CN217824384U - Mouse charging device - Google Patents

Abstract

A mouse charging device comprises a charging base and a control assembly, wherein the control assembly is arranged in the charging base, and a first interface for signal connection with the control assembly is arranged on the charging base; the charging base is provided with a bearing part, a base body part and a supporting part; the bearing part is provided with a charging joint which is distributed by protruding from the bearing surface of the bearing part, and the charging joint is in signal connection with the control assembly; the seat body part and the bearing part are arranged at intervals along the first direction; the supporting part is arranged between the bearing part and the seat body part so as to form a clearance space between the bearing part and the seat body part. By means of the matching of the charging connector and the charging interface of the mouse, the mouse can be conveniently and quickly and stably placed on the charging device, and an electric connection relation is established between the charging connector and the charging interface; the charging device can be connected with the power supply by means of the matching of the first interface and the charging wire harness, so that the mouse can be charged; due to the existence of the clearance space, the charging device can be conveniently controlled, and the whole charging device has stronger appearance aesthetic feeling.

Description

Mouse charging device

Technical Field

The utility model relates to an electronic product technology field, concretely relates to mouse charging device.

Background

It is known that a wireless mouse is gradually favored by users because of its advantages such as greater portability and flexibility in use, and the ability to dispense with the restriction of cables. A battery is usually configured in the wireless mouse to provide power supply for normal use of the mouse; when charging is needed, the mouse is usually connected to a power supply through a charging cable, or a mouse battery is directly replaced. Therefore, the complexity of mouse charging operation is increased, and the use cost of the mouse is easily increased.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the main technical problem who solves provides a mouse charging device, can make mouse charging operation more convenient and fast.

An embodiment provides a mouse charging device, which comprises a charging base and a control assembly, wherein the control assembly is arranged in the charging base, the charging base is provided with at least one functional interface for signal connection with the control assembly, the at least one functional interface comprises a first interface, and the first interface is used for detachably connecting a charging harness; the charging base has:

the bearing part is provided with a bearing surface, and the bearing part is provided with charging connectors which are distributed by protruding out of the bearing surface; the charging connector is in signal connection with the control assembly and is used for butting a mouse placed on the bearing surface;

the seat body part is arranged at intervals with the bearing part along a first direction, and is provided with a contact surface which is used for abutting against a bearing object; and

the supporting part is arranged between the bearing part and the seat body part so as to form a clearance space between the bearing part and the seat body part.

In one embodiment, the contact surface is a planar structure, the bearing surface is a beveled structure, and the included angle between the contact surface and the bearing surface is 30-60 degrees.

In one embodiment, the bearing part and the seat body part are respectively provided with a first end and a second end which are opposite along a second direction, the supporting part is arranged between the first end of the bearing part and the first end of the seat body part, and the supporting part is obliquely extended from the direction of the first end of the seat body part to the direction of the second end of the seat body part; the first direction intersects with a second direction.

In one embodiment, the functional interface is embedded in at least one of the first end surface of the bearing portion, the first end surface of the seat portion, and the side surface of the support portion facing away from the clearance space along the second direction.

In one embodiment, the charging connector is one of a spring probe, a USB male connector, and a DC connector.

In one embodiment, the bearing surface is provided with a contact area and an avoidance area, the charging connector protrudes out of the contact area, and the avoidance area is a groove structure recessed in the bearing surface.

In one embodiment, the number of the functional interfaces is set to be multiple, and the plurality of functional interfaces further include at least one second interface, and the second interface is used for detachably connecting a functional accessory.

In one embodiment, the plurality of functional interfaces further includes at least one third interface, and the third interface is used for detachably connecting a device to be charged.

In one embodiment, the functional interface is at least one of a standard USB socket, a USB Type-C socket, a DC socket.

In one embodiment, the side wall of the seat body part positioned in the clearance space is provided with a light-transmitting area, and the control assembly comprises a light-emitting piece; the light emitting piece corresponds to the light transmitting area and is used for providing backlight illumination for the light transmitting area.

The mouse charging device according to the embodiment comprises a charging base and a control assembly, wherein the control assembly is arranged in the charging base, and a first interface for signal connection with the control assembly is arranged on the charging base; the charging base is provided with a bearing part, a base body part and a supporting part; the bearing part is provided with a charging joint which is distributed by protruding from the bearing surface of the bearing part, and the charging joint is in signal connection with the control assembly; the seat body part and the bearing part are arranged at intervals along the first direction; the supporting part is arranged between the bearing part and the seat body part so as to form a clearance space between the bearing part and the seat body part. By means of the matching of the charging connector and the charging interface of the mouse, the mouse can be conveniently and quickly and stably placed on the charging device, and an electric connection relation is established between the charging connector and the charging interface; the charging device can be connected with the power supply by means of the matching of the first interface and the charging wire harness, so that the mouse can be charged; due to the existence of the clearance space, the charging device can be conveniently controlled (such as switch control, position shift and the like), and the whole charging device has stronger appearance aesthetic feeling; meanwhile, the charging device can also play a role of a support, and the mouse can be charged and placed at any time.

