CN220627214U - Combined wireless remote controller - Google Patents

Abstract

The utility model discloses a combined wireless remote controller which is used for transmitting wireless control signals, and comprises a panel, a pressing inner plate and a bottom shell; the bottom edge of the panel is clamped at the edge of the upper opening of the bottom shell, an inner cavity is formed in the bottom opening of the panel and used for embedding the pressing inner plate, and a plurality of keys are arranged on the panel and correspond to a plurality of pressing transmission control keys arranged on the pressing inner plate; the upper opening of drain pan forms the installation space, and the bottom surface of drain pan is straight to be used for contacting smooth thing surface of putting, forms the lateral wall between upper opening edge and the bottom surface of drain pan, and the wall of lateral wall is the smooth arcwall face that has the radian. The structural design of the wireless remote controller disclosed by the utility model enables the remote controller to better conform to the curve of the palm when being held, so that the comfort level and stability of holding are increased, and the combined wireless remote controller can provide good holding experience, so that a user feels more comfortable and convenient when operating.

Description

Combined wireless remote controller

Technical Field

The utility model relates to the technical field of radio control equipment, in particular to a combined wireless remote controller.

Background

The appearance or the material of the design of the existing part of wireless remote controller does not accord with the human engineering principle, so that the hand feeling is poor when the wireless remote controller is held. There may be problems such as the outline design not conforming to the palm curve, causing discomfort to the hand. The material selection is not suitable, such as too smooth or rough, and lacks comfort. The operation interface is difficult to understand or the operation flow is not intuitive, and the user is difficult to operate. Some wireless remote controls may employ technologies that are relatively old and fail to provide better user experience and functionality, lacking applications of human-machine interaction technologies, such as touch screens, voice recognition, and the like. Failure to achieve good wireless communication with other devices results in unstable connections or failure to interoperate with other devices. Therefore, the existing wireless remote controller with poor holding feel and poor man-machine interaction has some problems and defects in the aspects of design, materials, man-machine interaction and technology.

Disclosure of Invention

The embodiment of the utility model provides a combined wireless remote controller, which aims to solve the problem of poor man-machine coordination of the wireless remote controller in the prior art.

The embodiment of the utility model discloses a combined wireless remote controller which is used for transmitting wireless control signals, and comprises a panel, a pressing inner plate and a bottom shell; the bottom edge of the panel is clamped at the edge of the upper opening of the bottom shell, an inner cavity is formed in the bottom opening of the panel and used for embedding the pressing inner plate, and a plurality of keys are arranged on the panel and correspond to a plurality of pressing transmission control keys arranged on the pressing inner plate; the upper opening of the bottom shell forms an installation space, the bottom surface of the bottom shell is straight and used for contacting a smooth object placing surface, a side wall is formed between the edge of the upper opening of the bottom shell and the bottom surface, and the wall surface of the side wall is a smooth arc surface with radian; the keys include personalized keys and range control keys.

Further, the upper surface of the plate body of the panel is flat, the edge of the upper surface of the plate body is arc-shaped and axisymmetric, the long symmetry axis of the upper surface of the plate body is 80-120mm, and the short symmetry axis of the upper surface of the plate body is 45-85mm.

Further, the vertical distance between the upper opening edge of the bottom shell and the bottom surface of the bottom shell is 20-30mm, the side wall surface of the bottom shell is provided with an arc with a regular radian, the arc is a partial circumferential line with a radius of 25-35mm and a full circle, and the circumferential line is connected with the upper opening edge of the bottom shell and the bottom surface edge of the bottom shell.

Further, the wireless remote controller further comprises a function integrated board, the function integrated board is arranged below the pressing inner board and embedded in the installation space, a plurality of function modules which are arranged corresponding to the pressing transmission control keys are arranged on the upper surface of the function integrated board, and the function modules generate and send sensing information through pressing touch sense.

Further, the bottom edge of the panel is provided with an annular clamping piece, and the annular clamping piece is opposite to and clamped with the edge of the upper opening of the bottom shell.

