CN215883912U - Tube built-in battery mounting structure matched with tubular structure - Google Patents

Abstract

The utility model discloses a tubular built-in battery mounting structure matched with a tubular structure, and belongs to the technical field of tubular electric ring mounting. The tubular battery in the mounting structure is provided with a guide boss and a charging and discharging assembly, the charging and discharging assembly is provided with a charging port, and the mounting pipe is provided with a direction positioning groove matched with the guide boss and a mounting positioning hole matched with the charging port; the tubular battery is inserted in the installation pipe, the guide boss is hung on the direction positioning groove, and the charging port corresponds to the installation positioning hole and is locked at the installation positioning hole. The mounting structure makes full use of the self structure of the equipment main body to mount the battery, so that the battery and the whole vehicle have higher combination and beautiful collocation; the mounting structure has the characteristics of simple structure, easiness in disassembly and assembly, attractive appearance and high safety.

Description

Tube built-in battery mounting structure matched with tubular structure

Technical Field

The utility model relates to a tubular built-in battery mounting structure matched with a tubular structure, and belongs to the technical field of tubular electric ring mounting.

Background

The electric bicycle is a vehicle which is provided with a motor, a controller, a rotating handle and other operation parts and a display instrument on the basis of a common bicycle by taking a storage battery as auxiliary energy, and is popular with more and more consumers due to the advantages of light weight, environmental protection, energy conservation and the like. At present, most batteries of the electric bicycle are fixed on a frame through a specific mounting bracket or a protection bag, most of the batteries mounted in the mounting mode protrude out of the frame, the integrity of the combination of the batteries and the whole bicycle is lacked, and the matching is not attractive; meanwhile, the safety is low because the danger of scraping and colliding a rider is easily caused in the using process; and the structure is more complicated after the mounting bracket and the protection bag are used, and the battery is inconvenient to disassemble and assemble.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a tube built-in battery mounting structure matched with a tubular structure, and the mounting structure has the characteristics of simple structure, easiness in disassembly and assembly, attractive appearance and high safety.

The technical scheme of the utility model is as follows:

a tube built-in battery mounting structure matched with a tubular structure comprises a mounting tube and a tubular battery,

a convex guide boss is formed on the outer peripheral surface of the tubular battery, a charge-discharge assembly is formed on the tubular battery, and a charge port which is concave to the surface is formed on the outer peripheral surface of the charge-discharge assembly;

the mounting pipe is provided with a direction positioning groove matched with the guide boss and a mounting positioning hole matched with the charging port;

the tubular battery is inserted into the mounting pipe, the guide boss is hung on the direction positioning groove, and the charging port corresponds to the mounting positioning hole and is fixedly locked at the mounting positioning hole.

The further technical scheme is as follows:

a battery bottom shell is formed on the end face of one end of the tubular battery, and the guide boss is formed on the outer peripheral surface of the battery bottom shell.

The further technical scheme is as follows:

the guide boss extends outwards from the bottom end face of the battery bottom shell in the radial direction to form a step-shaped structure, and the protruding height of the step-shaped structure is not smaller than the size from the outer peripheral face of the battery bottom shell to the outer peripheral face of the mounting tube.

The further technical scheme is as follows:

the direction constant head tank is the U-shaped groove that extends the formation towards the other end of installation pipe along the axial from the one end mouth of pipe edge of installation pipe, this U-shaped inslot is arranged in to the direction boss, and the bottom face of this direction boss hangs the bottom department of locating this U-shaped groove.

The further technical scheme is as follows:

the charging and discharging assembly comprises a charging and discharging body fixedly mounted on the other end of the tubular battery, a charging port fixing seat and an insulating dustproof cover, the charging port is formed in the outer peripheral face of the charging and discharging body, the charging port fixing seat penetrates through the mounting positioning hole and is fixedly locked in the charging port through a first fastener, and the insulating dustproof cover is sealed and arranged on the outer surface of the charging port fixing seat and fixedly locked on the mounting pipe.

The further technical scheme is as follows:

the charging port fixing seat is in a shape matched with the charging port, an accommodating groove is formed in the outer surface of the charging port fixing seat, and the insulating dustproof cover is elastically and hermetically accommodated in the accommodating groove.

The further technical scheme is as follows:

and a rubber bolt is formed on the bottom end surface of the insulating dustproof cover along the direction towards the charging and discharging body, and the rubber bolt penetrates through the charging and discharging fixing seat and then is hermetically plugged in the hole formed in the charging and discharging body.

The further technical scheme is as follows:

the tail end of the charging and discharging body forms an inwards concave cambered surface structure along the axial direction, and the charging port is formed on the back face of the inwards concave cambered surface structure.

