CN221080233U - Battery compartment, outdoor power supply and self-mobile device - Google Patents

Abstract

The embodiment of the utility model provides a battery compartment, an outdoor power supply and self-moving equipment. The switch component and the elastic lock catch are both arranged on the shell, and the lock tongue of the elastic lock is movably arranged on the shell so as to enter or exit the inner cavity through a notch of the shell. The elastic lock catch is provided with an unlocking position and a locking position, the movement of the switch assembly relative to the shell is suitable for driving the elastic lock catch to be selectively positioned at the unlocking position or the locking position, and when the elastic lock catch is positioned at the unlocking position, the lock tongue is positioned outside the inner cavity; the locking bolt is at least partially positioned in the cavity when the resilient catch is in the locked position. In this way, the switch assembly can be operated to enable the elastic lock catch to be selectively located at the unlocking position or the locking position, so that the battery can enter or exit the inner cavity through the battery taking and placing opening. In addition, the mode that the switch component drives the elastic lock catch to be selectively positioned at the unlocking position or the locking position is simple, and convenience is brought to the operation of a user.

Description

Battery compartment, outdoor power supply and self-mobile device

Technical Field

The utility model relates to the technical field of battery bins, in particular to a battery bin, an outdoor power supply and self-moving equipment.

Background

With the popularization and development of outdoor electric devices (such as autonomous working equipment, outdoor power supplies and the like), in order to meet the requirements of users for using electric tools outdoors, battery bins are usually arranged in the devices to realize the disassembly and assembly of batteries, so that the users can conveniently replace batteries when the electric quantity of the devices is insufficient.

Generally, a movable space is reserved for the battery when the housing of the battery compartment is designed in size, so that smooth loading of the battery is ensured, but the battery is inevitably swayed in the battery compartment when a user carries/makes an external electric device of the user, so that the battery is loosened and loses the power supply function.

Disclosure of utility model

The embodiment of the utility model provides a battery compartment, an outdoor power supply and self-mobile equipment, so as to solve the problems.

The embodiments of the present utility model achieve the above object by the following technical means.

In a first aspect, an embodiment of the present utility model provides a battery compartment, where the battery compartment includes a housing, a switch assembly, and an elastic latch, the housing defines an inner cavity and a battery access opening in communication with the inner cavity, so as to be suitable for a battery to enter or exit the inner cavity through the battery access opening, and the housing has a notch in communication with the inner cavity. The switch component and the elastic lock catch are both arranged on the shell, the elastic lock catch is provided with a lock tongue, and the lock tongue is movably arranged on the shell so as to enter or exit the inner cavity through the notch, and the elastic lock catch is provided with an unlocking position and a locking position. The switch component moves relative to the shell and is suitable for driving the elastic lock catch to be selectively positioned at an unlocking position or a locking position; when the elastic lock catch is in the locking position, the lock tongue is at least partially positioned in the inner cavity so as to limit the movement of the battery from the inner cavity to the battery taking and placing opening; when the elastic lock catch is in the unlocking position, the lock tongue is positioned outside the inner cavity so as to release the movement restriction of the lock tongue on the battery.

In some embodiments, the switch assembly comprises a switch member and a moving member which are connected, the moving member comprises an abutting inclined surface, the abutting inclined surface is provided with a first end surface and a second end surface, the distance between the first end surface and the switch member in the thickness direction of the battery compartment is smaller than the distance between the second end surface and the switch member in the thickness direction, and the switch member is suitable for driving the second end surface to move towards the elastic lock catch so as to enable the elastic lock catch to be in an unlocking position; the switch piece is suitable for driving the first end face to move towards the elastic lock catch so as to enable the elastic lock catch to be in a locking position.

In some embodiments, the battery compartment includes a bracket mounted to the housing, the bracket having a guide slot extending along a length of the battery compartment, the moving member movably positioned in the guide slot, the moving member including a moving surface extending along the length and coupled to the second end surface, the moving surface abutting the bracket.

In some embodiments, the switch member is located at least partially outside the guide slot.

