CN106535674A

CN106535674A - Battery assembly and electronic cigarette

Info

Publication number: CN106535674A
Application number: CN201480079645.7A
Authority: CN
Inventors: 刘秋明
Original assignee: Kimree Hi-Tech Inc
Current assignee: Kimree Hi-Tech Inc
Priority date: 2014-06-18
Filing date: 2014-06-18
Publication date: 2017-03-22
Anticipated expiration: 2034-06-18
Also published as: WO2015192336A1; CN106535674B

Abstract

A battery assembly and an electronic cigarette, the battery assembly comprising a battery sleeve (1), a battery (2) sleeved within the battery sleeve (1), a control module (3) electrically connected to the battery (2), and an adjustable resistor (4) electrically connected to the control module (3). One end of the battery sleeve (1) is movably sleeved with an adjustment mechanism (5) used for adjusting the adjustable resistor (4), and an elastic mechanism (9) used for providing the adjustment mechanism (5) with an elastic restoring force, the elastic mechanism (9) being sleeved within the battery sleeve (1). A clamping position mechanism (6) movably abutting the adjustment mechanism (5) and limiting the adjustment mechanism (5) within the battery sleeve (1) is provided on a sidewall of the battery sleeve (1). When in a normal state, the adjustment mechanism (5) partially abuts the clamping position mechanism (6), and is accommodated within the battery sleeve (1), and when adjustment of the output power of the battery assembly is required, force is applied to the clamping position mechanism (6), and under the effect of the elastic restoring force of the elastic mechanism (9), the adjustment mechanism (5) extends out of the battery sleeve (1) for adjustment to be performed. When adjustment of the output power of the battery assembly by a user is not required, the adjustment mechanism (5) is located within the battery sleeve (1), preventing false operation and pressing of the adjustment mechanism (5).

Description

Battery pack and electronic cigarette

Technical Field

The invention relates to the field of cigarette substitutes, in particular to a battery pack and an electronic cigarette.

Background

As shown in fig. 1, an electronic cigarette in the prior art includes a battery assembly 100 and an atomizing assembly 200 that are connected to each other, a battery 101 for supplying power to the atomizing assembly 200 is disposed in the battery assembly 100, a fixing base 102 is disposed on a side of the battery 101 away from the atomizing assembly 200, and a control module 103 for sensing a change in an airflow in the electronic cigarette is accommodated in the fixing base 102. The control module 103 is electrically connected to the battery 10, and when the control module 103 senses a smoking signal, the battery 101 and the atomizing assembly 200 are controlled to be powered on, so as to drive the atomizing assembly 200 to atomize the tobacco tar. However, in the existing electronic cigarette, the control module 103 is directly electrically connected to the battery 101, and the output power of the control module 103 is not changed and is equal to the power of the battery 101, so that if a user wants to control the amount of smoke generated by the atomization assembly 200 for atomizing the tobacco tar, the user can only adjust the amount of smoke by the strength of the smoking force, but the effect of the method for adjusting the amount of smoke is not obvious; and when the user needs big smog volume, need exert oneself and draw the electron cigarette, make the user feel hard, and when needing little smog volume, there is the smoking dynamics again, makes control module 103 can not sense the defect that the air current changes, has influenced user's experience.

Disclosure of Invention

The invention aims to solve the technical problem that in the prior art, the defect that the smoke quantity of the atomized tobacco tar needs to be controlled through the smoking strength is overcome, and a battery assembly and an electronic cigarette which do not need to use the smoking strength and can adjust the smoke quantity according to the requirements of users are provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: configuring a battery assembly for forming an electronic cigarette in combination with an atomization assembly, comprising:

the battery pack comprises a battery sleeve, a battery sleeved in the battery sleeve, a control module electrically connected with the battery and an adjustable resistor electrically connected with the control module;

one end of the battery sleeve is movably sleeved with an adjusting mechanism for adjusting the adjustable resistor and an elastic mechanism sleeved in the battery sleeve and used for providing elastic restoring force for the adjusting mechanism;

a clamping mechanism which is movably abutted against the adjusting mechanism and limits the adjusting mechanism in the battery sleeve is arranged on the side wall of the battery sleeve;

in a normal state, the adjusting mechanism partially abuts against the clamping mechanism so as to be accommodated in the battery sleeve; when the output power of the battery pack needs to be adjusted, the clamping mechanism applies force, and the adjusting mechanism extends out of the battery sleeve under the action of the elastic restoring force of the elastic mechanism to adjust.

In the battery pack of the present invention, the locking mechanism includes a locking hole formed in a side wall of the battery case and an extending portion disposed outside the battery case and extending in an axial direction of the battery case, the adjusting mechanism is partially locked in the locking hole, and a boss opposite to the locking hole is disposed on the extending portion.

In the battery assembly, the adjusting mechanism comprises a button capable of moving along the axial direction of the battery sleeve, a rotating shaft arranged along the axial direction of the battery sleeve and connected with the button in a sliding manner, and a sliding part sleeved outside the rotating shaft, wherein the sliding part is abutted between the inner end surface of the button and the elastic mechanism, and a buckle capable of being clamped in the clamping hole is arranged on the sliding part;

when the boss is pressed, the boss extrudes the buckle out of the clamping hole and extrudes the buckle into the battery sleeve, the sliding part pushes the buttons to slide upwards together under the action of elastic restoring force of the elastic mechanism, the buttons are axially limited at a first position in the battery sleeve, and the rotating shaft is driven to rotate together by rotating the buttons so as to adjust the resistance value of the adjustable resistor;

when the button is pressed, the button pushes the sliding piece to slide downwards, and the buckle is clamped in the clamping hole, so that the button retracts and is limited at a second position in the battery sleeve.

In the battery assembly, the periphery of the button extends outwards in the radial direction to form a flange, and a bulge extending inwards in the radial direction is arranged inside the end face of the battery sleeve;

when the flange is located at the first position, the flange is abutted against the end face of the bulge; when the button is located at the second position, the end part of the button, which is far away from the flange, is propped against the inner side wall of the bulge.

In the battery assembly, the positioning ring for preventing the button from falling off from the battery sleeve is arranged on the end face of the battery sleeve, the protrusion is the part of the positioning ring sleeved in the battery sleeve, and one end of the extension part, which is far away from the boss, is fixed on the end face of the positioning ring.

In the battery pack, the sliding part comprises a body part abutting against the end face of the elastic mechanism, a sleeve part reducing the diameter of the middle part of the body part and extending to the inner end face of the button, and an elastic buckling part with one end fixed on the body part, the buckle is connected to the other end of the elastic buckling part, and the elastic buckling part is an inclined rod inclined towards the side wall of the battery sleeve.