Further, the installation space formed by the upper opening of the bottom shell comprises a battery installation chamber, the battery installation chamber is closed through a sliding mounting piece, and the sliding mounting piece is assembled on the bottom surface of the bottom shell through a sliding clamping rail.

Further, the bottom surface of the pressing inner plate is provided with a buckle, a clamping interface corresponding to the buckle is arranged in the bottom shell, and the pressing inner plate is connected with the clamping interface in a clamping mode through the buckle.

Further, the pressing transmission control key forms a bulge towards the key direction and is used for receiving downward pressing of the key in the height direction.

The design of the above-described combined wireless remote control optimizes the grip experience by several aspects: the bottom edge of the panel is clamped with the edge of the upper opening of the bottom shell, so that the structure of the remote controller is compact, the remote controller is not easy to loosen, and a stable holding sense is provided. The bottom opening of the panel forms an inner cavity for embedding the pressing inner plate. The design can increase the hand feeling and the fitting degree when in holding, so that the operation is more comfortable. The panel is provided with a plurality of keys which correspond to a plurality of pressing transmission control keys arranged on the pressing inner plate.

Drawings

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

Fig. 1 is an exploded schematic view of the overall structure of a combined wireless remote controller according to an embodiment of the present utility model;

fig. 2 is a partial top view of a combined wireless remote control according to an embodiment of the present utility model;

fig. 3 is a side view of a partial structure of a combined wireless remote controller according to an embodiment of the present utility model;

fig. 4 is a front view of a partial structure of a combined wireless remote controller according to an embodiment of the present utility model.

Reference numerals:

1. a panel; 2. pressing the inner plate; 3. a bottom case; 4. a function integrated board; 11. a key; 21. pressing a transmission control key; 31. sliding mounting; 111. personalizing keys; 112. a range control key.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are some, but not all embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be understood that the terms "comprises" and "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. As used in this specification and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in the present specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items, and includes such combinations.

As shown in fig. 1 and 4, the present embodiment provides a combined wireless remote controller for transmitting wireless control signals, the remote controller includes a panel 1, a pressing inner plate 2 and a bottom case 3; the bottom edge of the panel 1 is clamped with the edge of the upper opening of the bottom shell 3, an inner cavity is formed in the bottom opening of the panel 1 and is used for embedding the pressing inner plate 2, and a plurality of keys 11 are arranged on the panel 1 and correspond to a plurality of pressing transmission control keys 21 arranged on the pressing inner plate 2; the upper opening of the bottom shell 3 forms an installation space, the bottom surface of the bottom shell 3 is straight and used for contacting a smooth object placing surface, a side wall is formed between the edge of the upper opening of the bottom shell 3 and the bottom surface, and the wall surface of the side wall is a smooth arc surface with radian; the keys 11 include personalization keys 111 and range control keys 112.

In an actual use scenario, in the design structure of the combined wireless remote controller, the panel 1 is located at the top of the remote controller, and the bottom edge of the panel is clamped with the edge of the opening above the bottom shell 3. The bottom opening of the panel 1 forms an inner cavity for mounting the pressing inner plate 2. The pressing inner plate 2 is fitted in the inner cavity of the panel 1. A plurality of keys 11 are arranged on the panel 1, and a corresponding number of pressing transmission control keys 21 are arranged on the pressing inner plate 2 so as to realize the control of different functions by a user. The bottom case 3 is a bottom portion of the remote controller. The upper opening of the bottom case 3 forms an installation space for accommodating circuits and other components. The bottom surface of the bottom chassis 3 is flat and can smoothly contact the storage surface. A side wall is formed between the upper opening edge and the bottom surface of the bottom chassis 3. The side wall of the bottom shell 3 is formed by a region between the upper opening edge and the bottom surface, and the wall surface has a smooth arc shape. The design enables the remote controller to be more in line with the curve of the palm when being held, and provides more comfortable and stable holding experience.

