CN218918706U - Remote controller and control system - Google Patents

Abstract

The application provides a remote controller and control system, this remote controller is used for controlling electron device, and this remote controller includes: the remote controller comprises a remote controller body and a control module, wherein the remote controller body comprises a first body and a second body, and the first body and the second body can relatively move and rotate; the control module is arranged on the remote controller body and is configured to: if the relative movement between the first body and the second body is detected, controlling the electronic device to be switched to a working state or a closing working state; and if the electronic device is in a working state and the relative rotation between the first body and the second body is detected, controlling the electronic device to execute a first function. The remote controller solves the problems of misoperation of switch keys and inconvenience of user operation of the remote controller in the related technology.

Description

Remote controller and control system

Technical Field

The present disclosure relates to the field of control technologies, and in particular, to a remote controller and a control system.

Background

A remote controller is a controller for controlling electronic devices such as lamps and televisions, and is generally used in various places such as home, office, entertainment places, and the like.

A remote controller in the related art comprises a controller body and a switch button arranged on the controller body, wherein the switch button is operated to control the switch of an electronic device, and the remote controller body is operated to control the electronic device to execute a first function.

Disclosure of Invention

The inventors of the present application realized that: in the remote controller in the related art, as the remote controller controls the switch of the electronic device and controls the electronic device to execute the first function through operating the switch key and the remote controller body respectively, the switch key can be touched by mistake when the remote controller body is operated, the remote controller has the risk of misoperation, and the user is inconvenient to operate.

An object of the embodiment of the present application is to provide a remote controller and a control system, which are used for solving the problems of misoperation of a switch key of the remote controller and inconvenient operation of a user in related technologies.

The basic idea proposed by the inventors of the present application is: through the relative removal and rotation between first body and the second body, control module control electron device switches to operating condition or close operating condition and carry out first function, just so need not to set up the switch button that is used for controlling electron device switch alone on the remote controller body, optimized the structure of remote controller, convenience of customers operates.

Based on the above basic concept, in a first aspect, an embodiment of the present application provides a remote controller, including: the remote controller comprises a remote controller body and a control module, wherein the remote controller body comprises a first body and a second body, and the first body and the second body can relatively move and rotate; the control module is arranged on the remote controller body and is configured to: if the relative movement between the first body and the second body is detected, controlling the electronic device to be switched to a working state or a closing working state; and if the electronic device is in a working state and the relative rotation between the first body and the second body is detected, controlling the electronic device to execute a first function.

Through adopting above-mentioned technical scheme, the user is through the relative removal of the first body of remote controller body and second body and rotate, and control module control electronic device's opening switches to operating condition or closes operating condition to and carry out electronic device's first function, like this, saved set up a switch button that is used for controlling electronic device to open to operating condition and close on the remote controller, optimized the structure of remote controller, avoided the maloperation, make things convenient for user's operation, and then promoted user experience.

In some embodiments, the control module includes a rotary encoder switch, and a first processor electrically connected to the rotary encoder switch; the rotary coding switch comprises a switch body and a connecting shaft arranged on the switch body, wherein the switch body is fixedly connected with the second body, and the connecting shaft is fixedly connected with the first body; the rotary encoder switch is configured to: when the connecting shaft moves along the axial direction of the connecting shaft relative to the switch body, a first signal is sent to the first processor, so that the first processor controls the electronic device to be switched to the working state or the closing working state; when the electronic device is in a working state and the connecting shaft rotates relative to the switch body, a second signal is sent to the first processor, so that the first processor controls the electronic device to execute a first function.

Through adopting above-mentioned technical scheme, the user operation first body and second body relative rotation and remove etc. mechanical motion trigger rotary coding switch different motions and then output first signal or second signal, rotary coding switch plays mechanical connection and electrically connected's effect simultaneously like this, has optimized the structure of remote controller.

In some embodiments, the second body is a box body, the box body is cylindrical and has an opening at one end, the first body is a box cover, the box cover comprises a cylindrical cover side wall and a cover end wall arranged at one end of the cover side wall, the cover side wall is slidably sleeved on the box body, and the cover end wall covers the opening; the box body is provided with a mounting wall at the opening, a guide hole is formed in the mounting wall, a guide disc is fixed on the end wall of the cover, and the guide disc is in sliding fit with the guide hole; the guide plate is provided with an avoidance hole, a first circuit board is fixedly arranged on the inner side of the installation wall of the box body, the switch body is arranged on the first circuit board, the connecting shaft extends in the height direction of the remote controller and penetrates through the avoidance hole to be fixedly connected with the end wall of the cover.

By adopting the technical scheme, the box body and the box cover adopt double guidance, so that on one hand, the movement precision of the first body relative to the second body is improved, and the box cover and the box body are convenient for a user to grasp and operate the remote controller, and the operation of the user is convenient; on the other hand, fix first circuit board in the box body, the lid covers the opening of box body, is favorable to the aesthetic property and the dustproof waterproof nature of remote controller body.

