CN220491429U - Buckle positioning type self-generating wireless remote controller - Google Patents

Abstract

The application provides a buckle location formula is from wireless remote controller, include the remote controller drain pan, locate circuit board in the remote controller drain pan and with the self-generating module of circuit board electricity connection, self-generating module includes main body frame, it has a plurality of buckle portions to distribute on the periphery lateral wall of main body frame, the remote controller drain pan epirelief be equipped with be used for with a plurality of buckle protruding locating racks of a plurality of buckle portion one-to-one joint. In this application, set up the protruding locating rack of buckle and from the protruding locating rack of buckle on the remote controller drain pan cooperation joint of the buckle portion on the power generation module, production personnel only need to directly block into the protruding locating rack of buckle with the power generation module on during the assembly can, need not to carry out fixed mounting to power generation module with fastener such as screw in addition, but reduce cost to the assembly efficiency when effectively improving production.

Description

Buckle positioning type self-generating wireless remote controller

[ field of technology ]

The application relates to the technical field of wireless remote controllers, in particular to a buckle positioning type self-generating wireless remote controller.

[ background Art ]

In daily life, various electric appliances such as an electric lamp or a doorbell are basically controlled by adopting a remote controller. The conventional general remote controller needs battery power supply to be used normally. If the battery is placed in the remote controller for a long time and the using times are less, the electric quantity of the battery is gradually consumed, so that energy waste is caused, and the energy conservation and the environmental protection are not facilitated; moreover, the frequent use of batteries can have a great impact on the environment, and the batteries can also cause serious environmental pollution if liquid leakage occurs.

Aiming at the problems, a self-generating wireless remote controller is developed on the market at present, and the self-generating wireless remote controller is different from the traditional remote controller, does not need to use a battery or connect a power line, and can convert generated mechanical energy into electric energy through a self-generating module only by slightly pressing a key of a switch with a finger, thereby controlling various electric appliances such as an electric lamp or a doorbell. The core component of the self-generating wireless remote controller is an internal self-generating module, and the self-generating module generally comprises main components such as a coil, a coil core, a magnet component and the like. In the existing self-generating wireless remote controller, the self-generating module is usually fixed on the remote controller shell through a screw structure, so that the mounting of the self-generating module is realized by using fasteners such as screws, the cost is increased, and the assembly efficiency during production is affected. Therefore, a new positioning structure is needed to be designed to stably install the self-generating module on the self-generating wireless remote controller, and the production cost can be reduced, and the assembly efficiency can be improved.

[ utility model ]

In order to reduce production cost and improve assembly efficiency, the application provides a buckle positioning type self-generating wireless remote controller.

The application is realized by the following technical scheme:

the utility model provides a buckle location formula is from electricity generation wireless remote controller, includes the remote controller drain pan, locates circuit board in the remote controller drain pan and with the circuit board electricity is connected from electricity generation module, from electricity generation module includes main body frame, it has a plurality of buckle portions to distribute on the periphery lateral wall of main body frame, the protruding be equipped with in the remote controller drain pan be used for with a plurality of buckle protruding locating racks of a plurality of buckle portion one-to-one joint.

The buckle positioning type self-generating wireless remote controller is characterized in that the buckle positioning type self-generating wireless remote controller is provided with the buckle interface, the upper end of the buckle positioning rack is provided with the guide inclined plane above the buckle interface, and the buckle part is a clamping convex strip which is arranged on the main body frame and is matched and clamped with the buckle interface.

The buckle positioning type self-generating wireless remote controller comprises the main body frame, wherein the main body frame comprises an upper layer iron frame, a lower layer iron frame and a connecting frame arranged between the upper layer iron frame and the lower layer iron frame, and the buckle part is arranged on the connecting frame.

The buckle positioning type self-generating wireless remote controller comprises a main body frame, wherein the main body frame comprises a connecting frame, a connecting frame and a connecting frame.

