CN217487659U - Battery rod device and atomization equipment - Google Patents

Abstract

The application provides a battery pole device and atomizing equipment. The battery rod device comprises a battery rod bracket and a power supply assembly; the battery rod bracket is used for being connected with a battery; the power supply assembly comprises a conductive wire and a conductive elastic needle, the battery rod support is provided with a containing hole, the conductive wire is connected with the output end of the battery, at least part of the conductive wire is contained in the containing hole, and the conductive elastic needle penetrates through the containing hole and is connected with the conductive wire in an interference fit mode, so that the conductive wire is abutted against the inner wall of the containing hole and the outer wall of the conductive elastic needle respectively. When the conductive elastic needle is arranged in the accommodating hole, the conductive elastic needle extrudes the conductive wire to enable the conductive wire to be abutted and extruded on the inner wall of the accommodating hole, so that the conductive elastic needle and the conductive wire are in interference fit, and the connection stability between the conductive elastic needle and the conductive wire is improved.

Description

Battery rod device and atomization equipment

Technical Field

The utility model relates to an atomizer technical field especially relates to a battery pole device and atomization plant.

Background

Along with the rapid development of electronic atomization devices, the sales volume of electronic atomization devices in society is also increasing year by year. The electronic atomization device with good quality and brand is popular with consumers and occupies a large market share. Traditional electronic atomization equipment mainly includes two parts, and one is the battery pole, and another is the atomizer, carries out the electric conduction through the electrode between the two to realize the battery pole and supply power to the atomizer, with treat in the atomizer that the atomizing medium atomizes.

However, when the conventional battery rod leads the lead to the electrode on the atomizer, the lead is generally directly connected, so that the connection stability between the lead and the electrode column is poor, the power supply interruption of the atomizer is often caused, and the normal use is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, provide a battery pole device and the atomizing equipment of stability that improves to last power supply of electronic atomizer.

The purpose of the utility model is realized through the following technical scheme:

a battery pole apparatus, comprising: a battery pole bracket and a power supply assembly; the battery rod bracket is used for being connected with a battery; the power supply assembly comprises a conductive wire and a conductive elastic needle, a containing hole is formed in the battery rod support, the conductive wire is connected with the output end of the battery, at least part of the conductive wire is contained in the containing hole, the conductive elastic needle penetrates through the containing hole and is connected with the conductive wire in an interference fit mode, so that the conductive wire is respectively abutted against the inner wall of the containing hole and the outer wall of the conductive elastic needle, and the conductive elastic needle is further used for being connected with an electrode column of the electronic atomizer.

In one embodiment, the accommodating hole includes a first through hole and a second through hole that are communicated with each other, the conductive wire sequentially penetrates through the first through hole and the second through hole, the conductive pogo pin penetrates through the second through hole and abuts against the conductive wire, and an opening extending direction of the first through hole and an opening extending direction of the second through hole are obliquely arranged.

In one embodiment, the opening extending direction of the first through hole and the opening extending direction of the second through hole are perpendicular to each other.

In one embodiment, the conductive wire includes an insulating protective layer and a plurality of electronic wires, the electronic wires are all disposed in the insulating protective layer, and portions of the electronic wires are located between the inner wall of the accommodating hole and the conductive pogo pin.

In one embodiment, each of the electronic wires includes a first guiding portion and a first spreading portion, the first guiding portions are accommodated in the insulating protective layer, the first guiding portions are further connected to an output end of the battery, at least a part of the first spreading portions are located in the accommodating holes, the first spreading portions are rib-shaped, a pogo pin accommodating space is formed in the first spreading portions, and the pogo pin accommodating space is used for accommodating the conductive pogo pin, so that the first spreading portions respectively abut against an inner wall of the accommodating hole and an outer wall of the conductive pogo pin.

In one embodiment, each of the electronic wires includes a second guiding portion and a second spreading portion, the second guiding portions are accommodated in the insulating protective layer, the second guiding portions are further connected with an output end of the battery, at least a part of the second spreading portions are located in the accommodating holes, ends of the second spreading portions, which are far away from the second guiding portions, are connected with each other, and middle portions of the second spreading portions are far away from each other to form an expansion structure, so that the conductive pogo pin inserts one end of the second spreading portion, which is far away from the second guiding portion, into the expansion structure.

In one embodiment, the power supply assembly further includes two battery limiting plates disposed opposite to each other, both of the two battery limiting plates are connected to the battery rod bracket, and the battery is located between the two battery limiting plates.