In some embodiments, the bracket comprises a compression member and a bracket body, the bracket body is provided with a guide groove, the compression member is connected to the bracket body and covers the guide groove, the compression member is provided with a limit opening, the limit opening extends along the length direction and is communicated with the guide groove, and the switch member is at least partially positioned outside the limit opening.

In some embodiments, the compressing member includes a compressing body and a first limiting body connected to each other, the compressing body is provided with a limiting opening, the first limiting body extends in a direction of the guiding groove along a thickness direction, and the first limiting body is located in a moving path of the moving member.

In some embodiments, the bracket body includes a second limiting body extending in a thickness direction toward the guide groove, the second limiting body being located in a moving path of the moving member.

In some embodiments, the bracket body is provided with a limiting hole, the second limiting body is located in the limiting hole and is abutted to the elastic lock catch, and the elastic lock catch penetrates through the limiting hole and is abutted to the abutting inclined plane.

In some embodiments, the switch assembly includes a switch member and a moving member connected to each other, the moving member includes a first moving body, a connecting rod, and a second moving body distributed along a length direction of the battery compartment, the first moving body and the second moving body are connected to two ends of the connecting rod, the elastic lock includes a first elastic lock body and a second elastic lock body, the first elastic lock body and the first moving body are distributed along a thickness direction, the second elastic lock body and the second moving body are distributed along a thickness direction, the switch member is connected to the first moving body and is adapted to drive the first moving body to move along the length direction, and the movement of the first moving body along the length direction is adapted to drive the connecting rod and the second moving body to move synchronously, so that the first elastic lock body and the second elastic lock body are located at an unlocking position or a locking position synchronously.

In some embodiments, the first mobile body, the link, and the second mobile body are integrally formed.

In some embodiments, the elastic lock catch comprises a lock shell, a telescopic body, a first reset piece and a second reset piece, wherein the lock shell comprises an inner bottom wall and an inner side wall which are connected, the lock tongue is at least partially positioned in the lock shell and can move along the width direction of the battery compartment, the movement of the switch assembly relative to the shell is suitable for driving the telescopic body to movably penetrate through the lock tongue along the thickness direction, the movement of the telescopic body to the inner bottom wall along the thickness direction is suitable for driving the lock tongue to move along the width direction to the inner side wall so as to enable the lock tongue to exit the inner cavity through the notch, the second reset piece is connected with the telescopic body and the inner bottom wall, and the second reset piece is suitable for driving the telescopic body to move along the thickness direction to deviate from the inner bottom wall so as to enable the lock tongue to enter the inner cavity through the notch; the first piece that resets is connected in spring bolt and inside wall, and first piece that resets is suitable for driving the spring bolt and removes to the direction that deviates from the inside wall to make the spring bolt get into the inner chamber through the breach.

In a second aspect, an embodiment of the present utility model further provides an outdoor power source, where the outdoor power source includes a body 20 and a battery compartment provided in any of the foregoing embodiments, the body 20 is provided with an interface for supplying power to an external device, and the battery compartment is disposed inside the body 20.

In a third aspect, an embodiment of the present utility model further provides a self-mobile device, where the self-mobile device includes a mobile body and a battery compartment provided in any of the foregoing embodiments.

According to the battery compartment, the outdoor power supply and the self-mobile equipment provided by the embodiment of the utility model, the shell of the battery compartment is provided with the inner cavity and the battery taking and placing port communicated with the inner cavity, so that the battery can enter or exit the inner cavity through the battery taking and placing port. The switch component and the elastic lock catch of the battery bin are both arranged on the shell, the shell is provided with a notch communicated with the inner cavity, the elastic lock catch is provided with a lock tongue, and the lock tongue is movably arranged on the shell and enters or exits the inner cavity through the notch. The elastic lock catch is provided with an unlocking position and a locking position, the movement of the switch assembly relative to the shell is suitable for driving the elastic lock catch to be selectively positioned at the unlocking position or the locking position, and when the elastic lock catch is positioned at the locking position, the lock tongue is at least partially positioned in the inner cavity so as to limit the movement of the battery from the inner cavity to the battery taking and placing opening; when the elastic lock catch is in the unlocking position, the lock tongue is positioned outside the inner cavity so as to release the movement restriction of the lock tongue on the battery. So, can make elasticity hasp selectively in unblock position or locking position through operating switch assembly for the battery can dismantle or install in the inner chamber, when elasticity hasp is in locking position, the spring bolt helps improving the stability that the battery was installed in the inner chamber, helps reducing the risk that the battery rocked in the inner chamber. In addition, the mode that the switch component drives the elastic lock catch to be selectively positioned at the unlocking position or the locking position is simple, and convenience is brought to the operation of a user.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural diagram of an outdoor power supply according to an embodiment of the present utility model.