The buckle positioning type self-generating wireless remote controller comprises the coil magnetic core assembly arranged in the main body frame, the magnet arranged on the main body frame and corresponding to one end of the coil magnetic core assembly, and the poking piece which extends from the inside of the coil magnetic core assembly to the outside of the other end of the coil magnetic core assembly and is used for driving the coil magnetic core assembly to swing relative to the magnet, wherein the magnet is arranged between the upper layer iron frame and the lower layer iron frame.

The buckle positioning type self-generating wireless remote controller is characterized in that the bottom shell of the remote controller is provided with the key set and the swinging piece, the swinging piece is arranged outside the periphery of the self-generating module in a surrounding mode, the swinging piece is provided with the stirring part used for stirring the stirring piece to drive the coil magnetic core assembly to swing, and the key set is used for pushing the swinging piece to swing so that the stirring part stirs the stirring piece towards one side.

The buckle positioning type self-generating wireless remote controller is characterized in that the bottom shell of the remote controller is provided with the reset torsion spring which enables the swinging piece to drive the toggle piece to swing and reset towards the other side after the push force of the key group to the swinging piece is removed.

The buckle positioning type self-generating wireless remote controller is characterized in that the remote controller bottom shell is provided with the swing support, one end, far away from the remote controller bottom shell, of the swing support is provided with the arc-shaped supporting point part, and the swing piece swings with the arc-shaped supporting point part as a supporting point.

The buckle positioning type self-generating wireless remote controller is characterized in that the circuit board is provided with flexible keys corresponding to the key groups.

The buckle positioning type self-generating wireless remote controller is characterized in that an inner cover arranged on the swinging piece in a covering manner and a waterproof silica gel piece arranged on the inner cover in a covering manner are further arranged between the key set and the swinging piece.

Compared with the prior art, the application has the following advantages:

in this application, set up the protruding locating rack of buckle and from the protruding locating rack of buckle on the remote controller drain pan cooperation joint of the buckle portion on the power generation module, production personnel only need to directly block into the protruding locating rack of buckle with the power generation module on during the assembly can, need not to carry out fixed mounting to power generation module with fastener such as screw in addition, but reduce cost to the assembly efficiency when effectively improving production.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings that are required to be used in the description of the embodiments will be briefly described below.

FIG. 1 is a perspective view of a buckle-positioned self-generating wireless remote control of the present application;

FIG. 2 is an exploded schematic illustration of FIG. 1;

FIG. 3 is an exploded schematic illustration of FIG. 2;

fig. 4 is a schematic structural view of a bottom chassis of the remote controller;

FIG. 5 is an enlarged schematic view of portion A of FIG. 4;

fig. 6 is a schematic structural view of a self-generating module;

FIG. 7 is a cross-sectional view taken along line A-A of FIG. 6;

fig. 8 is a schematic structural view of the connection frame.

[ detailed description ] of the utility model

In order to make the technical problems, technical schemes and beneficial effects solved by the application more clear, the application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

When embodiments of the present application refer to the ordinal terms "first," "second," etc., it is to be understood that only the ordinal terms are used for distinction, unless the ordinal terms are specifically expressed according to the context.

In the description of the present application, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art in a specific context.

Examples: the embodiment discloses a buckle location formula is from wireless remote controller that generates electricity as shown in fig. 1 through 8, including remote controller drain pan 1, locate circuit board 2 in the remote controller drain pan 1 and with the spontaneous electric module 3 that circuit board 2 electricity is connected, spontaneous electric module 3 includes main body frame 31, it has a plurality of buckle portions 4 to distribute on main body frame 31's the periphery lateral wall, the protruding be used for with a plurality of buckle protruding locating rack 5 of a plurality of buckle portions 4 one-to-one joint that is equipped with on the remote controller drain pan 1. In this embodiment, through set up buckle protruding locating rack 5 and the cooperation joint of the buckle portion 4 on the self-generating module 3 on the remote controller drain pan 1, the production personnel only need to directly block into the buckle protruding locating rack 5 with the self-generating module 3 when the assembly on just can realize fixed mounting, need not to carry out fixed mounting to self-generating module 3 with fastener such as screw additionally, but reduce cost to the assembly efficiency when effectively improving production.

