CN117458671B - Charging and reversing integrated machine capable of carrying multiple groups of battery packs - Google Patents

Abstract

The utility model provides a charging and reversing integrated machine capable of carrying a plurality of groups of battery packs, which comprises: the battery box comprises a box body, wherein a plurality of notches are formed in the front side and the rear side of the box body at intervals along the length direction, mounting plates are slidably arranged at the notches along the width direction of the box body, and battery slots are formed in the front side and the rear side of the mounting plates; the first conductive interface is arranged at the top of the mounting plate; the second conductive interface is arranged on the top wall of the notch and is electrically connected with the first conductive interface; the input interface is arranged at the left side of the box body and is used for connecting an external power supply; the output interfaces are arranged on the left side of the box body and are used for supplying power to external electric appliances; the power management system is arranged in the box body and used for controlling an external power supply to charge the battery pack in the battery slot and converting the voltage output by the battery pack into a plurality of different voltages so as to supply external electric appliances from corresponding output interfaces. The utility model can charge the battery packs of a plurality of electric tools at the same time, and can reversely output various voltages by utilizing the residual electricity of the battery packs.

Description

Charging and reversing integrated machine capable of carrying multiple groups of battery packs

Technical Field

The utility model relates to the technical field of power supplies, in particular to a charging and reversing integrated machine capable of carrying multiple groups of battery packs.

Background

The utility model patent with publication number of CN219322107U discloses a multi-slot inverter, and relates to the technical field of electric tool chargers. A multi-tank inverter for charging a battery pack, comprising: the shell is provided with a plurality of charging grooves which are detachably connected with the battery pack; the input interface is arranged on the shell and is connected with an external power supply; the output interface is arranged on the shell and is used for supplying power to an external electric appliance; the controller is arranged in the shell and is electrically connected with the input interface, the output interface and the battery pack respectively; when the output interface is connected with an external electric appliance and the charging groove is connected with the battery pack, electric energy in the battery pack is converted by the controller and then supplied to the external electric appliance through the output interface. After the multi-slot inverter is connected with the battery pack, electricity in the battery pack can be output to an external electric appliance through the output interface, so that the functions of the multi-slot inverter are increased, and the use scene is widened.

As can be seen from the figures of the above patent, to increase the number of adaptations of the battery pack, the lateral dimensions of the casing need to be made large, while the width remains substantially unchanged, which poses a certain limit to the design of the product.

Disclosure of Invention

In view of the above, the utility model aims to provide a charging and reversing integrated machine capable of carrying a plurality of groups of battery packs, which has the characteristics of reasonable structural design.

In order to solve the technical problems, the technical scheme of the utility model is as follows:

a reversible charging all-in-one machine capable of carrying multiple groups of battery packs, comprising:

the battery box comprises a box body, wherein a plurality of notches are formed in the front side and the rear side of the box body at intervals along the length direction, mounting plates are slidably arranged at the notches along the width direction of the box body, and battery slots are formed in the front side and the rear side of each mounting plate;

the first conductive interface is arranged at the top of the mounting plate and is electrically connected with the corresponding battery slot;

the second conductive interface is arranged on the top wall of the notch, and is electrically connected with the first conductive interface when the mounting plate slides into the notch;

the input interface is arranged at the left side of the box body and is used for connecting an external power supply;

the output interfaces are arranged on the left side of the box body and are used for supplying power to external electric appliances;

the power management system is arranged in the box body and used for controlling an external power supply to charge the battery pack in the battery slot and converting the voltage output by the battery pack into a plurality of different voltages so as to supply external electric appliances from corresponding output interfaces.

Preferably, a guide rail assembly is arranged on the right side of the notch along the width direction of the box body, and a driving assembly for driving the mounting plate to slide is arranged on the left side of the notch; the right side of mounting panel and guide rail assembly fixed connection.

Preferably, the guide rail assembly adopts a multi-section telescopic guide rail.

