A portable charger

Abstract

The utility model relates to the technical field of charger, and disclose a kind of portable charger, comprising: charger body, the side of the charger body is equipped with charger secondary body, folding assembly is provided between the charger body and charger secondary body, the auxiliary carding mechanism includes the placement plate of installing in the one side of charger secondary body and the detachable auxiliary plate of installing in the top of placement plate, the top of the auxiliary plate is fixedly installed with multiple winding rods, the utility model is set through the setting of auxiliary carding mechanism, can effectively solve charging cable storage and protection problem, can be orderly wound in winding rod with charging cable, avoid the knot, abrasion problem caused by line body disorder winding, while auxiliary plate can be flexibly adjusted according to the number of charging cable and used, can be stably extruded and fixed after winding charging cable, prevent line body slackening and falling off in carrying process, overall structure is compact, does not additionally occupy too much space, guarantees charging cable carding protection effect.

Description

Technical Field

[0001] This utility model relates to the field of charger technology, specifically a portable charger. Background Technology

[0002] Portable chargers are small energy storage devices developed to solve the problem of insufficient battery life for mobile electronic devices when disconnected from a fixed power source. As mobile devices become more functional and power consumption increases, users' demand for outdoor or emergency power supply is becoming increasingly urgent, driving the development of their technology to adapt to the charging needs of different devices.

[0003] As mobile electronic devices become increasingly feature-rich and power consumption continues to rise, users are becoming more reliant on portable chargers for outdoor travel and emergency situations. Existing products generally lack dedicated charging cable management and protection structures. When users carry chargers, the charging cables often become tangled due to the lack of a fixed storage space. This not only easily leads to knots and wear on the cables, affecting their lifespan, but also increases the time spent tidying up when needed, reducing efficiency. Furthermore, the chargers cannot be flexibly adjusted according to the number of charging cables, resulting in poor adaptability. Utility Model Content

[0004] The purpose of this utility model is to provide a portable charger that solves the problem in the background art where charging cables are often tangled due to the lack of fixed storage space, which not only easily leads to knots and wear, affecting the service life of the charging cable, but also results in poor compatibility.

[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution:

[0006] A portable charger, comprising:

[0007] The charger body has a charger sub-body mounted on one side, a folding assembly is provided between the charger body and the charger sub-body, a switch is provided at one end of the charger sub-body, and a fastening assembly is provided at the top of the charger body and the magnet part.

[0008] An auxiliary combing mechanism is located on one side of the charger sub-body and is used to wrap and protect the charging cable. The auxiliary combing mechanism includes a placement plate installed on one side of the charger sub-body and a detachable auxiliary plate installed on the top of the placement plate. Multiple winding rods are fixedly installed on the top of the auxiliary plate. Two connecting rods are fixedly installed on the side of the placement plate near the charger sub-body. The placement plate is fixed to the charger sub-body through the two connecting rods. A pressing component for pressing the charging cable is provided on the top of the placement plate.

[0009] Preferably, the pressing assembly includes a pressing plate mounted on the top of the placement plate and a plurality of guide grooves formed on the top of the placement plate. A plurality of guide rods are fixedly mounted on the bottom of the pressing plate, and the bottoms of the plurality of guide rods are slidably mounted inside the plurality of guide grooves. A driving assembly for driving the pressing plate to move is provided on the top of the placement plate.

[0010] Preferably, the driving assembly includes a mounting ring mounted on the top of the placement plate and an adjusting screw rotatably mounted on the top of the mounting ring. The pressing plate has a through hole, and an adjusting seat is fixedly mounted on the top of the pressing plate. The adjusting screw passes through the through hole, and the adjusting seat is screwed onto the adjusting screw. A rotating handle is mounted on the top of the adjusting screw.