The further technical scheme is as follows:

and a second fastener is arranged and fixedly locked on the tubular battery after penetrating through the pipe wall of the mounting pipe from the side of the mounting pipe opposite to the charging port.

The further technical scheme is as follows:

the direction positioning groove and the installation positioning hole in the installation pipe are respectively arranged on two opposite side surfaces at two ends of the installation pipe.

The beneficial technical effects of the utility model are as follows:

1. the battery is arranged in the hollow pipe of the equipment main body by the mounting structure, the structure of the equipment main body is fully utilized, and therefore the battery is high in combination with the whole vehicle and attractive in matching;

2. according to the installation structure, the guide boss is used for guiding and positioning during installation, so that the tubular battery can be accurately positioned when being placed into the installation pipe, accurate alignment between a charging port on the battery and an installation positioning hole on the installation pipe is realized, and the installation is convenient;

3. according to the mounting structure, the charging port fixing seat is arranged outside the mounting pipe, so that the occupied volume inside the mounting pipe can be greatly reduced, and the tubular battery can be firmly fixed inside the mounting pipe by matching with the locking of the second fastening piece and the tubular battery;

4. this application mounting structure sets up rubber insulation shield in the mouth fixing base outside that charges, can prevent that external composition such as rainwater from getting into the mouth that charges inside, has improved the security greatly.

Drawings

FIG. 1 is an exploded view of a mounting structure according to an embodiment of the present invention;

FIG. 2 is one of the schematic structural illustrations of the mounting structure of the present invention after installation;

FIG. 3 is a second schematic view of the assembled mounting structure of the present invention;

FIG. 4 is one of the structural illustrations of the installation tube of the present invention;

FIG. 5 is a second schematic view of the construction of the installation tube of the present invention;

FIG. 6 is one of the schematic structural views of the tubular cell of the present invention;

FIG. 7 is an enlarged schematic view of portion A of FIG. 6;

FIG. 8 is a second schematic structural view of a tubular cell of the present invention;

FIG. 9 is an enlarged schematic view of portion B of FIG. 8;

wherein:

1. installing a pipe; 11. a direction positioning groove; 12. installing a positioning hole;

2. a tubular cell;

21. a battery bottom case; 211. a guide boss;

22. a charge and discharge assembly;

221. a charge and discharge body; 221a, a charging port; 222. a charging port fixing seat; 222a, a containing groove; 223. an insulating dust cap; 223a, rubber plugs; 224. a first fastener; 225. a second fastener.

Detailed Description

In order to make the technical means of the present invention clearer and to make the technical means of the present invention capable of being implemented according to the content of the specification, the following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings and examples, which are provided for illustrating the present invention and are not intended to limit the scope of the present invention.

This embodiment describes in detail a tube-inside battery mounting structure that fits a tubular structure.

The mounting structure comprises a mounting pipe 1 and a tubular battery 2, wherein the mounting pipe 1 can be a hollow pipeline inside a frame middle pipe, a frame upper pipe, a frame lower pipe and the like of a power-assisted bicycle, an electric bicycle and a hybrid drive bicycle, and can also be a hollow pipeline inside other equipment; wherein the outer casing shape of the tubular battery 2 matches the inner shape of the mounting tube so that the tubular battery fits snugly within the mounting tube. The mounting pipe in this embodiment is described in detail by taking a middle pipe of a frame as an example.

The mounting structure comprises a two-part structure:

wherein the first part is: a convex guide boss 211 is formed on the outer peripheral surface of the tubular battery 2, and a direction positioning groove 11 matched with the guide boss 211 is formed on the installation tube 1;

wherein the second part is: the tubular battery 2 is formed with a charging and discharging assembly 22, the outer circumference of which is formed with a charging port 221a recessed in the surface; the mounting pipe 1 is provided with a mounting positioning hole 12 matched with the charging port;

the tubular battery 2 is inserted into the mounting tube 1, the guide boss 211 is hung on the direction positioning slot 11, and the charging port 221a corresponds to and is locked at the mounting positioning hole 12.

More specific embodiment of the above mounting structure is:

in this embodiment, the direction positioning slot 11 and the installation positioning hole 12 on the installation tube 1 are respectively opened on two opposite side surfaces of two ends of the installation tube 1, or may be opened on two non-opposite side surfaces, and are preferably opened on two opposite side surfaces based on the basic principle of being able to realize the positioning of the direction positioning slot and the installation function of the installation positioning hole and the overall appearance.