Further, the buckle protrusion positioning frame 5 is provided with a buckle interface 51, the upper end of the buckle protrusion positioning frame 5 is provided with a guiding inclined plane 52 located above the buckle interface 51, and the buckle portion 4 is a buckle convex strip 41 disposed on the main body frame 31 and engaged with the buckle interface 51. Through the structure setting of the guide inclined plane 52, the clamping convex strip 41 on the main body frame 31 can be conveniently and easily slid into the clamping interface 51, and the structure is simple and the installation is convenient.

Further, in order to facilitate the installation of the engaging protruding strips 41 on the main body frame 31, the main body frame 31 includes an upper iron frame 311, a lower iron frame 312, and a connection frame 313 provided between the upper iron frame 311 and the lower iron frame 312, and the engaging portions 4 are provided on the connection frame 313.

Further, in order to effectively fix the upper iron frame 311, the lower iron frame 312, and the connection frame 313, the main body frame 31 further includes a penetration strip 314 for penetrating the upper iron frame 311, the lower iron frame 312, and the connection frame 313.

Further, in order to collect mechanical energy conveniently so as to convert the mechanical energy into electrical energy, the self-generating module 3 includes a coil magnetic core assembly 32 disposed in the main body frame 31, a magnet 33 disposed on the main body frame 31 and corresponding to one end of the coil magnetic core assembly 32, and a toggle member 34 extending from inside the coil magnetic core assembly 32 to outside the other end of the coil magnetic core assembly 32 and used for driving the coil magnetic core assembly 32 to swing relative to the magnet 33, where the magnet 33 is disposed between the upper iron frame 311 and the lower iron frame 312. The engaging protruding strips 41 are generally disposed on two side walls of the main frame 31 parallel to the shifting member 34 and on one end far away from the shifting member 34.

Further, in order to facilitate the user to convert mechanical energy into electric energy when pressing the remote controller, the bottom shell 1 of the remote controller is provided with a key set 6 and a swinging member 7, the swinging member 7 is arranged outside the periphery of the self-generating module 3 in a surrounding manner, the swinging member 7 is provided with a stirring part 71 for stirring the stirring member 34 to drive the coil magnetic core assembly 32 to swing, and the key set 6 is used for pushing the swinging member 7 to swing so that the stirring part 71 stirs the stirring member 34 to one side. In this embodiment, there are three keys in the key group 6 so that the remote controller can set multiple functions.

Further, in order to realize that the swinging member 7 can automatically reset after the user removes the external force to the key set 6, the remote controller bottom shell 1 is provided with a reset torsion spring 8 that enables the swinging member 7 to drive the toggle member 34 to swing and reset towards the other side after the key set 6 removes the pushing force to the swinging member 7.

Further, in order to facilitate the swinging of the swinging member 7 on the remote control bottom shell 1, the remote control bottom shell 1 is provided with a swinging support column 11, one end of the swinging support column 11 away from the remote control bottom shell 1 is provided with an arc-shaped supporting point part 12, and the swinging member 7 swings with the arc-shaped supporting point part 12 as a supporting point.

Further, the circuit board 2 is provided with flexible keys 21 corresponding to the key group 6. In this embodiment, the flexible keys 21 correspond to three keys of the key group 6, and three flexible keys 21 are also provided. By providing three flexible keys 21, different functional circuits can be provided correspondingly, so that the remote control has multiple functions.

Further, in order to ensure the dustproof and waterproof functions of the remote controller, an inner cover 9 covering the swinging member 7 and a waterproof silica gel member 10 covering the inner cover 9 are further disposed between the key set 6 and the swinging member 7.

The working principle of the embodiment is as follows:

in this embodiment, through set up buckle protruding locating rack 5 and the cooperation joint of the buckle portion 4 on the self-generating module 3 on the remote controller drain pan 1, the production personnel only need to directly block into the buckle protruding locating rack 5 with the self-generating module 3 when the assembly on just can realize fixed mounting, need not to carry out fixed mounting to self-generating module 3 with fastener such as screw additionally, but reduce cost to the assembly efficiency when effectively improving production.

