Battery rod and atomization device

Abstract

The application provides a battery rod and an atomization device, and belongs to the technical field of atomization devices. The battery rod comprises a shell, a support, a flexible display screen and a button. The shell comprises a display area, and the shell is provided with a button hole. The support is supported in the shell, and the support comprises a screen support. The screen support comprises a cantilever, and one end of the cantilever along the length direction can be elastically deformed under the action of a pressing force. The flexible display screen is arranged on one side of the screen support facing the display area. The button is inserted into the button hole and connected with the cantilever. The battery rod provided by the application sets the flexible display screen on the screen support, and also sets the cantilever on the screen support, so that the button can be fixed on the screen support through the cantilever, that is, the flexible display screen and the button can be commonly supported on one screen support. The components for fixing the button and the components for fixing the display screen in the existing atomization device are two independent components, which leads to more components and is not conducive to the compactness of the internal structure of the atomization device.

Description

Technical Field

[0001] This application belongs to the field of atomizing device technology, and particularly relates to a battery rod and an atomizing device. Background Technology

[0002] To enhance user interactivity, many products frequently utilize screens and buttons. In traditional structural designs, buttons often require a structural support for fixation. For example, when silicone is chosen as the support, the button relies on the silicone's deformation and rebound to achieve the button pressing effect. Screens are typically directly fixed to the motherboard. However, when the screen is a flexible display, since it cannot be directly surface-mounted onto the PCBA board, a component is generally needed for support and fixation. This results in the screen and buttons requiring two separate structural components, increasing costs and occupying internal space within the product. Utility Model Content

[0003] The purpose of this application is to provide a battery rod and an atomizing device to solve the technical problem in the prior art where the component for fixing the button and the component for fixing the display screen are two separate components, resulting in many parts and making it difficult to have a compact internal structure for the atomizing device.

[0004] To achieve the above objectives, the technical solution adopted in this application is as follows:

[0005] The first aspect of this application provides a battery rod, comprising:

[0006] The housing includes a display area and has button holes.

[0007] A bracket is provided within the housing. The bracket includes a screen bracket, which in turn includes a cantilever. One end of the cantilever along its length can elastically deform under pressure.

[0008] A flexible display screen is disposed on the side of the screen bracket facing the display area;

[0009] The button is inserted into the button hole and connected to the cantilever.

[0010] In one implementation, the screen bracket includes a screen bracket body, the screen bracket body is provided with a clearance hole, and the cantilever is located at the clearance hole;

[0011] The cantilever includes a cantilever body and a connecting part, the connecting part being connected to the wall of the clearance hole;

[0012] The connecting portion is provided at one end of the cantilever body along its length; or, the connecting portion is provided in the middle region of the cantilever body along its length.

[0013] In one implementation, the screen bracket body is bent into a U-shape along the thickness direction of the battery rod; and / or,

[0014] The cantilever is located near one end of the screen bracket body along its length and along the thickness direction of the battery rod, in the middle region of the screen bracket body.

[0015] In one implementation, the screen bracket body is provided with a first interface hole, which cooperates with the charging connector of the battery rod. The first interface hole and the cantilever are spaced apart along the length direction of the screen bracket body, and the first interface hole is close to the end of the screen bracket body.

[0016] In one implementation, the bracket further includes a battery bracket, which includes a battery bracket body and a bracket top, wherein the battery bracket body and the bracket top are sequentially arranged along the length direction of the battery bracket and are connected to each other;

[0017] The battery bracket body and the screen bracket are arranged side by side along a length direction perpendicular to the battery bracket. The battery of the battery rod is supported on the battery bracket body, and the main board of the battery rod is disposed between the battery bracket body and the screen bracket.

[0018] In one implementation, the screen bracket has latches at opposite ends along the thickness direction of the battery rod, the latches being snapped onto the motherboard or the battery bracket body; and / or,

[0019] The screen bracket and the motherboard are provided with connection holes. A connector passes through the connection holes on the screen bracket and the motherboard in sequence and is inserted into the battery bracket body to fix the screen bracket and the motherboard to the battery bracket body.

[0020] In one implementation, the screen bracket has a positioning protrusion on the side facing the motherboard, and the motherboard has a positioning hole that mates with the positioning protrusion.

[0021] In one implementation, the housing includes a housing body, a decorative part, and a lens part. The housing body is cylindrical, and the decorative part and the lens part are both bent into a U-shape along the thickness direction of the battery rod. The decorative part and the lens part are disposed opposite to each other on the housing body along the width direction of the battery rod.