In the battery assembly, the button includes a receiving portion which is hollow inside and is arranged along the axial direction of the button, the receiving portion is used for allowing the rotating shaft to axially slide, and the axial sliding distance of the rotating shaft in the receiving portion is equal to the axial moving stroke of the elastic mechanism in the battery sleeve.

In the battery assembly, the outer side wall of the battery sleeve is sleeved with a sliding cylinder capable of axially sliding along the battery sleeve and a blocking ring for preventing the sliding cylinder from falling off downwards, and the sliding cylinder is slidably sleeved between the boss and the clamping hole;

when the output power of the battery pack needs to be adjusted, the sliding cylinder needs to slide towards one side far away from the blocking ring, and when the sliding cylinder is separated from the clamping hole, the boss is pressed.

In the battery pack of the present invention, the sliding cylinder and the blocking ring are both made of a permanent magnetic material, and the sliding cylinder and the blocking ring are magnetically attracted to each other.

In the battery pack of the present invention, the elastic mechanism is a spring sleeved outside the rotating shaft, and in a normal state, the elastic mechanism is in a compressed state.

In the battery pack, the adjustable resistor comprises a carbon film resistor disc, a first conducting plate and a second conducting plate which are fixedly arranged at two ends of the carbon film resistor disc, and a sliding disc which is connected with the carbon film resistor disc in a sliding manner, one end of the rotating shaft, which is far away from the button, is fixedly connected with the sliding disc, and the sliding disc can move on the carbon film resistor disc along with the rotation of the rotating shaft.

The invention also provides an electronic cigarette, which comprises a battery component and an atomization component which are connected with each other, wherein the battery component comprises:

In the electronic cigarette, the clamping mechanism comprises a clamping hole formed in the side wall of the battery sleeve and an extension part which is arranged outside the battery sleeve and extends along the axial direction of the battery sleeve, the adjusting mechanism is partially clamped in the clamping hole, and a boss opposite to the clamping hole is arranged on the extension part.

In the electronic cigarette, the adjusting mechanism comprises a button capable of moving along the axial direction of the battery sleeve, a rotating shaft arranged along the axial direction of the battery sleeve and connected with the button in a sliding manner, and a sliding part sleeved outside the rotating shaft, wherein the sliding part is abutted between the inner end surface of the button and the elastic mechanism, and a buckle capable of being clamped in the clamping hole is arranged on the sliding part;

In the electronic cigarette, the periphery of the button extends outwards in the radial direction to form a flange, and a bulge extending inwards in the radial direction is arranged inside the end face of the battery sleeve;

In the electronic cigarette, the outer side wall of the battery sleeve is sleeved with a sliding cylinder capable of axially sliding along the battery sleeve and a blocking ring for preventing the sliding cylinder from falling off downwards, and the sliding cylinder is slidably sleeved between the boss and the clamping hole;

In the electronic cigarette, the sliding cylinder and the blocking ring are both made of permanent magnetic materials, and the sliding cylinder and the blocking ring are mutually attracted magnetically.

The battery pack and the electronic cigarette have the following beneficial effects: the output power of the battery pack is adjusted by setting the adjustable resistor connected with the control module, the resistance of the adjustable resistor is adjusted by the adjusting mechanism, a user only needs to press the boss to enable the button of the adjusting mechanism to stretch out of the battery sleeve, and then the adjustable resistor is adjusted by rotating the button, so that the output power of the battery pack is adjusted, and the user experience is improved. When the user does not need to adjust the output power of the battery pack, the adjusting mechanism is positioned in the battery sleeve, so that the phenomena that the smoke quantity is changed due to misoperation of the user and the adjusting mechanism is pressed carelessly in the transportation process are avoided; the adjusting method is simple to operate, the output power of the battery pack can be adjusted only through pressing and rotating steps, convenience and rapidness are achieved, and user experience is improved.

Drawings

The invention will be further described with reference to the accompanying drawings and examples, in which:

figure 1 is a cross-sectional view of the overall structure of a prior art electronic cigarette; (ii) a

Fig. 2 is a sectional view of a battery pack according to a first embodiment of the present invention;

FIG. 3 is a cross-sectional view of the battery assembly of FIG. 2 in an adjusted state;

figure 4 is a circuit diagram of an electronic cigarette incorporating a battery pack according to the present invention;

FIG. 5 is a partial schematic view of the adjustment mechanism of FIG. 2;

FIG. 6 is a schematic view of the slider of FIG. 2;

fig. 7 is a sectional view of a battery pack according to a second embodiment of the present invention;

FIG. 8 is a cross-sectional view of the slide cartridge of FIG. 7 in an adjustment state;

figure 9 is a schematic view of the overall structure of the electronic cigarette according to the preferred embodiment of the present invention;

figure 10 is a schematic diagram of the electronic cigarette of figure 9 in a configuration for regulating the output power of the battery assembly.

Detailed Description

For a more clear understanding of the technical features, objects and effects of the present invention, embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in fig. 2 and 3, a battery assembly according to a first embodiment of the present invention is provided for forming an electronic cigarette in combination with an atomizing assembly (not shown) to atomize tobacco tar for a user to smoke. The battery pack comprises a battery sleeve 1, a battery 2, a control module 3, an adjustable resistor 4, an adjusting mechanism 5, an elastic mechanism 9, a clamping mechanism 6 and a positioning ring 10, wherein the battery sleeve 1 is cylindrical, the positioning ring 10 is arranged at one end of the battery sleeve 1, and the battery 2, the control module 3, the adjustable resistor 4, the adjusting mechanism 5 and the elastic mechanism 9 are all sleeved in the battery sleeve 1.

As shown in fig. 4, the control module 3 is electrically connected to the battery 2, the adjustable resistor 4 is electrically connected to the control module 3, the control module 3 is disposed between the battery 2 and the adjustable resistor 4, and the adjustable resistor 4 is used for adjusting the heating power of an external circuit (e.g., an atomizing assembly). The specific adjustable resistor 4 changes the voltage applied to the external circuit (such as the atomization assembly), so that the heating power of the external circuit (such as the atomization assembly) is adjusted, and the aim of adjusting the smoke quantity is fulfilled. In this embodiment, the control module 3 includes a control chip 31, the model of the control chip 31 is CT833, and the control module 3 further integrates other circuits such as an airflow sensor, and specifically, the structure and the working principle of the control module 3 are related to the prior art and are not described herein again. In other embodiments, the adjustable resistor 4 may be disposed between the battery 2 and the control module 3, and the output power of the battery 2 is adjusted through the adjustable resistor 4, so as to achieve the purpose of adjusting the amount of smoke.