In some embodiments, the guide plate is formed with a stop flange extending radially near an end edge of the first circuit board, the stop flange stopping on the mounting wall around the guide hole when the rotary encoder switch is in a natural state, so as to prevent the guide plate from moving away from the first circuit board.

Through adopting above-mentioned technical scheme, when rotary coding switch was in the nature state like this, the backstop flange backstop was on the mounting wall around the guiding hole, and first body and second body phase separation when effectively preventing the remote controller body upset.

In some embodiments, one of the stop flange and the mounting wall is provided with a first rib, and the first rib abuts against the other of the stop flange and the mounting wall.

Through adopting above-mentioned technical scheme for the backstop flange backstop has the clearance when the installation wall butt like this between backstop flange and the installation wall, has reduced the area of backstop flange and installation wall butt face, and then has reduced frictional force between the two, is favorable to separating backstop flange and installation wall when the relative box body of lid moves to being close to first circuit board direction, and then makes things convenient for the user to operate.

In some embodiments, a second rib is provided on one of the outer peripheral wall of the guide disc and the hole wall of the guide hole, and the second rib abuts against the other one of the outer peripheral wall of the guide disc and the hole wall of the guide hole.

Through adopting above-mentioned technical scheme, can have the clearance between the pore wall of peripheral wall and the guiding hole of guide disc when the guiding hole plays the effect of guiding well, reduced the area of backstop flange and installation wall butt face, and then reduced the frictional force between the two, and then made things convenient for the relative box body rotation operation of lid.

In some embodiments, a weight plate is also provided on an inner surface of the cover end wall.

Through adopting above-mentioned technical scheme, increased the holistic weight of first body like this for the weight of first body and second body is balanced, makes the remote controller place more firm when first body is placed down.

In some embodiments, a limit flange is provided on a side wall of the case, the limit flange being configured to abut an end of the cover side wall to limit a distance of relative movement between the cover and the case.

Through adopting above-mentioned technical scheme, like this, when the relative box body of lid moved to the direction that is close to first circuit board, the lid lateral wall moved to stop when being in butt with limit flange, effectively avoided the too big rotary coding switch that leads to of travel distance damage, and then be favorable to improving the reliability of remote controller body coupling.

In some embodiments, the remote control further comprises a direction sensor disposed within the remote control body; the electronic device includes a lamp and a metronome; the direction sensor is configured to send a first output signal to the control module when the remote control is in a first posture and a second output signal to the control module when the remote control is in a second posture;

the control module is configured to control the lamp to be switched to a working state or a closing working state by the first processor if the first output signal is received and the relative movement between the first body and the second body is detected; if the lamp is in a working state and the relative rotation between the first body and the second body is detected, the first processor controls the lamp to execute a first function; if the second output signal is received and the relative movement between the first body and the second body is detected, the metronome is controlled to be switched to a working state or a closing working state; and if the metronome is in a working state and the relative rotation between the first body and the second body is detected, the first processor controls the metronome to execute a first function.

Through adopting above-mentioned technical scheme, the user changes the gesture of remote controller through the upset like this, and the remote controller can control two different electron devices of lamp and metronome, and then improves the functionalization of remote controller, and user operation is simple.

In some embodiments, the direction sensor includes a second circuit board, and a first ball switch and a second ball switch respectively disposed on two opposite surfaces of the second circuit board, a thickness direction of the second circuit board being parallel to a height direction of the remote controller; when the remote controller is in the first posture, the first ball switch is positioned on the upper side of the second circuit board; when the remote controller is in the second posture, the second ball switch is positioned on the upper side of the second circuit board.

Through adopting above-mentioned technical scheme, because ball switch can trigger its first output signal or second output signal that outputs the opposite through the different attitudes of remote controller body for when the remote controller overturns between first attitudes and second attitudes, one that corresponds with the gesture of remote controller in first ball switch and the second ball switch all the time outputs first output signal, and then for first processor control and one switch to operating condition in lamp and the metronome of both provide the premise, effectively avoid the control lamp of remote controller and metronome operating condition's miscwitch, and then improve the accuracy of remote controller control lamp and metronome.

In some embodiments, the first function of the lamp includes at least one of scene adjustment, brightness adjustment, color temperature adjustment; the first function of the metronome includes beat sound output and/or beat display.

By adopting the technical scheme, the remote controller is multifunctional, and further the market popularization of the remote controller is facilitated.

In some embodiments, the metronome includes a second processor electrically connected to the first processor, and a display module and a sound output module electrically connected to the second processor, the display module configured to display the beat and the sound output module configured to emit the beat.

Through adopting above-mentioned technical scheme, the metronome includes display module, and when the beat of remote controller control metronome, the user can see the beat simultaneously, promotes user experience.

In some embodiments, the metronome is disposed on the first body or the second body.

Through adopting above-mentioned technical scheme, through integrating metronome on the remote controller body for the function integration of remote controller is favorable to the marketing of remote controller.

In a second aspect, embodiments of the present application provide a control system including an electronic device and a remote control as described in the first aspect.