Drawings

Fig. 1 is a schematic perspective view (a) of a wireless mouse charging device according to an embodiment.

Fig. 2 is a schematic perspective view (ii) of a wireless mouse charging device according to an embodiment.

Fig. 3 is a schematic plan projection view of a wireless mouse charging device according to an embodiment.

Fig. 4 is an exploded view of a wireless mouse charging device according to an embodiment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" as used herein includes both direct and indirect connections (couplings), unless otherwise specified.

The terms "first direction" and "second direction" as used herein are two mutually perpendicular or intersecting directions defined based on the overall structure of the mouse charging device; when the mouse charging device is in a normal application state, the "first direction" may refer to an up-down direction, and suitably, the "second direction" may refer to a front-back direction.

Referring to fig. 1 to 4, an embodiment provides a mouse charging device, which may be used to charge a wireless mouse with a built-in battery; it should be noted that, as known to those skilled in the art, in the existing wireless mouse with a built-in battery, a charging interface connected to the battery is usually disposed on a housing (e.g., a bottom surface) of the mouse, and the mouse can be connected to a power supply via the charging interface, so as to charge the mouse.

The mouse charging device comprises a charging base and a control assembly; the charging base is provided with a bearing part 10, a base body part 20 and a supporting part 30; the control module 40 may refer to the prior art, for example, be constructed by combining a PCB, a charging management circuit integrated on the PCB, and appropriate electronic components; the following mainly describes the charging base and the related structure.

Referring to fig. 1 to 3, the carrying portion 10 is mainly used for carrying a mouse, so as to place the mouse on the charging base; for the convenience of distinguishing and describing, a side (e.g., a top side) of the carrying part 10 facing the mouse is defined as a carrying surface a; the bearing part 10 is provided with a charging connector 50 which protrudes out of the bearing surface A and is distributed, the charging connector 50 is in signal connection with the control component 40, and the charging connector is mainly used for being inserted into a charging interface of a mouse when the mouse is placed on the bearing part 10, so that an electric connection relation is established between the charging device and the mouse. The charging connector 50 can be of a Type suitable for the mouse charging interface, such as a spring probe, a DC connector, a USB male connector (e.g., micro-USB male connector, USB Type-C male connector, lightning male connector, etc.).

Referring to fig. 1 to 3, the seat portion 20 is mainly used for abutting against a supporting object (e.g. a desktop) so as to place the charging device on the supporting object as a whole or together with a mouse; the seat body part 20 is distributed below the bearing part 10 along the up-down direction and is arranged at intervals with the bearing part 10; for the sake of convenience of distinction and description, a surface of the seat portion 20 for abutting against the load (specifically, a bottom surface) is defined as a contact surface B.

In specific implementation, to ensure the stability of the mouse or the charging device, please refer to fig. 4, an anti-slip gasket 60 may be disposed on the carrying surface a of the carrying portion 10 and/or the contact surface B of the seat portion 20, so as to increase the friction between the charging device and the carrying object or between the charging device and the mouse by means of the anti-slip gasket 60.

Referring to fig. 1 to 3, the supporting portion 30 is disposed between the carrying portion 10 and the seat portion 20, and is used for stably supporting and fixing the carrying portion 10 in the space above the seat portion 20, and on the other hand, a predetermined distance is kept between the carrying portion 10 and the seat portion 20, so as to form a clearance space C therebetween; by configuring the clearance space C in the structural system of the charging device, the material consumption of the charging base can be reduced, and the material cost of the charging device is reduced; meanwhile, the empty space C can be used for accommodating scattered objects or expanding functions, for example, product identifiers are arranged in the empty space C, and a user can control function keys of the charging device; in addition, the outer contour structure of the charging device is more novel, and the appearance aesthetic feeling of the charging device is enhanced.

In specific implementation, the bearing part 10, the seat body part 20 and the supporting part 30 can be relatively independent structural members, and are combined and built to form a structural profile of the charging base or the charging device; the three parts may also be at least partially integrated, that is, corresponding functional parts are defined as the carrying part 10, the seat body part 20 and the supporting part 30 respectively, corresponding to different functions based on the related structural parts of the charging base. In addition, the control assembly 40 can be disposed in at least one of the three inner spaces according to actual requirements.