In one embodiment, the battery rod device further comprises a sealing ring, the sealing ring is sleeved on the battery rod bracket, and the sealing ring is used for abutting against the inner wall of the electronic atomizer.

In one embodiment, the battery rod device further includes a magnetic attraction piece, the battery rod support is provided with a groove, an opening of the groove deviates from the battery, at least part of the magnetic attraction piece is contained in the groove, and the magnetic attraction piece is used for being correspondingly connected with the magnetic attraction portion on the electronic atomizer.

An atomization device comprises a shell, a battery, an electronic atomizer and any one of the above embodiments, wherein the battery rod device is connected with a battery rod support, the electronic atomizer and the battery rod device are arranged in the shell, the electronic atomizer is sleeved on the battery rod support, and an electrode column of the electronic atomizer is connected with a conductive elastic needle.

Compared with the prior art, the utility model discloses at least, following advantage has:

when installing electrically conductive bullet needle in the holding hole, electrically conductive bullet extrudees to the conductor wire to support the conductor wire and hold and extrude on the inner wall in holding hole, make interference fit between electrically conductive bullet needle and the conductor wire, thereby make the stability of being connected between electrically conductive bullet needle and the conductor wire improve, be convenient for with the electrode post of electrically conductive bullet needle with the current direction electronic atomizer on the conductor wire, improved the stability that battery pole device lasts the power supply to electronic atomizer effectively.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and that those skilled in the art can also obtain other related drawings based on these drawings without inventive efforts.

FIG. 1 is a schematic diagram of a battery pole apparatus according to one embodiment;

FIG. 2 is a cross-sectional view of the battery pole apparatus of FIG. 1 taken along the direction A-A;

FIG. 3 is an enlarged schematic view at A1 of the cross-sectional view of FIG. 2;

FIG. 4 is a schematic view of another perspective of the battery pole apparatus of FIG. 1;

FIG. 5 is a cross-sectional view of the battery pole apparatus shown in FIG. 4 taken along the direction B-B;

fig. 6 is an enlarged schematic view at B1 of the cross-sectional view of fig. 5.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

The utility model relates to a battery pole device. In one embodiment, the battery pole apparatus includes a battery pole bracket and a power supply assembly. The power supply assembly comprises a conductive wire and a conductive elastic needle. The battery pole support is provided with an accommodating groove and an accommodating hole which are communicated with each other. The accommodating groove is used for accommodating a battery, the conductive wire is connected with the output end of the battery, and at least part of the conductive wire is accommodated in the accommodating hole. The conductive elastic needle penetrates through the accommodating hole and is connected with the conductive wire in an interference fit mode, so that the conductive wire is abutted against the inner wall of the accommodating hole and the outer wall of the conductive elastic needle respectively. Wherein, electrically conductive bullet needle still is used for being connected with the electrode pole of electronic atomizer. When installing electrically conductive bullet needle in the holding hole, electrically conductive bullet extrudees to the conductor wire to support the conductor wire and hold and extrude on the inner wall in holding hole, make interference fit between electrically conductive bullet needle and the conductor wire, thereby make the stability of being connected between electrically conductive bullet needle and the conductor wire improve, be convenient for with the electrode post of electrically conductive bullet needle with the current direction electronic atomizer on the conductor wire, improved the stability that battery pole device lasts the power supply to electronic atomizer effectively.

Please refer to fig. 1, which is a schematic structural diagram of a battery rod device according to an embodiment of the present invention.

The battery pole apparatus 10 of an embodiment includes a battery pole bracket 100 and a power supply assembly 200. The power supply assembly 200 includes a conductive wire 210 and a conductive pogo pin 220. Referring to fig. 2 and 3, the battery rod support 100 is provided with a receiving groove 102 and a receiving hole 104 which are communicated with each other. The accommodating groove 102 is used for accommodating a battery, the conductive wire 210 is connected with an output end of the battery, and at least a part of the conductive wire 210 is accommodated in the accommodating hole 104. The conductive latch 220 is disposed in the accommodating hole 104 and connected to the conductive wire 210 in an interference fit manner, so that the conductive wire 210 abuts against the inner wall of the accommodating hole 104 and the outer wall of the conductive latch 220, respectively. Wherein, the conductive elastic needle 220 is also used for connecting with an electrode column of the electronic atomizer.