Preferably, the driving assembly comprises a first screw rod sliding table and a second screw rod sliding table; wherein,

the first screw rod sliding table comprises a driving motor, a first screw rod, a first guide rod, a first fixed plate, a second fixed plate, a first movable plate and a first nut seat; the first fixing plate and the second fixing plate are arranged on the left side wall of the notch at intervals front and back; the driving motor is arranged on the first fixed plate, and the first screw rod is rotatably arranged between the first fixed plate and the second fixed plate and is connected with the driving motor; the two ends of the first guide rod are respectively fixed on the first fixed plate and the second fixed plate and movably penetrate through the first movable plate; the first movable plate is provided with a first through hole for the first screw rod to pass through; the first nut seat is in threaded sleeve joint with the first screw rod and comprises an upper seat body and a lower seat body, and the upper seat body and the lower seat body are in sliding fit with the first movable plate up and down; the first movable plate is also provided with an elastic reset component for driving the upper seat body and the lower seat body to keep a closed state;

the second fixed plate is provided with a separation assembly for driving the upper seat body and the lower seat body to be separated, and when the first movable plate moves to a preset position, the separation assembly starts to act on the upper seat body and the lower seat body;

the second screw rod sliding table comprises a second movable plate, a second guide rod, a second nut seat and a second screw rod, one end of the second screw rod is rotationally connected with the first movable plate, and the other end of the second screw rod is rotationally connected with the second movable plate; the second nut seat is in threaded sleeve connection with the second screw rod, and two ends of the second guide rod are respectively fixed on the second movable plate and the first movable plate and movably penetrate through the second nut seat; the mounting plate is fixed on the right side of the second nut seat through the first connecting plate;

the first lead screw is provided with a first gear in a fixed sleeve close to the position of the second fixed plate, the second lead screw is provided with a second gear in a fixed sleeve close to the position of the first movable plate, and the first movable plate is provided with a third gear meshed with the first gear and the second gear.

Preferably, the first movable plate is provided with slide rails on the upper side and the lower side of the first through hole; the upper seat body and the lower seat body are respectively arranged on the upper slide rail and the lower slide rail in a sliding way.

Preferably, a guide inclined plane is arranged on one side of the upper seat body and the lower seat body, which faces the first movable plate, an upper ejector rod and a lower ejector rod are slidably arranged on the second fixed plate along the front-back direction, and a second through hole for the ejector rods to pass through is formed in the first movable plate; when the first movable plate is displaced to a preset position, the ejector rod is contacted with the guide inclined plane; one end of the ejector rod, which is far away from the first movable plate, is fixedly connected with a mounting seat, a first rack is arranged on the right side of the mounting seat, and a fourth gear meshed with the first rack is arranged on the front side of the first movable plate through a bracket; and a second rack meshed with the fourth gear is arranged on the left side of the second nut seat.

Preferably, control buttons for controlling the corresponding driving components to work are arranged on the front side and the rear side of the box body and correspond to the positions of the notches, and the control buttons are electrically connected with the power management system.

Preferably, a display screen is further arranged on the right side of the box body, and the display screen is electrically connected with the power management system and is used for displaying various power supply parameters or charging parameters.

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

the battery packs of a plurality of electric tools can be charged at the same time, and various voltages can be reversely output by utilizing residual electricity of the battery packs;

by adopting the sliding type mounting structure, the length increment of the box body can be reduced as much as possible on the premise of ensuring the carrying quantity of the battery packs.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a reverse charging all-in-one machine in an embodiment;

FIG. 2 is a schematic diagram of the overall structure of the driving assembly according to the embodiment;

fig. 3 is an enlarged view of a portion a in fig. 2;

FIG. 4 is a schematic view of a part of the driving assembly according to the embodiment;

FIG. 5 is a schematic view of a partial structure of a driving assembly according to another embodiment;

fig. 6 is a schematic structural diagram of an elastic reset assembly in an embodiment.