[0011] Preferably, the folding assembly is used to fold the charger body and the charger sub-body. The folding assembly includes a groove formed inside the charger body and the charger sub-body, and a movable part slidably installed inside the two grooves. A connecting belt is fixedly installed between the two movable parts, and a limit component is provided on the opposite sides of the two movable parts.

[0012] Preferably, the limiting component includes telescopic rods mounted on opposite sides of the two moving parts, with one end of each telescopic rod connected to the interior of the charger body and the charger sub-body, respectively.

[0013] Preferably, the fastening assembly includes a magnet fixedly installed on the top of the charger body and a magnet installed on the top of the charger sub-body. The charger sub-body has multiple charging ports on one side, which are located between the placement plate and the pressing plate. Two plugs are fixedly installed on one side of the charger body, and two slots are opened at one end of the charger sub-body.

[0014] Compared with the prior art, the beneficial effects achieved by this utility model are:

[0015] This invention effectively solves the problem of charging cable storage and protection through the design of an auxiliary combing mechanism. By setting a placement plate on one side of the charger body, along with a detachable auxiliary plate on top and multiple winding rods, the charging cable can be orderly wound onto the winding rods, avoiding knots and wear caused by messy tangling. At the same time, the auxiliary plate can be flexibly adjusted according to the number of charging cables. The pressing component on the top of the placement plate, driven by a drive component, moves the pressing plate to stably press and fix the wound charging cable, preventing the cable from loosening and falling off during carrying. Furthermore, the guide slide at the bottom of the pressing plate cooperates with the guide slide groove of the placement plate to ensure smooth movement of the pressing plate and more reliable pressing and fixing effect. In addition, the placement plate is fixed to the charger body through a connecting rod, resulting in a compact overall structure that does not occupy too much extra space, ensuring both the charging cable combing and protection effect and improving practicality. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the overall structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the structure of this utility model when folded;

[0018] Figure 3 This is a schematic diagram of the internal structure of this utility model;

[0019] Figure 4 This is a schematic diagram of the structure of the folding component of this utility model;

[0020] Figure 5 This is a schematic diagram of the auxiliary combing mechanism of this utility model;

[0021] Figure 6 This is a schematic diagram of the auxiliary combing mechanism of this utility model.

[0022] The components include: 1. Charger body; 2. Magnet part; 3. Charger sub-body; 4. Switch; 5. Press plate; 6. Placement plate; 7. Plug; 8. Connecting strap; 9. Slot; 10. Rotating handle; 11. Moving part; 12. Telescopic rod; 13. Connecting rod; 14. Auxiliary plate; 15. Winding rod; 16. Adjusting screw; 17. Guide slide rod; 18. Guide slide groove. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0024] Please refer to Figure 1 - Figure 3 A portable charger includes: a charger body 1, a charger sub-body 3 mounted on one side of the charger body 1, a folding assembly disposed between the charger body 1 and the charger sub-body 3, a switch 4 disposed at one end of the charger sub-body 3, and a fastening assembly disposed on the top of the charger body 1 and the magnet part 2.

[0025] Please refer to Figure 3 , Figure 5 and Figure 6An auxiliary combing mechanism is located on one side of the charger sub-body 3 and is used to wrap and protect the charging cable. The auxiliary combing mechanism includes a placement plate 6 installed on one side of the charger sub-body 3 and an auxiliary plate 14 installed on the top of the placement plate 6. Multiple winding rods 15 are fixedly installed on the top of the auxiliary plate 14. Two connecting rods 13 are fixedly installed on the side of the placement plate 6 near the charger sub-body 3. The placement plate 6 is fixed to the charger sub-body 3 through the two connecting rods 13. A pressing component for pressing the charging cable is provided on the top of the placement plate 6. The pressing component includes a pressing plate 5 installed on the top of the placement plate 6 and multiple guide grooves 18 opened on the top of the placement plate 6. Multiple guide rods 17 are fixedly installed on the bottom of the pressing plate 5. The bottom of the multiple guide rods 17 are slidably installed inside the multiple guide grooves 18. A driving component for driving the pressing plate 5 to move is provided on the top of the placement plate 6.