Fig. 2 shows a schematic structural view of the outdoor power supply of fig. 1 at another viewing angle.

Fig. 3 shows a partial schematic structure of a battery compartment of the outdoor power supply of fig. 1.

Fig. 4 shows a schematic longitudinal sectional view of the battery compartment of fig. 3.

Fig. 5 shows an exploded structural schematic view of the battery compartment of fig. 3.

Fig. 6 is a schematic view showing a part of the structure of a battery compartment according to another embodiment of the present utility model.

Fig. 7 shows a schematic longitudinal sectional view of the battery compartment of fig. 6.

Fig. 8 shows an exploded structural schematic view of the battery compartment of fig. 6.

Fig. 9 shows a schematic structural view of the elastic latch of the battery compartment of fig. 2.

Fig. 10 shows a schematic longitudinal sectional view of the elastic lock catch of fig. 9.

Fig. 11 shows a schematic structural diagram of a self-mobile device according to an embodiment of the present utility model.

Reference numerals illustrate:

Detailed Description

In order to make the present utility model better understood by those skilled in the art, the following description of the present utility model will be made in detail with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the utility model. All other embodiments, based on the embodiments of the utility model, which a person skilled in the art would obtain without making any inventive effort, are within the scope of the utility model.

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1 and 2 together, the embodiment of the utility model provides an outdoor power source 100, where the outdoor power source 100 includes a body 20 and a battery compartment 10, and the battery compartment 10 is disposed inside the body 20. The body 20 is provided with an interface for supplying power to external devices, for example, the interface may be a usb interface, and the battery compartment 10 is provided with an inner cavity 111, so that the inner cavity 111 may provide a space for installing a battery, so that the battery may be installed in the inner cavity 111 and charged through the interface, thereby helping to ensure normal operation of the outdoor power supply 100.

In some embodiments, the battery is removably mounted to the interior cavity 111, and then the battery is removably mounted to the interior cavity 111 to facilitate meeting a user's need for disassembly and assembly of the battery. The user may detach the battery from the inner cavity 111 and install the battery on other devices to provide the electric energy required by the other devices, and for example, the user may detach the battery from the inner cavity 111 to replace or repair the battery compartment 10 or the battery, which may be specifically set according to the actual situation.

Referring to fig. 1, 2 and 3, in some embodiments, the battery compartment 10 includes a housing 11, a switch assembly 12 and a resilient latch 13, where the housing 11 defines an inner cavity 111 and a battery access port 112 in communication with the inner cavity 111, so as to be suitable for a battery to enter or exit the inner cavity 111 through the battery access port 112.

In some embodiments, the switch assembly 12 and the resilient catch 13 are both mounted to the housing 11, the housing 11 having a notch 113 in communication with the interior cavity 112. The elastic lock 13 is provided with a lock tongue 135, and the lock tongue 135 is movably arranged on the shell 11 to enter or exit the inner cavity 11 through the notch 113. Thus, the lock tongue 135 can be made to abut against the battery of the inner cavity 11 by making the lock tongue 135 enter the inner cavity 11 through the notch 113; the battery can be disengaged from the cavity 11 by allowing the latch 135 to exit the cavity 11 through the notch 113. In this manner, the battery may be removed or installed in the cavity 111, helping to meet the requirements for removal or installation of the battery.