Reference numerals: 1. a case; 11. a notch; 2. a mounting plate; 21. a first conductive interface; 3. a battery slot; 4. a drive assembly; 5. a guide rail assembly; 61. a driving motor; 621. a first fixing plate; 622. a second fixing plate; 623. a bottom plate; 63. a first movable plate; 631. a slide rail; 64. a first screw rod; 65. a first nut seat; 651. an upper base; 652. a lower base; 653. a guide slope; 66. a mounting base; 67. a push rod; 68. a first guide bar; 71. a second movable plate; 72. a second screw rod; 73. a second nut seat; 74. a second guide bar; 75. a first connection plate; 8. an elastic reset assembly; 81. a fixing seat; 82. a second connecting plate; 83. a moving rod; 84. a spring; 91. a first gear; 92. a third gear; 93. a second gear; 94. a fourth gear; 95. a first rack; 96. and a second rack.

Detailed Description

The following detailed description of the utility model is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the utility model.

Referring to fig. 1, this embodiment provides a reverse all-in-one that fills of portability multiunit battery package, including box 1, the front and back both sides of box 1 are provided with a plurality of notches 11 along length direction interval, and notch 11 department slides along the width direction of box 1 and is provided with mounting panel 2, and the front and back side of mounting panel 2 all is provided with battery slot 3. The left side of the box body 1 is provided with an input interface and a plurality of output interfaces, wherein the input interface is used for being connected with an external power supply, such as 220V alternating current; several output interfaces include, but are not limited to, type-c, usb, 220V, etc., for powering external appliances. The power management system is installed inside the box body 1 and is used for controlling an external power supply to charge the battery pack in the battery slot 3 and converting the voltage output by the battery pack into a plurality of different voltages so as to supply external electric appliances from corresponding output interfaces. Based on the same kind of functional products existing in the market, the specific circuit structure and principle of the power management system are not described in detail in this embodiment. The right side of the box body 1 is also provided with a display screen, and the display screen is electrically connected with the power management system and used for displaying various power supply parameters or charging parameters, such as output voltage, output current, temperature, electric quantity of each battery pack and other conventional parameters.

In addition, a guide rail component 5 is arranged on the right side of the notch 11 along the width direction of the box body 1, and the guide rail component 5 adopts a multi-section telescopic guide rail; the left side of the notch 11 is provided with a driving component 4 for driving the mounting plate 2 to slide; the right side of the mounting plate 2 is fixedly connected with the guide rail assembly 5. In this embodiment, when the rail assembly 5 is multi-stage and the driving assembly 4 is multi-stage, the length of the mounting plate 2 required for sliding back into the slot 11 and the length of the rail assembly 5 and the driving assembly 4 can be reduced, thereby reducing the front-rear width of the case 1.

In order to facilitate the power on, a first conductive interface 21 is arranged on the top of the mounting plate 2, and the first conductive interface 21 is electrically connected with the corresponding battery slot 3; meanwhile, the top wall of the notch 11 is provided with a second conductive interface, and when the mounting plate 2 slides into the notch 11, the second conductive interface is electrically connected with the first conductive interface 21; the first conductive interface 21 is electrically connected to the power management system.

In this embodiment, the driving component 4 is composed of a two-section screw rod sliding table structure, and of course, three sections or even more sections can be designed according to practical situations. Next, the present embodiment will be described in detail with respect to the driving assembly 4.

Referring to fig. 2 to 6, the driving assembly 4 includes a first screw sliding table and a second screw sliding table; wherein,

the first screw sliding table comprises a driving motor 61, a first screw 64, a first guide rod 68, a first fixing plate 621, a second fixing plate 622, a first movable plate 63 and a first nut seat 65; the first fixing plate 621 and the second fixing plate 622 are arranged on the left side wall of the notch 11 at intervals front and back; the driving motor 61 is mounted on the first fixing plate 621, and the first screw rod 64 is rotatably arranged between the first fixing plate 621 and the second fixing plate 622 and is connected with the driving motor 61; both ends of the first guide rod 68 are respectively fixed on the first fixing plate 621 and the second fixing plate 622 and movably pass through the first movable plate 63; the first movable plate 63 is provided with a first through hole through which the first screw 64 passes.