Battery bottom case 21 is formed at the end face of one end of tubular battery 2, and guide boss 211 is formed on the outer peripheral surface of battery bottom case 21. Specifically, the guide boss 211 extends radially outward from the bottom end surface of the battery bottom case 21 to form a step-shaped structure, and the height of the protrusion of the step-shaped structure is not less than the size from the outer peripheral surface of the battery bottom case to the outer peripheral surface of the mounting tube, so that the step-shaped structure is hung on the mounting tube.

The direction positioning groove 11 is a U-shaped groove formed by extending from the edge of the pipe orifice at one end of the installation pipe 1 to the other end of the installation pipe along the axial direction, the U-shaped groove is arranged at the higher end of the installation pipe in the use state, and the guide boss is convenient to hang and arrange, in this embodiment, the U-shaped groove is arranged at the top end of the middle pipe. The guide boss 211 is disposed in the U-shaped groove, and the bottom end surface of the guide boss 211 is hung at the bottom of the U-shaped groove.

In this embodiment, the charging and discharging assembly 22 includes a charging and discharging body 221 fixedly mounted on the other end of the tubular battery 2, a charging port fixing base 222 and an insulating dust cover 223. The upper end of the charge and discharge body 221 is formed in a structure that is consistent with the main shape and radial dimension of the tubular battery, the end of the charge and discharge body 221 is formed in an inward concave arc structure along the axial direction, and the charge port 221a is formed on the outer circumferential surface of the charge and discharge body, preferably, at the back of the inward concave arc structure.

The charging port fixing base 222 penetrates through the mounting positioning hole 12 on the mounting pipe 1 and is locked in the charging port 221a through the first fastener 224, the insulating dustproof cover 223 is sealed and arranged on the outer surface of the charging port fixing base 222 and is locked on the mounting pipe 1, and the insulating dustproof cover is made of rubber. The concrete structure and the connection mode are as follows: the charging port fixing base 222 is shaped to match the charging port 221a, and an accommodating groove 222a is formed on an outer surface of the charging port fixing base, and the insulating dust cap can be elastically and hermetically accommodated in the accommodating groove. The elastic sealing structure of the insulating dustproof cover is as follows: a rubber bolt 223a is formed on the bottom end surface of the insulating dustproof cover 223 along the direction towards the charging and discharging body 221, the rubber bolt is fixedly connected with the insulating dustproof cover through an elastic rubber strip, and the rubber bolt penetrates through the charging and discharging fixing seat and then is hermetically plugged in a hole formed in the charging and discharging body. Namely, after the head of the rubber bolt penetrates through the opening on the charging port fixing seat, the rubber bolt is sealed and plugged in the hole on the charging and discharging body, so that the insulating dustproof cover is fixed on the charging port fixing seat; simultaneously, because insulating shield, rubber bolt and elastic rubber strip are by the shaping of elastic rubber, when needs get rid of insulating shield, take out and twist elastic rubber strip adjustment shield direction can with it, also can extract it, when needs are sealed dustproof, just cover with the shield is good can. In this embodiment, the second fastening member may be a threaded member, such as a screw.

A second fastener 225 is provided, which is inserted through the wall of the mounting tube from the side of the mounting tube opposite to the charging port and is locked on the tubular battery 2. In this embodiment, the second fastening member may be a threaded member, such as a screw.

This embodiment the mounting structure when installing, the direction constant head tank 11 on the installation pipe 1 is aimed at to the direction boss on the tubular battery 2 earlier, makes the mouth that charges on the tubular battery 2 unanimous with installation locating hole 12 orientation on the installation pipe 1 simultaneously, then slowly inserts the tubular battery and locates in the installation pipe, when the tubular battery inserted the installation pipe completely, loosens the hand, and the direction boss then hangs completely and establishes on the direction constant head tank. Then, the charging port fixing seat 222 is arranged on the outer side of the installation pipe 1, and the first fastening piece is arranged on the tubular battery in a penetrating mode and then fastened on the tubular battery; then, the second fastener 225 is inserted through the wall of the mounting tube from the side of the mounting tube opposite to the charging port and then is locked and fixed on the tubular battery 2. Finally, the rubber plug on the insulating dustproof plug 223 is plugged into the corresponding hole, and then the plug body of the insulating dustproof plug is pressed into the accommodating groove 222a, so that the installation is completed.