Referring to fig. 2 and 4, a functional interface 70 is embedded on the charging base, and the functional interface 70 is in signal connection with the control component 40 and mainly used as a port for connecting the charging device with other functional devices; the number of the functional interfaces 70 may be set to one, or may be set to multiple (for example, two, three, or other larger numbers), and the main points are that: at least one of the functional interfaces 70 is detachably connected with the charging cable harness in a matching manner, and for convenience of distinguishing and describing, the functional interface 70 with the function is defined as a first interface 71; the charging device can be connected to a power source by means of the first interface 71 cooperating with the charging harness to charge a mouse placed on the charging device.

In specific implementation, the first interface 71 may adopt a standard USB socket (for example, a female socket of USB3.0 standard or USB2.0 standard), a DC interface, a USB Type-C socket, etc., according to actual needs.

Based on this, when the charging device is used specifically, the mouse can be conveniently and quickly and stably placed on the charging device by means of the matching of the charging connector 50 and the charging interface of the mouse, and an electrical connection relation is established between the charging connector and the charging interface; then, the charging device is connected with a power supply by means of the matching of the first interface 71 and the charging harness, so that the mouse can be charged; due to the existence of the clearance space C, the charging device can be conveniently controlled (such as switch control, position shift and the like), and the whole charging device has stronger appearance aesthetic feeling; meanwhile, the charging device can also play a role of a bracket, so that the mouse can be charged and placed at any time.

In one embodiment, referring to fig. 1 to 3, the contact surface B adopts a planar structure, so that the entire charging device can be stably placed on the carrier; the bearing surface A adopts an inclined surface structure, and the included angle beta between the bearing surface A and the contact surface B can be set to be 30-60 degrees (such as 30 degrees, 45 degrees and the like) according to needs, so that the mouse can be placed on the charging device (particularly the bearing part 10) at an inclination angle which accords with ergonomics, and the mouse can be conveniently and quickly taken and placed without raising hands intentionally; meanwhile, the bearing surface A adopting the inclined surface structure can also give consideration to the integral appearance aesthetic feeling of the charging device and the placing stability of the mouse.

In other embodiments, the bearing surface a may also be a plane structure parallel to the contact surface B, and the mouse may be stably placed on the charging device.

In one embodiment, referring to fig. 1 to 3, the supporting portion 30 is disposed between the end portions of the supporting portion 10 and the seat body portion 20 to increase the volume of the clearance space C to the maximum extent, so as to create conditions for fully utilizing the clearance space C. Specifically, for the sake of convenience of distinction and description, both ends of the carrier part 10 and the seat part 20 in the front-rear direction are defined as a second end and a first end, respectively, and the support part 30 is located between the first end (i.e., the rear end) of the carrier part 10 and the first end (i.e., the rear end) of the seat part 20; moreover, the supporting portion 30 is obliquely extended from the rear end direction of the seat body portion 30 toward the front end direction of the seat body portion 30, so that the overall contour projection shape of the charging seat or the charging device approximately presents a trapezoidal form with an inclined top surface and a flat bottom surface; therefore, the gravity center of the whole charging device can be effectively reduced, the stability of the structure of the charging device is enhanced, and the stable support of the mouse is realized.

In specific implementation, the bottom surface of the carrying part 10 (i.e. the surface opposite to the carrying surface a in the vertical direction) and the top surface of the seat part 20 (i.e. the surface opposite to the contact surface B in the vertical direction) may be both set to be inclined surface structures, so that the outline projection shape of the clearance space C approximately presents a flared shape with an open front end, so as to further realize the adjustment of the gravity center position of the whole charging device.

In an embodiment, referring to fig. 2 and fig. 4, the number of the functional interfaces 70 is multiple, and the multiple functional interfaces 70 are disposed on the rear end surface of the carrying portion 10 and the rear end surface of the seat body portion 20; by selecting the installation position of the functional interface 70, on one hand, when the functional interface 70 is connected with other objects such as a charging harness, the placement of the mouse and the aesthetic feeling of the charging device can be prevented from being affected, and on the other hand, the installation position of the control assembly 40 in the charging base can also be considered (for example, the PCB and the related devices thereof can be installed in the carrying portion 10 or the seat portion 20), so that the structure of the internal components of the charging base is more compact. Of course, the functional interface 70 may be disposed at other positions as needed, for example, on the side of the support portion 30 facing away from the clearance space C in the second direction.

In an embodiment, referring to fig. 1 and fig. 2, a groove structure is further disposed on the bearing surface a of the bearing portion 10, for convenience of distinguishing and describing, a region position of the groove structure on the bearing surface a is defined as an avoidance region A1, and other regions of the bearing surface a except the avoidance region A1 are defined as contact regions A2; the charging connector 50 protrudes from the contact area A2. By means of the avoiding area A1, the mouse can be stably placed on the bearing part 10, meanwhile, the contact area between the mouse and the bearing part 10 is reduced to the maximum extent, and the mouse can fully dissipate heat in the charging process.