[0026] First, the placement plate 6 of the auxiliary combing mechanism is fixed to the charger sub-body 3 via the connecting rod 13. The detachable auxiliary plate 14 is installed on the top of the placement plate 6. The charging cable is wound around the winding rod 15 to complete the initial combing. Then, the bottom of the pressing plate 5 is provided with multiple guide slide rods 17. The guide slide rods 17 are slidably installed in multiple guide slide grooves 18 on the top of the placement plate 6. The pressing plate 5 is driven by the driving component on the top of the placement plate 6, so that the pressing plate 5 moves along the direction of the guide slide grooves 18, and finally squeezes the charging cable wound on the winding rod 15 to achieve stable positioning. The charger body 1 and the charger sub-body 3 are connected by a folding component, thereby fulfilling the charging needs of the device.

[0027] Furthermore, such as Figure 3 , Figure 5 and Figure 6 As shown, the drive assembly includes a mounting ring mounted on the top of the placement plate 6 and an adjusting screw 16 rotatably mounted on the top of the mounting ring. A through hole is provided on the pressing plate 5, and an adjusting seat is fixedly mounted on the top of the pressing plate 5. The adjusting screw 16 passes through the through hole, and the adjusting seat is screwed onto the adjusting screw 16. A rotating handle 10 is mounted on the top of the adjusting screw 16. Therefore, when it is necessary to fix the charging cable wound on the winding rod 15 of the auxiliary combing mechanism, the rotating handle 10 is manually rotated, causing the adjusting screw 16 to rotate around the mounting ring. The adjusting screw 16 is screwed in, and the sliding of the guide slide rod 17 in the guide slide groove 18 can limit the pressing plate 5 to rotate synchronously with the adjusting screw 16. Therefore, the rotation of the adjusting screw 16 will be converted into the adjusting seat driving the pressing plate 5 to move linearly along the direction of the guide slide groove 18. Continuously rotating the rotating handle 10 will make the pressing plate 5 gradually approach the placement plate 6 until the pressing plate 5 is in close contact with the charging cable wound on the winding rod 15 and forms a squeeze, thus achieving stable positioning of the charging cable, preventing the charging cable from falling off, and completing the sorting and storage of the charging cable.

[0028] Furthermore, such as Figure 1 - Figure 4 As shown, the folding assembly is used to fold the charger body 1 and the charger sub-body 3. The folding assembly includes a groove formed inside the charger body 1 and the charger sub-body 3, and a moving part 11 slidably installed inside the two grooves. A connecting strap 8 is fixedly installed between the two moving parts 11. Limiting components are provided on the opposite sides of the two moving parts 11. The limiting components include telescopic rods 12 installed on the opposite sides of the two moving parts 11. One end of the two telescopic rods 12 is respectively connected to the interior of the charger body 1 and the charger sub-body 3. Based on this, the charger body 1 and the charger sub-body 3 are initially in an unfolded or naturally placed state. When folding and storage is required, the charger body 1 and the charger sub-body 3 are pushed in opposite directions. The relative movement of the two bodies 1 and 3 will cause the moving parts 11 in their respective slides to slide synchronously. During the sliding process of the moving parts 11, the connecting strap 8 will be stretched, so that the connecting strap 8 will gradually unfold to adapt to the folding action of the two bodies. At the same time, the limiting components on the opposite sides of the two moving parts 11 will be released as the moving parts 11 slide. Then, the telescopic rod 12 connected inside the charger body 1 and the telescopic rod 12 connected inside the charger sub-body 3 will extend or retract as the corresponding moving parts 11 move. The telescopic deformation of the telescopic rod 12 limits the sliding range of the moving parts 11 to prevent the moving parts 11 from coming out of the slide. Then, the charger body 1 and the charger sub-body 3 are folded to the desired state to complete the folding operation.

