, a lower limit can be given by the fact that at a Trennumfangserstreckung 20a , b, which is smaller than a corresponding extent of the charging pins 9a , b is the charging pins 9a , b in principle a short circuit between two charging poles 8a -G. With a correspondingly larger extension of the separation extent extension 20a On the other hand, it may be that the housing 5 coincidentally aligned exactly so that the charging pins 9a , b in the region of the separation extent extension 20a , b are arranged and therefore no contact with the charging poles 8a -G exists.

This problem can be addressed in various ways. According to a first preferred variant, which in the 2 and 3a is shown, the housing has 5 a rotationally asymmetric alignment structure 24 to avoid misalignment of the housing 5 on. In this alignment structure 24 this is an axial projection 24a , This axial projection 24a is designed so that it regularly during insertion of the battery module or the smoke device 1 in a charging station 25 and especially in a loading opening 26 this charging station 25 a precise alignment of the charging pins 9a , b to the separation section 18a -G prevents, by in such a case the axial projection 24a at the respective charging pin 9a , b slides off and to a corresponding small rotation of the housing 5 leads.

Alternatively or additionally, a not shown here, magnetically effective protection arrangement in the housing 5 be provided, which by interaction with a corresponding counter assembly in the charging station 25 also to a rotation of the housing 5 leads and thus prevents the above undesired precise alignment.

Finally, according to the variant of 3c Also, a - not shown - Polerkennungsmodul be provided in the battery module, which is the orientation of the charging pins 9a , b to the charging poles 8e -G detects and makes a corresponding internal switchover. Here then can the Trennumfangserstreckung 20a , b very small and even smaller than a corresponding extension of the charging pins 9a , b are chosen so that the charging pins 9a , b the charging poles 8e -G can not miss by having only one separation section 19a , b touch. In the present example, three charge poles formed as a third-circle arc 8e -G provided. Regularly are then in an arrangement of the battery module in the charging station 25 the charging pins 9a , b each with one of these charging poles 8e -G in electrically connecting contact, which can be recognized by the Polerkennungsmodul and taken into account internally. In the rare case that one of the two charging pins 9a , b even two of these charging poles 8e -G contacted, it is guaranteed that the other charging pin 9a , b the third Ladepol 8e -G centered. This situation can also be identified by the pole detection module by means of a short-circuit detection, wherein the two contacted charging poles 8e -G then shorted as a single charge pole 8e -G can be treated. The respective third Ladepol 8e -G will then be treated quite regularly.

The proposed charging arrangement for a battery module according to the proposal has a charging station 25 with a loading opening 26 for receiving the housing 5 of the battery module. This charging station 25 also proposes charging poles for providing the DC input voltage to the charging poles 8a -G of the charging pole arrangement 7 of the battery module. These charging poles are preferred here as charging pins 9a , b trained.

In this case, the embodiment described above for overlapping the charging poles 8a -G advantageously also on the charging poles of the charging station 25 be transmitted. A preferred embodiment of the charging arrangement is characterized in that the loading opening 26 has an opening direction axis and the charging poles at least partially overlap with respect to a position before rotation when the charging station 25 is partially rotated about a Aufladadelappungswinkel about the opening direction axis.

In this connection, it is preferred that this charging overlap angle is in a charging angular range with an area size of at least 90 °, in particular of at least 180 ° and more particularly of at least 340 °.

Further preferred embodiments of the proposed charging arrangement and especially of their charging poles result mutatis mutandis from the above preferred embodiments of the proposed Akkumoduls and in particular the charging poles 8a -G.

Claims (17)