The resilient latch 13 has an unlocked position and a locked position, and movement of the switch assembly 12 relative to the housing 11 is adapted to bring the resilient latch 13 into either the unlocked position or the locked position selectively. When the elastic lock catch 13 is in the locking position, the lock tongue 135 is at least partially located in the inner cavity 111 to limit the battery to move from the inner cavity 111 to the battery taking-out and placing-in opening 112, so that the lock tongue 135 can prop against the battery, and the battery can be mounted in the inner cavity 111. When the elastic lock catch 13 is in the unlocking position, the lock tongue 135 is located outside the inner cavity 111 to release the movement restriction of the lock tongue 135 to the battery, and at this time, the lock tongue 135 is separated from the battery, so that the battery can be detached from the inner cavity 111.

In this manner, the switch assembly 12 can be operated such that the elastic latch 13 can be selectively placed in the unlocking position or the locking position, thereby satisfying the need for the disassembly or the installation of the battery. When the resilient catch 13 is in the locked position, the locking tongue 135 helps to increase the stability of the battery mounted in the cavity 111 and helps to reduce the risk of the battery rocking within the cavity 111.

In addition, the switch assembly 12 drives the elastic lock catch 13 to be selectively located at the unlocking position or the locking position, so that the operation of a user is facilitated, and the efficiency of detaching the battery from the inner cavity 111 is improved.

Referring to fig. 3, 4 and 5, in some embodiments, the switch assembly 12 may include a switch member 121 and a moving member 122 connected to each other, where the moving member 122 includes an abutment inclined surface 1221, the abutment inclined surface 1221 has a first end surface 1222 and a second end surface 1223, a distance between the first end surface 1222 and the switch member 121 in a thickness direction Z of the battery compartment 10 is smaller than a distance between the second end surface 1223 and the switch member 121 in the thickness direction Z of the battery compartment 10, and the switch member 121 is adapted to drive the second end surface 1223 to move toward the elastic lock catch 13 so that the elastic lock catch 13 is in an unlocking position; the switch 121 is adapted to move the first end 1222 towards the resilient latch 13 to bring the resilient latch 13 into a locked position.

In this way, the moving member 122 can be moved synchronously by operating the switch member 121 so that the first end surface 1222 or the second end surface 1223 can abut against the elastic lock catch 13, so that the elastic lock catch 13 can be in the unlock position or the lock position. The moving member 122 is unlocked or locked with the elastic lock 13 in a simple manner, which is conducive to convenient manufacturing.

For example, when the switch 121 drives the second end face 1223 to move toward the elastic lock 13, the first end face 1222 is gradually far away from the elastic lock 13, and when the second end face 1223 abuts against the elastic lock 13, the elastic lock 13 may be disengaged from the inner cavity 111 under the abutting action of the second end face 1223 to be in the unlocking position. When the switch 121 drives the first end surface 1222 to move toward the elastic lock catch 13, the second end surface 1223 gradually moves away from the elastic lock catch 13, and when the first end surface 1222 abuts against the elastic lock catch 13, the elastic lock catch 13 can extend into the cavity 111 to be in the locking position under the abutting action of the first end surface 1222.

In this manner, the spring catch 13 is selectively in either the unlocked or locked position by the first and second end surfaces 1222, 1223 to remove or mount the battery to the cavity 111 to meet the removal or installation requirements of the battery.

In some embodiments, the battery compartment 10 may further include a support 14, where the support 14 is mounted on the housing 11, and the support 14 is provided with a guide slot 141, where the guide slot 141 extends along the length direction X of the battery compartment 10, and the moving member 122 is movably located in the guide slot 141, and then the guide slot 141 may provide a certain guiding effect for the moving member 122, so that the moving member 122 may move in a predetermined direction, so as to help avoid the moving member 122 from deviating from the movement direction, thereby helping to ensure the normal operation of the battery compartment 10.

Mover 122 may include a moving surface 1224, where moving surface 1224 extends along a length direction X of battery compartment 10 and is coupled to second end surface 1223, and where moving surface 1224 abuts bracket 14. As such, extending the moving surface 1224 along the length direction X of the battery compartment 10 helps to increase the contact area of the moving member 122 with the bracket 14, thereby helping to improve the smoothness of the moving member 122 as it moves.

In some embodiments, the switch member 121 is at least partially located outside the guide slot 141, so that the user can conveniently operate the switch member 121 by operating the switch member 121 outside the guide slot 141 to place the elastic latch 13 in the unlocked position or the locked position.