[0022] The decorative part is disposed on the outer side surface of the outer shell body;

[0023] The outer casing has a clearance notch, the lens portion is located in the clearance notch and the lens portion forms the display area.

[0024] In one implementation, the length of the lens portion along the length direction of the battery rod is less than the length of the decorative portion along the length direction of the battery rod; and / or,

[0025] The decorative part is affixed to the main body of the outer casing; and / or,

[0026] The lens portion is snap-fitted onto the housing body; and / or,

[0027] The lens portion is provided with a second interface hole, which cooperates with the charging connector of the battery rod. The second interface hole and the button hole are spaced apart along the length direction of the battery rod.

[0028] A second aspect of this application provides an atomizing device, including an atomizer and the battery rod described in any of the above-described technical solutions.

[0029] The beneficial effects of this application are as follows: The battery rod provided in the embodiments of this application, by setting the flexible display screen on the screen bracket and setting the cantilever on the screen bracket, allows the button to be fixed on the screen bracket through the cantilever. That is, the flexible display screen and the button can be supported together on a screen bracket, avoiding the problem in existing atomizing devices where the part that fixes the button and the part that fixes the display screen are two independent parts, resulting in many parts and making it difficult to make the internal structure of the atomizing device compact. Attached Figure Description

[0030] To more clearly illustrate the technical solutions in the embodiments of this application, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0031] Figure 1 This is a schematic diagram of the atomizing device provided in the embodiments of this application;

[0032] Figure 2 This is an exploded schematic diagram of the atomizing device provided in the embodiments of this application;

[0033] Figure 3 This is a schematic diagram of the structure of the battery rod provided in an embodiment of this application;

[0034] Figure 4 This is an exploded view of the battery rod provided in an embodiment of this application;

[0035] Figure 5This is an exploded view of the internal structure of the battery rod provided in an embodiment of this application;

[0036] Figure 6 A schematic diagram of the screen bracket provided in the embodiments of this application. Figure 1 ;

[0037] Figure 7 A schematic diagram of the screen bracket provided in the embodiments of this application. Figure 2 ;

[0038] Figure 8 A schematic diagram of the screen bracket provided in the embodiments of this application. Figure 3 ;

[0039] Figure 9 This is a schematic diagram of the structure of the outer casing provided in an embodiment of this application.

[0040] The following are the labeling elements in the figure:

[0041] 100 - Atomizing device;

[0042] 10 - Battery rod; 20 - Atomizer;

[0043] 11-Housing; 12-Screen bracket; 13-Flexible display screen; 14-Button; 15-Battery bracket; 16-Receiving cavity; 17-Main board; 18-Battery; 19-Charging connector; 110-Connector; 120-Trigger switch; 130-Connector seal; 140-Electrode; 150-Motor;

[0044] 111 - Main body of the outer casing; 112 - Decorative part; 113 - Lens part; 114 - Display area; 115 - Covering part;

[0045] 1111 - Clearance notch; 1112 - Bottom groove; 1113 - Clearance slot; 1131 - Button hole; 1132 - Second interface hole; 1133 - Connecting plate;

[0046] 121 - Cantilever; 122 - Main body of screen bracket;

[0047] 1211 - Cantilever body; 1212 - Connecting part;

[0048] 1221-Avoidance hole; 1222-First interface hole; 1223-Snap fastener; 1224-Positioning protrusion; 1225-Curved surface; 1226-Screen bracket end; 1227-Long strip; 1228-Limiting protrusion; 1229-Connecting ear; 1220-Limiting protrusion; 12211-Abutting protrusion; 12212-Avoidance notch; 12213-First boss;

[0049] 131 - First avoidance gap; 132 - Second avoidance gap;

[0050] 151 - Battery bracket body; 152 - Bracket top;

[0051] 171 - Positioning hole;

[0052] 1301 - Protruding part;

[0053] 21-Mouth spout. Detailed Implementation

[0054] To make the objectives, technical solutions, and advantages of this application clearer, the embodiments of this application will be further described in detail below with reference to the accompanying drawings. The embodiments described with reference to the accompanying drawings are exemplary and intended to explain this application, and should not be construed as limiting this application.

[0055] In the description of this application, it should be understood that the terms "length", "width", "thickness", "top", "bottom", "inner", "outer", "upper", "lower", "left", "right", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this application and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this application.

[0056] To facilitate a clear description of the technical solutions of this application, the terms "first" and "second" are used to distinguish identical or similar items with essentially the same function and effect. Those skilled in the art will understand that the terms "first" and "second" do not limit the quantity or execution order, and that the terms "first" and "second" do not necessarily imply that they are different.