To sum up, the design of the combined wireless remote control optimizes the holding experience through several aspects: the bottom edge of the panel 1 is clamped with the edge of the upper opening of the bottom shell 3, so that the structure of the remote controller is compact, the remote controller is not easy to loosen, and a stable holding sense is provided. The bottom opening of the panel 1 forms an inner cavity for embedding the pressing inner plate 2. The design can increase the hand feeling and the fitting degree when in holding, so that the operation is more comfortable. The panel 1 is provided with a plurality of keys 11 corresponding to a plurality of pressing transmission control keys 21 provided on the pressing inner panel 2. The design makes the key 11 reasonable in layout, and the operation is more convenient, and the user can easily grasp the use mode of the remote controller. The upper opening of the bottom case 3 forms an installation space so that components such as an internal circuit and the like can be reasonably installed and arranged. The bottom surface of the bottom shell 3 is flat and has a smooth surface, can be fully contacted with the object placing surface, and provides good stability and holding feeling. The side wall formed between the upper opening edge and the bottom surface of the bottom shell 3 adopts a smooth arc surface design with radian. The design ensures that the remote controller is more in line with the curve of the palm when being held, thereby increasing the comfort and stability of holding. Through the structural design, the combined wireless remote controller can provide good holding experience, so that a user feels more comfortable and convenient in operation.

Further, the upper surface of the plate body of the panel 1 is flat, the edge of the upper surface of the plate body is arc-shaped and axisymmetric, the long symmetry axis of the upper surface of the plate body is 80-120mm, and the short symmetry axis of the upper surface of the plate body is 45-85mm.

Specifically, the upper surface of the body of the panel 1 is flat without significant bending or concavity and convexity. The upper surface edge of the panel 1 takes an arc shape and is axisymmetric in the horizontal direction. The design not only increases the overall aesthetic feeling of the remote controller, but also makes the holding more comfortable. The upper surface of the panel 1 has a long axis of symmetry, preferably of length 100.9mm. The long symmetry axis refers to a straight line passing through the center point from one end point to the other end point of the upper surface of the panel 1. The upper surface of the panel 1 also has a short symmetry axis, preferably 65mm in length. The short symmetry axis refers to a straight line passing through the center point from one end point to the other end point of the upper surface of the panel 1, and is perpendicular to the long symmetry axis. By these dimensioning, the design of the panel 1 has a flat surface and an axially symmetrical arc-shaped edge, while having a certain length symmetry. The design not only meets the requirements of attractive appearance, but also can provide better holding feel and operation experience.

Further, the vertical distance between the upper opening edge of the bottom shell 3 and the bottom surface of the bottom shell 3 is 20-30mm, the side wall surface of the bottom shell 3 is provided with an arc with a regular radian, the arc is a partial circumferential line with a radius of 25-35mm and a full circle, and the circumferential line is connected with the upper opening edge of the bottom shell 3 and the bottom surface edge of the bottom shell 3.

Specifically, there is a vertical distance between the upper opening edge of the bottom chassis 3 and the bottom surface of the bottom chassis 3, and the length thereof is preferably 26.3mm for several tests. This distance may provide sufficient space to mount circuits and other components. The side wall surface of the bottom shell 3 adopts a circular arc design with a regular radian. This design makes the side walls smoother and provides a better visual effect. The circular arc of the side wall surface of the bottom chassis 3 is formed by a circular arc line having a radius of 25-35mm, which is used to connect the upper opening edge of the bottom chassis 3 and the bottom surface edge of the bottom chassis 3.

Further, the wireless remote controller further comprises a function integrated board 4, the function integrated board 4 is arranged below the pressing inner board 2 and embedded in the installation space, a plurality of function modules which are arranged corresponding to the pressing transmission control keys 21 are arranged on the upper surface of the function integrated board 4, and the function modules generate and send sensing information through pressing touch sense.

Specifically, the function integration board 4 is disposed below the pressing inner board 2, and is embedded in the installation space. This design places the function integration board 4 under the pressing inner board 2, and can effectively use space and ensure stability and safety of the function integration board 4. The upper surface of the function integration board 4 is provided with a plurality of function modules corresponding to the pressing of the transmission control keys 21. Each of the functional modules represents a different function or operation of the remote control, such as a power switch, volume adjustment, channel selection, etc. The functional module generates and transmits sensing information by pressing the touch. This means that when a user presses a certain functional module, the touch sensing technology generates corresponding sensing information and transmits it to the relevant device.