In some embodiments, the stand 14 may include a pressing member 142 and a stand body 143, the stand body 143 being provided with a guide groove 141, the pressing member 142 being connected to the stand body 143 and covering the guide groove 141, such that the pressing member 142 contributes to improving compactness of the structure of the stand 14, and the pressing member 142 also contributes to reducing a risk that the moving member 122 moves in the thickness direction Z of the battery compartment 10 to be separated from the guide groove 141.

The pressing member 142 may be provided with a limiting port 1421, and the limiting port 1421 extends along the length direction X of the battery compartment 10 and communicates with the guide groove 141. In this way, the limiting opening 1421 extends along the length direction X of the battery compartment 10, so that the limiting opening 1421 has a certain travel range, and then the limiting opening 1421 can limit the movement of the switching element 121 in the length direction X of the battery compartment 10, so that the switching element 121 can drive the moving element 122 to move in a certain range, thereby helping to reduce the risk that the moving element 122 moves along the length direction X of the battery compartment 10 and is separated from the guide groove 141, and helping to ensure the normal operation of the moving element 122 and the elastic lock catch 13.

In some embodiments, the switch 121 is at least partially located outside the limiting port 1421. Thus, the user can operate the switch 121 of the limiting opening 1421 to make the elastic lock catch 13 be in the unlocking position or the locking position.

In some embodiments, the compressing member 142 may include a compressing body 1422 and a first limiting body 1423, where the compressing body 1422 is provided with a limiting opening 1421, the first limiting body 1423 extends along the direction of the guiding slot 141 along the thickness direction Z, and the first limiting body 1423 is located in the moving path of the moving member 122.

In this way, the first limiting body 1423 can limit the movement of the moving member 122, so as to help ensure that the moving member 122 moves within a certain range, and then the first limiting body 1423 and the limiting opening 1421 can limit the movement of the moving member 122 together, so that the risk that the moving member 122 is loosened in the guide slot 141 can be reduced better.

The number of the first limiting bodies 1423 may be two, and the two first limiting bodies 1423 may be respectively located at two sides of the moving path of the moving member 122, so that the two first limiting bodies 1423 may limit the movement of the moving member 122 from two sides of the moving path of the moving member 122, which is helpful to better reduce the risk that the moving member 122 is released from the guide groove 141 along the length direction X of the battery compartment 10.

In some embodiments, the bracket body 143 may include a second stopper 1431, the second stopper 1431 extending in the direction of the thickness direction Z-direction guide groove 141, the second stopper 1431 being located in the moving path of the moving member 122.

In this way, the second limiting body 1431 can limit the movement of the moving member 122, so as to help ensure that the moving member 122 moves within a certain range, and the second limiting body 1431 and the limiting opening 1421 can limit the movement of the moving member 122 together, so as to help reduce the risk that the moving member 122 is released from the guide groove 141 along the length direction X of the battery compartment 10.

In some embodiments, the bracket main body 143 may be provided with a limiting hole 1432, and the second limiting body 1431 is located in the limiting hole 1432 and abuts against the elastic lock 13, and the elastic lock 13 passes through the limiting hole 1432 and abuts against the abutment inclined surface 1221.

In this way, the second limiting body 1431 can limit the movement of the elastic lock 13 along the length direction X of the battery compartment 10 while limiting the movement of the moving member 122, so as to help reduce the risk of the elastic lock 13 loosening from the bracket main body 143, and also help to improve the compactness of the structure of the bracket main body 143.

In some embodiments, the battery compartment 10 may include multiple sets of switch assemblies 12 and elastic latches 13, where the multiple sets of switch assemblies 12 and elastic latches 13 may be located on two sides of the inner cavity 111, respectively, so that the multiple sets of switch assemblies 12 and elastic latches 13 help to improve the effect of supporting the battery installed in the inner cavity 111, and help to improve the stability of the battery installed in the inner cavity 111.

Illustratively, the battery compartment 10 may include two, three, four, five, six or other sets of switch assemblies 12 and resilient latches 13, which may be specifically configured according to the actual situation.

