WO2015058367A1 - Electronic cigarette charging device and manufacturing method for electronic cigarette charging device - Google Patents

Abstract

An electronic cigarette charging device and manufacturing method therefor. The electronic cigarette charging device is used to charge the battery rod of an electronic cigarette. The battery rod is provided with a first electrode connector (101) and a second electrode connector (102), both electrically connected to the electronic cigarette charging device. The electronic cigarette charging device is provided with a charging insertion socket (30) for inserting the battery rod; the charging insertion socket (30) is provided with a first charging electrode (10) and a second charging electrode (20) that respectively push against the first electrode connector (101) and the second electrode connector (102), at least one charging electrode of the first charging electrode (10) and the second charging electrode (20) being made of conductive sponge. The electronic cigarette charging device can enhance charging efficiency and prevent the potential danger triggered by a high temperature caused by high impedance due to an initial contact of two positive poles, thereby making the electronic charging device safer and more reliable.

Description

 Electronic cigarette charging device and electronic cigarette charging device manufacturing method Technical field

 The invention relates to the field of daily electronic products, in particular to an electronic cigarette charging device and a method for manufacturing the electronic cigarette charging device.

Background technique

An electronic cigarette is a simulated cigarette that is heated by atomizing a substance containing a fragrance to generate smoke for the user to smoke. At present, in most electronic cigarettes, the atomizing seat and the insulator are installed independently of each other in the sleeve. When assembling, the thrust is applied to the insulator, so that the insulator abuts against the atomizing seat, and then the atomizing seat is pushed into the sleeve. Since the wire threaded from the atomizing seat is a fragile product, it is easy to damage the wire and increase the defective rate in the production process. Moreover, in the conventional electronic cigarette, the wire is first welded to the electrode, and then the atomizer is assembled, so that the solder can easily block the electrode hole not only during the soldering, but also easily damage the wire during the assembly process. In addition, the insulator Abutting on the atomization seat, the two are not easily aligned with each other and are offset to affect or block the perforation formed on the atomization seat, and the two separated components are low in assembly efficiency, poor in reliability, and also required There are two molds to produce separately, which increases production costs.

Electronic cigarettes are mainly used to quit smoking and replace cigarettes. At present, the electronic cigarette on the market includes a battery rod and an atomizer. When there is a smoking action, the battery in the battery rod supplies power to the atomizer, and drives the heating wire to generate heat to atomize the smoke liquid to generate smoke. Electronic cigarettes are electronic products that consume a lot of current in an instant. Due to the limitation of the battery capacity of the electronic cigarettes, the user must charge the batteries before continuing to use them.

At present, the charging electrode of most electronic cigarette charging devices is a spring electrode made of a metal material, and the contact area with the electronic cigarette battery rod is small, and the electrode connecting rod of the battery rod is not well contacted, so that the electronic cigarette is charged. The charging efficiency of the device is not high.

In addition, since the relative position of the electrode connector on the battery rod and the charging electrode in the electronic cigarette charging device is different, usually the positive pole of the battery rod first contacts the positive electrode of the electronic cigarette charging device, and then the negative electrode of the battery rod contacts the electronic device. The negative pole of the cigarette charging device for the purpose of electrical connection.

However, in this process, once the structural design is poor, that is, only the positive electrodes of the battery rod and the electronic cigarette charging device are in contact with each other, the contact impedance between the battery rod and the electronic cigarette charging device at this time. It will become high due to such a non-sturdy electrical connection state. Therefore, if the abnormal power supply state continues for too long, the structure around the charging electrode in the battery rod or the electronic cigarette charging device may be damaged due to overheating, or even the whole. The device burned.

Summary of the invention

The technical problem to be solved by the present invention is to provide a method for improving the charging efficiency, and having better reliability and safety, in view of the defects such as small contact area between the battery rod and the charging electrode and unstable charging in the electronic cigarette charging device in the prior art. A method for manufacturing an electronic cigarette charging device and an electronic cigarette charging device.

 The technical solution adopted by the present invention to solve the technical problem thereof is: construction An electronic cigarette charging device for charging a battery rod of an electronic cigarette, wherein the battery rod is provided with a first electrode connecting member and a second electrode connecting member for electrically connecting with the electronic cigarette charging device, the electronic cigarette The charging device is provided with a charging slot for inserting the battery rod, and the charging socket is provided with a first charging electrode and a second for respectively abutting the first electrode connecting member and the second electrode connecting member The charging electrode, at least one of the first charging electrode and the second charging electrode is made of a conductive sponge.

In the electronic cigarette charging device of the present invention, the first charging electrode is made of a conductive sponge and disposed on a sidewall of the charging slot; the first charging electrode is clamped to the battery during charging The rod is electrically connected to the first electrode connection of the battery rod.

In the electronic cigarette charging device of the present invention, the first charging electrode is provided with a first through hole coaxially disposed with the charging slot, and the battery rod penetrates the first through hole during charging, the first A perforated hole wall is resiliently and electrically connected to the first electrode connector.

 In the electronic cigarette charging device of the present invention, the first charging electrode has a ring-shaped or split ring structure.

In the electronic cigarette charging device of the present invention, the second charging electrode is made of a conductive sponge and disposed on a bottom wall of the charging slot; and the second charging electrode is disposed on the battery when charging The second electrode connector on the end face of the rod abuts.