In this embodiment, when installing electrically conductive bullet needle 220 in holding hole 104, electrically conductive bullet needle 220 extrudes conductor wire 210 to support and extrude conductor wire 210 on the inner wall of holding hole 104, make interference fit between electrically conductive bullet needle 220 and the conductor wire 210, thereby make the stability of being connected between electrically conductive bullet needle 220 and the conductor wire 210 improve, be convenient for with electrically conductive bullet needle 220 with the electric current on the conductor wire 210 direction electronic atomizer's electrode post, improved the stability that battery pole device lasts the power supply to electronic atomizer effectively.

In another embodiment, the number of the conductive elastic pins 220 and the number of the conductive wires 210 are both one, the conductive wire 210 is connected to one of the poles of the battery, the other pole of the battery is connected to a common terminal, the conductive elastic pin 220 is connected to one of the electrode posts of the electronic atomizer, and the other electrode post of the electronic atomizer is also connected to the common terminal, for example, the common terminal is a conductive layer on the inner wall of the housing covering the battery pole device, and specifically, the conductive layer is a copper foil layer plated on the inner wall of the housing.

In another embodiment, the number of the conductive elastic pins 220 and the number of the conductive wires 210 are two, the conductive elastic pins 220 are connected with the conductive wires 210 in a one-to-one correspondence manner, the two conductive wires 210 are respectively connected with the positive pole and the negative pole of the battery, and the two conductive elastic pins 220 are respectively connected with the positive pole and the negative pole of the electronic atomizer, so as to form a current loop, thereby facilitating the power supply to the electronic atomizer.

In one embodiment, referring to fig. 3, the accommodating hole 104 includes a first through hole 1042 and a second through hole 1044 which are communicated with each other, the conductive wire 210 sequentially passes through the first through hole 1042 and the second through hole 1044, the conductive pogo pin 220 passes through the second through hole 1044 and abuts against the conductive wire 210, wherein an opening extending direction of the first through hole 1042 and an opening extending direction of the second through hole 1044 are obliquely arranged. In this embodiment, the first through hole 1042 and the second through hole 1044 serve as main receiving through holes of the conductive line 210, the conductive line 210 firstly passes through the first through hole 1042, that is, the conductive line 210 passes through the first through hole 1042, and the conductive line 210 continues to pass through the second through hole 1044, so that a portion of the conductive line 210 is located in the second through hole 1044. At this time, the conductive elastic needle 220 is inserted into the second through hole 1044 from another opening of the second through hole 1044, so that the conductive elastic needle 220 and the conductive wire 210 are in contact in the second through hole 1044, the conductive elastic needle 220 is supported on the conductive wire 210 and is bent and extruded to the inner wall of the second through hole 1044, and then the interference fit connection between the conductive elastic needle 220 and the conductive wire 210 is achieved, so that the conductive wire 210 is stably arranged in the second through hole 1044, the connection stability between the conductive wire 210 and the conductive elastic needle 220 is effectively improved, and the stability of the battery rod apparatus for continuously supplying power to the electronic atomizer is effectively improved.

In another embodiment, the extending direction of the opening of the first through hole 1042 is perpendicular to the extending direction of the opening of the second through hole 1044. In this embodiment, the first through hole 1042 is communicated with the second through hole 1044, and the conductive wire 210 sequentially passes through the first through hole 1042 and the second through hole 1044, so that a portion of the conductive wire 210 extends into the accommodating hole 104. The extending direction of the opening of the first through hole 1042 is set to be perpendicular to the extending direction of the opening of the second through hole 1044, so that the conductive wire 210 is vertically arranged in the moving direction of the conductive pogo pin 220, and the portion of the conductive wire 210 located in the accommodating hole 104 is kept perpendicular to the conductive pogo pin 220, so that the portion of the conductive wire 210 located in the accommodating hole 104 is quickly bent and abutted against the inner wall of the accommodating hole 104, thereby effectively reducing the bending deformation amplitude of the conductive wire 210 in the accommodating hole 104, facilitating the conductive pogo pin 220 to rapidly extrude and deform the conductive wire 210, and further facilitating the conductive wire 210 to be pushed between the conductive pogo pin 220 and the inner wall of the accommodating hole 104.