As shown in fig. 5, the adjustable resistor 4 includes a substrate 40, a carbon film resistor sheet 41, a first conductive sheet 42, a second conductive sheet 43, and a slider 44. The base plate 40 is annular and is accommodated and fixed in the battery sleeve 1; the carbon resistive sheet 41 is fixed to an end surface of the substrate 40 away from the control module 3, and the carbon resistive sheet 41 has a ring shape with a notch, that is, the carbon resistive sheet 41 has two end portions provided at a predetermined distance. The first conductive sheet 42 and the second conductive sheet 43 are respectively fixedly connected with two ends of the carbon film resistor sheet 41, and the first conductive sheet 42 and the second conductive sheet 43 are arranged at intervals. The slider 44 is fork-shaped, one end of the fork-shaped opening of the slider 44 is inserted and fixed on the adjusting mechanism 5, the other end of the slider 44 is slidably connected to the carbon film resistor 41, and the slider 44 can move on the carbon film resistor 41 along with the rotation of the adjusting mechanism 5, so that the distance between the slider 44 and the first conductive sheet 42 or the second conductive sheet 43 is adjusted, and the resistance is further adjusted. The first conductive plate 42, the second conductive plate 43, and the slider 44 are all made of a conductive material.

The battery assembly further comprises a first lead 31 and a second lead 32 which are respectively electrically connected with the positive electrode and the negative electrode of the battery 2, wherein the first lead 31 and the second lead 32 are respectively connected with the control module 3, namely, the first lead 31 and the second lead 32 are electrically connected with the positive electrode and the negative electrode of the battery 2 through the control module 3, but the first lead 31 and the second lead 32 are not connected with each other. One end of the first wire 31 is electrically connected to the first conductive plate 42 or the second conductive plate 43, and one end of the second wire 32 is electrically connected to the sliding plate 44, so as to electrically connect the control module 3 and the adjustable resistor 4. That is, one end of the first wire 31 is connected to the control module 31, and the other end is connected to the first conductive plate 42 or the second conductive plate 43; one end of the second wire 31 is connected to the control module 31, and the other end is electrically connected to the slider 44. When the user rotates the adjusting mechanism 5, the slider 44 rotates along with the adjusting mechanism 5, that is, the slider 44 rotates on the carbon film resistor disc 41, and along with the rotation of the slider 44, the distance between the first conductive sheet or the second conductive sheet 43 and the slider 44 changes, that is, the length of the carbon film resistor disc 41 connected with the control module 3 changes; the resistance of the carbon film resistor disc 41 is in proportion to the length of the carbon film resistor disc connected into the circuit, so that the adjustment of the resistance of the carbon film resistor disc 41 connected into the circuit is realized by adjusting the length of the carbon film resistor disc 41 connected into the circuit.

The middle part of the base plate 40 is provided with a through hole (not shown) which axially penetrates through the base plate, a nut 11 is fixed in the through hole, and one end of the adjusting mechanism 5 is rotatably fixed in the nut 11, so that the adjusting mechanism 5 can rotate in the battery case 1.

The nut 8 is fixed in the through hole and is rotatably connected with one end of the adjusting mechanism 5 close to the fixed seat 6. I.e. the adjustment mechanism 5 is rotatably fixed in the nut 8, thereby enabling rotation of the adjustment mechanism 5 in the battery housing 1.

The adjusting mechanism 5 is arranged at one end of the battery sleeve 1 far away from the battery 2, movably sleeved in the battery sleeve 1 and used for adjusting the resistance value of the adjustable resistor 4, so that the output power of the battery assembly can be adjusted by rotating the adjusting mechanism 5 and adjusting the adjustable resistor 4. The elastic mechanism 9 is sleeved in the battery sleeve 1 and used for providing elastic restoring force for the adjusting mechanism 5 so as to push the adjusting mechanism 5 to partially extend out of the battery sleeve 1; the clamping mechanism 6 is arranged on the battery sleeve 1 and movably abutted against the adjusting mechanism 5 so that the adjusting mechanism 5 is limited in the battery sleeve 1. Specifically, when the battery assembly is in a normal state (i.e. when the output power of the battery assembly does not need to be adjusted), the adjusting mechanism 5 partially abuts against the clamping mechanism 6 to be accommodated in the battery case 1, so as to prevent a user from operating the adjusting mechanism 5 by mistake; when the output power of the battery assembly needs to be adjusted, an external force is applied to the clamping mechanism 6, so that the adjusting mechanism 5 extends out of the battery sleeve 1 under the action of the elastic restoring force of the elastic mechanism 9 to adjust the resistance value of the adjustable resistor 4. Namely, when the output power of the battery pack is adjusted, the clamping mechanism 6 is pressed to enable the adjusting mechanism 5 to extend out of the battery sleeve 1, and then the adjusting mechanism 5 is rotated to adjust the resistance of the adjustable resistor 4 connected into the circuit, so that the output power of the battery pack is adjusted, and the purpose of adjusting the amount of the electronic cigarette smoke is achieved.

The blocking mechanism 6 comprises a blocking hole 61 for limiting the adjusting mechanism 5 in the battery sleeve 1 and an extension part 62. The clamping hole 61 is a through hole which is formed in the side wall of the battery sleeve 1 and runs through in the radial direction, and the adjusting mechanism 5 is partially clamped in the clamping hole 61; the extension part 62 is disposed outside the battery case 1 and extends along the axial direction of the battery case 1, a boss 621 opposite to the position-locking hole 61 is disposed on the extension part 62, the boss 621 is disposed opposite to the position-locking hole 61, and the size of the boss 621 is matched with the position-locking hole 61. When a radial external force is applied to the boss 621, the boss 621 may extend into the catching hole 61.

The positioning ring 10 is substantially annular and is arranged on the end face of the battery housing 1 and serves to prevent the adjusting mechanism 5 from falling out of the battery housing 1. The end of the extension part 62 far from the boss 621 is fixed on the end face of the positioning ring 10, that is, the extension part 62 is formed by extending downward from the end face of the positioning ring 10 along the axial direction of the battery case 1.