 In the electronic cigarette charging device of the present invention, the conductive sponge includes a sponge core and a metal plating layer disposed on a surface of the sponge core.

 In the electronic cigarette charging device of the present invention, the conductive sponge is a polyaniline/polyurethane conductive sponge composite.

In the electronic cigarette charging device of the present invention, the first charging electrode is a negative electrode of the electronic cigarette charging device, and the second charging electrode is a positive electrode of the electronic cigarette charging device;

In the process of inserting the battery rod into the charging slot, after the first electrode connecting member abuts the first charging electrode, the second electrode connecting member is further abutted to the second charging electrode. The battery rod and the electronic cigarette charging device are electrically connected to each other.

In the electronic cigarette charging device of the present invention, the electronic cigarette charging device further includes a clamping member for clamping and fixing the battery rod, the clamping member being sleeved on a side wall of the charging slot The holder is provided with a second through hole coaxially disposed with the charging slot;

 The battery rod is electrically connected to the first charging electrode and the second charging electrode through the second through hole and the first through hole in sequence.

In the electronic cigarette charging device of the present invention, the holding member has an annular or split ring structure, and the holding member is made of silicone rubber, an elastic material or a foam material.

In the electronic cigarette charging device of the present invention, the electronic cigarette charging device further includes a mounting base, and an integrated circuit board disposed in the mounting seat and having a charging circuit; the charging slot is disposed in the Inside the mount, the integrated circuit board is mounted in a first receiving cavity that communicates with the bottom of the charging slot;

The first charging electrode and the second charging electrode are fixed on the integrated circuit board, wherein at least one charging electrode made of a conductive sponge in the first charging electrode and the second charging electrode passes through a conductive adhesive A formed conductive bonding layer is adhesively bonded to the integrated circuit board and electrically connected to the charging circuit.

In the electronic cigarette charging device of the present invention, the electronic cigarette charging device further includes a mounting seat, and a first electric conductor and a first electric conductor and a charging circuit disposed on the mounting base and electrically connected to the charging circuit of the electronic cigarette Two conductors;

The mounting seat is fastened to the first conductive body, the charging slot is disposed in the first conductive body, and the second mounting body is disposed in the mounting seat. Accommodating chamber.

In the electronic cigarette charging device of the present invention, the first charging electrode is a plurality of conductive sponges in a block shape, and the conductive sponges of the plurality of block bodies are respectively spaced and fixed around the charging slot. The second charging electrode is fixedly connected to the second electrical conductor and at least partially protrudes from an outer surface of the mounting seat;

The first electrode connector is elastically abutted to the first charging electrode and electrically connected to the first conductive body during charging, and the second electrode connector is elastically abutted to the second charging electrode and the first The two electrical conductors are electrically connected.

 In the electronic cigarette charging device of the present invention, the electronic cigarette charging device is an electronic cigarette case.

 The invention also constructs a method for manufacturing an electronic cigarette charging device, the method comprising the following steps:

 S1 Providing, in a charging slot of the electronic cigarette charging device, a first charging electrode and a second charging electrode respectively abutting the first electrode connecting member and the second electrode connecting member of the battery rod, the first charging electrode and the At least one of the second charging electrodes is made of a conductive sponge;

a charging slot for inserting the battery rod, the first charging electrode being clamped on the battery rod and electrically connected to the first electrode connector, the second charging electrode being disposed on the battery rod The second electrode connector on the end face abuts.

 In the method for manufacturing the electronic cigarette charging device of the present invention, the step S1 specifically includes the following steps:

 S11 Providing a mounting socket, the charging socket is opened in the mounting seat, and the integrated circuit board is installed in the first receiving cavity communicating with the bottom of the charging slot;

 S12 Opening a first through hole coaxially disposed with the charging slot on the first charging electrode, and disposing the first charging electrode on a sidewall of the charging slot;

 Forming a second through hole coaxially disposed with the charging slot on the clamping member, and the clamping member is disposed on a sidewall of the charging slot

 S13 Fixing the first charging electrode and the second charging electrode on the integrated circuit board, and electrically conducting at least one charging electrode made of a conductive sponge among the first charging electrode and the second charging electrode A conductive bonding layer formed of glue is adhesively bonded to the integrated circuit board and electrically connected to the charging circuit.

 In the method for manufacturing the electronic cigarette charging device of the present invention, the step S1 specifically includes the following steps:

 S11 Providing a mounting seat, fastening the first electrical conductor to the mounting seat, and fixing the second electrical conductor to the second receiving cavity of the mounting seat; opening the first conductive body Charging slot

 S12 a first through hole disposed coaxially with the charging slot is disposed on the first charging electrode, and the first charging electrode is disposed on a sidewall of the charging slot;

 Forming a second through hole coaxially disposed with the charging slot on the clamping member, and the clamping member is disposed on a sidewall of the charging slot;

 S13 ', the second charging electrode is fixedly connected to the second electrical conductor and the second charging electrode at least partially protrudes from an outer surface of the mounting seat.