This application mounting structure installs the battery in the cavity pipe that equipment main part self possessed, make full use of equipment main part's self structure for the battery is higher with the associativity of whole car, and the collocation is pleasing to the eye. The tubular battery can be accurately positioned when being placed into the installation pipe by utilizing the guiding and positioning of the guiding lug boss during installation, so that the accurate alignment between a charging port on the battery and an installation positioning hole on the installation pipe is realized, and the installation is convenient; the charging port fixing seat is arranged outside the installation pipe, so that the occupied volume inside the installation pipe can be greatly reduced, and the tubular battery can be firmly fixed inside the installation pipe by matching with the locking of the second fastening piece and the tubular battery; this structure sets up the rubber insulation shield in mouthful fixing base outside charging, can prevent that external composition such as rainwater from getting into mouthful inside charging, has improved the security greatly.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, it should be noted that, for those skilled in the art, many modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a built-in battery mounting structure of pipe with tubular structure adaptation, includes installation pipe (1) and tubular battery (2), its characterized in that:

a convex guide boss (211) is formed on the outer peripheral surface of the tubular battery (2), a charging and discharging assembly (22) is formed on the tubular battery (2), and a charging port (221 a) which is concave to the surface is formed on the outer peripheral surface of the charging and discharging assembly;

the mounting pipe (1) is provided with a direction positioning groove (11) matched with the guide boss (211) and a mounting positioning hole (12) matched with the charging port;

the tubular battery (2) is inserted into the mounting pipe (1) and enables the guide boss (211) to be hung on the direction positioning groove (11), and the charging port (221 a) corresponds to the mounting positioning hole (12) and is fixedly locked at the mounting positioning hole.

2. The tube-inside-battery mounting structure adapted to a tubular structure according to claim 1, wherein: a battery bottom shell (21) is formed at the end face of one end of the tubular battery (2), and the guide boss (211) is formed on the outer peripheral surface of the battery bottom shell (21).

3. The tube-inside-battery mounting structure adapted to the tubular structure according to claim 2, wherein: the guide boss (211) extends outwards from the bottom end surface of the battery bottom shell (21) in the radial direction to form a step-shaped structure, and the protruding height of the step-shaped structure is not smaller than the size from the outer peripheral surface of the battery bottom shell to the outer peripheral surface of the mounting tube.

4. The tube-inside-battery mounting structure adapted to a tubular structure according to claim 1, wherein: the direction constant head tank (11) is the U-shaped groove that extends the formation towards the other end of installation pipe from the one end mouth of pipe edge of installation pipe (1) along the axial, this U-shaped inslot is arranged in to direction boss (211), and the bottom face of this direction boss (211) hangs and locates the bottom department in this U-shaped groove.

5. The tube-inside-battery mounting structure adapted to a tubular structure according to claim 1, wherein: the charging and discharging assembly (22) comprises a charging and discharging body (221) fixedly mounted at the other end of the tubular battery (2), a charging port fixing seat (222) and an insulating dustproof cover (223), the charging port (221 a) is formed in the outer peripheral surface of the charging and discharging body (221), the charging port fixing seat (222) penetrates through the mounting positioning hole (12) and is fixedly locked in the charging port (221 a) through a first fastener (224), and the insulating dustproof cover (223) is arranged on the outer surface of the charging port fixing seat (222) in a sealing mode and is fixedly locked on the mounting pipe (1).

6. The tube-inside-battery mounting structure adapted to the tubular structure according to claim 5, wherein: the charging port fixing seat (222) is in a shape matched with the charging port (221 a), an accommodating groove (222 a) is formed in the outer surface of the charging port fixing seat, and the insulating dustproof cover is elastically and hermetically accommodated in the accommodating groove.

7. The tube-inside-battery mounting structure adapted to the tubular structure according to claim 6, wherein: a rubber bolt (223 a) is formed on the bottom end face of the insulating dustproof cover (223) along the direction towards the charging and discharging body (221), and the rubber bolt penetrates through the charging and discharging fixing seat and then is hermetically plugged in a hole formed in the charging and discharging body.

8. The tube-inside-battery mounting structure adapted to the tubular structure according to claim 5, wherein: the tail end of the charging and discharging body (221) forms an inwards concave cambered surface structure along the axial direction, and the charging port (221 a) is formed in the back of the inwards concave cambered surface structure.

9. The tube-inside-battery mounting structure adapted to a tubular structure according to claim 1, wherein: and a second fastener (225) is arranged and is fixedly locked on the tubular battery (2) after penetrating through the pipe wall of the mounting pipe from the side of the mounting pipe opposite to the charging port.

10. The tube-inside-battery mounting structure adapted to a tubular structure according to claim 1, wherein: the direction positioning groove (11) and the installation positioning hole (12) on the installation pipe (1) are respectively arranged on two opposite side surfaces at two ends of the installation pipe (1).

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