[0057] In this application, unless otherwise expressly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral part; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. Those skilled in the art can understand the specific meaning of the above terms in this application according to the specific circumstances.

[0058] In this application, "and / or" is merely a way of describing the relationship between related objects, indicating that three relationships can exist; for example, A and / or B can represent three cases: A existing alone, A and B existing simultaneously, and B existing alone. Additionally, the character " / " in this document generally indicates that the preceding and following related objects have an "or" relationship.

[0059] It should be noted that, in this application, the words "in one embodiment," "exemplarily," and "for example" are used to indicate examples, illustrations, or descriptions. Any embodiment or design described in this application as "in one embodiment," "exemplarily," or "for example" should not be construed as being more preferred or advantageous than other embodiments or designs. Specifically, the use of words such as "in one embodiment," "exemplarily," and "for example" is intended to present the relevant concepts in a specific manner.

[0060] Please see Figures 1-3 , Figure 1 This is a schematic diagram of the structure of the atomizing device 100 provided in the embodiments of this application. Figure 2 This is an exploded schematic diagram of the atomizing device 100 provided in the embodiments of this application. Figure 3 This is a schematic diagram of the battery rod 10 provided in an embodiment of this application. It is worth noting that, for ease of description below, the following orientation is defined: the atomizing device 100 can be calibrated using the following three mutually perpendicular axes: the X-axis, the Y-axis, and the Z-axis. Wherein, as... Figure 1 As shown, the X-axis is defined as the width direction of the atomizing device 100, the Y-axis is defined as the thickness direction of the atomizing device 100, and the Z-axis is defined as the length direction of the atomizing device 100.

[0061] Please see Figure 1 and Figure 2 The atomizing device 100 provided in this application embodiment includes an atomizer 20 and a battery rod 10. The battery rod 10 is connected to the atomizer 20 and can provide power to the atomizer 20.

[0062] The atomizer 20 has a cavity for storing aerosol matrix, and the atomizer 20 includes an atomizing core. The atomizing core is electrically connected to the battery 18 in the battery rod 10. When the atomizing core is in working condition (i.e., current flows through the atomizing core), the atomizing core can heat the aerosol matrix that has penetrated into the atomizing core and cause it to evaporate. When the user inhales through the mouthpiece 21 of the atomizer 20, there is airflow in the atomizing core. The evaporated aerosol matrix forms mist under the condensation effect of the airflow. The mist can flow with the airflow to the mouthpiece 21.

[0063] Please see Figure 2 and 3 The battery rod 10 has a receiving cavity 16 formed at one end along its length, through which the atomizer 20 can be inserted into the battery rod 10. (See also...) Figure 2 The diagram illustrates the electrode 140 located on the bottom surface of the receiving cavity 16, which is electrically connected to the atomizer.

[0064] In one example, the atomizer 20 is detachably connected to the battery rod 10, for example, the atomizer 20 can be detachably connected to the battery rod 10 by magnetic attraction.

[0065] Please see Figures 4-5 , Figure 4 This is an exploded view of the battery rod 10 provided in an embodiment of this application. Figure 5 An exploded view of the internal structure of the battery rod 10 provided in an embodiment of this application.

[0066] Please see Figure 4 The battery rod 10 provided in this application embodiment includes a housing 11, a bracket, a flexible display screen 13, and a button 14, wherein the bracket and the flexible display screen 13 are disposed inside the housing 11.

[0067] Please see Figure 4 The housing 11 includes a display area 114, through which the content displayed on the flexible display screen 13 can be displayed. A button hole 1131 is also provided on the housing 11, through which the button 14 protrudes.

[0068] In one example, see Figure 4 A button hole 1131 is provided on the display area 114 of the housing 11; or, in other examples, a button hole 1131 is provided on other areas of the housing 11 besides the display area 114.

[0069] The bracket in this embodiment includes a screen bracket 12. Please refer to [link / reference]. Figure 5 The diagram illustrates the screen bracket 12, on which a flexible display screen 13 is provided on the side of the screen bracket 12 facing the display area 114 of the outer casing 11, that is, the flexible display screen 13 is supported on the screen bracket 12.

[0070] In one example, the flexible display 13 is planar; or, in other examples, the flexible display 13 is curved.

[0071] Please see Figure 5 The screen bracket 12 includes a cantilever 121, and the button 14 is connected to the cantilever 121 of the screen bracket 12. One end of the cantilever 121 along the length direction can undergo elastic deformation under the action of pressing pressure.