 The electronic cigarette charging device and the method for manufacturing the electronic cigarette charging device embodying the present invention have the following beneficial effects: At least one of the first charging electrode and the second charging electrode of the electronic cigarette charging device of the present invention is made of a conductive sponge, so that the first charging electrode or the second charging electrode can be well connected to the first electrode of the battery rod. The contact of the piece or the second electrode connecting member is good, the ductility and flexibility of the conductive sponge are good, the contact area of the battery rod and the charging electrode is increased, and the problem of poor contact due to vibration or the like is not easily caused, thereby improving the charging efficiency and avoiding The appearance of the electronic cigarette is wiped off and the overall weight of the electronic cigarette charging device is reduced, and the electronic cigarette charging device is simple to manufacture.

DRAWINGS

 The present invention will be further described below in conjunction with the accompanying drawings and embodiments, in which:

 1 is an exploded view of a battery rod of an electronic cigarette according to a preferred embodiment of the present invention;

 2 is an exploded view of a charging assembly of an electronic cigarette charging device according to a preferred embodiment of the present invention;

 3 is a schematic structural view of a charging assembly of an electronic cigarette charging device according to a preferred embodiment of the present invention;

 4 is a schematic structural view of a charging assembly of an electronic cigarette charging device according to a second embodiment of the present invention;

 Figure 5 is a schematic structural view of the mounting base of the charging assembly shown in Figure 4;

 6 is an exploded view of a charging assembly of an electronic cigarette charging device according to a third embodiment of the present invention;

 7 is a schematic structural view of a charging assembly of an electronic cigarette charging device according to a third embodiment of the present invention;

 Figure 8 is a schematic structural view of the mounting base of the charging assembly shown in Figure 7;

 Figure 9 is a schematic view showing the structure of the first electrical conductor of the charging assembly shown in Figure 7.

detailed description

In order to solve the defects in the prior art electronic cigarette charging device that the contact area between the battery rod and the charging electrode is small, the charging is unstable, and the safety is unsafe, at least one of the first charging electrode and the second charging electrode of the charging device of the present invention Made of a conductive sponge, the present invention utilizes the good elasticity and electrical conductivity of the conductive sponge, so that the first charging electrode and the second charging electrode can be in good contact with the first electrode connecting member or the second electrode connecting member of the battery rod, thereby improving Charging efficiency and reliable and safe charging. Moreover, the conductive sponge is softer and more ductile than the conventional conductive rubber, so the charging electrode made of the conductive sponge can increase the contact area between the charging electrode and the electronic cigarette, avoiding the appearance of scratching the electronic cigarette, and reducing the electron. The overall weight of the cigarette charging device.

The present invention will be further described in detail below with reference to the accompanying drawings and embodiments. It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In one of the preferred embodiments of the electronic cigarette charging device provided by the present invention, the electronic cigarette charging device is an electronic cigarette case capable of placing an electronic cigarette and having a charging function, which can be used for charging the battery rod of the electronic cigarette. Figure 1 As shown, one end of the battery rod is provided with an annular first electrode connector 101 and a second electrode connector 102 for electrically connecting to the electronic cigarette charging device. . Since the battery rod is prior art, it will not be described herein.

 In this embodiment, The battery rod and the atomizer (not shown) are detachably connected. It can be understood that the present invention can also charge the electronic cigarette in which the battery rod and the atomizer are integrally fixedly connected.

 As shown in FIG. 2 and in conjunction with FIG. 3, the electronic cigarette charging device includes a charging assembly, and the charging assembly includes a mounting base 1 and an integrated circuit board. 2, the clamping member 5, the first charging electrode 10 and the second charging electrode 20. A charging slot 30 for inserting a battery rod is provided on one end surface of the mounting seat 1, and the charging slot 30 is provided. It is open at one end and has a closed structure at the other end. A first charging electrode 10 and a second charging electrode respectively abutting the first electrode connecting member 101 and the second charging electrode connecting member 102 are disposed in the charging slot 30. 20, at least one of the first charging electrode 10 and the second charging electrode 20 is made of a conductive sponge. First charging electrode 10 and second charging electrode 20 The specific setting form will be described in detail below.

 The conductive sponge is divided into two types, one of which The conductive sponge includes a sponge core and a metal plating layer disposed on the surface of the sponge core, and the other conductive sponge is a polyaniline/polyurethane conductive sponge composite. The conductive sponge is different from the conductive rubber, and the charging electrode is made of a conductive sponge. The elasticity and flexibility are better. Since the electrode connecting member of the electronic cigarette is curved, the charging electrode made of a conductive sponge can increase the contact area between the charging electrode and the electronic cigarette. The conductive property is good, the conduction is more stable, the appearance of the electronic cigarette is avoided, and the overall weight of the electronic cigarette charging device is reduced. In this embodiment, the conductive sponge is a polyaniline/polyurethane conductive sponge composite. by Polyaniline and polyurethane The composite of two organic polymer materials is better than the inorganic material and the organic polymer material in the compatibility and uniformity, and the mechanical properties and electrical conductivity of the conductive sponge are improved, so that it is more suitable for the electronic cigarette to be charged frequently. Low impedance requirements.