Referring to fig. 6, 7 and 8, in some embodiments, the switch assembly 12 may include a switch member 121 and a moving member 122 connected to each other, the moving member 122 includes a first moving body 1225, a connecting rod 1226 and a second moving body 1227 distributed along a length direction X of the battery compartment 10, the first moving body 1225 and the second moving body 1227 are respectively connected to two ends of the connecting rod 1226, the elastic latch 13 may include a first elastic latch body 131 and a second elastic latch body 132, the first elastic latch body 131 and the first moving body 1225 are distributed along a thickness direction Z, the second elastic latch body 132 and the second moving body 1227 are distributed along a thickness direction Z, the switch member 121 is connected to the first moving body 1225 and adapted to drive the first moving body 1225 to move along the length direction X, and the first moving body 1225 is adapted to drive the connecting rod 1226 and the second moving body 1227 to move synchronously so that the first elastic latch body 131 and the second elastic latch body 132 are in an unlocked position or a locked position.

In this way, the first moving body 1225 may drive the connecting rod 1226 and the second moving body 1227 to move synchronously, so that the first elastic locking body 131 and the second elastic locking body 132 may be synchronously located at the unlocking position or the locking position, when the user needs to disassemble the battery, the first elastic locking body 131 and the second elastic locking body 132 may be synchronously located at the unlocking position by operating the switch element 121, when the user needs to install the battery, the first elastic locking body 131 and the second elastic locking body 132 may be synchronously located at the locking position by operating the switch element 121, thereby facilitating the operation of the user on the operation steps of the first elastic locking body 131 and the second elastic locking body 132.

In some embodiments, the first moving body 1225, the link 1226, and the second moving body 1227 are integrally formed. In this way, the structure of the moving member 122 is facilitated to be simplified, the number of parts of the moving member 122 is facilitated to be reduced, and the mounting step of the moving member 122 is facilitated to be simplified, thereby facilitating the improvement of the production efficiency of the moving member 122.

Referring to fig. 9 and 10 together, in some embodiments, the elastic latch 13 includes a lock housing 133, a telescopic body 134, a first reset member 136 and a second reset member 137, where the lock housing 133 includes an inner bottom wall 1331 and an inner side wall 1332 connected to each other, the latch 135 is at least partially located in the lock housing 133 and is movable along a width direction Y of the battery compartment 10, the movement of the switch assembly 12 relative to the housing 11 is adapted to drive the telescopic body 134 to movably penetrate the latch 135 along a thickness direction Z, and the movement of the telescopic body 134 along the thickness direction Z toward the inner bottom wall 1331 is adapted to drive the latch 135 to move along the width direction Y toward the inner side wall 1332, so that the latch 135 exits the inner cavity 11 through the notch 113.

In some embodiments, the second restoring member 137 is connected to the telescopic body 134 and the inner bottom wall 1331, and the second restoring member 137 is adapted to drive the telescopic body 134 to move in the thickness direction Z away from the inner bottom wall 1331, so that the latch 135 enters the inner cavity 11 through the notch 113. The first reset element 136 is connected to the latch 135 and the inner sidewall 1332, and the first reset element 136 is adapted to drive the latch 135 to move in a direction away from the inner sidewall 1332, so that the latch 135 enters the inner cavity 11 through the notch 113.

When the moving member 122 moves along the length direction X of the battery compartment 10 in a direction away from the elastic lock 13, the second reset member 137 can reset the telescopic body 134, so that the telescopic body 134 is separated from the lock tongue 135, and the first reset member 136 can reset the lock tongue 135, so that the lock tongue 135 enters the inner cavity 11 through the notch 113. In this way, after the switch 121 drives the moving member 122 to reset, the first reset member 136 and the second reset member 137 can automatically reset the telescopic body 134 and the locking tongue 135, so as to fasten the battery in the inner cavity 111, which is helpful for reducing the risk of shaking or loosening the battery in the inner cavity 111.

Referring to fig. 11, the embodiment of the present utility model further provides a self-mobile device 1000, where the self-mobile device 1000 includes a mobile body 200 and the battery compartment 10 provided in any of the above embodiments.

The battery compartment 10 may be mounted to the mobile body 200 together with the battery, or the battery may be detached from the battery compartment 10 and mounted to the mobile body 200, so that the battery may supply power to the mobile body 200, thereby helping to ensure normal operation of the mobile body 200.