Since the control system includes the remote controller provided in the first aspect, the control system also has technical effects corresponding to the remote controller, and will not be described herein.

Drawings

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

Fig. 1 is a schematic structural diagram of a remote controller according to some embodiments of the present application under a view angle;

fig. 2 is a schematic structural diagram of the remote controller in fig. 1 at another view angle;

FIG. 3 is an exploded view of the remote control of FIG. 1 at a viewing angle;

fig. 4 is an exploded view of the remote control of fig. 1 at another viewing angle;

fig. 5 is a schematic structural diagram of the remote controller in fig. 1 at another view angle;

FIG. 6 isbase:Sub>A sectional view A-A of FIG. 5;

FIG. 7 is a schematic diagram of the control module of FIG. 3 or FIG. 4;

FIG. 8 is a block diagram of a control system in some embodiments of the present application.

Reference numerals:

100. a remote controller; 10. a remote controller body; 11. a first body; 111. a cover end wall; 112. a cover sidewall; 12. a second body; 120. a guide hole; 121. an opening; 122. a sidewall; 123. a light outlet; 125. a limit flange; 13. a mounting wall; 14. a weight plate; 15. a guide disc; 150. avoidance holes; 151. a stop flange; 152. a first rib; 153. a second rib; 21. a first circuit board; 22. a direction sensor; 220. a second circuit board; 221. a first ball switch; 222. a second ball switch; 23. a wireless communication module; 30. a control module; 31. a rotary encoding switch; 311. a switch body; 312. a connecting shaft; 32. a first processor; 40. a metronome; 41. a second processor; 42. a display module; 43. a sound output module, 44, a protective cover; 45. and (5) protecting the frame.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein the same or similar reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below by referring to the drawings are exemplary only for the purpose of explaining the present application and are not to be construed as limiting the present application.

In the description of the present application, it should be understood that the terms "first," "second," and the like are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or an implicit indication of the number of technical features being indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include one or more of the described features. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

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, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically connected, electrically connected or can be communicated with each other; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the terms in this application will be understood by those of ordinary skill in the art as the case may be.

In the description of the present application, it should be understood that the terms "upper," "lower," "side," "front," "rear," and the like indicate an orientation or positional relationship based on installation, and are merely for convenience of description of the present application and to simplify the description, rather than to indicate or imply that the apparatus or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application.

In the description of the present application, it should be noted that the term "and/or" is merely an association relationship describing an association object, and indicates that three relationships may exist, for example, a and/or B may indicate: a exists alone, A and B exist together, and B exists alone.

It should be further noted that, in the embodiments of the present application, the same reference numerals denote the same components or the same parts, and for the same parts in the embodiments of the present application, reference numerals may be given to only one of the parts or the parts in the drawings by way of example, and it should be understood that, for other same parts or parts, the reference numerals are equally applicable.

As shown in fig. 1 to 4, fig. 1 is a schematic structural diagram of a remote controller 100 in some embodiments of the present application in one view, fig. 2 is a schematic structural diagram of the remote controller 100 in fig. 1 in another view, fig. 3 is an exploded view of the remote controller 100 in fig. 1 in one view, and fig. 4 is an exploded view of the remote controller 100 in fig. 1 in another view. The embodiment of the application provides a remote control 100, including: the remote controller comprises a remote controller body 10 and a control module 30, wherein the remote controller body 10 comprises a first body 11 and a second body 12, and the first body 11 and the second body 12 can relatively move and rotate; the control module 30 is disposed on the remote controller body 10 and configured to: if the relative movement between the first body 11 and the second body 12 is detected, the electronic device is controlled to be switched to a working state or a closing working state; if the electronic device is in the working state and the relative rotation between the first body 11 and the second body 12 is detected, the electronic device is controlled to execute the first function.

The user switches to the working state or closes the working state and executes the first function of the electronic device through the relative movement and rotation between the first body 11 and the second body 12 of the remote controller body 10, and thus, a switch key for controlling the electronic device to be opened to the working state and closed is omitted from being arranged on the remote controller body 10, the structure of the remote controller 100 is optimized, misoperation is avoided, user operation is facilitated, and user experience is further improved.

The user can control the electronic device to switch to a working state by operating the relative movement of the first body 11 and the second body 12, then control the electronic device to execute a first function by operating the relative rotation of the first body 11 and the second body 12, and then trigger the control module 30 to control the electronic device to close the working state by operating the relative movement of the first body 11 and the second body 12 repeatedly, thus the cycle is performed.