 As shown in FIG. 3 and in conjunction with FIG. 2, the first charging electrode 10 is made of a conductive sponge and has a ring-shaped or split ring structure, and the first charging electrode 10 is provided with a first through hole 11 coaxially disposed with the charging slot 30, and the first through hole 11 is axially penetrated along the first charging electrode 10. The first charging electrode 10 is fixedly connected to the charging slot 30 The first charging electrode 10 can be fixedly connected to the side wall of the charging slot 30 by means of bonding or fastening; or the first charging electrode 10 can be opened on the side wall of the charging slot 30. The annular slot corresponding to the shape (not shown) embeds the first charging electrode 10 in the annular slot and is fixedly connected to the sidewall of the charging slot 30, and is fixedly connected to the sidewall of the charging slot 30. a charging electrode The inner side wall of 10 may protrude from the side wall of the charging slot 30 on the side wall of the charging slot 30, but the protruding portion has a thickness of 0.1 mm to 5 mm. In order to better contact with the corresponding charging electrode of the battery rod, the preferred embodiment of the embodiment is 1 mm or less. When charging, the battery rod penetrates the first through hole 11, the hole wall of the first through hole 11 and the first electrode connecting piece The 101 is elastically abutted and electrically connected, and at this time, the first charging electrode 10 is clamped on the battery rod.

 It can be understood that in other embodiments, the first charging electrode 10 can For a plurality of conductive sponges in the form of a block, the conductive sponges of the plurality of blocks are respectively circumferentially fixed on the side wall of the charging slot 30, and the conductive sponges of the plurality of blocks can be bonded, fastened, etc. With charging slot 30 The sidewalls are fixedly connected; or a first groove (not shown) corresponding to the shape of the conductive sponge of each block is formed on the sidewall of the charging slot 30, and each of the first grooves is circumferentially spaced Charging slot 30 The conductive sponge of each block is embedded in the first recess and fixedly connected to the sidewall of the charging slot 30. When charging, the first electrode connector 101 is elastically abutted to the first side. Charging electrode 10 . The conductive sponge of the plurality of block bodies of the present invention is preferably four, and the conductive sponges of the four block bodies are uniformly disposed around the side walls of the charging socket 30; likewise, the conductive sponge of each block body is surrounded by Charging slot 30 In each of the first recesses of the side wall, the side wall of the conductive sponge of each of the block bodies and the side wall of the charging slot 30 may protrude from the side wall of the charging slot 30 on a horizontal line, but The thickness of the protruding portion is 0.1mm to 5mm, in order to better contact with the corresponding charging electrode of the battery rod, the preferred embodiment of this embodiment is 1mm or less.

 The second charging electrode 20 is made of a conductive sponge and is fixed to the bottom wall of the charging slot 30, and the second charging electrode 20 One end is fixedly connected to the bottom wall of the charging slot 30 by means of bonding, fastening, etc.; furthermore, there is a gap between the second charging electrode 20 and the first charging electrode 10 to realize the first charging electrode 10 Electrical isolation from the second charging electrode 20. The second charging electrode 20 abuts against the second electrode connecting member 102 provided on the end face of the battery rod during charging.

 In addition, the clamping member 5 is mainly used for clamping and fixing the battery rod, which is made of silica gel, The elastic material or the foam material or the like is formed in an annular or open annular structure, and the holding member 5 is provided with a second through hole 51 coaxially disposed with the charging slot 30, and the second through hole 51 is along the holding member 5 Axial penetration. The clamping member 5 is sleeved in the side wall of the charging slot 30, and the clamping member 5 is fixedly connected to the side wall of the charging slot 30 by bonding and fastening. When charging, the battery rods are in turn The first through hole 51 and the first through hole 11 are electrically connected to the first charging electrode 10 and the second charging electrode 20.

 As shown in FIG. 3, the mounting seat 1 has a substantially rectangular parallelepiped structure, and a charging slot 30 is opened on one end surface of the mounting base 1 and the charging slot is provided. 30 The bottom receiving phase of the first receiving cavity 40 (shown in FIG. 5), the charging slot 30 is substantially a cylindrical structure adapted to the battery rod, and the battery rod is inserted in the charging slot 30 Inside, the integrated circuit board 2 with the charging circuit is mounted in the first housing chamber 40.

 Wherein the first charging electrode 10 and the second charging electrode 20 are fixed to the integrated circuit board 2 In the embodiment, the first charging electrode 10 and the second charging electrode 20 are bonded and fixed to the integrated circuit board 2 by a conductive adhesive layer formed of a conductive adhesive. And electrically connected to the charging circuit. During charging, the first electrode connector 101 of the battery rod elastically abuts to the first charging electrode 10 to form an electrical connection, and the second electrode connector 102 elastically abuts to the second charging electrode. 20 Form an electrical connection. The first charging electrode 10 and the second charging electrode 20 are fixed by a conductive paste It solves the problem that the melting point of the conductive sponge is not convenient for soldering; in addition, the bonding by the conductive adhesive is more environmentally friendly than the soldering by soldering, and is easy to assemble, thereby improving production efficiency.

 In the prior art, due to the electrode connector on the battery rod and the first charging electrode 10 and the second charging electrode 20 installed in the charging slot 30 The relative position of the battery rod is inserted into the charging slot 30 In the process, usually the positive pole of the battery rod will first contact the positive pole of the electronic cigarette charging device, and then the negative pole of the battery rod will contact the negative pole of the electronic cigarette charging device to achieve the purpose of electrical connection.

 However, in the process, once the structural design is poor or the user inserts the battery rod into the charging slot 30 The action is only half done, that is, only the positive poles of the battery rod and the electronic cigarette charging device are in contact with each other, and the contact impedance between the battery rod and the electronic cigarette charging device is due to such a weak electrical connection. The state becomes higher, so if the abnormal power supply state continues for too long, the structure around the charging electrode in the battery rod or the electronic cigarette charging device may be damaged due to overheating, or even the entire device may be burnt.