The first nut seat 65 is in threaded sleeve connection with the first screw rod 64, and comprises an upper seat body 651 and a lower seat body 652, and slide rails 631 are arranged on the upper side and the lower side of the first movable plate 63, which are positioned on the first through hole; the upper seat 651 and the lower seat 652 are slidably disposed on the upper and lower slide rails 631, respectively. Referring to fig. 5 and 6, the first movable plate 63 is further provided with an elastic reset assembly 8 for driving the upper and lower bodies 651 and 652 to maintain a closed state; the elastic reset components 8 are arranged into two groups and respectively act on the upper seat 651 and the lower seat 652, and the elastic reset components 8 comprise a fixed seat 81, a second connecting plate 82, a movable rod 83 and a spring 84; taking the upper seat 651 as an example, the second connecting plate 82 is fixed on the upper seat 651, the fixed seat 81 is fixed on the first movable plate 63, the movable rod 83 is fixedly and movably arranged on the fixed seat 81 in a penetrating manner, and the front end of the movable rod is fixedly connected with the second connecting plate 82; the movable rod 83 is T-shaped, and the upper end of the movable rod plays a limiting role. The spring 84 is sleeved on the moving rod 83, and two ends of the spring are respectively abutted against the fixed seat 81 and the second connecting plate 82. In a natural state, the spring 84 pushes the upper body 651 downward, as does the lower body 652. When the upper body 651 is pushed upward, the spring 84 can be compressed, and when the pushing force is eliminated, the upper body 651 is reset.

The second screw rod sliding table comprises a second movable plate 71, a second guide rod 74, a second nut seat 73 and a second screw rod 72, one end of the second screw rod 72 is rotationally connected with the first movable plate 63, and the other end of the second screw rod 72 is rotationally connected with the second movable plate 71; the second nut seat 73 is in threaded sleeve connection with the second screw rod 72, and two ends of the second guide rod 74 are respectively fixed on the second movable plate 71 and the first movable plate 63 and movably penetrate through the second nut seat 73; the mounting plate 2 is fixed to the right side of the second nut seat 73 by a first connecting plate 75.

Referring to fig. 2 to 4, a first gear 91 is sleeved on the first screw 64 near the second fixing plate 622, a second gear 93 is sleeved on the second screw 72 near the first movable plate 63, and a third gear 92 meshed with the first gear 91 and the second gear 93 is arranged on the first movable plate 63. Further, when the three gears form an engagement relationship, the driving motor 61 can drive the second screw 72 slide table to operate.

The second fixing plate 622 is provided with a separation member for driving the upper and lower bodies 651 and 652 to be separated, and when the first movable plate 63 moves to a predetermined position, the separation member starts to act on the upper and lower bodies 651 and 652. Specifically, a guide inclined plane 653 is provided on one side of the upper base 651 and the lower base 652 facing the first movable plate 63, an upper and a lower ejector rods 67 are slidably provided on the second fixed plate 622 along the front-rear direction, and a second through hole for the ejector rods 67 to pass through is provided on the first movable plate 63; when the first movable plate 63 is displaced to a preset position, the jack 67 contacts the guide inclined face 653; one end of the ejector rod 67, which is far away from the first movable plate 63, is fixedly connected with a mounting seat 66, a first rack 95 is arranged on the right side of the mounting seat 66, and a fourth gear 94 meshed with the first rack 95 is arranged on the front side of the first movable plate 63 through a bracket; the left side of the second nut seat 73 is provided with a second rack 96 engaged with the fourth gear 94. When the fourth gear 94 rotates forward and backward, the first rack 95 can be driven to move forward and backward, and then the ejector rod 67 is driven to move forward and backward through the mounting seat 66. The second rack 96 can be engaged with the fourth gear 94 at a certain position in the process of moving forward and backward along with the second nut seat 73, thereby driving the fourth gear 94 to rotate.