Battery module for a smoke device ( 1 ) with a housing ( 5 ), one in the housing ( 5 ) arranged loadable current source ( 6 ) for operating the smoke device ( 1 ) and a charging pole arrangement ( 7 ) for charging the power source ( 6 ) with at least two charging poles ( 8a -G), characterized in that the battery module a Verpolschutzschaltung ( 9 ), which on an input DC voltage at the Ladepolen ( 8a -G) a DC output voltage of a predetermined polarity for charging the current source ( 6 ). Battery module according to claim 1, characterized in that the charging pole arrangement ( 7 ) than on the housing ( 5 ) arranged charging contact arrangement ( 7a ) and that the at least two charging poles ( 8a -G) as charging contacts ( 10a -G) are formed. Battery module according to claim 1 or 2, characterized in that the housing ( 5 ) elongate, in particular cylinder-like, with a longitudinal axis ( 14 ) is configured, preferably, that the Ladepolanordnung ( 7 ) on an axial front surface ( 11 ) of the housing ( 5 ) and / or on a jacket section ( 12 ) around the axial front end ( 13 ) of the housing ( 5 ) is arranged. Battery module according to claim 3, characterized in that the charging poles ( 8a -G) related to at least partially overlap a position prior to rotation when the housing ( 5 ) by an overlap angle about the longitudinal axis ( 14 ) is partially turned. Battery module according to claim 4, characterized in that the overlap angle is in an angular range of overlap angles, preferably, wherein the angular range has an area size of at least 90 °, in particular of at least 180 °, more particularly of at least 340 °. Battery module according to one of claims 3 to 5, characterized in that the charging poles ( 8a -G) mirror-symmetrical to a plane of symmetry through the longitudinal axis ( 14 ) of the housing ( 5 ) and / or axisymmetric to a surface symmetry axis of the front surface ( 11 ) are arranged. Battery module according to one of claims 3 to 6, characterized in that the charging contacts ( 10a , b, e-g) each have a front contact ( 15a E), which at the front surface ( 11 ), in particular that the front contacts ( 15a -E) substantially flush with the front surface ( 11 ) are arranged, preferably, that the front contacts ( 15a -E) with respect to a radial distance ( 16 ) to a center of the front surface ( 11 ), in particular to the longitudinal axis ( 14 ) of the housing ( 5 ), at least partially overlapping. Battery module according to claim 7, characterized in that the front contacts ( 15a -E) are formed like a circle, in particular semicircular, preferably at an outer edge of the front surface ( 11 ) are arranged. Battery module according to one of claims 3 to 8, characterized in that the charging contacts ( 10c , d) one jacket contact each ( 17a , b), which on the shell portion ( 12 ), preferably that the jacket contacts ( 17a , b) with respect to an axial extent along the longitudinal axis ( 14 ) of the housing ( 5 ) are arranged at least partially overlapping. Battery module according to claim 9, characterized in that the jacket contacts ( 17a , b) are formed in the shape of a cylinder jacket, in particular in the shape of a half cylinder jacket, preferably in that the jacket contacts ( 17a , b) substantially flush with the shell portion ( 12 ) are arranged. Battery module according to one of claims 1 to 10, characterized in that the charging poles ( 8a -G) by at least one electrically insulating separating section ( 18a -G) of the housing ( 5 ), preferably that a contact circumference extension ( 19a , b) the charging contacts ( 10a -G), at least five times, in particular ten times, is greater than a separation extent extension ( 20a , b) the separating sections ( 18a , b). Battery module according to one of claims 1 to 11, characterized in that the housing ( 5 ) an at least semi-transparent glow cover ( 21 ), preferably, which on the front surface ( 11 ) is arranged and the at least one separating section ( 18a , b), in particular, wherein the front contacts ( 15a -E) around the glow cover ( 21 ) are arranged. Battery module according to one of claims 1 to 12, characterized in that the polarity reversal protection circuit ( 9 ) a bridge circuit ( 22 ), in particular a diode bridge, for providing the output DC voltage of the predetermined polarity. Battery module according to one of claims 1 to 13, characterized in that the polarity reversal protection circuit ( 9 ) on one in particular at the loading poles ( 8a -G) applied mixed voltage an output mixing voltage of the predetermined polarity for charging the power source ( 6 ). Battery module according to one of claims 1 to 14, characterized in that the housing ( 5 ) a rotationally asymmetric alignment structure ( 24 ) to avoid misalignment of the housing ( 5 ) having. Charging arrangement for a battery module according to one of claims 1 to 15, comprising a charging station ( 25 ) with a loading opening ( 26 ) for receiving the housing ( 5 ) of the battery module and with charging poles for providing the DC input voltage to the charging poles ( 8a -G) the charging pole arrangement ( 7 ) of the battery module. Loading arrangement according to claim 16, characterized in that the loading opening ( 26 ) has an opening direction axis and the charging poles at least partially overlap with respect to a position before rotation when the charging station ( 25 ) is partially rotated about a Aufladadelappungswinkel about the opening direction axis, preferably that the Auflad overlap angle in a Aufladewinkelbereich with an area size of at least 90 °, in particular, of at least 180 °, more particularly at least 340 °.

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