In this manner, when the mobile body 200 is exhausted, the mobile body 200 can continue to complete the work by replacing the battery on the mobile body 200.

In addition, the battery is detachably mounted in the inner cavity 111, so that batteries of different types can be mounted in the inner cavity 111 for charging, thereby being beneficial to improving the fit between the battery and the mobile body 200, and enabling the battery to be matched with the mobile body 200 for use.

In some embodiments, the self-moving device 1000 may include a control assembly and a driving assembly, for example, the self-moving device 1000 may include a frame, a structure such as a driving wheel or a driving track may be mounted on the frame, the control assembly may include a circuit board or the like, and the control assembly may control the driving assembly to move, so as to implement the movement of the self-moving device 1000 on a horizontal plane.

In summary, in the battery compartment 10, the outdoor power supply 100 and the self-mobile device 1000 according to the embodiments of the present utility model, the housing 11 of the battery compartment 10 defines an inner cavity 111 and a battery taking and placing port 112 that is communicated with the inner cavity 111, so as to be suitable for a battery to enter or exit the inner cavity 111 through the battery taking and placing port 112. The switch assembly 12 and the elastic lock catch 13 of the battery compartment 10 are both installed on the housing 11, the housing 11 is provided with a notch 113 communicated with the inner cavity 111, the elastic lock catch 13 is provided with a lock tongue 135, and the lock tongue 135 is movably arranged on the housing 11 so as to enter or exit the inner cavity 11 through the notch 113. The elastic lock catch 13 has an unlocking position and a locking position, and the movement of the switch assembly 12 relative to the shell 11 is suitable for driving the elastic lock catch 13 to be selectively positioned at the unlocking position or the locking position, when the elastic lock catch 13 is positioned at the locking position, the lock tongue 135 is at least partially positioned in the inner cavity 111 so as to limit the movement of the battery from the inner cavity 111 to the battery taking-and-placing port 112; when the elastic lock catch 13 is in the unlocking position, the lock tongue 135 is positioned outside the inner cavity 111, so that the movement restriction of the lock tongue 135 on the battery is released. In this manner, the switch assembly 12 may be operated such that the resilient catch 13 may be selectively in either the unlocked or locked position such that the battery may be removed or installed in the cavity 111. When the resilient catch 13 is in the locked position, the locking tongue 135 helps to increase the stability of the battery mounted in the cavity 111 and helps to reduce the risk of the battery rocking within the cavity 111. In addition, the switch assembly 12 drives the elastic lock catch 13 to be selectively located at the unlocking position or the locking position in a simple manner, and convenience is brought to the operation of a user.

In the present utility model, the terms "mounted," "connected," and the like should be construed broadly unless otherwise specifically indicated or defined. For example, the connection can be fixed connection, detachable connection, integral connection or transmission connection; may be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for understanding as a specific or particular structure. The description of the term "some embodiments" means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in the embodiment or example of the utility model. In the present utility model, the schematic representations of the above terms are not necessarily for the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples of the present utility model and features of various embodiments or examples may be combined and combined by those skilled in the art without contradiction.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting thereof; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model, and they should be included in the protection scope of the present utility model.

Claims (13)

1. A battery compartment, comprising:

The shell is provided with an inner cavity and a battery taking and placing opening communicated with the inner cavity, so that a battery can enter or exit the inner cavity through the battery taking and placing opening, and the shell is provided with a notch communicated with the inner cavity;

The switch assembly and the elastic lock catch are both arranged on the shell, the elastic lock catch is provided with a lock tongue, the lock tongue is movably arranged on the shell so as to enter or exit the inner cavity through the notch, and the elastic lock catch is provided with an unlocking position and a locking position;

The switch assembly moves relative to the shell and is suitable for driving the elastic lock catch to be selectively positioned at the unlocking position or the locking position; when the elastic lock catch is in the locking position, the lock tongue is at least partially positioned in the inner cavity so as to limit the battery to move from the inner cavity to the battery taking and placing opening; when the elastic lock catch is positioned at the unlocking position, the lock tongue is positioned outside the inner cavity so as to release the movement restriction of the lock tongue on the battery.