 Therefore, in the embodiment of the invention, the first charging electrode 10 is the negative electrode of the electronic cigarette charging device, and the second charging electrode 20 The positive electrode of the electronic cigarette charging device; during the insertion of the battery rod into the charging slot 30, after the first electrode connecting member 101 abuts against the first charging electrode 10, the second electrode connecting member 102 Then, the second charging electrode 20 is abutted, so that the battery rod and the electronic cigarette charging device are electrically connected to each other.

 By setting the first charging electrode 10 and the second charging electrode 20 in the charging slot 30 The relative position inside so that the battery rod is inserted into the charging slot 30 During the process, the negative electrode of the electronic cigarette charging device can first contact the negative pole of the battery rod, and then the positive electrode of the electronic cigarette charging device contacts the positive pole of the battery rod, thereby maintaining the position between the battery rod and the charging electrode of the electronic cigarette charging device. The contact resistance avoids the danger that the high temperature may cause the temperature to be too high due to the contact of the positive electrodes of each other first, thereby making the electronic cigarette charging device have better reliability and safety.

The embodiment does not limit the mutual arrangement relationship between the positive electrode and the negative electrode of the electronic cigarette charging device, that is, the positive and negative electrodes of the electronic cigarette charging device can correspond to the first charging electrode 10 and the second charging electrode 20 in the charging slot 30. The configuration changes. Accordingly, any structure in which the negative electrode of the battery rod and the electronic cigarette charging device are in contact with each other with respect to the positive electrode of each other can be applied to the present invention.

 Therefore, when the electronic cigarette is charged, the battery rod is inserted into the charging slot 30, and the battery rod sequentially passes through the second through hole 51 and the first through hole. 11. After the first electrode connector 101 abuts the first charging electrode 10, the second electrode connector 102 abuts the second charging electrode 20 again. The battery rod and the electronic cigarette charging device are electrically connected to each other.

 FIG. 4 shows an electronic cigarette charging device according to a second embodiment of the present invention, which is different from the embodiment in that the mounting seat 1 Structure.

 As shown in Fig. 5, the inside of the mount 1 is provided with a step type accommodating chamber including a charging slot for the battery rod to be inserted 30 a first receiving cavity 40 communicating with the bottom of the charging slot 30, a third receiving cavity 60 for receiving the first charging electrode 10, and a fourth receiving cavity 70 for receiving the clamping member 5.

 The third receiving cavity 60 is defined around the sidewall of the charging slot 30 and communicates with the first receiving cavity 40. The third receiving cavity 60 The diameter is larger than the diameter of the charging slot 30. The first charging electrode 10 is disposed outside the third receiving cavity 60 and at least partially outside the sidewall of the charging slot 30.

 The first charging electrode 10 is made of a conductive sponge and has a ring-shaped or split ring structure, and the first charging electrode 10 is provided with a charging slot 30. The first perforation 11 of the coaxial arrangement (shown in Figure 2). When charging, the battery rod penetrates the first through hole 11, the hole wall of the first through hole 11 and the first electrode connecting member 101 The elastic abutting and electrically connecting, at this time, the first charging electrode 10 is clamped on the battery rod.

 It can be understood that in other embodiments, the first charging electrode 10 can For a plurality of conductive sponges in the form of a block, the conductive sponges of the plurality of blocks are respectively spaced around the third receiving cavity 60 and at least partially protruded from the side wall of the protruding charging slot 30, and the protruding thickness of the portion is 0.1mm to 5mm, in order to better contact with the corresponding charging electrode of the battery rod, the best solution of the embodiment is less than 1mm; the conductive sponge of the plurality of blocks can be bonded and fastened. The method is fixedly connected to the side wall of the charging slot 30, and the plurality of block-shaped conductive sponges may be selected from 8, 6 or 4, etc., and preferably 4 in the present invention. When charging, the first electrode connector 101 The elastic contact abuts the first charging electrode 10.

 In addition, the fourth receiving cavity 70 is disposed around the sidewall of the charging slot 30, and the diameter of the fourth receiving cavity 70 is larger than the charging slot 30. diameter of. The clamping member 5 is received within the fourth receiving cavity 70 and at least partially extends beyond the side wall of the charging slot 30.

 The clamping member 5 is mainly used for clamping and fixing the battery rod, which is made of silica gel, The elastic material or the foam material or the like is formed in an annular or open annular structure, and the holding member 5 is provided with a second through hole 51 (shown in Fig. 2) coaxially disposed with the charging slot 30, and the second through hole 51 It runs through the axial direction of the holder 5. When charging, the battery rod is electrically connected to the first charging electrode 10 and the second charging electrode 20 through the second through hole 51 and the first through hole 11 in sequence.

 Figure 6 An electronic cigarette charging device according to a third embodiment of the present invention is shown, which differs from the embodiment in that the electronic cigarette charging device passes through the electrical conductor and the first charging electrode 10 and the second charging electrode. 20 Electrically connected, and in the first embodiment, the integrated circuit board 2 is used.