In one embodiment, referring to fig. 3, the conductive wire 210 includes an insulating protection layer 212 and a plurality of electronic wires 214, the electronic wires 214 are all disposed in the insulating protection layer 212, and a portion of the electronic wires 214 is located between the inner wall of the accommodating hole 104 and the conductive pogo pin 220. In the present embodiment, the insulating protection layer 212 serves as an outer protection structure for the plurality of electronic wires 214, and the insulating protection layer 212 effectively reduces the direct contact between the plurality of electronic wires 214 and the outside air, so as to reduce the probability of external erosion of the plurality of electronic wires 214. The plurality of electronic wires 214 are all arranged in the insulating protection layer 212 in a penetrating manner, so that the parts of the electronic wires 214 are positioned outside the insulating protection layer 212, and the parts of the electronic wires 214 positioned outside the insulating protection layer 212 are conveniently connected with the conductive elastic pins 220 in an interference fit manner.

In another embodiment, the electronic wire comprises a copper core and a shielding insulating layer, the shielding insulating layer is sleeved on the copper core, the shielding insulating layer is used for keeping mutual shielding and insulation with other electronic wires, and the copper core is used for transmitting electric signals.

Furthermore, each electronic wire comprises a first guiding portion and a first unfolding portion which are connected with each other, each first guiding portion is contained in the insulating protective layer, each first guiding portion is further connected with the output end of the battery, at least part of the first unfolding portions are located in the containing hole, the first unfolding portions are of umbrella-shaped structures, a spring pin containing space is formed in the first unfolding portions, and the spring pin containing space is used for containing the conductive spring pin, so that the first unfolding portions abut against the inner wall of the containing hole and the outer wall of the conductive spring pin. In this embodiment, the first guiding portion is used as a main conductive part of the electronic wire, one end of the first guiding portion is connected to the output end of the battery, the other end of the first guiding portion is connected to the first unfolding portion, and the first guiding portion guides the electric energy output by the battery to the first unfolding portion, so that the electric current is supplied to the electronic atomizer through the conductive pogo pin. The battery setting is kept away from to first expansion portion, promptly first expansion portion with the battery sets up relatively, promptly first expansion portion with the battery uses first guide portion sets up as central symmetry, first expansion portion as with the part of electrically conductive bullet needle butt, first expansion portion be used for with electrically conductive bullet needle carries out interference fit and is connected, so that first expansion portion stabilize the card establish the inner wall in holding hole with electrically conductive bullet needle between. Like this, a plurality of under the condition that first expansion portion is rib column structure, along being close to in the direction of battery, each first expansion portion with interval between the inner wall in holding hole reduces, makes bullet needle accommodating space's bore reduces gradually, is convenient for electrically conductive bullet needle embedding extremely in the bullet needle accommodating space, thereby is convenient for bullet needle accommodating space will electrically conductive bullet needle parcel, thereby makes electrically conductive bullet needle get into behind the holding hole with each first expansion portion extrusion is in on the inner wall in holding hole, and then makes electrically conductive bullet needle with realize interference fit between the conductor wire and be connected.

In another embodiment, each of the electronic wires includes a second guiding portion and a second spreading portion that are connected to each other, each of the second guiding portions is accommodated in the insulating protective layer, and each of the second guiding portions is further connected to an output end of the battery, at least a part of the second spreading portions is located in the accommodating hole, ends of the second spreading portions, which are away from the second guiding portion, are connected to each other, and middle portions of the second spreading portions are located away from each other to form an expansion structure, so that the conductive pogo pin inserts one end of the second spreading portion, which is away from the second guiding portion, into the expansion structure. In this embodiment, the second guiding portion serves as a main conductive portion of the electronic wire, one end of the second guiding portion is connected to the output end of the battery, the other end of the second guiding portion is connected to the second unfolding portion, and the second guiding portion guides the electric energy output by the battery to the second unfolding portion, so that the electric current is supplied to the electronic atomizer through the conductive pogo pin. The second expansion portion is far away from the battery, namely the second expansion portion and the battery are arranged oppositely, namely the second expansion portion and the battery are arranged symmetrically with the second guiding portion as the center, the second expansion portion is used as the part abutted against the conductive elastic needle, and the second expansion portion is used for being connected with the conductive elastic needle in an interference fit mode, so that the second expansion portion is stably clamped between the inner wall of the accommodating hole and the conductive elastic needle. It is a plurality of the second portion of expanding keeps away from the one end interconnect of second guide portion makes a plurality of the second portion of expanding is kept away from the one end of second guide portion is tied a knot, realizes a plurality of the second portion of expanding is kept away from the one end of second guide portion is gathered together, is convenient for the middle part position of second portion of expanding forms the second portion of expanding, promptly the middle part of second portion of expanding with the distance between the inner wall in holding hole is greater than the tip of second portion of expanding with the distance between the inner wall in holding hole makes the second portion of expanding demonstrate the structure similar to lantern skeleton. Therefore, by means of the flexible characteristic of the electronic wire, when the conductive bullet needle is installed in the accommodating hole, the conductive bullet needle is firstly contacted with one end, far away from the second guide part, of the second unfolding part, the conductive bullet needle extrudes one end, far away from the second guide part, of the second unfolding part, so that one end, far away from the second guide part, of the second unfolding part is contracted inwards and gradually moves towards the second guide part, the middle part of the second unfolding part coats the conductive bullet needle, the part of the second unfolding part is located between the inner wall of the accommodating hole and the conductive bullet needle, and interference fit connection between the conductive bullet needle and the conductive wire is facilitated.