2. The battery compartment of claim 1, wherein the switch assembly comprises a switch member and a moving member connected, the moving member comprising an abutment inclined surface, the abutment inclined surface having a first end surface and a second end surface, the spacing between the first end surface and the switch member in the thickness direction of the battery compartment being smaller than the spacing between the second end surface and the switch member in the thickness direction, the switch member being adapted to move the second end surface toward the elastic latch to bring the elastic latch into the unlocked position; the switch piece is suitable for driving the first end face to move towards the elastic lock catch so that the elastic lock catch is in the locking position.

3. The battery compartment of claim 2, wherein the battery compartment comprises a bracket mounted to the housing, the bracket having a guide slot extending along a length of the battery compartment, the moving member movably positioned in the guide slot, the moving member comprising a moving surface extending along the length and coupled to the second end surface, the moving surface abutting the bracket.

4. A battery compartment according to claim 3, wherein the switch element is located at least partially outside the guide slot.

5. A battery compartment according to claim 3, wherein the bracket comprises a pressing member and a bracket body, the bracket body is provided with the guide groove, the pressing member is connected to the bracket body and covers the guide groove, the pressing member is provided with a limit opening, the limit opening extends along the length direction and is communicated with the guide groove, and the switch member is at least partially positioned outside the limit opening.

6. The battery compartment of claim 5, wherein the pressing member includes a pressing body and a first stopper body connected to each other, the pressing body being provided with the stopper opening, the first stopper body extending in the thickness direction toward the guide groove, the first stopper body being located in a movement path of the moving member.

7. The battery compartment of claim 5, wherein the bracket body includes a second stopper extending in the thickness direction toward the guide groove, the second stopper being located in a movement path of the moving member.

8. The battery compartment of claim 7, wherein the bracket body is provided with a limiting hole, the second limiting body is positioned in the limiting hole and abuts against the elastic lock catch, and the elastic lock catch penetrates through the limiting hole and abuts against the abutting inclined plane.

9. The battery compartment of claim 1, wherein the switch assembly comprises a switch member and a moving member connected to each other, the moving member comprises a first moving body, a connecting rod and a second moving body which are distributed along a length direction of the battery compartment, the first moving body and the second moving body are respectively connected to two ends of the connecting rod, the elastic lock catch comprises a first elastic lock catch body and a second elastic lock catch body, the first elastic lock catch body and the first moving body are distributed along the thickness direction, the second elastic lock catch body and the second moving body are distributed along the thickness direction, the switch member is connected to the first moving body and is suitable for driving the first moving body to move along the length direction, and the movement of the first moving body along the length direction is suitable for driving the connecting rod and the second moving body to synchronously move so that the first elastic lock catch body and the second elastic lock catch body are synchronously located at the unlocking position or the locking position.

10. The battery compartment of claim 9 wherein the first mobile body, the link and the second mobile body are integrally formed.

11. The battery compartment of claim 1, wherein the elastic latch comprises a housing, a telescoping body, a first reset member and a second reset member, the housing comprising an inner bottom wall and an inner side wall connected, the latch being at least partially located within the housing and being movable in a width direction of the battery compartment, movement of the switch assembly relative to the housing being adapted to cause the telescoping body to movably pass through the latch in the thickness direction, movement of the telescoping body in the thickness direction to the inner bottom wall being adapted to cause the latch to move in the width direction to the inner side wall to cause the latch to exit the interior cavity through the notch; the second reset piece is connected with the telescopic body and the inner bottom wall, and is suitable for driving the telescopic body to move in the direction away from the inner bottom wall along the thickness direction so that the lock tongue enters the inner cavity through the notch; the first reset piece is connected to the lock tongue and the inner side wall, and the first reset piece is suitable for driving the lock tongue to move in the direction deviating from the inner side wall, so that the lock tongue enters the inner cavity through the notch.

12. An outdoor power source, comprising:

the body is provided with an interface for supplying power to external equipment; and

The battery compartment of any one of claims 1 to 11, disposed inside the body.

13. A self-moving device, comprising:

A moving body; and

The battery compartment of any one of claims 1 to 11.