 As shown in FIG. 6, the electronic cigarette charging device includes a charging assembly, and the charging assembly includes a mounting seat 1 and a first electrical conductor 3 And a second electrical conductor 4., a clamping member 5, a first charging electrode 10 and a second charging electrode 20. First conductor 3 and second conductor 4 The wire is electrically connected to the charging circuit of the electronic cigarette charging device.

 As shown in Fig. 7 and Fig. 8, the mounting seat 1 has a substantially flat disk-like structure, and the mounting seat 1 faces the first electric conductor 3 An end surface of the first end of the mounting body 1 is fastened to the first electric conductor 3 by a protrusion. .

 The second electrical conductor 4 is fixed in the second receiving cavity 50, and the second charging electrode 20 is fixed on the second electrical conductor 4 The outer surface of the mounting seat 1 extends at least partially from the end face.

 As shown in Figs. 7 and 9, the first electric conductor 3 is a cylindrical structure fitted to the mount 1, and the inside thereof is inside. A stepped accommodating cavity is opened, and the stepped accommodating cavity penetrates in the axial direction of the first electric conductor 3. A charging socket 30 for inserting a battery rod and a first charging electrode 10 are disposed in the axial direction of the first electric conductor 3 The third receiving chamber 60 and the fourth receiving chamber 70 of the holding member 5.

 The third receiving cavity 60 is opened around the side wall of the charging slot 30, and the third receiving cavity 60 and the mounting seat 1 The upper surface cooperates to fix the first charging electrode 10 in the third receiving cavity 60, and the first electrical conductor 3 is fastened to the mounting seat 1 through the third receiving cavity 60, and the third receiving cavity 60 The diameter is larger than the diameter of the charging slot 30. The first charging electrode 10 is a plurality of conductive sponges in the form of a block, and the conductive sponges of the plurality of blocks are respectively circumferentially fixed around the third receiving cavity 60. The conductive sponge of the plurality of blocks can be fixedly connected to the side wall of the charging slot 30 by means of bonding, fastening or the like, and at least partially protrudes from the side wall of the charging slot 30, and the plurality of blocks are Conductive sponge in the charging slot The connection within 30 is the same as in the first embodiment. When charging, the first electrode connector 101 is elastically abutted to the first charging electrode 10.

 It can be understood that in other embodiments, the first charging electrode 10 is made of a conductive sponge and has a ring-shaped or split ring structure, and the first charging electrode 10 A first through hole 11 (shown in FIG. 2) disposed coaxially with the charging slot 30 is disposed, and the first through hole 11 is axially penetrated along the first charging electrode 10. When charging, the battery rod penetrates the first perforation 11 The hole wall of the first through hole 11 is elastically abutted and electrically connected to the first electrode connecting member 101. At this time, the first charging electrode 10 is clamped on the battery rod.

 In addition, the fourth receiving cavity 70 is disposed around the sidewall of the charging slot 30, and the diameter of the fourth receiving cavity 70 is larger than the charging slot 30. diameter of. The clamping member 5 is received within the fourth receiving cavity 70 and at least partially extends beyond the side wall of the charging slot 30.

 By using the charging assembly of this structure, the assembly process is simplified, and during the assembly process, the first charging electrode 10 and the second charging pole 20 can be first used. It is fixed in the respective receiving chambers, and the first electric conductor 3 is fastened to the mounting seat 1 to save assembly time.

 The clamping member 5 is mainly used for clamping and fixing the battery rod, which is made of silica gel, The elastic material or the foam material or the like is formed in an annular or open annular structure, and the holding member 5 is provided with a second through hole 51 (shown in FIG. 6) coaxially disposed with the charging slot 30, and the second through hole 51 It runs through the circumference of the holder 5. When charging, the battery rod is electrically connected to the first charging electrode 10 and the second charging electrode 20 through the second through hole 51 and the first through hole 11 in sequence.

 It can be understood that in other embodiments, the first electric conductor 3 may not be disposed as a stepped receiving cavity, and the first charging electrode 10 is directly disposed. And the clamping member 5 is fixed to the side wall of the charging slot 30. And the inner side wall of the first charging electrode 10 fixedly connected to the side wall of the charging slot 30 can be connected to the charging slot 30. The sidewalls may also protrude from the sidewall of the charging slot 30 on a horizontal line, but the protruding portion has a thickness of 1 mm to 5 mm for better contact with the corresponding charging electrode of the battery rod.

 When charging, the first electrode connector 101 of the battery rod elastically abuts against the first charging electrode 10 and the first conductor 3 Electrically connected, the second electrode connector 102 is elastically abutted to the second charging electrode 20 and electrically connected to the second electrical conductor 4.

 The invention also provides a method for manufacturing an electronic cigarette charging device, the method comprising the following steps:

 S1, in the charging slot 30 of the electronic cigarette charging device, a first electrode connecting member 101 and a second electrode connecting member respectively connected to the battery rod 102 a first charging electrode 10 and a second charging electrode 20, wherein at least one of the first charging electrode 10 and the second charging electrode 20 is made of a conductive sponge;

 The charging slot 30 is configured to insert the battery rod, and the first charging electrode 10 is clamped on the battery rod and connected to the first electrode 101 is electrically connected, and the second charging electrode 20 is abutted against the second electrode connecting member 102 disposed on the end surface of the battery rod.