As shown in fig. 3 to 8, fig. 5 isbase:Sub>A schematic structural diagram of the remote controller 100 in fig. 1 at another view, fig. 6 isbase:Sub>A sectional viewbase:Sub>A-base:Sub>A of fig. 5, fig. 7 isbase:Sub>A schematic structural diagram of the control module 30 in fig. 3 or fig. 4, and fig. 8 isbase:Sub>A schematic structural diagram ofbase:Sub>A control system in some embodiments of the present application. In some embodiments, the control module 30 includes a rotary encoder switch 31, and a first processor 32 electrically connected to the rotary encoder switch 31; the rotary coding switch 31 comprises a switch body 311, a connecting shaft 312 arranged on the switch body 311, wherein the switch body 311 is fixedly connected with the second body 12, and the connecting shaft 312 is fixedly connected with the first body 11; the rotary encoder switch 31 is configured to: when the connecting shaft 312 moves along the axial direction thereof relative to the switch body 311, a first signal is sent to the first processor 32, so that the first processor 32 controls the electronic device to switch to the working state or switch to the off working state; when the electronic device is in an operating state and the connecting shaft 312 rotates relative to the switch body 311, a second signal is sent to the first processor 32, so that the first processor 32 controls the electronic device to execute the first function.

Through the switch body 311 and the connecting shaft 312 of the rotary coding switch 31 are respectively and fixedly connected with the first body 11 and the second body 12, the user operates the first body 11 and the second body 12 to rotate and move relatively and other mechanical movements to trigger different movements of the rotary coding switch 31 so as to output a first signal or a second signal, and thus the rotary coding switch 31 plays roles of mechanical connection and electrical connection at the same time, and the structure of the remote controller 100 is optimized.

The rotary encoder switch 31 is also called a small rotary encoder, and refers to a switching electronic component having a set of regular and strict timing pulses. The rotary encoder switch 31 has three functions of turning left, turning right, and pressing down.

When the control module 30 includes the rotary encoder switch 31 and the first body 11 and the second body 12 of the remote controller body 10 are connected through the connection mechanism, the control module 30 includes a first sensor for detecting the relative movement between the first body 11 and the second body 12 and a second sensor for detecting the relative rotation between the first body 11 and the second body 12, and the first sensor sends a first signal to the first processor 32 after detecting the relative movement between the first body 11 and the second body 12; the second sensor detects the relative rotation of the first body 11 and the second body 12 and sends a second signal to the first processor 32.

The first sensor is disposed on the first body 11, the second sensor is disposed on the second body 12, or both the first sensor and the second sensor may be disposed on the first body 11 or the second body 12, which is not particularly limited herein.

As shown in fig. 3 to 6, in some embodiments, the second body 12 is a box body, the box body is cylindrical and has an opening 121 at one end, the first body 11 is a box cover, the box cover includes a cylindrical cover side wall 112, and a cover end wall 111 disposed at one end of the cover side wall 112, the cover side wall 112 is slidably sleeved on the box body, and the cover end wall 111 covers the opening 121; the box body is provided with a mounting wall 13 at the opening 121, a guide hole 120 is arranged on the mounting wall 13, a guide disc 15 is fixed on the end wall 111 of the cover, and the guide disc 15 is in sliding fit with the guide hole 120; the guide disc 15 is provided with an avoidance hole 150, the inner side of the mounting wall 13 of the box body is fixedly provided with a first circuit board 21, the switch body 311 is arranged on the first circuit board 21, and the connecting shaft 312 extends along the height direction Z of the remote controller 100 and passes through the avoidance hole 150 to be fixedly connected with the end wall 111 of the cover.

The box body and the box cover are slidably sleeved on the box body through the cover side wall 112, and the guide disc 15 is slidably matched with the guide hole 120 to realize double guide, so that on one hand, the movement precision of the first body 11 relative to the second body 12 is improved, the box cover and the box body structure facilitate the user to grasp and operate the remote controller 100, the user can conveniently operate the remote controller, the user presses the connecting shaft 312 along the height direction Z of the remote controller 100, namely the axial Z of the box body, the guide disc 15 is slidably matched with the guide hole 120 along the height direction Z of the remote controller 100, and the guide hole 120 can play a good guide role in the relative movement process of the first body 11 and the second body 12, so that the reliability of the joint of the first body 11 and the second body 12 is improved; on the other hand, the first circuit board 21 is fixed in the box body, and the opening 121 of the box body is covered by the box cover, so that the attractiveness, dust prevention and water resistance of the remote controller body 10 are facilitated.

As shown in fig. 6, in some embodiments, a stop flange 151 is formed to extend radially at an end edge of the guide plate 15 near the first circuit board 21, and the stop flange 151 stops against the mounting wall 13 around the guide hole 120 when the rotary encoder switch 31 is in a natural state to prevent the guide plate 15 from moving in a direction away from the first circuit board 21.

Thus, when the rotary encoder switch 31 is in a natural state, the stop flange 151 stops on the mounting wall 13 around the guide hole 120, so that the first body 11 and the second body 12 can be effectively prevented from being separated when the remote controller 100 is turned over.

The stop flange 151 may be integrally formed with the guide disk 15, or the two may be separately configured and coupled together, which is not particularly limited herein.

Note that the natural state of the electronic device refers to a non-operating state of the electronic device, and may be a closed state or a sleep state, which is not particularly limited herein.