The adjusting mechanism 5 comprises a button 51, a rotating shaft 52 and a sliding part 53, wherein the button 51 is fixed in the end face of the battery sleeve 1 far away from the battery 2 and can move along the axial direction of the battery sleeve 1, namely the button 51 is fixed in the battery sleeve 1 so as to prevent the button 51 from being pressed by misoperation, avoid damaging other parts of the adjusting mechanism 5 and prolong the service life of the adjusting mechanism 5; when the output power of the battery pack needs to be adjusted, the button 51 can extend out of the battery case 1 from the inside of the battery case 1 by the elastic restoring force of the elastic member 9, so that the user can rotate the button 51, that is, the button 51 can extend out of or retract into the battery case 1 according to the user's needs.

The rotating shaft 52 is arranged along the axial direction of the battery sleeve 1 and is connected with the button 51 in a sliding way, one end of the rotating shaft 52 is connected with the button 51 in a sliding way and rotates along with the rotation of the button 51, and the other end, far away from the button 51, of the rotating shaft 52 is fixedly connected with the sliding sheet 44; when the button 51 is rotated, the shaft 52 rotates with the button 51 and slides the slider 44 over the carbon resistive sheet 41, thereby adjusting the length of the carbon resistive sheet 41 connected to the circuit.

The sliding part 53 is sleeved outside the rotating shaft 52 and is abutted between the inner end surface of the button 51 and the elastic mechanism 9, and the sliding part 53 can push the button 51 to slide upwards along the axial direction of the battery case 1 under the action of the elastic restoring force of the elastic mechanism 9, so that the button 51 extends out of the battery case 1. The sliding part 53 is provided with a buckle 531 which can be clamped in the clamping hole 61, when the battery assembly is in a normal state, the buckle 531 is clamped in the clamping hole 61, and therefore the sliding part 53 and the button 51 are limited in the battery sleeve 1.

As shown in fig. 6, the slider 53 includes a body portion 532, a sleeve portion 533, and a resilient engaging portion 534. The main body 532 is annular, and is elastically abutted against the end face of the elastic mechanism 9 and can slide relative to the rotating shaft 52; the sleeve portion 533 extends in a diameter-reduced manner along the middle of the main portion 532 and reaches the inner end surface of the button 51, i.e. one end of the sleeve portion 533 is fixed to the middle of the main portion 532, and the other end of the sleeve portion 533 abuts against the inner end surface of the button 51, so that the slider 53 pushes the button 51 to slide upward together under the elastic restoring force of the elastic mechanism 9 providing upward sliding for the slider 53. The main body 532 and the sleeve 533 have axially through holes, so that the main body 532 and the sleeve 533 are slidably fitted over the outer surface of the rotating shaft 52. The elastic engaging portion 534 is in the shape of an inclined rod inclined toward one side of the side wall of the battery case 1, one end of the elastic engaging portion 534 is fixed to the end surface of the main body 532 close to the sleeve portion 533, and the other end of the elastic engaging portion 534 is connected to the buckle 531, that is, one end of the elastic engaging portion 534 far from the main body 532 is fixed in the locking hole 61 by being locked by the buckle 531. The elastic fastening part 534 is made of an elastic material, so that when an external force is applied to the extension part 62, the buckle 531 presses the elastic fastening part 534 to be elastically deformed, so that the buckle 531 is pressed into the battery case 1. In this embodiment, the main body 532, the sleeve 533, the elastic engaging part 534, and the latch 531 are integrally formed, so that the sliding part 53 can slide in the battery case 1 and can be easily mounted.

When the output power of the battery assembly needs to be adjusted, the boss 621 is pressed, the boss 621 presses the buckle 531, and the buckle 531 is extruded from the clamping hole 61 and pressed into the battery sleeve 1, at this time, under the action of the elastic restoring force of the elastic mechanism 9, the elastic mechanism 9 provides the elastic force for the sliding part 53 to slide upwards, and the sliding part 53 pushes the button 51 to slide upwards together, so that the button 51 is limited at the first position in the battery sleeve 1; at this time, the button 51 partially protrudes out of the battery case 1, and the rotating shaft 52 can be driven to rotate by rotating the button 51, so as to adjust the resistance value of the adjustable resistor 4. When the user adjusts the output power of the battery pack to meet the requirement, the button 51 is pressed, the button 51 pushes the sliding piece 53 to slide downwards together, when the sliding piece slides until the buckle 531 is clamped in the clamping hole 61, the sliding piece 53 cannot slide downwards continuously, the button 51 is returned and limited at the second position in the battery sleeve 1, and at the moment, the button 51 is completely retracted in the battery sleeve 1, so that the button 51 is prevented from being touched by misoperation.

The button 51 is generally in a cap shape, and a flange 512 is formed by extending the periphery of the button 51 radially outwards; the end face of the battery housing 1 facing away from the battery 2 is provided with a radially inwardly extending projection (not shown). When the button 51 is limited at the first position, the flange 512 is abutted against the end face of the protrusion, and at the moment, the button 51 partially extends out of the battery sleeve 1, so that a user can conveniently rotate the button 51; when the button 51 is limited at the second position, the end of the button 51 far from the flange 512 is supported in the inner side wall of the protrusion, and at the moment, the button 51 is completely retracted into the battery case 1, so that the button 51 is prevented from being operated by a user by mistake.

The button 51 comprises a cylindrical body 511, a flange 512 formed by extending outward along the radial direction of the periphery of the body 511, and a receiving part 515 arranged along the axial direction of the button 51, wherein when the button 51 is in a normal state, the outer side wall of the body 511 is abutted against the inner side wall of the protrusion of the positioning ring 9, so that the button 51 is limited in the battery sleeve 1. The accommodating portion 515 is used for the shaft 52 to slide axially in the button 51, in this embodiment, a first fixing plate 513 and a second fixing plate 514 are extended axially in parallel in the main body 511, the first fixing plate 513 and the second fixing plate 514 have the same shape and size, and extend from the bottom end of the main body 511 to the flange 512 side, and the accommodating portion 515 is formed by the gap between the first fixing plate 513 and the second fixing plate 514. When the button 51 moves axially in the battery case 1, the rotating shaft 52 also slides axially in the accommodating part 515, and the axial sliding distance of the rotating shaft 52 in the accommodating part 515 is equal to the axial movement of the elastic mechanism 9 in the battery case 1; when the knob 51 is rotated, the rotation shaft 52 rotates together with the knob 51. In this embodiment, the protrusion is a portion of the positioning ring 9 sleeved in the battery case 1, and the protrusion is used for abutting an end surface of the protrusion against an end surface of the flange 512 when the button 51 is limited at the first position, so as to prevent the button 51 from falling off from the battery case 1 (i.e. only a part of the button 51 extends out of the battery case 1); when the button 51 is limited at the second position, the inner side wall of the protrusion is fixedly abutted with the end part (i.e. the end part of the body 511) of the button 512 far away from the flange 512, so that the button 51 is limited in the battery case 1. The accommodating portion 515 is located inside the sleeve portion 533 with a gap from the inner side wall of the sleeve portion 533, that is, the first fixing plate 513 and the second fixing plate 514 are fitted inside the sleeve portion 533 with a gap from the inner side wall of the sleeve portion 533. The housing portion 515, the sleeve portion 533, and the rotation shaft 52 are coaxially provided.