Further, an annular clamping piece is arranged at the bottom edge of the panel 1, and the annular clamping piece is opposite to and clamped with the upper opening edge of the bottom shell 3.

Specifically, the bottom edge of the panel 1 is provided with an annular clip, which is an annular assembly. The clip may be made of plastic or metal material and have sufficient elasticity and durability. The edge of the upper opening of the bottom shell 3 is opposite to the annular clamping piece and is clamped. This means that when the panel 1 is placed on the bottom shell 3, the annular clamping member will perfectly align and clamp with the upper opening edge of the bottom shell 3.

Further, the installation space formed by the upper opening of the bottom case 3 includes a battery installation chamber, which is closed by a slide mount 31, and the slide mount 31 is fitted on the bottom surface of the bottom case 3 by a slide engagement rail.

Specifically, a battery mounting chamber is provided in a mounting space formed by an upper opening of the bottom case 3. The battery installation room is used for placing a battery to supply power for the remote controller. To facilitate the installation and replacement of the battery, the battery installation chamber is closed with a sliding tab 31. The slide mount 31 is a horizontally slidable member that opens and closes the inlet of the battery mounting chamber. The slide mount 31 is fitted on the bottom surface of the bottom case 3 by a slide-type engagement rail. The slide type snap rail is a special rail structure that allows the slide mount 31 to smoothly slide on the bottom surface of the bottom chassis 3. This design makes the switching operation of battery installation room more convenient and smooth.

Further, the bottom surface of the pressing inner plate 2 is provided with a buckle, the bottom shell 3 is internally provided with a clamping interface corresponding to the buckle, and the pressing inner plate 2 is connected with the clamping interface in a clamping way through the buckle.

Specifically, the bottom surface of the pressing inner plate 2 is provided with a catch, which is a protruding or protruding structure. The buckle is usually made of plastic or metal materials, and has strong elasticity and durability. The bottom shell 3 is internally provided with a clamping interface corresponding to the clamping buckle. The card interface is a notch or hole into which the buckle is inserted, and the shape and the size of the card interface completely correspond to those of the buckle. The snap on the pressing inner plate 2 is inserted into the snap interface in the bottom shell 3, so that the snap connection between the pressing inner plate 2 and the bottom shell 3 is realized. After the buckle is inserted into the clamping interface, the elasticity of the buckle can enable the buckle to be tightly connected with the clamping interface, so that the pressing inner plate 2 is ensured to be firmly fixed on the bottom shell 3. This design allows the pressing inner panel 2 to be easily attached or detached while maintaining a stable attached state. The snap connection between the snap and the snap interface provides a reliable fixing effect so that the remote control will not loose or shift during use.

Further, the pressing transmission key 21 is formed to be convex toward the key 11 for receiving the downward pressing of the key 11 in the height direction.

Specifically, the pressing of the transmission key 21 is a function key on the remote controller for transmitting the instruction or control signal of the user key 11. The pressing of the transmission key 21 forms a protrusion at a side or center position in a direction toward the key 11 (perpendicular to the plane of the remote controller bottom case 3). The protrusion may be a protrusion, bump or boss-like structure. The projection is designed to receive a pressing force applied downward in the height direction of the key 11. When the user presses the push-to-control key 21, the pressing force will be transmitted to the internal mechanism or circuit board through the protrusions, triggering the corresponding function or signal transmission. By the convex design, the pressing of the transmission key 21 can be more comfortably pressed by the user while ensuring that the pressing force can be accurately transmitted to the internal mechanism. This design, while enhancing the user experience, also helps to avoid mishandling or unnecessary key 11 actuation. Thus, such a raised design is very helpful for improving usability and accuracy of operation of the remote control.