As shown in fig. 3, in some embodiments, the stop flange 151 is provided with a first rib 152, and the first rib 152 abuts against the mounting wall 13.

When the rotary coding switch 31 is in a natural state, that is, when the stop flange 151 is stopped against the mounting wall 13, a gap exists between the stop flange 151 and the mounting wall 13, so that the area of the contact surface between the stop flange 151 and the mounting wall 13 is reduced, the friction force between the stop flange 151 and the mounting wall is further reduced, the first body 11 is facilitated to drive the guide disc 15 to rotate relative to the second body 12, and meanwhile, the stop flange 151 is facilitated to be separated from the mounting wall 13 when the box cover moves relative to the box body in a direction approaching to the first circuit board 21, so that the operation of a user is facilitated.

Specifically, as shown in fig. 3 and 6, the number of the first ribs 152 is plural, each first rib 152 extends in the circumferential direction of the guide disk 15, and two adjacent first ribs 152 are disposed at intervals in the radial direction of the guide disk 15.

Of course, the first rib 152 may be provided on the mounting wall 13 in addition to the stopper flange 151, and is not particularly limited herein.

In some embodiments, the second rib 153 is disposed on the outer peripheral wall of the guide plate 15, and the second rib 153 abuts against the wall of the guide hole 120.

The guide holes 120 can play a role in guiding well, and meanwhile, gaps exist between the outer peripheral wall of the guide disc 15 and the hole wall of the guide holes 120, so that the area of the contact surface between the outer peripheral wall of the guide disc 15 and the hole wall of the guide holes 120 is reduced, friction between the outer peripheral wall of the guide disc 15 and the hole wall of the guide holes 120 is further reduced, and the box cover is further convenient to rotate relative to the box body.

Specifically, as shown in fig. 3, the number of the second ribs 153 is plural, each second rib 153 extends in the axial direction of the guide plate 15, and two adjacent second ribs 153 are arranged in the circumferential direction of the guide plate 15.

Of course, the second rib 153 may be provided on the wall of the guide hole 120 in addition to the outer peripheral wall of the guide plate 15, and is not particularly limited herein.

As shown in fig. 6, in some embodiments, a weight plate 14 is also provided on the inner surface of the cover end wall 111.

This increases the weight of the whole first body 11, balances the weight of the first body 11 and the second body 12, and makes the remote controller 100 more firmly placed when the first body 11 is placed downward.

The weight plate 14 may be made of metal, so that not only the weight can be increased, but also the size of the weight plate 14 can be reduced, thereby occupying the space in the box cover. Of course, the weight plate 14 may be made of a metal material, and the user may actually select other materials or may not be provided with any other materials, and the present invention is not limited thereto.

As shown in fig. 3 and 6, in some embodiments, a limit flange 125 is provided on the side wall 122 of the case, the limit flange 125 being configured to abut an end of the lid side wall 112 to limit the distance of relative movement between the lid and the case.

Thus, when the rotary coding switch 31 is in a natural state, the stop flange 151 stops on the mounting wall 13 around the guide hole 120, so that damage to the rotary coding switch 31 caused by overlarge relative movement distance between the box cover and the box body is effectively avoided.

As shown in fig. 6-8, in some embodiments, the remote control 100 further includes a direction sensor 22 disposed within the remote control body 10; the electronics include lights and metronomes 40; the direction sensor 22 is configured to send a first output signal (e.g., an ON state) to the control module 30 when the remote control 100 is in a first posture, and to send a second output signal (e.g., an OFF state) to the control module 30 when the remote control 100 is in a second posture; wherein the control module 30, i.e. the first processor 32, is configured to control the lamp to switch to the operating state or switch to the off operating state if the first output signal (e.g. ON state) is received and the relative movement between the first body 11 and the second body 12 is detected; if the lamp is in an operating state and the relative rotation between the first body 11 and the second body 12 is detected, the first processor 32 controls the lamp to perform a first function; if the second output signal (such as the OFF state) and the first signal are received, the metronome 40 is controlled to switch to the operating state or to switch to the OFF operating state; if the metronome 40 is in an operating state and the relative rotation between the first body 11 and the second body 12 is detected, the first processor 32 controls the metronome 40 to perform the first function.

The user triggers the direction sensor 22 to send the first output signal or the second output signal to the control module 30, that is, the first processor 32 through the posture change of the remote controller 100, so that the user makes the remote controller 100 in different postures through overturning, and through operating the relative movement and rotation of the first body 11 and the second body 12, the control module 30 receives the corresponding output signals, and then controls one of the lamps and the metronome 40 in the working state to execute the first function, so that the remote controller 100 can have the first functions of controlling the two different electronic devices of the lamps and the metronome 40 through changing the postures, further improving the functionalization of the remote controller 100, and the user is simple to operate.

As shown in fig. 8, the control module 30 is electrically connected to the lamp and metronome 40 through the wireless communication module 23.