[0072] Please see Figure 5 The battery rod 10 provided in this embodiment also includes a battery 18 and a mainboard 17. The battery 18 is electrically connected to the mainboard 17. The bracket also includes a battery bracket 15. Please refer to [link to relevant documentation]. Figure 5 The motherboard 17 is located on the side of the screen bracket 12 away from the flexible display screen 13. A trigger switch 120 is provided on the motherboard 17. When the button 14 is pressed, the cantilever 121 can be elastically deformed to press the trigger switch 120 on the motherboard 17.

[0073] In one example, the motherboard 17 may be supported on the screen bracket 12, which is connected to the battery bracket 15; or, in other examples, the motherboard 17 may be directly supported on the battery bracket 15.

[0074] In one example, button 14 is attached to cantilever 121.

[0075] In one example, the battery rod 10 includes a button 14, which is a power button. By pressing the button 14, the atomizing device 100 can be turned on or off.

[0076] In one example, the battery rod 10 includes two or more buttons 14, each button 14 being connected to a corresponding cantilever 121 on the screen bracket 12. One button 14 can be a power button to control the on or off state of the atomizing device 100; the other button 14 can be an adjustment button to adjust the power of the atomizing coil.

[0077] In one example, the battery rod 10 includes a button 14, which is a combination key. By pressing different positions of the button 14, it can be used to control the power on or off state of the atomizing device 100, and also to adjust the power of the atomizing core.

[0078] In one example, see Figure 5 The battery holder 15 is also equipped with a motor 150, which is electrically connected to the main board 17. When the motor 150 is working, it can make the atomizing device 100 vibrate.

[0079] In this embodiment, by setting the flexible display screen 13 on the screen bracket 12 and also setting a cantilever 121 on the screen bracket 12, the button 14 can be fixed on the screen bracket 12 through the cantilever 121. That is, the flexible display screen 13 and the button 14 can be supported together on a screen bracket 12, avoiding the problem in the existing atomizing device 100 where the component for fixing the button and the component for fixing the display screen are two independent components, resulting in many parts and making it difficult to have a compact internal structure of the atomizing device.

[0080] In one embodiment, please refer to Figure 5 The battery holder 15 includes a battery holder body 151 and a holder top 152, which are sequentially arranged along the length of the battery holder 15 and connected to each other. (See also...) Figure 5 The battery bracket body 151 and the screen bracket 12 are located on the same side of the top 152 of the bracket, and the battery bracket body 151 and the screen bracket 12 are along the length direction perpendicular to the battery bracket 15 (i.e., Figure 5The batteries 18 of the battery rod 10 are arranged side by side in the X-axis direction. The battery 18 of the battery rod 10 is supported on the battery bracket body 151. The mainboard 17 of the battery rod 10 is arranged between the battery bracket body 151 and the screen bracket 12.

[0081] Specifically, the inner side of the outer shell 11 includes a first region and a second region. The first region and the second region are arranged sequentially along the length of the outer shell 11. The battery bracket 15 and the screen bracket 12 are located in the second region. The space formed by the top of the bracket 152 away from the battery bracket body 151 and the first region forms a receiving cavity 16 for placing the atomizer 20.

[0082] In one example, the battery bracket body 151 and the bracket top 152 are integrally formed structures.

[0083] In one example, the battery holder 15 is snapped into the housing 11.

[0084] In one example, the screen bracket 12 is snapped onto the motherboard 17 or the battery bracket body 151.

[0085] In one example, a pressure detection device is provided on the side of the motherboard 17 facing the battery bracket body 151. A detection channel is formed on the battery bracket body 151 and the bracket top 152. One end of the detection channel faces the pressure detection device, and the other end of the detection channel opens to the end of the bracket top 152 away from the battery bracket body 151.

[0086] In this embodiment, by setting the positional relationship between the battery bracket 15, the battery 18, the motherboard 17, and the screen bracket 12, the internal structure of the battery rod 10 is made compact, which helps to reduce the volume of the battery rod 10.

[0087] Please see Figures 6-8 , Figure 6 Schematic diagram of the structure of the screen bracket 12 provided in the embodiments of this application Figure 1 , Figure 7 Schematic diagram of the structure of the screen bracket 12 provided in the embodiments of this application Figure 2 , Figure 8 Schematic diagram of the structure of the screen bracket 12 provided in the embodiments of this application Figure 3 .

[0088] In one embodiment, please refer to Figure 6 The screen bracket 12 includes a screen bracket body 122, on which an avoidance hole 1221 is provided, and the cantilever 121 is located at the avoidance hole 1221.