[0029] Please also refer to... Figure 2 The fastening assembly includes a magnet 2 fixedly installed on the top of the charger body 1 and a magnet installed on the top of the charger sub-body 3. Multiple charging ports are provided on one side of the charger sub-body 3, located between the placement plate 6 and the pressing plate 5. Two connectors 7 are fixedly installed on one side of the charger body 1, and two slots 9 are opened at one end of the charger sub-body 3. Therefore, when the charger body 1 and charger sub-body 3 are folded together using the folding assembly, the magnets 2 and magnets on the top of both are attracted to each other due to magnetic attraction, making the folded charger body 1 and charger sub-body 3 fit tightly together, preventing them from separating due to shaking during transport and ensuring overall portability. When the charger body 1 and charger sub-body 3 need to be in an unfolded state, the connectors 7 are inserted into the corresponding slots 9, which can stabilize the charger body 1 and charger sub-body 3, further improving their stability during use.

[0030] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A portable charger, characterized in that, include: Charger body (1), charger sub-body (3) is installed on one side of the charger body (1), a folding component is provided between the charger body (1) and the charger sub-body (3), a switch (4) is provided at one end of the charger sub-body (3), and a fastening component is provided on the top of the charger body (1) and the magnet part (2). An auxiliary combing mechanism is located on one side of the charger sub-body (3) and is used to wrap and protect the charging cable. The auxiliary combing mechanism includes a placement plate (6) installed on one side of the charger sub-body (3) and an auxiliary plate (14) installed on the top of the placement plate (6). Multiple winding rods (15) are fixedly installed on the top of the auxiliary plate (14). Two connecting rods (13) are fixedly installed on the side of the placement plate (6) near the charger sub-body (3). The placement plate (6) is fixed to the charger sub-body (3) through the two connecting rods (13). A pressing component for pressing the charging cable is provided on the top of the placement plate (6).

2. A portable charger according to claim 1, characterized in that: The pressing assembly includes a pressing plate (5) installed on the top of the placement plate (6) and a plurality of guide grooves (18) opened on the top of the placement plate (6). A plurality of guide rods (17) are fixedly installed on the bottom of the pressing plate (5). The bottom of the plurality of guide rods (17) is slidably installed inside the plurality of guide grooves (18). A driving assembly for driving the pressing plate (5) to move is provided on the top of the placement plate (6).

3. A portable charger according to claim 2, characterized in that: The drive assembly includes a mounting ring mounted on the top of the placement plate (6) and an adjusting screw (16) rotatably mounted on the top of the mounting ring. A through hole is provided on the pressing plate (5). An adjusting seat is fixedly mounted on the top of the pressing plate (5). The adjusting screw (16) passes through the through hole. The adjusting seat is screwed onto the adjusting screw (16). A rotating handle (10) is mounted on the top of the adjusting screw (16).

4. A portable charger according to claim 3, characterized in that: The folding assembly is used to fold the charger body (1) and the charger sub-body (3). The folding assembly includes a groove opened inside the charger body (1) and the charger sub-body (3) and a movable part (11) slidably installed inside the two grooves. A connecting belt (8) is fixedly installed between the two movable parts (11). A limit component is provided on the opposite side of the two movable parts (11).

5. A portable charger according to claim 4, characterized in that: The limiting assembly includes telescopic rods (12) installed on opposite sides of the two moving parts (11), with one end of each telescopic rod (12) connected to the interior of the charger body (1) and the charger sub-body (3), respectively.

6. A portable charger according to claim 1, characterized in that: The fastening assembly includes a magnet (2) fixedly installed on the top of the charger body (1) and a magnet installed on the top of the charger sub-body (3). The charger sub-body (3) has multiple charging ports on one side, which are located between the placement plate (6) and the pressing plate (5). Two plugs (7) are fixedly installed on one side of the charger body (1), and two slots (9) are opened at one end of the charger sub-body (3).

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