 Step S1 specifically includes the following steps:

 S11, providing a mount 1 , opening a charging slot 30 in the mount 1 , and mounting the integrated circuit board 2 in the charging slot 30 in the first receiving cavity 40 connected to the bottom;

 S12, a first through hole 11 disposed coaxially with the charging slot 30 is formed on the first charging electrode 10, and the first charging electrode is disposed 10 is disposed on the side wall of the charging slot 30;

 A second through hole 51 coaxially disposed with the charging slot 30 is defined in the clamping member 5, and the clamping member 5 is disposed in the charging slot 30. On the side wall

 S13, fixing the first charging electrode 10 and the second charging electrode 20 on the integrated circuit board 2 Bonding at least one of the first charging electrode 10 and the second charging electrode 20, which is made of a conductive sponge, to the integrated circuit board 2 by a conductive bonding layer formed of a conductive paste And electrically connected to the charging circuit.

 Step S1 specifically includes the following steps:

 S11 ', providing a mounting seat 1 , fastening the first electrical conductor 3 to the mounting seat 1 to connect the second electrical conductor 4 The receiving portion is fixed in the second receiving cavity 50 of the mounting seat 1; the charging slot 30 is opened in the first electrical conductor 3;

 S12', a first through hole 11 is disposed on the first charging electrode 10 coaxially with the charging slot 30, and the first charging electrode is disposed 10 is disposed on the side wall of the charging slot 30;

 A second through hole 51 coaxially disposed with the charging slot 30 is defined in the clamping member 5, and the clamping member 5 is disposed in the charging slot 30. On the side wall;

 S13', the second charging electrode 20 is fixedly connected to the second electric conductor 4, and the second charging electrode 20 is at least partially extended from the mounting seat. The outer surface of 1.

 Specifically, after the charging device is manufactured, the electronic cigarette is inserted into the charging slot 30, and the first electrode connecting member 101 is first After the first charging electrode 10 is abutted, the second electrode connector 102 is further abutted to the second charging electrode 20, so that the battery rod and the electronic cigarette charging device are electrically connected to each other. To avoid the danger that the high temperature may cause the temperature to be too high due to the contact of the positive poles of each other.

 In summary, the electronic cigarette charging device of the present invention utilizes the good elasticity and electrical conductivity of the conductive sponge to make the first charging electrode 10 made of a conductive sponge. Or the second charging electrode 20 can be in good contact with the first electrode connecting member 101 or the second electrode connecting member 102 of the battery rod, thereby improving charging efficiency and being simple to manufacture.

 Further, the present invention is provided in the charging slot 30 by providing the first charging electrode 10 and the second charging electrode 20 The relative position inside can maintain the contact resistance between the battery rod and the charging electrode of the electronic cigarette charging device, and avoid the danger that the high temperature may cause the temperature to be too high due to the contact between the positive electrodes of each other, and thus the electronic cigarette charging device has Better reliability and safety.

While the invention has been described by way of specific embodiments, the embodiments of the invention In addition, various modifications may be made to the invention without departing from the scope of the invention. Therefore, the invention is not limited to the specific embodiments disclosed, but all the embodiments falling within the scope of the appended claims.

Claims (17)

1.  An electronic cigarette charging device for charging a battery rod of an electronic cigarette, the battery rod being provided with a first electrode connector for electrically connecting with the electronic cigarette charging device (101) And a second electrode connector (102); wherein the electronic cigarette charging device is provided with a charging slot (30) for inserting the battery rod, the charging slot (30) a first charging electrode (10) and a second charging electrode (20) for respectively abutting the first electrode connector (101) and the second electrode connector (102), the first charging electrode( 10) and at least one of the second charging electrodes (20) is made of a conductive sponge.
2.  The electronic cigarette charging device according to claim 1, wherein the first charging electrode (10) is made of a conductive sponge and disposed in the charging slot ( 30) on the side wall; the first charging electrode (10) is clamped on the battery rod during charging and is electrically connected to the first electrode connection (101) of the battery rod.
3.  The electronic cigarette charging device according to claim 2, wherein the first charging electrode (10) is provided with the charging slot (30) a first through hole (11) coaxially disposed, the battery rod penetrating through the first through hole (11) during charging, a hole wall of the first through hole (11) and the first electrode connecting member (101) ) elastically resists and electrically connects.
4.  The electronic cigarette charging device according to claim 3, characterized in that the first charging electrode (10) has a ring-shaped or split ring structure.
5.  The electronic cigarette charging device according to claim 1, wherein said second charging electrode (20) is made of a conductive sponge and disposed in said charging slot ( 30) on the bottom wall; the second charging electrode (20) abuts against the second electrode connector (102) disposed on the end face of the battery rod during charging.
6.  The electronic cigarette charging device according to claim 1, wherein the conductive sponge comprises a sponge core and a metal plating layer disposed on a surface of the sponge core.
7.  The electronic cigarette charging device according to claim 1, wherein the conductive sponge is a polyaniline/polyurethane conductive sponge composite.
8. The electronic cigarette charging device according to claim 1, wherein said first charging electrode (10) a negative electrode of the electronic cigarette charging device, the second charging electrode (20) being a positive electrode of the electronic cigarette charging device;