The shaft 52 is a generally long rod having one end slidably connected to the button 51 and the other end provided with an external thread (not shown). One end of the rotating shaft 52, which is connected with the button 51 in a sliding manner, is in a shape of a generally rectangular rod, the cross section of the end surface is rectangular, the end of the rotating shaft 52 is clamped in the accommodating part 515 between the first fixing plate 513 and the second fixing plate 514, and the rotating shaft 52 can slide in the accommodating part 515 in an axial direction, so that the button 51 can extend out of the battery sleeve 1 from the battery sleeve 1 or retract into the battery sleeve 1. Further, the length of one end of the rectangular parallelepiped of the rotating shaft 52 is greater than the width thereof, and since the length of the rotating shaft 51 is greater than the width of the accommodating portion 515, when the button 51 is rotated, the rotating shaft 52 rotates along with the button 51, thereby adjusting the resistance of the adjustable resistor 4. One end of the rotating shaft 52 provided with the external thread is in threaded connection with the nut 8, the sliding sheet 44 is clamped and fixed between the external thread and the nut, when the button 51 is rotated, the rotating shaft 52 rotates in the nut 8, and the sliding sheet 44 rotates on the carbon film resistor disc 41, so that the purpose of adjusting the size of the resistor is achieved. In this embodiment, one end of the second wire 32 is connected to the nut 8, and the nut 8 is in fixed contact with the sliding piece 44, so that the second wire 32 is electrically connected to the sliding piece 44.

The battery sleeve 1 is also internally sleeved with a fixed sleeve 12, the inner diameter of the fixed sleeve 12 is slightly smaller than that of the battery sleeve 1, and the fixed sleeve 12 is sleeved in the battery sleeve 1 and is attached to the inner side wall of the battery sleeve 1. The adjusting mechanism 5 and the elastic mechanism 9 are arranged in the fixing sleeve 12, one end of the elastic mechanism 9 is fixed on one end face of the battery sleeve 12, and the other end of the elastic mechanism 9 is abutted against the sliding part 51. Specifically, the elastic mechanism 9 is a spring sleeved outside the rotating shaft 52, and in a normal state, the elastic mechanism 9 is in a compressed state to provide an elastic force for the sliding member 53 to slide upwards. Preferably, the bearing 13 is clamped inside the end surface of the fixed sleeve 12 close to the adjustable resistor 4, and the rotating shaft 52 passes through the bearing 13 and then is connected with the nut 11. The bearing 13 can reduce the friction coefficient between the rotating shaft and the fixing sleeve 12 when the rotating shaft 52 rotates in the battery case 1, thereby facilitating the rotation of the rotating shaft 52 and improving the service life of the rotating shaft 52.

As shown in fig. 2, the knob 51 is completely sleeved in the battery case 1, so as to prevent the knob 51 from being pressed by a user due to an incorrect operation, thereby preventing the adjustable resistor 4 from being adjusted due to the incorrect operation. When a user needs to adjust the amount of smoke, the boss 621 is pressed to move towards the clamping hole 51, meanwhile, the boss 621 extrudes the buckle 531, so that the buckle 531 is ejected out of the clamping hole 61 to enter the battery sleeve 1, and then, after the buckle 531 is ejected out of the clamping hole 61; under the action of the elastic restoring force of the elastic mechanism 9, the sliding part 53 pushes the knob 51 to slide upwards together, so that the knob 51 is extended out of the battery case 1, and the knob 51 is prevented from falling out of the battery case 1 due to the action of the positioning ring 10.

As shown in fig. 3, it is a schematic structural diagram that the knob 51 is ejected out of the battery case 1, and the user can rotate the knob 51 to adjust the resistance of the adjustable resistor 4. Specifically, when the knob 51 is rotated, the rotating shaft 52 rotates along with the knob 51, and then the slider 44 with one end fixed on the rotating shaft 52 is driven to rotate on the carbon film resistor disc 41, so that the length between the first conducting strip 42 or the second conducting strip 43 and the slider 44 is adjusted, that is, the adjustment of the resistance in the circuit connected with the control assembly 3 electrically is realized, the purpose of adjusting the resistance of the adjustable resistor 4 is achieved, and the smoke amount is controlled, and the requirements of different customers are met. And the user can inhale the electron cigarette while rotating knob 51 and adjust the size of smog volume, and the smog volume satisfies user's demand, and this adjustment method easy operation, and can satisfy different customers to the different demands of smog volume. When the user no longer needs to adjust the output power of the battery pack, or the output power of the battery pack has satisfied the user's demand, the button 51 can be retracted into the battery case 1 by pressing the button 51, preventing the user from operating the button 51 by mistake. The battery pack of this embodiment, adjustable resistor 4 through setting up and being connected with control module 3 realizes adjusting battery pack's output, and adjustable resistor 4's resistance size is adjusted through adjustment mechanism 5, and the user only needs to press boss 621 to make adjustment mechanism 5's button 51 stretch out from battery cover 1, then the resistance size that adjustable resistor 4 was adjusted to rotary button 51 again, has realized adjusting battery pack's output, has improved user's experience. When the user does not need to adjust the output power of the battery pack, the adjusting mechanism 5 is positioned in the battery sleeve 1, so that the phenomena that the smoke quantity is changed due to misoperation of the user and the adjusting mechanism 5 is pressed carelessly in the transportation process are avoided; the adjusting method is simple to operate, the output power of the battery pack can be adjusted only through pressing and rotating steps, convenience and rapidness are achieved, and user experience is improved.

As shown in fig. 7 and 8, a battery pack according to a second embodiment of the present invention is different from the first embodiment in that: the battery assembly further comprises a sliding cylinder 8 and a stop ring 7, wherein the sliding cylinder 8 and the stop ring 7 are sleeved on the outer side wall of the battery sleeve 1, the sliding cylinder 8 can slide along the axial direction of the battery sleeve 1, and the stop ring 7 is used for preventing the sliding cylinder 8 from falling downwards.