In one embodiment, referring to fig. 1, the power supply assembly 200 further includes two battery limiting plates 230 disposed opposite to each other, at least a portion of the two battery limiting plates 230 is located in the accommodating groove 102, and the battery is located between the two battery limiting plates 230. In this embodiment, the battery limiting plates 230 are located in the accommodating groove 102, the battery limiting plates 230 are further abutted to the battery, and a limiting space is formed between the two battery limiting plates 230, so that the position of the battery located in the accommodating groove 102 is limited, the shaking probability of the battery on the battery pole support 100 is effectively reduced, and the installation stability of the battery on the battery pole support 100 is effectively improved.

In one embodiment, referring to fig. 1, the battery rod device 10 further includes a sealing ring 300, the sealing ring 300 is sleeved on the battery rod support 100, and the sealing ring 300 is used for abutting against an inner wall of the electronic atomizer. In this embodiment, sealing ring 300 with battery pole support 100 cup joints, sealing ring 300 is close to electrically conductive bullet needle 220 sets up, promptly sealing ring 300 is located battery pole support 100 is close to the position of electronic atomizer, is convenient for when battery pole device is connected with electronic atomizer, electronic atomizer passes through sealing ring 300 with battery pole support 100 joint, in order to increase electronic atomizer with extrusion force between the battery pole support 100, thereby improved electronic atomizer with connection stability between the battery pole device.

In one embodiment, referring to fig. 4, the battery rod device 10 further includes a magnetic member 400, the battery rod bracket 100 is provided with a groove 106, an opening of the groove 106 faces away from the battery, at least a portion of the magnetic member 400 is accommodated in the groove 106, and the magnetic member 400 is used for being correspondingly connected to a magnetic portion of the electronic atomizer. In this embodiment, magnetism is inhaled piece 400 and is located in the recess 106, the opening orientation of recess 106 the portion of inhaling of electron atomizer makes magnetism inhale piece 400 with magnetism on the electron atomizer is inhaled the portion and is corresponded, is convenient for with it corresponds to inhale piece 400 connect in the electron atomizer, do battery pole device with provide magnetism between the electron atomizer and inhale the gravitation, make battery pole device with it is more stable and convenient to install between the electron atomizer.

As can be appreciated, when the conductive latch 220 is pressed into the receiving hole 104, the conductive latch 220 pushes a portion of the conductive wire 210 located in the receiving hole 104 to press the end of the conductive wire 210 between the conductive latch 220 and the inner wall of the receiving hole 104, so as to facilitate the interference fit connection between the conductive wire 210 and the conductive latch 220 in the receiving hole 104. When the battery rod device is connected with the electronic atomizer, the electric conduction between the battery and the electronic atomizer is realized through the conductive wire 210 and the conductive elastic needle 220, that is, the current output by the battery sequentially flows to the electronic atomizer through the conductive wire 210 and the conductive elastic needle 220.

However, the battery pole device with the electricity between the electronic atomizer is through the electrode post on the electronic atomizer, and electrically conductive bullet needle 220 of battery pole device is connected with the electrode post of electronic atomizer promptly, when electrically conductive bullet needle 220 is in when the mounted position in the holding hole 104 has the deviation, electrically conductive bullet needle 220 protrusion in the length of holding hole 104 is different, leads to easily that the cooperation between electrically conductive bullet needle 220 and the electrode post is connected the mistake, and especially electrically conductive bullet needle 220 appears bouncing the electrode post, can't be connected battery pole device and electronic atomizer.