The above description of various embodiments provided in connection with specific content is not intended to limit the practice of the present application to such descriptions. Any approximation, or substitution of techniques for the methods, structures, etc. of the present application or for the purposes of making a number of technological deductions or substitutions based on the concepts of the present application should be considered as the scope of protection of the present application.

Claims (10)

1. Buckle location formula is from electricity generation wireless remote controller, including remote controller drain pan (1), locate circuit board (2) in remote controller drain pan (1) and with from electricity generation module (3) that circuit board (2) electricity is connected, a serial communication port, from electricity generation module (3) include main body frame (31), it has a plurality of buckle portions (4) to distribute on the periphery lateral wall of main body frame (31), protruding be equipped with in remote controller drain pan (1) be used for with a plurality of buckle protruding locating rack (5) of a plurality of buckle portions (4) one-to-one joint.

2. The buckle positioning type self-generating wireless remote controller according to claim 1, wherein a buckle interface (51) is arranged on the buckle projection positioning frame (5), a guide inclined plane (52) positioned above the buckle interface (51) is arranged at the upper end of the buckle projection positioning frame (5), and the buckle part (4) is a clamping convex strip (41) which is arranged on the main body frame (31) and is clamped with the buckle interface (51) in a matched mode.

3. The buckle-positioned self-generating wireless remote control according to claim 1, wherein the main body frame (31) comprises an upper layer iron frame (311), a lower layer iron frame (312) and a connecting frame (313) arranged between the upper layer iron frame (311) and the lower layer iron frame (312), and the buckle part (4) is arranged on the connecting frame (313).

4. A snap-in positioned self-generating wireless remote control according to claim 3, characterized in that the main body frame (31) further comprises a cross-over strip (314) for cross-over of the upper layer iron frame (311), lower layer iron frame (312) and the connection frame (313).

5. The buckle-positioned self-generating wireless remote control according to claim 3, wherein the self-generating module (3) comprises a coil magnetic core assembly (32) arranged in the main body frame (31), a magnet (33) arranged on the main body frame (31) and corresponding to one end of the coil magnetic core assembly (32), and a toggle piece (34) extending from the inside of the coil magnetic core assembly (32) to the outside of the other end of the coil magnetic core assembly (32) and used for driving the coil magnetic core assembly (32) to swing relative to the magnet (33), wherein the magnet (33) is arranged between the upper iron frame (311) and the lower iron frame (312).

6. The buckle positioning type self-generating wireless remote controller according to claim 5, wherein a key set (6) and a swinging member (7) are arranged on a bottom shell (1) of the remote controller, the swinging member (7) is arranged outside the periphery of the self-generating module (3) in a surrounding mode, a stirring part (71) for stirring the stirring member (34) to drive the coil magnetic core assembly (32) to swing is arranged on the swinging member (7), and the key set (6) is used for pushing the swinging member (7) to swing so that the stirring part (71) stirs the stirring member (34) towards one side.

7. The buckle positioning type self-generating wireless remote controller according to claim 6, wherein a reset torsion spring (8) is arranged on the bottom shell (1) of the remote controller, and after the push-button group (6) pushes the swinging piece (7) to remove, the swinging piece (7) drives the toggle piece (34) to swing towards the other side for reset.

8. The buckle positioning type self-generating wireless remote controller according to claim 6, wherein a swing support (11) is arranged on the remote controller bottom shell (1), an arc-shaped supporting point part (12) is arranged at one end, far away from the remote controller bottom shell (1), of the swing support (11), and the swing piece (7) swings with the arc-shaped supporting point part (12) as a supporting point.

9. The buckle-positioned self-generating wireless remote control according to claim 6, characterized in that the circuit board (2) is provided with flexible keys (21) corresponding to the key group (6).

10. The buckle-positioned self-generating wireless remote control according to claim 6, wherein an inner cover (9) covered on the swinging piece (7) and a waterproof silica gel piece (10) covered on the inner cover (9) are further arranged between the key group (6) and the swinging piece (7).