Specifically, the blocking ring 7 is disposed below the locking hole 61, i.e., the blocking ring 7 is located on the side of the boss 621 away from the positioning ring 10; the sliding cylinder 8 is slidably sleeved between the boss 621 and the detent hole 61, and in a normal state, the sliding cylinder 8 covers the outer surface of the detent hole 61, so that when the boss 621 is pressed by mistake, the boss 621 presses the buckle 531. Preferably, the sliding cylinder 8 is made of a metal material, having a certain rigidity.

In a normal state, the sliding cylinder 8 covers the clamping hole 61, and the stop ring 7 is arranged at the lower end of the sliding cylinder 8 to prevent the sliding cylinder 8 from sliding downwards along the axial direction of the battery sleeve 1; when the output power of the battery pack needs to be adjusted, a user needs to slide the sliding cylinder 8 to a side away from the blocking ring 7 (i.e., upward) first to enable the sliding cylinder 8 to be separated from the covering of the clamping hole 61, and then presses the boss 621 to enable the button 51 to partially extend out of the battery pack 1, so that the button 51 is rotated to adjust the output power of the battery pack. When the output power of the battery pack is adjusted to meet the requirement by the user, the user releases the sliding barrel 8, the sliding barrel 8 slides downwards to the stop ring 7, and then presses the button 51 to limit the button 51 in the battery sleeve 1. Due to the covering of the clamping hole 61 by the sliding barrel 8, the phenomenon that the button 51 protrudes out of the battery sleeve 1 due to mistaken pressing during the transportation or storage of the battery assembly is prevented.

The battery pack of the embodiment is used for preventing the button 51 from extending out of the battery case 1 due to the fact that the boss 621 is pressed by mistake by covering the sliding cylinder 8 outside the clamping hole 61; when a user needs to adjust the output power of the battery assembly, the sliding barrel 8 must first slide to the side away from the blocking ring 7, so that the locking hole 61 is separated from the coating of the sliding barrel 8, and the boss 621 is pressed to make the button 51 extend out of the battery case 1.

A battery pack according to a third embodiment of the present invention is different from the second embodiment in that: the sliding cylinder 8 and the blocking ring 7 are magnetic members magnetically attracted to each other to prevent the sliding cylinder 8 and the blocking ring 7 from being freely moved when the battery pack is horizontally placed. Specifically, the sliding cylinder 8 and the blocking ring 7 are both made of permanent magnetic materials, and the side of the sliding cylinder 8 and the blocking ring 7 close to each other is of opposite magnetic poles, so that the sliding cylinder 8 and the blocking ring 7 can attract each other. In the battery assembly of the embodiment, the sliding cylinder 8 and the blocking ring 7 are magnetic parts which are mutually magnetically attracted, so that the phenomenon that the button 51 is partially popped out from the battery sleeve 1 due to the fact that the boss 621 is pressed by misoperation in a normal state of the battery assembly, and the sliding cylinder 8 and the blocking ring 7 slide randomly is avoided, and user experience is improved.

As shown in fig. 9 and 10, the present invention further provides an electronic cigarette, which includes a battery assembly 300 and an atomizing assembly 400 connected to each other, wherein the structure and the operation principle of the atomizing assembly 400 are the prior art, and are not described herein again, and the battery assembly 300 may be any one of the first to third embodiments.

As shown in fig. 9, when the electronic cigarette of the present invention is in a normal state, the knob 51 is placed in the sleeve of the battery assembly 300, so that the defect that the knob 51 is pressed or rotated due to an erroneous operation is avoided. As shown in fig. 10, in the state when the smoke amount of the electronic cigarette needs to be adjusted, at this time, the knob 51 is popped out of the battery case of the battery assembly 300, and the smoke amount is adjusted by rotating the knob 51, so as to meet the requirements of different users. The specific working principle and structure are not repeated, and the electronic cigarette can achieve the effect of the battery assembly.

While the present invention has been described with reference to the embodiments shown in the drawings, the present invention is not limited to the embodiments, which are illustrative and not restrictive, and it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

A battery assembly for forming an electronic cigarette in combination with an atomizing assembly, comprising:

the device comprises a battery sleeve (1), a battery (2) sleeved in the battery sleeve (1), a control module (3) electrically connected with the battery (2) and an adjustable resistor (4) electrically connected with the control module (3);

one end of the battery sleeve (1) is movably sleeved with an adjusting mechanism (5) for adjusting the adjustable resistor (4) and an elastic mechanism (9) which is sleeved in the battery sleeve (1) and used for providing elastic restoring force for the adjusting mechanism (5);

a clamping mechanism (6) which is movably abutted against the adjusting mechanism (5) and limits the adjusting mechanism (5) in the battery sleeve (1) is arranged on the side wall of the battery sleeve (1);

in a normal state, the adjusting mechanism (5) partially abuts against the clamping mechanism (6) so as to be accommodated in the battery sleeve (1); when the output power of the battery pack needs to be adjusted, the clamping mechanism (6) is applied with force, and the adjusting mechanism (5) extends out of the battery sleeve (1) under the action of the elastic restoring force of the elastic mechanism (9) to be adjusted.
The battery assembly according to claim 1, wherein the locking mechanism (6) comprises a locking hole (61) formed in a side wall of the battery case (1) and an extending portion (62) disposed outside the battery case (1) and extending in an axial direction of the battery case (1), the adjusting mechanism (5) is partially locked in the locking hole (61), and a boss (621) opposite to the locking hole (61) is disposed on the extending portion (62).
The battery assembly according to claim 2, wherein the adjusting mechanism (5) comprises a button (51) capable of moving along the axial direction of the battery sleeve (1), a rotating shaft (52) arranged along the axial direction of the battery sleeve (1) and slidably connected with the button (51), and a sliding member (53) sleeved outside the rotating shaft (52), the sliding member (53) is abutted between the inner end surface of the button (51) and the elastic mechanism (9), and a buckle (531) capable of being clamped in the clamping hole (61) is arranged on the sliding member (53);

when the boss (621) is pressed, the boss (621) extrudes the buckle (531) out of the clamping hole (61) and extrudes the buckle (531) into the battery sleeve (1), under the action of elastic restoring force of the elastic mechanism (9), the sliding part (53) pushes the button (51) to slide upwards together, the button (51) is axially limited at a first position in the battery sleeve (1), and the rotating shaft (52) is driven to rotate together by rotating the button (51) so as to adjust the resistance value of the adjustable resistor (4);

when the button (51) is pressed, the button (51) pushes the sliding piece (53) to slide downwards, and the buckle (531) is clamped in the clamping hole (61), so that the button (51) retracts and is limited at a second position in the battery sleeve (1).
A battery pack according to claim 3, characterized in that the button (51) is formed with a flange (512) extending radially outwards from the periphery thereof, and the battery case (1) is provided with a radially inward extending protrusion on the inside of the end surface thereof;