[0089] Please see Figure 6The cantilever 121 includes a cantilever body 1211 and a connecting part 1212. The connecting part 1212 is connected to the wall of the clearance hole 1221, and the cantilever body 1211 is connected to the connecting part 1212.

[0090] In one example, see Figure 6 A connecting part 1212 is provided at one end of the cantilever body 1211 along the length direction. When the end of the cantilever body 1211 away from the connecting part 1212 is pressed, the cantilever body 1211 can undergo elastic deformation, so that the end of the cantilever body 1211 away from the connecting part 1212 can move in the direction of the pressing force.

[0091] In one example, a connecting portion 1212 is provided in the middle region along the length direction of the cantilever body 1211. For example, the connecting portion 1212 and the cantilever body 1211 can be in a cross shape. In this case, both ends of the cantilever body 1211 along the length direction can be pressed.

[0092] In one example, the cantilever body 1211 includes a first cantilever portion, a second cantilever portion, and a third cantilever portion. The first cantilever portion, the second cantilever portion, and the third cantilever portion are all in the shape of a long strip plate. The first cantilever portion and the second cantilever portion are located at opposite ends of the connecting portion 1212. At the other opposite ends of the connecting portion 1212, one end is connected to the third cantilever portion, and the other end is connected to the wall of the clearance hole 1221. When the end of the first cantilever portion away from the connecting portion 1212, the end of the second cantilever portion away from the connecting portion 1212, and the end of the third cantilever portion away from the connecting portion 1212 are pressed, elastic deformation can occur.

[0093] In one example, see Figure 6 ,along Figure 6 In the Y-axis direction, the width of the cantilever body 1211 is greater than the length of the connecting part 1212, so that the cantilever body 1211 can easily undergo elastic deformation when pressed.

[0094] In this embodiment, the connection structure between the cantilever 121 and the screen bracket body 122 is simple, which facilitates the fabrication of the screen bracket 12.

[0095] In one embodiment, please refer to Figure 7 The screen bracket body 122 is along the thickness direction of the battery rod 10 (i.e., Figure 7 It bends into a U-shape in the Y-axis direction.

[0096] In one example, see Figure 7 The screen bracket body 122 includes a curved surface 1225 and two screen bracket ends 1226. The two screen bracket ends 1226 are respectively disposed at both ends of the curved surface 1225. The curved surface 1225 is bent into a U-shape along the thickness direction of the battery rod 10.

[0097] In this embodiment, by setting the screen support body 122 to be U-shaped, the area on the screen support body 122 for connecting the flexible display screen 13 is increased, so that the atomizing device 100 can have the effect of a large display screen and improve the aesthetics of the atomizing device 100.

[0098] In one embodiment, please refer to Figure 7 The cantilever 121 is located near one end of the screen bracket body 122 along the length direction and along the thickness direction of the battery rod 10, and the cantilever 121 is located in the middle region of the screen bracket body 122.

[0099] In one example, see Figure 7 The screen bracket body 122 includes a curved surface 1225 and two screen bracket ends 1226. The two screen bracket ends 1226 are respectively disposed at both ends of the curved surface 1225, and one end of the cantilever 121 along the length direction is connected to one of the screen bracket ends 1226.

[0100] In this embodiment, by limiting the position of the cantilever 121 on the screen bracket body 122, the position of the button 14 on the outer casing 11 can be affected. Please refer back to [link to previous document]. Figure 1 This shows that button 14 is located on one side of the battery rod 10 along its width. The position of button 14 does not affect the overall aesthetics of the battery rod 10, and at the same time, it makes it convenient for the user to press button 14 on the battery rod 10 when holding the battery rod 10.

[0101] In one embodiment, please refer to Figure 7 The screen bracket body 122 is provided with a first interface hole 1222. The first interface hole 1222 is used in conjunction with the charging connector 19 of the battery rod 10. That is, the charging connector 19 connected to the motherboard 17 can pass through the first interface hole 1222.

[0102] Please see Figure 7 The first interface hole 1222 and the cantilever 121 are spaced apart along the length of the screen bracket body 122, and the first interface hole 1222 is close to the end of the screen bracket body 122.

[0103] Please return to the previous page. Figure 1 The charging connector 19 is located near the end of the battery rod 10 away from the atomizer 20 to improve the aesthetics of the battery rod 10. In this embodiment, the first interface hole 1222 is located near the end of the screen bracket body 122 to facilitate the charging connector 19 being located near the end of the battery rod 10 away from the atomizer 20.