It should be noted that, the first posture includes that the remote controller 100 shown in fig. 1 is placed forward, and also includes that the first body 11 of the remote controller 100 is placed obliquely relative to the second body 12, and the second posture includes that the second body 12 of the remote controller 100 shown in fig. 2 is placed obliquely upward relative to the first body 11, and also includes that the second body 12 of the remote controller 100 is placed forward upward relative to the first body 11.

In some embodiments, the first function of the lamp includes brightness adjustment; the first function of the metronome 40 includes beat sound output. Like this, the luminance of lamp is adjusted to the remote controller 100 rotation first body 11 when first gesture, and the remote controller 100 rotates second body 12 control beat sound output when the second gesture, can satisfy simultaneously to lamp luminance adjustment and the scene of metronome 40 sound output for the multifunctionality of remote controller 100, and then is favorable to the marketing of remote controller 100.

The brightness adjustment means to adjust the intensity of light emitted from the lamp. The first function of the lamp may include, in addition to brightness adjustment, scene adjustment or color temperature adjustment or color adjustment, or any combination of scene adjustment, brightness adjustment, color temperature adjustment, color adjustment, and the like, without being particularly limited thereto.

The first function of the metronome 40 may include both of the beat sound output and the beat display, in addition to the beat sound output, or may include only the display beat according to the application scene, which is not particularly limited.

The electronic device may include any combination of the lamp, the metronome 40, the television, the radio, the audio, and the like, in addition to the lamp and the metronome 40, and the first function may be different depending on the electronic device, and is not particularly limited herein.

As shown in fig. 6 to 7, in some embodiments, the direction sensor 22 includes a second circuit board 220, and a first ball switch 221 and a second ball switch 222 respectively disposed on two opposite surfaces of the second circuit board 220, where the second circuit board 220 may be disposed in the second body 12, i.e. disposed in the case, and a thickness direction of the second circuit board 220 is parallel to a height direction Z of the remote controller 100, i.e. an extending direction of the connecting shaft 312; when the remote controller 100 is in the first posture, the first ball switch 221 is located on the upper side of the second circuit board 220; when the remote control 100 is in the second posture, the second ball switch 222 is located on the upper side of the second circuit board 220.

By disposing the first ball switch 221 and the second ball switch 222 on two opposite surfaces of the second circuit board 220, when the remote controller 100 is turned between the first posture and the second posture, one of the first ball switch 221 and the second ball switch 222 located on the upper side of the second circuit board 220 is triggered to continuously send the first output signal to the control module 30, the first processor 32 can stably and continuously receive the first output signal, and the first processor 32 responds fast, so that a precondition is provided for the first processor 32 to control one of the lamp and the metronome 40 to switch to the working state, so that the error switching of the working state of the control lamp and the metronome 40 of the remote controller 100 is effectively avoided, and the accuracy of the control lamp and the metronome 40 of the remote controller 100 is improved.

The first ball switch 221 and the second ball switch 222 may be patch type omni-directional ball switches, so that, regardless of whether the user turns the remote control 100 back and forth or turns the remote control 100 left and right or rotates in any direction, the output signal changes only after the remote control 100 turns 180 °, for example, when the remote control 100 is in the first posture, the first ball switch 221 ON the upper side of the first circuit board 21 outputs the first output signal (for example, in the ON state); when the remote controller 100 is turned 180 °, the first ball switch 221 outputs a second output signal (e.g., OFF state), and the second ball switch 222 outputs a first output signal (e.g., ON state), so that it is ensured that the first processor 32 can detect the first output signal of the first ball switch 221 or the second ball switch 222, in preparation for controlling the switching of the operating state of the lamp or the metronome 40.

The ball switch refers to a sensor that uses a trigger function for tilt or angle detection. A patch type omnidirectional ball switch is provided with a patch type sensor with an omnidirectional overturning detection function. That is, when placed horizontally, the first output signal (ON state or OFF state) is output, and after turning over 180 °, the second output signal (OFF state or ON state) is output.

The direction sensor 22 may include only one of the first ball switch 221 and the second ball switch 222, in addition to the first ball switch 221 and the second ball switch 222, and the direction sensor 22 may be a plug-in tilt ball switch, or a sensor capable of detecting a direction, such as a gyroscope or an acceleration sensor, when the remote controller 100 is placed on a desk for use, and is not particularly limited herein.

As shown in fig. 7 and 8, in some embodiments, the metronome 40 includes a second processor 41 electrically connected to the first processor 32, and a display module 42 and a sound output module 43 electrically connected to the second processor 41, the display module 42 may be a digital display tube, the display module 42 is configured to display the beat, and the sound output module 43 is configured to emit the beat.

The metronome 40 includes a display module 42 and a sound output module 43, and when the control module 30 of the remote controller 100 controls the metronome 40 to perform the first function, the metronome 40 can simultaneously emit a metronome sound and display a metronome, and a user can simultaneously hear and see the metronome, thereby improving user experience.