The utility model discloses a combined wireless remote controller for transmitting wireless control signals, which comprises a panel 1, a pressing inner plate 2 and a bottom shell 3, wherein the panel is provided with a plurality of wireless control channels; the bottom edge of the panel 1 is clamped with the edge of the upper opening of the bottom shell 3, an inner cavity is formed in the bottom opening of the panel 1 and is used for embedding the pressing inner plate 2, and a plurality of keys 11 are arranged on the panel 1 and correspond to a plurality of pressing transmission control keys 21 arranged on the pressing inner plate 2; the upper opening of the bottom shell 3 forms an installation space, the bottom surface of the bottom shell 3 is straight and is used for contacting with a smooth object placing surface, a side wall is formed between the edge of the upper opening of the bottom shell 3 and the bottom surface, and the wall surface of the side wall is a smooth arc surface with radian. The design of the combined wireless remote control optimizes the holding experience through several aspects: the bottom edge of the panel 1 is clamped with the edge of the upper opening of the bottom shell 3, so that the structure of the remote controller is compact, the remote controller is not easy to loosen, and a stable holding sense is provided. The bottom opening of the panel 1 forms an inner cavity for embedding the pressing inner plate 2. The design can increase the hand feeling and the fitting degree when in holding, so that the operation is more comfortable. The panel 1 is provided with a plurality of keys 11 corresponding to a plurality of pressing transmission control keys 21 provided on the pressing inner panel 2. The design makes the key 11 reasonable in layout, and the operation is more convenient, and the user can easily grasp the use mode of the remote controller.

The present utility model is not limited to the above embodiments, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the present utility model, and these modifications and substitutions are intended to be included in the scope of the present utility model. Therefore, the protection scope of the utility model is subject to the protection scope of the claims.

Claims (8)

1. A combination wireless remote control for transmitting wireless control signals, comprising:

a panel, a pressing inner plate and a bottom shell;

the bottom edge of the panel is clamped at the edge of the upper opening of the bottom shell, an inner cavity is formed in the bottom opening of the panel and used for embedding the pressing inner plate, and a plurality of keys are arranged on the panel and correspond to a plurality of pressing transmission control keys arranged on the pressing inner plate;

the upper opening of the bottom shell forms an installation space, the bottom surface of the bottom shell is straight and used for contacting a smooth object placing surface, a side wall is formed between the edge of the upper opening of the bottom shell and the bottom surface, and the wall surface of the side wall is a smooth arc surface with radian;

the keys include personalized keys and range control keys.

2. The combination wireless remote control of claim 1, wherein the upper surface of the plate body of the panel is flat, the edge of the upper surface of the plate body is arc-shaped and axisymmetric, the long symmetry axis of the upper surface of the plate body is 80-120mm, and the short symmetry axis of the upper surface of the plate body is 45-85mm.

3. The combination wireless remote control of claim 2, wherein a vertical distance between an upper opening edge of the bottom shell and a bottom surface of the bottom shell is 20-30mm, a side wall surface of the bottom shell is provided with an arc with a regular radian, the arc is a partial circumferential line with a radius of 25-35mm and a full circle, and the circumferential line connects the upper opening edge of the bottom shell and the bottom surface edge of the bottom shell.

4. The combination type wireless remote controller according to claim 3, further comprising a function integrated board, wherein the function integrated board is arranged below the pressing inner board and embedded in the installation space, a plurality of function modules corresponding to the pressing transmission control keys are arranged on the upper surface of the function integrated board, and the function modules generate and transmit sensing information through pressing touch.

5. The combination wireless remote control of claim 4, wherein the bottom edge of the panel is provided with an annular clamping member, and the annular clamping member is opposite to and clamped with the upper opening edge of the bottom shell.

6. The combination wireless remote control of claim 5, wherein the mounting space defined by the upper opening of the bottom case comprises a battery mounting chamber that is closed by a sliding tab that is mounted to the bottom surface of the bottom case by a sliding snap-fit rail.

7. The combined wireless remote controller according to claim 6, wherein a buckle is arranged on the bottom surface of the pressing inner plate, a clamping interface corresponding to the buckle is arranged in the bottom shell, and the pressing inner plate is in clamping connection with the clamping interface through the buckle.

8. The combination wireless remote control of claim 7, wherein the push-button key is formed with a protrusion toward the key for receiving a downward push of the key in the height direction.