[0104] In one embodiment, please refer to Figure 8 The screen bracket 12 is along the thickness direction of the battery rod 10 (i.e., Figure 8The two ends opposite each other in the Y-axis direction are provided with clips 1223, which are snapped onto the motherboard 17 or onto the battery bracket body 151.

[0105] In this embodiment of the application, when the motherboard 17 is fixed on the battery bracket body 151, the screen bracket 12 can be snapped onto the motherboard 17, or the screen bracket 12 can be snapped onto the battery bracket body 151.

[0106] In this embodiment of the application, when the motherboard 17 is fixed on the screen bracket 12, the screen bracket 12 can be snapped onto the battery bracket body 151.

[0107] It is worth noting that the screen bracket 12 can be simply snapped onto the motherboard 17 or the battery bracket body 151 to fix its position, simplifying the fixing method. Alternatively, in other embodiments, the screen bracket 12 is not only snapped onto the motherboard 17 or the battery bracket body 151, but also connected to the motherboard 17 and / or the battery bracket body 151 via a connector 110. The snap-on connection of the screen bracket 12 to the motherboard 17 or the battery bracket body 151 achieves pre-positioning, and the connector 110 secures the connection between the screen bracket 12 and the motherboard 17 and / or the battery bracket body 151. Alternatively, in other embodiments, the screen bracket 12 is simply connected to the motherboard 17 and / or the battery bracket body 151 via the connector 110.

[0108] In one embodiment, the screen bracket 12 and the motherboard 17 are provided with connection holes. A connector 110 passes through the connection holes on the screen bracket 12 and the motherboard 17 in sequence and is inserted into the battery bracket body 151 to fix the screen bracket 12 and the motherboard 17 on the battery bracket body 151.

[0109] In this embodiment of the application, by setting a connector 110 to connect the screen bracket 12, the motherboard 17 and the battery bracket 15, the screen bracket 12, the motherboard 17 and the battery bracket 15 can be integrated into a single structure.

[0110] In one embodiment, please refer to Figure 8 The screen bracket 12 has a positioning protrusion 1224 on the side facing the motherboard 17, and the motherboard 17 has a positioning hole 171 that cooperates with the positioning protrusion 1224.

[0111] In one example, see Figure 8 Along the bending direction of the screen bracket 12 Figure 8 In the Y-axis direction, two positioning protrusions 1224 are set opposite each other on the inner side of the screen bracket 12.

[0112] In this embodiment, positioning protrusions 1224 and positioning holes 171 are provided to facilitate the positioning and installation of the motherboard 17 and the screen bracket 12.

[0113] In one embodiment, please refer to Figure 8 An abutment protrusion 12211 is formed on the side of the screen bracket 12 facing the motherboard 17. Multiple abutment protrusions 12211 are arranged on both sides of the screen bracket 12 along the bending direction. When the motherboard 17 is installed between the screen bracket 12 and the battery bracket 15, the side of the motherboard 17 facing the screen bracket 12 abuts against the abutment protrusion 12211.

[0114] In this embodiment, an abutment protrusion 12211 is formed on the side of the screen bracket 12 facing the motherboard 17 to facilitate limiting the relative position of the motherboard 17 and the screen bracket 12.

[0115] In one embodiment, please refer to Figure 8 A limiting protrusion 1220 is formed on the side of the screen bracket 12 facing the motherboard 17. Multiple limiting protrusions 1220 are arranged on both sides of the screen bracket 12 along the bending direction. When the motherboard 17 is installed between the screen bracket 12 and the battery bracket 15, the side of the motherboard 17 along the thickness direction contacts the corresponding limiting protrusion 1220.

[0116] In this embodiment, a limiting protrusion 1220 is formed on the side of the screen bracket 12 facing the motherboard 17 to facilitate limiting the relative position of the motherboard 17 and the screen bracket 12.

[0117] In one embodiment, please refer to Figure 6 and Figure 7 A connecting ear 1229 is formed at the bottom of the screen bracket 12. A connecting hole is provided on the connecting ear 1229. A connector 110, such as a screw or bolt, can pass through the connecting hole on the connecting ear 1229 and the connecting hole on the motherboard 17 in sequence, and can be inserted into the battery bracket 15.

[0118] In one embodiment, please refer to Figure 6 The screen bracket 12 has elongated sections 1227 at both ends along the bending direction, which can be used to fit the battery bracket 15.

[0119] In one embodiment, please refer to Figure 7 A limiting protrusion 1228 is provided around the clearance hole 1221, and a limiting protrusion 1228 is provided around the first interface hole 1222. A U-shaped limiting protrusion 1228 is provided between the clearance hole 1221 and the first interface hole 1222, and the U-shaped limiting protrusion 1228 is provided around the connection hole on the screen bracket 12; please refer to Figure 7The screen bracket end 1226 protrudes from the curved surface 1225 for mounting one side of the flexible display screen 13.