when the flange is located at the first position, the flange (512) is abutted against the end face of the bulge; when the button is located at the second position, the end part of the button (51) far away from the flange (512) is propped in the inner side wall of the bulge.
The battery pack according to claim 4, wherein a positioning ring (10) for preventing the button (51) from falling off from the battery case (1) is disposed on the end face of the battery case (1), the protrusion is a portion of the positioning ring (10) that is sleeved in the battery case (1), and one end of the extension portion (62) away from the boss (621) is fixed on the end face of the positioning ring (10).
The battery pack according to claim 5, wherein the slider (53) includes a body portion (532) abutting on an end surface of the elastic mechanism (9), a sleeve portion (533) reducing in diameter along a central portion of the body portion (532) to an inner end surface of the button (51), and an elastic engaging portion (534) having one end fixed to the body portion (532), and the hook (531) is connected to the other end of the elastic engaging portion (534).
The battery pack according to claim 6, wherein the elastic buckling part (534) is a diagonal rod inclined toward the side wall of the battery case (1).
The battery assembly according to claim 6, wherein the button (51) comprises a receiving portion (515) which is hollow inside and is arranged along an axial direction of the button (51), the receiving portion (515) is used for axially sliding the rotating shaft (52), and an axial sliding distance of the rotating shaft (52) in the receiving portion (515) is equal to an axial moving stroke of the elastic mechanism (9) in the battery sleeve (1).
The battery assembly according to claim 2, wherein the outer side wall of the battery sleeve (1) is sleeved with a sliding cylinder (8) which can slide along the axial direction of the battery sleeve (1) and a blocking ring (7) which prevents the sliding cylinder (8) from falling off downwards, and the sliding cylinder (8) is slidably sleeved between the boss (621) and the clamping hole (61);

when the output power of the battery pack needs to be adjusted, the sliding cylinder (8) needs to slide to the side away from the blocking ring (7), and when the sliding cylinder (8) is separated from the clamping hole (61), the boss (621) is pressed.
The battery assembly according to claim 9, wherein the sliding cartridge (8) and the blocking ring (7) are made of a permanent magnetic material, and the sliding cartridge (8) and the blocking ring (7) are magnetically attracted to each other.
The battery pack according to claim 6, wherein the elastic mechanism (9) is a spring sleeved on the rotating shaft (52), and the elastic mechanism (9) is in a compressed state in a normal state.
The battery pack according to claim 6, wherein the adjustable resistor (4) comprises a carbon film resistor sheet (41), a first conductive sheet (42) and a second conductive sheet (43) fixedly mounted at two ends of the carbon film resistor sheet (41), and a slider (44) slidably connected with the carbon film resistor sheet (41), one end of the rotating shaft (52) far away from the button (51) is fixedly connected with the slider (44), and the slider (44) can move on the carbon film resistor sheet (41) along with the rotation of the rotating shaft (52).
A battery assembly for forming an electronic cigarette in combination with an atomizing assembly, comprising:

the battery comprises a battery sleeve (1), a battery (2) sleeved in the battery sleeve (1), a control module (3) electrically connected with the battery (2) and an adjustable resistor (4) electrically connected with the control module (3), wherein a radial inward-extending bulge is arranged inside the end face of the battery sleeve (1);

one end of the battery sleeve (1) is movably sleeved with an adjusting mechanism (5) for adjusting the adjustable resistor (4) and an elastic mechanism (9) which is sleeved in the battery sleeve (1) and used for providing elastic restoring force for the adjusting mechanism (5);

a clamping mechanism (6) which is movably abutted against the adjusting mechanism (5) and limits the adjusting mechanism (5) in the battery sleeve (1) is arranged on the side wall of the battery sleeve (1);

the clamping mechanism (6) comprises a clamping hole (61) formed in the side wall of the battery sleeve (1) and an extending part (62) arranged outside the battery sleeve (1) and extending along the axial direction of the battery sleeve (1), the adjusting mechanism (5) is partially clamped in the clamping hole (61), and a boss (621) opposite to the clamping hole (61) is arranged on the extending part (62);

the adjusting mechanism (5) comprises a button (51) capable of moving along the axial direction of the battery sleeve (1), a rotating shaft (52) which is arranged along the axial direction of the battery sleeve (1) and is in sliding connection with the button (51), and a sliding part (53) sleeved outside the rotating shaft (52), wherein the sliding part (53) is abutted between the inner end face of the button (51) and the elastic mechanism (9), a buckle (531) capable of being clamped in the clamping hole (61) is arranged on the sliding part (53), and a flange (512) is formed by extending the periphery of the button (51) outwards in the radial direction;

the outer side wall of the battery sleeve (1) is sleeved with a sliding cylinder (8) capable of axially sliding along the battery sleeve (1) and a stop ring (7) for preventing the sliding cylinder (8) from falling downwards, and the sliding cylinder (8) is slidably sleeved between the boss (621) and the clamping hole (61);

when the output power of the battery assembly needs to be adjusted, the sliding cylinder (8) needs to slide to one side far away from the blocking ring (7), when the sliding cylinder (8) is separated from the clamping hole (61), the boss (621) is pressed to extrude the buckle (531) out of the clamping hole (61) and into the battery sleeve (1), under the action of the elastic restoring force of the elastic mechanism (9), the sliding piece (53) pushes the button (51) to slide upwards, the button (51) is axially limited at a first position in the battery sleeve (1), and when the button is located at the first position, the flange (512) is abutted against the end face of the protrusion; then the rotating shaft (52) is driven to rotate together by rotating the button (51) so as to adjust the resistance value of the adjustable resistor (4);

when the button (51) is pressed, the button (51) pushes the sliding piece (53) to slide downwards, and the buckle (531) is clamped in the clamping hole (61), so that the button (51) retracts and is limited at a second position in the battery sleeve (1); when the button is located at the second position, the end part of the button (51) far away from the flange (512) is propped in the inner side wall of the bulge.
An electronic cigarette comprising a battery assembly (300) and a vaporization assembly (400) connected to one another, wherein the battery assembly (300) comprises:

the device comprises a battery sleeve (1), a battery (2) sleeved in the battery sleeve (1), a control module (3) electrically connected with the battery (2) and an adjustable resistor (4) electrically connected with the control module (3);

one end of the battery sleeve (1) is movably sleeved with an adjusting mechanism (5) for adjusting the adjustable resistor (4) and an elastic mechanism (9) which is sleeved in the battery sleeve (1) and used for providing elastic restoring force for the adjusting mechanism (5);