The process of controlling the lamp and metronome 40 of the remote controller 100 is as follows:

when the remote controller 100 is in the first posture as shown in fig. 1, i.e., the cover end wall 111 of the first body 11 faces upward, the first ball switch 221 is located ON the upper side of the second circuit board 220, at this time, the first ball switch 221 sends a first output signal (such as an ON state) to the control module 30, i.e., the first processor 32, pressing the first body 11, i.e., the first body 11 moving relative to the second body 12 triggers the rotary encoder switch 31 to output the first signal, and if the control module 30 detects the first output signal of the first ball switch 221 and the first signal of the rotary encoder switch 31, the control module 30 connects with the lamp through the wireless communication module 23, such as a bluetooth module, and controls the lamp to switch to an operating state, and then rotates the first body 11, and the control module 30 controls the lamp to perform a first function, such as adjusting brightness. At this time, assuming that the second body 12 is not moved, only the first body 11 is operated, but not limited to this operation, the first body 11 is rotated clockwise, the brightness of the lamp is increased, the first body 11 is rotated counterclockwise, the brightness of the lamp is reduced, and further the brightness adjustment of the lamp is realized, and vice versa may be provided. At this time, when the first body 11 is pressed again, the control module 30 controls the lamp to be turned off by the wireless communication module 23 if the first signal of the rotary encoder switch 31 is detected again.

When the roll-over remote controller 100 is turned from the first posture shown in fig. 1 to the second posture shown in fig. 2, i.e., the cover end wall 111 of the first body 11 is turned down, the first ball switch 221 is located at the lower side of the second circuit board 220, and the second ball switch 222 is located at the upper side of the second circuit board 220, at this time, the first ball switch 221 transmits a second output signal (e.g., OFF state) to the control module 30, the second ball switch 222 transmits a first output signal (e.g., ON state) to the control module 30, the control module 30 receives the first output signal (e.g., ON state) of the second ball switch 222, and then, if the second body 12 is pressed, i.e., the control module 30 detects the first signal of the rotary encoder switch 31, the control module 30 is connected to the second processor 41 of the metronome 40 through the wireless communication module, the metronome 40 is switched to the operating state, and then the second body 12 is rotated, the control module 30 controls the metronome 40 to perform the first functions such as the metronome sound output and the metronome display of the metronome 40. At this time, assuming that the first body 11 is stationary, only the second body 12 is operated, but not limited to this operation, the second body 12 is rotated to realize sound output of different beats and display of the corresponding beat, and the rotation direction is set as needed. At this time, when the second body 12 is pressed again, the control module 30 controls the metronome 40 to be turned off through the wireless communication module 23 if the first signal of the rotary encoder switch 31 is detected again.

When the roll-over remote controller 100 is turned over from the second posture shown in fig. 2 to the first posture shown in fig. 1, the above-described operation is repeated.

As shown in fig. 6, in some embodiments, the metronome 40 is disposed on the second body 12. I.e., integrating the metronome 40 on the remote controller body 10, thus diversifying the functions of the remote controller 100.

Specifically, as shown in fig. 3 to 6, a light-emitting window is provided on a side of the second body 12 away from the opening 121, the light-emitting window may be a light-emitting opening 123, the metronome 40 is disposed in the second body 12, and the light-emitting side of the display module 42 faces the light-emitting opening 123, a protective cover plate 44 is disposed at the light-emitting opening 123, and the protective cover plate 44 may be a glass cover plate so as to cover the light-emitting opening 123. In order to improve the sealing performance at the opening 121 and protect the cover plate 44, a protective frame 45, which may be a rubber frame, is provided at the periphery of the protective cover plate 44 to fix the protective cover plate 44 on the opening 121.

Of course, the metronome 40 may be provided on the second body 12 or the first body 11, or the metronome 40 may be a separate device, which is separately designed from the remote controller 100, and connected to the control module 30 of the remote controller 100 through the wireless communication module 23, and the metronome 40 is controlled by the remote controller 100, which is not particularly limited herein.

As shown in fig. 8, an embodiment of the present application provides a control system, including an electronic device, and the remote control 100 described in the above embodiment.

Since the control system includes the remote controller 100 provided in the first aspect, the control system also has technical effects corresponding to the remote controller 100, and will not be described herein.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes and substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. A remote control for controlling an electronic device, the remote control comprising:

the remote controller body (10) comprises a first body (11) and a second body (12), wherein the first body (11) and the second body (12) can move and rotate relatively;

a control module (30) disposed on the remote control body (10) and configured to: if the relative movement between the first body (11) and the second body (12) is detected, controlling the electronic device to be switched to a working state or a closing working state; and if the electronic device is in a working state and the relative rotation between the first body (11) and the second body (12) is detected, controlling the electronic device to execute a first function.