The working principle of the embodiment is as follows:

when the mounting plate 2 is to be pushed out, the driving motor 61 rotates forward, the first screw 64 and the first gear 91 rotate synchronously, at this time, the first nut seat 65 moves forward, and the sliding table moves forward with the whole second screw 72 through the first movable plate 63; when the first movable plate 63 moves to the preset position, the third gear 92 is simultaneously engaged with the first gear 91 and the second gear 93, and then the first gear 91 indirectly drives the second gear 93 to rotate. At this time, the second gear 93 drives the second screw rod 72 to rotate, the second nut seat 73 moves forward, the second rack 96 is driven to move forward, and then the first rack 95 is driven to move backward through the fourth gear 94, so as to continuously push the ram 67 to move toward the guide inclined plane 653, meanwhile, as the first movable plate 63 continues to move forward, the ram 67 finally contacts the guide inclined plane 653, and the upper seat 651 and the lower seat 652 are separated until the internal threaded portions of the upper seat 651 and the lower seat 652 are not connected with the first screw rod 64, and the first nut seat 65 and the first movable plate 63 stop moving forward. At this time, the second nut seat 73 continues to move forward, and the mount 66 also continues to move forward following the second nut seat 73 until reaching the limit position, and the drive motor 61 is stopped. When the control is worth noting, the control of starting and stopping of the driving motor 61 can be achieved by controlling the rotation number of the driving motor 61 or by installing a position sensor on the screw sliding table.

When the mounting plate 2 is to be pulled back, the driving motor 61 is reversed, the second nut seat 73 is retracted, and when a certain position is reached, the second rack 96 starts to be meshed with the fourth gear 94, and the ejector rod 67 is indirectly driven to be far away from the upper seat 651 and the lower seat 652 along with the continuous retraction of the second rack 96; simultaneously, the upper seat 651 and the lower seat 652 are closed under the action of the elastic resetting assembly 8 until being in threaded fit with the first screw rod 64 again; then the first nut seat 65 retreats to drive the third gear 92 to retreat until the second nut seat 73 stops moving after the first gear 91 and the second gear 93 are separated from the meshing relationship; when the first nut seat 65 is retracted to the limit position, the driving motor 61 stops rotating.

In addition, control buttons for controlling the operation of the corresponding driving assemblies 4 are provided at positions corresponding to each notch 11 on the front and rear sides of the case 1, and the control buttons are electrically connected with the power management system. Upon the user pressing the control button, the power management system immediately controls the operation of the corresponding drive assembly 4 to push or pull the panel 2 outwardly.

Of course, the above is only a typical example of the utility model, and other embodiments of the utility model are also possible, and all technical solutions formed by equivalent substitution or equivalent transformation fall within the scope of the utility model claimed.

Claims (3)

1. The utility model provides a can carry reverse all-in-one of filling of multiunit battery package which characterized by includes:

the battery box comprises a box body (1), wherein a plurality of notches (11) are formed in the front side and the rear side of the box body at intervals along the length direction, mounting plates (2) are slidably arranged at the notches (11) along the width direction of the box body (1), and battery slots (3) are formed in the front side and the rear side of each mounting plate (2);

the first conductive interface (21) is arranged at the top of the mounting plate (2) and is electrically connected with the corresponding battery slot (3);

the second conductive interface is arranged on the top wall of the notch (11), and is electrically connected with the first conductive interface (21) when the mounting plate (2) slides into the notch (11);

the input interface is arranged at the left side of the box body (1) and is used for connecting an external power supply;

the output interfaces are arranged on the left side of the box body (1) and are used for supplying power to external electric appliances;

the power management system is arranged in the box body (1) and is used for controlling an external power supply to charge the battery pack in the battery slot (3) and converting the voltage output by the battery pack into a plurality of different voltages so as to supply external electric appliances from corresponding output interfaces;

the right side of the notch (11) is provided with a guide rail assembly (5) along the width direction of the box body (1), and the left side of the notch (11) is provided with a driving assembly (4) for driving the mounting plate (2) to slide; the right side of the mounting plate (2) is fixedly connected with the guide rail assembly (5);