In order to facilitate the installation of the battery rod apparatus and the electronic atomizer, please refer to fig. 3, the conductive pogo pin 220 includes a conductive body 222 and an elastic member 224, the conductive body 222 is disposed in the accommodating hole 104 in a penetrating manner, the conductive body 222 is provided with a pogo pin groove 202, an opening of the pogo pin groove 202 is away from the battery, the elastic member 224 is disposed in the pogo pin groove 202 in a penetrating manner, a first end of the elastic member 224 is abutted against an inner wall of the pogo pin groove 202, and a second end of the elastic member 224 is elastically and telescopically connected with an electrode column of the electronic atomizer, so that a second end of the elastic member 224 moves toward or away from the battery. In this embodiment, the conductive body 222 and the elastic member 224 are made of conductive materials, and the conductive body 222 and the elastic member 224 are in contact with each other so as to guide the current output by the battery to the electronic atomizer. The elastic member 224 is accommodated in the pogo pin groove 202, the opening of the pogo pin groove 202 deviates from the battery, that is, the opening of the pogo pin groove 202 faces the electronic atomizer, so that the elastic member 224 is stretched in the pogo pin groove 202 when contacting with an electrode column of the electronic atomizer, and thus the length of the elastic member 224 protruding from the battery rod device is adjustable, the electronic atomizer is conveniently and stably mounted on the battery rod device, and the mounting stability between the battery rod device and the electronic atomizer is effectively improved.

Further, when the conductive body 222 is installed in the accommodating hole 104, since the contact position between the conductive body 222 and the conductive wire 210 is limited, the conductive wire 210 is easily ejected out of the accommodating hole 104 directly during the interference fit connection process, so that the conductive pogo pin 220 cannot contact the conductive wire 210.

In order to ensure that the conductive pogo pin 220 is stably contacted with the conductive wire 210, referring to fig. 3, the conductive body 222 includes a first conductive portion 2222 and a second conductive portion 2224, which are connected to each other, the battery pole bracket 100 is provided with a third through hole 108 communicated with the accommodating hole 104, the aperture of the third through hole 108 is larger than that of the accommodating hole 104, the first conductive portion 2222 is inserted into the accommodating hole 104, the first conductive portion 2222 is connected with the conductive wire 210 in an interference fit manner, the second conductive portion 2224 is inserted into the third through hole 108, wherein the diameter of the second conductive portion 2224 is larger than that of the first conductive portion 2222, and the second conductive portion 2224 is slidably abutted against the inner wall of the third through hole 108.

In this embodiment, a third through hole 108 having a larger diameter than the accommodating hole 104 is formed in the battery pole holder 100, the second conductive part 2224 is accommodated in the third through hole 108, and the second conductive part 2224 is slidably abutted against the inner wall of the third through hole 108, so that the second conductive part 2224 is attached to the inner wall of the third through hole 108. The diameter of the second conductive portion 2224 is larger than the diameter of the first conductive portion 2222, so that a step structure is formed between the second conductive portion 2224 and the first conductive portion 2222, that is, a step structure is formed at the connection between the second conductive portion 2224 and the first conductive portion 2222. In this way, when the conductive latch 220 is installed in the accommodating hole 104, the first conductive portion 2222 passes through the third through hole 108 and is finally located in the accommodating hole 104, and since the diameter of the first conductive portion 2222 is smaller than that of the second conductive portion 2224, by means of the step structure formed by the second conductive portion 2224 and the first conductive portion 2222, the conductive wire 210 to be ejected out of the accommodating hole 104 can be bent, so that the portion of the conductive wire 210 located in the accommodating hole 104 is bent to be parallel to the conductive body 222, which facilitates pressing the conductive wire 210 in the accommodating hole 104, thereby ensuring interference fit connection between the conductive latch 220 and the conductive wire 210, and further improving the connection stability between the conductive latch 220 and the conductive wire 210. At this time, the accommodating hole 104 includes a first through hole 1042 and a second through hole 1044 which are communicated with each other, and an opening extending direction of the first through hole 1042 is perpendicular to an opening extending direction of the second through hole 1044. Moreover, the diameter of the first conductive part 2222 is smaller than the diameter of the second conductive part 2224, so that the conductive pogo pin can be quickly mounted in the receiving hole through the first conductive part 2222, that is, the first conductive part 2222 has a function of quick guiding mounting.