[0120] Please see Figure 5 The flexible display screen 13 is bent into a U-shape. The flexible display screen 13 has a first clearance notch 131 and a second clearance notch 132 at both ends along its length. The first clearance notch 131 is used to avoid the clearance hole 1221, the connection hole and the limiting protrusion 1228 around the clearance hole 1221 and the connection hole on the screen bracket 12. The second clearance notch 132 is used to avoid the first interface hole 1222 and the limiting protrusion 1228 around the first interface hole 1222.

[0121] In this embodiment, by setting multiple limiting protrusions 1228, multiple elongated portions 1227, and a protruding curved portion 1225 of the end of the screen bracket 1226 for connecting one side of the flexible display screen 13, the position of the flexible display screen 13 on the screen bracket 12 can be limited, so as to facilitate the placement of the flexible display screen 13 on the screen bracket 12.

[0122] It is worth noting that the above embodiment describes a U-shaped limiting protrusion 1228 surrounding the connection hole. In other embodiments, the shape of the limiting protrusion 1228 surrounding the connection hole is not limited to U-shaped.

[0123] In one embodiment, please refer to Figure 5 The diagram illustrates the connector seal 130, which is located on the side of the screen bracket 12 where the flexible display screen 13 is mounted. The connector seal 130 is mounted around the first interface hole 1222 and is confined within the limiting protrusion 1228 surrounding the first interface hole 1222.

[0124] In one example, see Figure 6 Two clearance notches 12212 are provided on both sides of the first interface hole 1222, and the two protrusions 1301 on the connector seal 130 are respectively inserted into the corresponding clearance notches 12212.

[0125] In one embodiment, please refer to Figure 8 A first protrusion 12213 is formed on the inner side of the screen bracket 12, and a connecting hole passes through the first protrusion 12213. The first protrusion 12213 can be used to abut against the motherboard 17.

[0126] Please see Figure 9 , Figure 9 This is a schematic diagram of the structure of the outer casing 11 provided in an embodiment of this application.

[0127] In one embodiment, please refer to Figure 9The outer casing 11 includes an outer casing body 111, a decorative part 112, and a lens part 113. The outer casing body 111 is cylindrical. The decorative part 112 and the lens part 113 are both bent into a U-shape along the thickness direction of the battery rod 10. The decorative part 112 and the lens part 113 are disposed opposite to each other on the outer casing body 111 along the width direction of the battery rod 10. The decorative part 112 is disposed on the outer side of the outer casing body 111. The outer casing body 111 is provided with a clearance notch 1111. The lens part 113 is located in the clearance notch 1111 and forms a display area 114.

[0128] In this embodiment of the application, by providing the outer casing 11 to include the outer casing body 111, the decorative part 112 and the lens part 113, the appearance of the outer casing 11 can be made more beautiful when the display area 114 is formed on the outer casing 11.

[0129] In one example, see Figure 9 The length of the lens portion 113 along the length of the battery rod 10 is less than the length of the decorative portion 112 along the length of the battery rod 10.

[0130] In one example, see Figure 9 A second interface hole 1132 is provided on the lens part 113. The second interface hole 1132 is matched with the charging connector 19 of the battery rod 10. The second interface hole 1132 and the button hole 1131 are spaced apart along the length direction of the battery rod 10.

[0131] In one example, the decorative part 112 is made of polyurethane synthetic leather and is attached to the outer shell body 111.

[0132] In one example, the lens portion 113 is snap-fitted onto the housing body 111.

[0133] In one example, see Figure 9 The outer casing 11 also includes a shielding part 115. A bottom groove 1112 is formed on the bottom of the outer casing body 111 (i.e. the end of the outer casing body 111 away from the atomizer 20). The shielding part 115 is disposed in the bottom groove 1112. The shielding part 115 can shield the screws (or bolts) connecting the outer casing body 111, the lens part 113 and the battery bracket 15.

[0134] In one example, the shielding part 115 is made of polyurethane synthetic leather and is attached to the outer shell body 111.

[0135] In one example, see Figure 9A connecting plate 1133 is formed at the bottom of the lens part 113, and an avoidance slot 1113 is provided on the bottom surface of the groove 1112 at the bottom of the outer shell body 111. The connecting plate 1133 is located in the avoidance slot 1113, and screws or bolts can pass through the connecting plate 1133 and the outer shell body 111 in sequence to insert the battery bracket 15.