2. The remote control of claim 1, wherein the remote control comprises a remote control unit,

the control module (30) comprises a rotary coding switch (31) and a first processor (32) electrically connected with the rotary coding switch (31);

the rotary coding switch (31) comprises a switch body (311) and a connecting shaft (312) arranged on the switch body (311), wherein the switch body (311) is fixedly connected with the second body (12), and the connecting shaft (312) is fixedly connected with the first body (11);

the rotary encoder switch (31) is configured to:

when the connecting shaft (312) moves along the axial direction of the connecting shaft relative to the switch body (311), a first signal is sent to the first processor (32), so that the first processor (32) controls the electronic device to be switched to the working state or the closing working state;

when the electronic device is in a working state and the connecting shaft (312) rotates relative to the switch body, a second signal is sent to the first processor (32), so that the first processor (32) controls the electronic device to execute a first function.

3. The remote control of claim 2, wherein the remote control comprises a remote control unit,

the second body (12) is a box body, the box body is cylindrical and one end of the box body is provided with an opening (121), the first body (11) is a box cover, the box cover comprises a cylindrical cover side wall (112) and a cover end wall (111) arranged at one end of the cover side wall (112), the cover side wall (112) is slidably sleeved on the box body, and the opening (121) is covered by the cover end wall (111);

The box body is provided with a mounting wall (13) at the opening (121), a guide hole (120) is formed in the mounting wall (13), a guide disc (15) is fixed on the end wall (111) of the cover, and the guide disc (15) is in sliding fit with the guide hole (120);

be equipped with on the guide disc (15) and dodge hole (150), the box body is in the inboard of mounting wall (13) is fixed be equipped with first circuit board (21), switch body (311) set up in on first circuit board (21), connecting axle (312) are followed direction of height (Z) of remote controller (100) extends, and pass dodge hole (150) with lid end wall (111) fixed connection.

4. The remote control of claim 3, wherein the remote control comprises a remote control unit,

a stop flange (151) is formed at the edge of one end of the guide disc (15) close to the first circuit board (21) in a radial extending mode, and the stop flange (151) stops on the mounting wall (13) around the guide hole (120) when the rotary coding switch (31) is in a natural state so as to prevent the guide disc (15) from moving in a direction away from the first circuit board (21).

5. The remote control of claim 4, wherein the remote control comprises a remote control unit,

one of the stop flange (151) and the mounting wall (13) is provided with a first convex rib (152), and the first convex rib (152) is abutted with the other one of the stop flange (151) and the mounting wall (13);

And/or, a second convex rib (153) is arranged on one of the outer circumferential wall of the guide disc (15) and the hole wall of the guide hole (120), and the second convex rib (153) is abutted with the other one of the outer circumferential wall of the guide disc (15) and the hole wall of the guide hole (120).

6. The remote control of claim 3, wherein the remote control comprises a remote control unit,

a weight plate (14) is also arranged on the inner surface of the cover end wall (111); and/or, a limit flange (125) is arranged on the side wall (122) of the box body, and the limit flange (125) is configured to be abutted with the end part of the side wall (112) of the cover so as to limit the distance of relative movement between the box cover and the box body.

7. The remote control according to any one of claims 1 to 6, wherein,

the remote control (100) further comprises a direction sensor (22) arranged in the remote control body (10); the direction sensor (22) is configured to: transmitting a first output signal to the control module (30) when the remote control (100) is in a first posture; transmitting a second output signal to the control module (30) when the remote control (100) is in a second posture;

wherein the electronic device comprises a lamp and a metronome (40), the control module (30) being configured to:

If the first output signal is received and the relative movement between the first body (11) and the second body (12) is detected, the lamp is controlled to be switched to the working state or the working state is controlled to be switched off; if the lamp is in a working state and relative rotation between the first body (11) and the second body (12) is detected, controlling the lamp to execute a first function;

if the second output signal is received and the relative movement between the first body (11) and the second body (12) is detected, the metronome (40) is controlled to be switched to a working state or a closed working state; and if the metronome (40) is in an operating state and the relative rotation between the first body (11) and the second body (12) is detected, controlling the metronome (40) to execute a first function.

8. The remote control of claim 7, wherein the remote control comprises a remote control unit,

the direction sensor (22) comprises a second circuit board (220), and a first ball switch (221) and a second ball switch (222) which are respectively arranged on two opposite surfaces of the second circuit board (220), wherein the thickness direction of the second circuit board (220) is parallel to the height direction (Z) of the remote controller (100); when the remote controller (100) is in the first posture, the first ball switch (221) is positioned on the upper side of the second circuit board (220); when the remote controller (100) is in the second posture, the second ball switch (222) is positioned on the upper side of the second circuit board (220);

And/or the first function of the lamp comprises at least one of scene adjustment, brightness adjustment, color temperature adjustment; the first function of the metronome (40) includes a beat sound output and/or beat display.

9. The remote control of claim 7, wherein the remote control comprises a remote control unit,

the metronome (40) includes a second processor (41) electrically connected to the control module (30), and a display module (42) and a sound output module (43) electrically connected to the second processor (41), the display module (42) configured to display a beat, the sound output module (43) configured to emit a beat;

and/or, the metronome (40) is arranged on the first body (11) or the second body (12).

10. A control system, comprising:

an electronic device;

the remote control (100) according to any one of claims 1 to 9.

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