In another embodiment, the battery rod holder 100 further defines a fourth through hole 101 communicating with the third through hole 108, an aperture of the fourth through hole 101 is larger than an aperture of the third through hole 108, the conductive body 222 further includes a third conductive portion 2226 connected to the second conductive portion 2224, the third conductive portion 2226 is located on a side of the second conductive portion 2224 away from the first conductive portion 2222, the third conductive portion 2226 is inserted into the fourth through hole 101, a diameter of the third conductive portion 2226 is larger than a diameter of the second conductive portion 2224, and the third conductive portion 2226 is in sliding contact with an inner wall of the fourth through hole 101. In this embodiment, the third conductive portion 2226 is disposed close to the electronic atomizer, and the diameter of the third conductive portion 2226 is the largest, so that the step structure formed at the connection position of the third conductive portion 2226 and the second conductive portion 2224 serves as a movement limiting structure for the first conductive portion 2222, thereby avoiding the function of the first conductive portion 2222 excessively extending into the accommodating hole 104, and reducing the probability that the conductive pogo pin 220 cannot be taken out because it falls into the accommodating hole 104. When the first conductive portion 2222 and the second conductive portion 2224 are pressed too much, the step structure formed between the third conductive portion 2226 and the second conductive portion 2224 may also bend and press the conductive wire, which further improves the connection stability between the conductive wire and the conductive pogo pin.

Further, since the electronic atomizer is frequently replaced and the battery rod device is used for a long time, the elastic member 224 in the conductive pogo pin 220 is prone to have a weakened elasticity, so that the elastic force provided is low, and poor contact between the elastic member 224 and the electrode column of the electronic atomizer is prone to occur.

In order to improve the duration of the holding power of supporting between electrically conductive bullet needle 220 and the electrode post, please refer to in the lump to fig. 5 and fig. 6, elastic component 224 includes bullet needle cap 2242, steel ball 2244 and spring 2246 all set up in the bullet needle groove 202, bullet needle cap 2242 wears to locate in the bullet needle groove 202, bullet needle cap 2242 with spring 2246 is located steel ball 2244's both sides, bullet needle cap 2242 is close to one side of steel ball 2244 has butt inclined plane 2248, butt inclined plane 2248 is towards keeping away from the direction slope of steel ball 2244, butt inclined plane 2248 with the steel ball 2244 butt, spring 2246 respectively with the inner wall of bullet needle groove 202 and the steel ball 2244 butt.

In this embodiment, the elastic pin cap 2242, the steel ball 2244 and the spring 2246 are made of conductive materials, so that conduction of current is facilitated. The butt inclined plane 2248 is located the bullet needle cap 2242 is close to one side of steel ball 2244, butt inclined plane 2248 has inclination, butt inclined plane 2248 be used for with the steel ball 2244 butt. Like this in battery pole device and electronic atomizer installation, the electrode post of electronic atomizer with the bullet needle cap 2242 contact, promptly the electrode post extrusion bullet needle cap 2242, so that bullet needle cap 2242 orientation the spring 2246 removes. In the process, by means of the inclination angle of the abutting inclined surface 2248, the steel ball 2244 not only moves in a direction parallel to the extension direction of the spring 2246, but also makes the steel ball 2244 perform friction movement on the inner wall of the needle ejecting groove 202, so that the acting force borne by the steel ball 2244 not only has the elastic force of the spring 2246, but also has the reaction force of the friction force between the inner walls of the needle ejecting groove 202, and further the abutting force provided by the needle ejecting cap 2242 for the electrode column is increased, and the duration of the abutting force between the conductive needle 220 and the electrode column is effectively prolonged.

In another embodiment, the elastic element further comprises a limiting protrusion connected with the needle ejecting cap, the limiting protrusion is movably arranged in the needle ejecting groove, the abutting inclined plane is arranged on the limiting protrusion, the diameter of the limiting protrusion is larger than the caliber of the opening of the needle ejecting groove, and the needle ejecting cap is effectively ensured to penetrate through the needle ejecting groove.