In one embodiment, referring to fig. 2 and 4, the plurality of functional interfaces 70 further includes a second interface 72 capable of detachably connecting a functional accessory and a third interface 73 capable of detachably connecting other devices to be charged; it is understood that the functional accessory may be an accessory such as a wireless receiver used in cooperation with a wireless mouse, and the device to be charged may be an electronic product other than a mouse placed on the carrying portion 10, such as an electronic product such as a mouse and a mobile phone. In specific implementation, the number of the second interface 72 and the third interface 73 can be configured as required, and the two can adopt a standard USB socket, a DC interface, a USB Type-C socket, and the like.

For example, the second interface 72 may employ a standard USB receptacle for plugging in a wireless receiver; at this time, the charging device can be connected to the host computer through the first interface 71; therefore, the wireless receiver originally plugged in the computer host is transferred to the charging device, so that the distance between the wireless mouse and the wireless receiver can be shortened when the wireless mouse is used, and favorable conditions are created for stable transmission of wireless signals.

For example, the third interface 73 may adopt a USB Type-C socket or a DC socket, and by configuring the functions of the control component 40, a device such as a mobile phone may be connected to the charging device by using a charging harness, so that the charging device has a transfer function, and can simultaneously charge various types of electronic products such as a mouse and a mobile phone.

Of course, in some embodiments, the second interface 72 may be omitted, and the charging device may be configured with a 2.4G module, a bluetooth module, etc. in the control component 40, so as to have a wireless signal transmission function.

In one embodiment, referring to fig. 1 and 3, a light-transmitting area D is disposed on a sidewall of the seat body 30 (i.e., a top surface of the seat body 30) located in the clearance space C, and the light-transmitting area D may be made of a transparent or translucent material; meanwhile, the control component 40 includes a light emitting member (such as an LED lamp bead, etc.), which is disposed in the seat portion 30 and corresponds to the light transmitting area D; so that the light-transmitting region D can be provided with backlight illumination by the light-emitting piece, and the charging device can generate abundant illumination colors; in specific implementation, a product identifier (e.g., a trademark) may be disposed in the light-transmitting region D. Of course, the light-transmitting region D can be disposed at other positions, such as the seat portion 20 or the contour edge of the charging device as a whole.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (10)

1. A mouse charging device is characterized by comprising a charging base and a control assembly, wherein the control assembly is arranged in the charging base, the charging base is provided with at least one functional interface for signal connection with the control assembly, the at least one functional interface comprises a first interface, and the first interface is used for being detachably connected with a charging harness; the charging base has:

the bearing part is provided with a bearing surface, and the bearing part is provided with charging connectors which are distributed in a protruding mode on the bearing surface; the charging connector is in signal connection with the control assembly and is used for butting a mouse placed on the bearing surface;

the seat body part is arranged at intervals with the bearing part along a first direction, and is provided with a contact surface which is used for abutting against a bearing object; and

the supporting part is arranged between the bearing part and the seat body part so as to form a clearance space between the bearing part and the seat body part.

2. The mouse charging device of claim 1 wherein said contact surface is a planar structure, said bearing surface is a beveled structure, and said contact surface and bearing surface form an angle of 30 ° to 60 °.

3. The mouse charging device according to claim 1, wherein the carrying portion and the seat portion each have a first end and a second end opposite to each other in the second direction, the supporting portion is disposed between the first end of the carrying portion and the first end of the seat portion, and the supporting portion extends obliquely from the first end of the seat portion toward the second end of the seat portion; the first direction intersects with a second direction.

4. The mouse charging device according to claim 3, wherein the functional interface is embedded in at least one of the first end surface of the carrying portion, the first end surface of the seat portion, and a side surface of the support portion facing away from the clearance space along the second direction.

5. The mouse charging device of claim 1, wherein the charging connector is one of a spring probe, a USB male connector, and a DC connector.

6. The mouse charging device of claim 1, wherein the carrying surface has a contact area and an avoidance area, the charging connector protrudes from the contact area, and the avoidance area is a groove structure recessed in the carrying surface.

7. The mouse charging device of claim 1, wherein the number of the functional interfaces is set to be a plurality, and the plurality of functional interfaces further comprises at least one second interface, and the second interface is used for detachably connecting a functional accessory.

8. The mouse charging apparatus of claim 6, wherein the plurality of functional interfaces further comprises at least one third interface, and the third interface is used for detachably connecting to-be-charged devices.

9. The mouse charging apparatus of claim 7, wherein the functional interface is at least one of a standard USB socket, a USB Type-C socket, a DC socket.

10. The mouse charging device according to claim 1, wherein a light-transmitting area is provided on a side wall of the housing portion located in the clearance space, and the control assembly includes a light-emitting member; the light emitting piece corresponds to the light transmitting area and is used for providing backlight illumination for the light transmitting area.

Images