[0136] The above description is merely a preferred embodiment of this application and is not intended to limit this application. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A battery pole, characterized in that, include: The outer casing (11) includes a display area (114) and a button hole (1131) is provided on the outer casing (11); The bracket is supported inside the outer shell (11). The bracket includes a screen bracket (12), and the screen bracket (12) includes a cantilever (121). One end of the cantilever (121) along the length direction can undergo elastic deformation under pressure. A flexible display screen (13) is disposed on the side of the screen bracket (12) facing the display area (114); The button (14) is inserted into the button hole (1131) and connected to the cantilever (121).

2. The battery rod as described in claim 1, characterized in that, The screen bracket (12) includes a screen bracket body (122), the screen bracket body (122) is provided with a clearance hole (1221), and the cantilever (121) is located in the clearance hole (1221); The cantilever (121) includes a cantilever body (1211) and a connecting part (1212), the connecting part (1212) being connected to the wall of the clearance hole (1221); The connecting portion (1212) is provided at one end of the cantilever body (1211) along the length direction; or, the connecting portion (1212) is provided in the middle region of the cantilever body (1211) along the length direction.

3. The battery rod as described in claim 2, characterized in that, The screen bracket body (122) is bent into a U-shape along the thickness direction of the battery rod (10); and / or, The cantilever (121) is located near one end of the screen bracket body (122) along the length direction and along the thickness direction of the battery rod (10), and the cantilever (121) is located in the middle region of the screen bracket body (122).

4. The battery rod as described in claim 3, characterized in that, The screen bracket body (122) is provided with a first interface hole (1222), which is used in conjunction with the charging connector (19) of the battery rod (10). The first interface hole (1222) and the cantilever (121) are spaced apart along the length of the screen bracket body (122), and the first interface hole (1222) is close to the end of the screen bracket body (122).

5. The battery rod as described in any one of claims 1-4, characterized in that, The bracket also includes a battery bracket (15), which includes a battery bracket body (151) and a bracket top (152). The battery bracket body (151) and the bracket top (152) are arranged sequentially along the length of the battery bracket (15) and are connected to each other. The battery bracket body (151) and the screen bracket (12) are arranged side by side along the length direction perpendicular to the battery bracket (15). The battery (18) of the battery rod is supported on the battery bracket body (151). The main board (17) of the battery rod (10) is arranged between the battery bracket body (151) and the screen bracket (12).

6. The battery rod as described in claim 5, characterized in that, The screen bracket (12) is provided with buckles (1223) at opposite ends along the thickness direction of the battery rod (10). The buckles (1223) are engaged with the motherboard (17) or with the battery bracket body (151); and / or, The screen bracket (12) and the motherboard (17) are provided with connection holes. A connector (110) passes through the connection holes on the screen bracket (12) and the motherboard (17) in sequence and is inserted into the battery bracket body (151) to fix the screen bracket (12) and the motherboard (17) on the battery bracket body (151).

7. The battery rod as described in claim 5, characterized in that, The screen bracket (12) has a positioning protrusion (1224) on the side facing the motherboard (17), and the motherboard (17) has a positioning hole (171) that cooperates with the positioning protrusion (1224).

8. The battery rod as described in any one of claims 1-4, characterized in that, The outer casing (11) includes an outer casing body (111), a decorative part (112), and a lens part (113). The outer casing body (111) is cylindrical. The decorative part (112) and the lens part (113) are both bent into a U-shape along the thickness direction of the battery rod (10). The decorative part (112) and the lens part (113) are disposed opposite to each other on the outer casing body (111) along the width direction of the battery rod (10). The decorative part (112) is disposed on the outer side surface of the outer shell body (111); The outer casing (111) is provided with a clearance notch (1111), the lens portion (113) is located in the clearance notch (1111) and the lens portion (113) forms the display area (114).

9. The battery rod as described in claim 8, characterized in that, The length of the lens portion (113) along the length direction of the battery rod (10) is less than the length of the decorative portion (112) along the length direction of the battery rod (10); and / or, The decorative part (112) is attached to the outer shell body (111); and / or, The lens portion (113) is snapped onto the outer casing body (111); and / or, The lens portion (113) is provided with a second interface hole (1132), which cooperates with the charging connector (19) of the battery rod (10). The second interface hole (1132) and the button hole (1131) are spaced apart along the length direction of the battery rod (10).

10. An atomizing device, characterized in that, It includes an atomizer (20) and a battery rod (10) according to any one of claims 1-9.

Images