   During the insertion of the battery rod into the charging slot (30), the first electrode connector (101) abuts against the first charging electrode (10) After that, the second electrode connector (102) is further abutted to the second charging electrode (20), so that the battery rod and the electronic cigarette charging device are electrically connected to each other.
9. The electronic cigarette charging device according to claim 3, wherein the electronic cigarette charging device further comprises a clamping member for clamping and fixing the battery rod (5) The clamping member (5) is sleeved in a sidewall of the charging slot (30), and the clamping member (5) is provided with a coaxial arrangement with the charging slot (30) Two perforations (51 );

   The battery rod sequentially penetrates the second through hole ( 51 ) and the first through hole ( 11 ) and the first charging electrode ( 10 ) and the second charging electrode during charging ( 20) Electrical connection.
10.  The electronic cigarette charging device according to claim 9, wherein the holding member (5) has an annular or split ring structure, and the holding member (5) ) Made of silicone, elastomer or foam.
11. The electronic cigarette charging device according to claim 1, wherein the electronic cigarette charging device further comprises a mounting seat (1), and is disposed at the mounting seat (1) An integrated circuit board (2) with a charging circuit; the charging slot (30) is disposed in the mounting seat (1), and the integrated circuit board (2) is mounted in the charging slot ( 30 a bottom receiving inner communication chamber (40);

    The first charging electrode (10) and the second charging electrode (20) are fixed on the integrated circuit board (2), wherein the first charging electrode (10) And at least one charging electrode made of a conductive sponge in the second charging electrode (20) is bonded and fixed to the integrated circuit board by a conductive bonding layer formed of a conductive paste (2) And electrically connected to the charging circuit.
12. The electronic cigarette charging device according to claim 1, wherein the electronic cigarette charging device further comprises a mounting seat (1), and is disposed at the mounting seat (1) And electrically connected to the first electrical conductor (3) and the second electrical conductor (4) of the electronic cigarette internal charging circuit;

    The mounting seat (1) is connected to the first electrical conductor (3), and the charging socket (30) is disposed on the first electrical conductor (3). In the mounting seat (1), a second receiving cavity (50) for fixing the second electrical conductor (4) is disposed.
13. The electronic cigarette charging device according to claim 12, wherein said first charging electrode (10) Is a plurality of conductive sponges in the form of a block, a plurality of conductive sponges of the block body are respectively spaced and fixed around the side wall of the charging socket (30), and the second charging electrode (20) is The second electrical conductor (4 a fixed connection and at least partially protruding from an outer surface of the mount (1);

    The first electrode connector (101) elastically abuts against the first charging electrode (10) and the first conductor (3) during charging Electrically connected, the second electrode connector (102) is elastically abutted to the second charging electrode (20) and electrically connected to the second electrical conductor (4).
14.  The electronic cigarette charging device according to claim 1, wherein the electronic cigarette charging device is an electronic cigarette case.
15. A method of manufacturing an electronic cigarette charging device, the method comprising the steps of:

    S1, a first electrode connector (101) and a second electrode connector (102) respectively disposed with the battery rod in the charging slot (30) of the electronic cigarette charging device a first charging electrode (10) and a second charging electrode (20), the first charging electrode (10) and the second charging electrode (20) At least one of the charging electrodes is made of a conductive sponge;

    The charging slot (30) is configured to insert the battery rod, and the first charging electrode (10) is clamped on the battery rod and connected to the first electrode (101) Electrically connected, the second charging electrode (20) is abutted against a second electrode connector (102) disposed on an end face of the battery rod.
16. The method of manufacturing an electronic cigarette charging device according to claim 15, wherein said step S1 Specifically, the following steps are included:

    S11, providing a mounting seat (1), opening the charging slot (30) in the mounting seat (1), and using an integrated circuit board with a charging circuit (2) Mounted in a first receiving cavity (40) in communication with the bottom of the charging slot (30);

    S12, a first through hole (11) coaxial with the charging slot (30) is formed on the first charging electrode (10) The first charging electrode (10) is disposed on a sidewall of the charging slot (30);

    Opening a second through hole ( 51 ) coaxially disposed with the charging slot ( 30 ) on the clamping member ( 5 ), the clamping member ( 5 ) ) disposed on the side wall of the charging slot (30)

    S13, fixing the first charging electrode (10) and the second charging electrode (20) on the integrated circuit board (2), and the first charging electrode ( 10) and at least one charging electrode made of a conductive sponge in the second charging electrode (20) is bonded and fixed to the integrated circuit board by a conductive bonding layer formed by a conductive adhesive (2) And electrically connected to the charging circuit.
17. The method of manufacturing an electronic cigarette charging device according to claim 15, wherein said step S1 Specifically, the following steps are included:

    S11 ', providing a mounting seat (1), fastening the first electrical conductor (3) to the mounting seat (1), and connecting the second electrical conductor (4) The second housing (50) is fixed in the second receiving cavity (50); the charging socket (30) is opened in the first electrical conductor (3);

    S12', a first through hole is disposed on the first charging electrode (10) coaxially with the charging slot (30) (11 The first charging electrode (10) is disposed on a sidewall of the charging slot (30);

    Opening a second through hole ( 51 ) coaxially disposed with the charging slot ( 30 ) on the clamping member ( 5 ), the clamping member ( 5 ) ) disposed on a sidewall of the charging slot (30);

    S13 ', the second charging electrode (20) is fixedly connected to the second electrical conductor (4) and the second charging electrode (20) At least partially extending beyond the outer surface of the mount (1).

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