the guide rail component (5) adopts a multi-section telescopic guide rail;

the driving assembly (4) comprises a first screw rod sliding table and a second screw rod sliding table; wherein,

the first screw rod sliding table comprises a driving motor (61), a first screw rod (64), a first guide rod (68), a first fixed plate (621), a second fixed plate (622), a first movable plate (63) and a first nut seat (65); the first fixing plate (621) and the second fixing plate (622) are arranged on the left side wall of the notch (11) at intervals front and back; the driving motor (61) is arranged on the first fixed plate (621), and the first screw rod (64) is rotatably arranged between the first fixed plate (621) and the second fixed plate (622) and is connected with the driving motor (61); both ends of the first guide rod (68) are respectively fixed on the first fixed plate (621) and the second fixed plate (622) and movably penetrate through the first movable plate (63); the first movable plate (63) is provided with a first through hole for the first screw rod (64) to pass through; the first nut seat (65) is in threaded sleeve connection with the first screw rod (64) and comprises an upper seat body (651) and a lower seat body (652), and the upper seat body (651) and the lower seat body (652) are in sliding fit with the first movable plate (63) up and down; an elastic reset component (8) for driving the upper seat body (651) and the lower seat body (652) to keep a closed state is also arranged on the first movable plate (63);

the second fixed plate (622) is provided with a separation assembly for driving the upper seat body (651) and the lower seat body (652) to be separated, and when the first movable plate (63) moves to a preset position, the separation assembly starts to act on the upper seat body (651) and the lower seat body (652);

the second screw rod sliding table comprises a second movable plate (71), a second guide rod (74), a second nut seat (73) and a second screw rod (72), one end of the second screw rod (72) is rotationally connected with the first movable plate (63), and the other end of the second screw rod is rotationally connected with the second movable plate (71); the second nut seat (73) is in threaded sleeve connection with the second screw rod (72), and two ends of the second guide rod (74) are respectively fixed on the second movable plate (71) and the first movable plate (63) and movably penetrate through the second nut seat (73); the mounting plate (2) is fixed on the right side of the second nut seat (73) through a first connecting plate (75);

the first gear (91) is sleeved on the first screw rod (64) close to the second fixed plate (622), the second gear (93) is sleeved on the second screw rod (72) close to the first movable plate (63), and the first movable plate (63) is provided with a third gear (92) meshed with the first gear (91) and the second gear (93);

the first movable plate (63) is provided with sliding rails (631) on the upper side and the lower side of the first through hole; the upper seat body (651) and the lower seat body (652) are respectively arranged on the upper slide rail (631) and the lower slide rail (631) in a sliding manner;

a guide inclined surface (653) is arranged on one side, facing the first movable plate (63), of the upper base body (651) and the lower base body (652), an upper ejector rod and a lower ejector rod (67) are slidably arranged on the second fixed plate (622) along the front-rear direction, and a second through hole for the ejector rod (67) to pass through is formed in the first movable plate (63); when the first movable plate (63) is displaced to a preset position, the ejector rod (67) is contacted with the guide inclined plane (653); one end of the ejector rod (67) far away from the first movable plate (63) is fixedly connected with a mounting seat (66), a first rack (95) is arranged on the right side of the mounting seat (66), and a fourth gear (94) meshed with the first rack (95) is arranged on the front side of the first movable plate (63) through a bracket; a second rack (96) meshed with the fourth gear (94) is arranged on the left side of the second nut seat (73).

2. The reverse charging all-in-one machine capable of carrying multiple groups of battery packs according to claim 1, wherein control buttons for controlling the corresponding driving components (4) to work are arranged on the front side and the rear side of the box body (1) and correspond to the positions of each notch (11), and the control buttons are electrically connected with a power management system.

3. The charging and reversing integrated machine capable of carrying multiple groups of battery packs according to claim 1 is characterized in that a display screen is further arranged on the right side of the box body (1), and the display screen is electrically connected with a power management system and used for displaying various power supply parameters or charging parameters.