In one of them embodiment, this application still provides an atomizing equipment, including shell, battery, electronic atomizer and above-mentioned arbitrary embodiment the battery pole device, the battery accept in the storage tank, electronic atomizer and battery pole device all set up in the shell, the electronic atomizer cover is located on the battery pole support, just electronic atomizer's electrode post with electrically conductive bullet needle is connected. In this embodiment, the battery rod apparatus includes a battery rod holder and a power supply assembly. The power supply assembly comprises a conductive wire and a conductive elastic needle. The battery pole support is provided with an accommodating groove and an accommodating hole which are communicated with each other. The accommodating groove is used for accommodating a battery, the conductive wire is connected with the output end of the battery, and at least part of the conductive wire is accommodated in the accommodating hole. The conductive elastic needle penetrates through the accommodating hole and is connected with the conductive wire in an interference fit manner, so that the conductive wire is respectively abutted against the inner wall of the accommodating hole and the outer wall of the conductive elastic needle. Wherein, electrically conductive bullet needle still is used for being connected with the electrode pole of electronic atomizer. When installing electrically conductive bullet needle in the holding hole, electrically conductive bullet extrudees to the conductor wire to support the conductor wire and hold and extrude on the inner wall in holding hole, make interference fit between electrically conductive bullet needle and the conductor wire, thereby make the stability of being connected between electrically conductive bullet needle and the conductor wire improve, be convenient for with the electrode post of electrically conductive bullet needle with the current direction electronic atomizer on the conductor wire, improved the stability that battery pole device lasts the power supply to electronic atomizer effectively.

The above-mentioned embodiments only represent several embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. A battery pole apparatus, comprising:

the battery pole bracket is used for being connected with a battery;

the power supply assembly, the power supply assembly includes the conductor wire and electrically conducts the bullet needle, the holding hole has been seted up to battery pole support, the conductor wire with the output of battery is connected, at least part of conductor wire accept in the holding hole, electrically conduct the bullet needle wear to locate in the holding hole and with the conductor wire interference fit is connected, so that the conductor wire respectively the butt in the inner wall in holding hole and the outer wall of electrically conduct bullet needle, wherein, electrically conduct the bullet needle still be used for being connected with the electrode column of electron atomizer.

2. The battery pole device of claim 1, wherein the receiving hole comprises a first through hole and a second through hole that are communicated with each other, the conductive wire is sequentially inserted into the first through hole and the second through hole, the conductive pogo pin is inserted into the second through hole and abuts against the conductive wire, and an opening extending direction of the first through hole and an opening extending direction of the second through hole are obliquely arranged.

3. The battery rod apparatus according to claim 2, wherein an opening extending direction of the first through hole and an opening extending direction of the second through hole are arranged perpendicular to each other.

4. The battery pole device of claim 1, wherein the conductive wire comprises an insulating protective layer and a plurality of electronic wires, each of the plurality of electronic wires is disposed within the insulating protective layer, and a portion of the plurality of electronic wires is located between the inner wall of the receiving hole and the conductive pogo pin.

5. The battery pole apparatus of claim 4, wherein each of the electronic wires comprises a first guiding portion and a first unfolding portion connected to each other, each of the first guiding portions is contained in the insulating protection layer, and each of the first guiding portions is further connected to the output end of the battery, at least a part of the first unfolding portions is located in the containing hole, the first unfolding portions are of an umbrella-rib structure, and a spring pin containing space is formed in each of the first unfolding portions and is used for containing the conductive spring pin, so that the first unfolding portions abut against the inner wall of the containing hole and the outer wall of the conductive spring pin.

6. The battery rod device according to claim 4, wherein each of the electronic wires includes a second guiding portion and a second spreading portion connected to each other, each of the second guiding portions is received in the insulating protective layer, each of the second guiding portions is further connected to an output end of the battery, at least a portion of the second spreading portions is located in the receiving hole, ends of the second spreading portions, which are away from the second guiding portions, are connected to each other, and middle portions of the second spreading portions are located away from each other to form an expansion structure, so that the conductive pogo pin inserts one end of the second spreading portion, which is away from the second guiding portion, into the expansion structure.

7. The battery pole apparatus of claim 1, wherein the power supply assembly further comprises two oppositely disposed battery limiting plates, both of the battery limiting plates are connected to the battery pole bracket, and the battery is positioned between the two battery limiting plates.

8. The battery pole apparatus of claim 1, further comprising a sealing ring sleeved on the battery pole support, the sealing ring configured to abut against an inner wall of the electronic atomizer.

9. The battery pole device of claim 1, further comprising a magnetic element, wherein the battery pole bracket defines a recess, the opening of the recess faces away from the battery, at least a portion of the magnetic element is received in the recess, and the magnetic element is adapted to be coupled to a magnetic element of the electronic atomizer.

10. An atomizing apparatus, comprising a housing, a battery, an electronic atomizer, and the battery rod apparatus of any one of claims 1 to 9, wherein the battery is connected to the battery rod holder, the electronic atomizer and the battery rod apparatus are both disposed in the housing, the electronic atomizer is sleeved on the battery rod holder, and an electrode column of the electronic atomizer is connected to the conductive pogo pin.

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