a clamping mechanism (6) which is movably abutted against the adjusting mechanism (5) and limits the adjusting mechanism (5) in the battery sleeve (1) is arranged on the side wall of the battery sleeve (1);

in a normal state, the adjusting mechanism (5) partially abuts against the clamping mechanism (6) so as to be accommodated in the battery sleeve (1); when the output power of the battery pack needs to be adjusted, the clamping mechanism (6) is applied with force, and the adjusting mechanism (5) extends out of the battery sleeve (1) under the action of the elastic restoring force of the elastic mechanism (9) to be adjusted.
The electronic cigarette according to claim 14, wherein the detent mechanism (6) comprises a detent hole (61) formed in a side wall of the battery case (1) and an extension portion (62) disposed outside the battery case (1) and extending in an axial direction of the battery case (1), the adjusting mechanism (5) is partially engaged in the detent hole (61), and a boss (621) opposite to the detent hole (61) is disposed on the extension portion (62).
The electronic cigarette according to claim 15, wherein the adjusting mechanism (5) comprises a button (51) capable of moving along the axial direction of the battery sleeve (1), a rotating shaft (52) arranged along the axial direction of the battery sleeve (1) and slidably connected with the button (51), and a sliding member (53) sleeved outside the rotating shaft (52), the sliding member (53) is abutted between the inner end surface of the button (51) and the elastic mechanism (9), and a buckle (531) capable of being clamped in the clamping hole (61) is arranged on the sliding member (53);

when the boss (621) is pressed, the boss (621) extrudes the buckle (531) out of the clamping hole (61) and extrudes the buckle (531) into the battery sleeve (1), under the action of elastic restoring force of the elastic mechanism (9), the sliding part (53) pushes the button (51) to slide upwards together, the button (51) is axially limited at a first position in the battery sleeve (1), and the rotating shaft (52) is driven to rotate together by rotating the button (51) so as to adjust the resistance value of the adjustable resistor (4);

when the button (51) is pressed, the button (51) pushes the sliding piece (53) to slide downwards, and the buckle (531) is clamped in the clamping hole (61), so that the button (51) retracts and is limited at a second position in the battery sleeve (1).
The electronic cigarette according to claim 16, wherein the button (51) is formed with a flange (512) extending radially outwards from the periphery thereof, and the battery case (1) is provided with a radially inward extending protrusion on the inside of the end surface thereof;

when the flange is located at the first position, the flange (512) is abutted against the end face of the bulge; when the button is located at the second position, the end part of the button (51) far away from the flange (512) is propped in the inner side wall of the bulge.
The electronic cigarette according to claim 15, wherein a sliding cylinder (8) capable of sliding along the axial direction of the battery case (1) and a blocking ring (7) for preventing the sliding cylinder (8) from falling off downwards are sleeved on the outer side wall of the battery case (1), and the sliding cylinder (8) is slidably sleeved between the boss (621) and the clamping hole (61);

when the output power of the battery pack needs to be adjusted, the sliding cylinder (8) needs to slide to the side away from the blocking ring (7), and when the sliding cylinder (8) is separated from the clamping hole (61), the boss (621) is pressed.
The electronic cigarette according to claim 18, characterized in that the sliding cartridge (8) and the blocking ring (7) are both made of a permanent magnetic material, and the sliding cartridge (8) and the blocking ring (7) are magnetically attracted to each other.
An electronic cigarette comprising a battery assembly (300) and a vaporization assembly (400) connected to one another, wherein the battery assembly (300) comprises:

the battery comprises a battery sleeve (1), a battery (2) sleeved in the battery sleeve (1), a control module (3) electrically connected with the battery (2) and an adjustable resistor (4) electrically connected with the control module (3), wherein a radial inward-extending bulge is arranged inside the end face of the battery sleeve (1);

one end of the battery sleeve (1) is movably sleeved with an adjusting mechanism (5) for adjusting the adjustable resistor (4) and an elastic mechanism (9) which is sleeved in the battery sleeve (1) and used for providing elastic restoring force for the adjusting mechanism (5);

a clamping mechanism (6) which is movably abutted against the adjusting mechanism (5) and limits the adjusting mechanism (5) in the battery sleeve (1) is arranged on the side wall of the battery sleeve (1);

the clamping mechanism (6) comprises a clamping hole (61) formed in the side wall of the battery sleeve (1) and an extending part (62) arranged outside the battery sleeve (1) and extending along the axial direction of the battery sleeve (1), the adjusting mechanism (5) is partially clamped in the clamping hole (61), and a boss (621) opposite to the clamping hole (61) is arranged on the extending part (62);

the adjusting mechanism (5) comprises a button (51) capable of moving along the axial direction of the battery sleeve (1), a rotating shaft (52) which is arranged along the axial direction of the battery sleeve (1) and is in sliding connection with the button (51), and a sliding part (53) sleeved outside the rotating shaft (52), wherein the sliding part (53) is abutted between the inner end face of the button (51) and the elastic mechanism (9), a buckle (531) capable of being clamped in the clamping hole (61) is arranged on the sliding part (53), and a flange (512) is formed by extending the periphery of the button (51) outwards in the radial direction;

the outer side wall of the battery sleeve (1) is sleeved with a sliding cylinder (8) capable of axially sliding along the battery sleeve (1) and a stop ring (7) for preventing the sliding cylinder (8) from falling downwards, and the sliding cylinder (8) is slidably sleeved between the boss (621) and the clamping hole (61);

when the output power of the battery assembly needs to be adjusted, the sliding cylinder (8) needs to slide to one side far away from the blocking ring (7), when the sliding cylinder (8) is separated from the clamping hole (61), the boss (621) is pressed to extrude the buckle (531) out of the clamping hole (61) and into the battery sleeve (1), under the action of the elastic restoring force of the elastic mechanism (9), the sliding piece (53) pushes the button (51) to slide upwards, the button (51) is axially limited at a first position in the battery sleeve (1), and when the button is located at the first position, the flange (512) is abutted against the end face of the protrusion; then the rotating shaft (52) is driven to rotate together by rotating the button (51) so as to adjust the resistance value of the adjustable resistor (4);

when the button (51) is pressed, the button (51) pushes the sliding piece (53) to slide downwards, and the buckle (531) is clamped in the clamping hole (61), so that the button (51) retracts and is limited at a second position in the battery sleeve (1); when the button is located at the second position, the end part of the button (51) far away from the flange (512) is propped in the inner side wall of the bulge.