CN216698171U - Intelligent control device - Google Patents

Abstract

The utility model relates to an intelligent control device, which comprises a shell, a driving device, a control assembly, a battery, a rocker and a transmission device, wherein the shell is provided with a plurality of driving devices; the rocker comprises a pressing arm and a pushing arm, and the pressing arm and the pushing arm are fixedly connected and form a certain included angle; the driving device is used for driving the transmission device to move linearly; the motion of the transmission device pushes the rocker to move; the transmission device is hinged with the end part of the pushing arm far away from the pressing arm; a limiting component for stopping the linear motion of the rocker is also arranged in the cavity of the shell; when the rocker abuts against the limiting component, the driving device drives the transmission device to move linearly, and meanwhile, the transmission device pushes the rocker to rotate around the hinged position of the transmission device and the pushing arm; the control assembly is electrically connected with the driving device. The utility model can realize the remote intelligent control of the existing switch by installing the intelligent control device on the existing mechanical switch.

Description

Intelligent control device

Technical Field

The utility model relates to the field of intelligent home furnishing, in particular to an intelligent control device.

Background

In the current intelligent household industry, the control of switch type electric appliances (including switches) needs manual control, and the intelligent switches in the market are simple and cannot be used universally. The remote control of electrical appliances which can not meet the requirements of more switches, for example, the traditional household switch, if the intelligent switch is directly replaced, the process is complex and the cost is high, and the electrical appliances need to be refitted again.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model can provide an intelligent control device for remotely opening and closing a traditional push switch so as to solve the problem that the traditional mechanical switch cannot realize intellectualization.

An intelligent control device comprises a shell, wherein a cavity is formed in the shell, a driving device, a control assembly for receiving a control signal to control the driving device to operate, a battery for supplying power to the control assembly and the driving device, a rocker and a transmission device are arranged in the cavity; the control assembly is electrically connected with the driving device;

the rocker comprises a pressing arm and a pushing arm, and the pressing arm and the pushing arm are fixedly connected and form a certain included angle; the driving device is used for driving the transmission device to move linearly; the motion of the transmission device pushes the rocker to move; the transmission device is hinged with the end part of the pushing arm far away from the pressing arm;

a limiting component for stopping the linear motion of the rocker is also arranged in the cavity of the shell; when the rocker abuts against the limiting component, the driving device drives the transmission device to move linearly, and meanwhile, the transmission device pushes the rocker to rotate around the hinged position of the transmission device and the pushing arm.

The structure realizes that the rocker rotates the press switch after extending out of the shell through the matching of the transmission device and the limiting component, and the action of the rocker is consistent with that of the hand stretching press switch.

On the basis, a rotating groove is formed in the joint of the pressing arm and the pushing arm. This kind of structure can cooperate with stop part, and better realization rocker rotates.

On the basis, the driving device is provided with a driving gear, the transmission device is a transmission rod with transmission teeth, the driving gear is used for driving the transmission device to move linearly, and the linear movement direction is the length direction of the transmission device.

On the basis, the end part of the pressing arm far away from the pushing arm is a pressing part; when the transmission device pushes the rocker to rotate around the hinged position of the transmission device and the pushing arm, at least the pressing part of the pressing arm extends out of the shell.

Further, a first opening for the pressing arm to protrude is formed on the side wall of the housing.

On the basis, the bottom of the transmission device extends to one side far away from the driving gear to form a stopping part; and a pressing block matched with the stopping part for use is arranged in the cavity of the shell and is used for preventing the transmission device from moving along the direction vertical to the linear motion. The structure can limit the transmission device to move along the direction vertical to the linear motion, and can play a role in guiding the motion direction of the transmission device, so that the transmission device is prevented from deviating from the linear motion direction.

On this basis, be provided with the extension spring between transmission and the rocker. When the rocker presses the switch, the linear motion of the transmission device pushes the rocker to rotate, and the tension spring is in a tension state; when the switch is closed, one end of the push arm, which is far away from the press arm, enables the rocker to return to the right under the action of the tension spring, so that the rocker is in the same position and state in the shell before the switch is pressed and after the switch returns.

On the basis, the device further comprises a mounting assembly, wherein the mounting assembly comprises a mounting fixing part and a flexible connecting piece, the mounting fixing part is used for being fixed on the switch to be used, one end of the flexible connecting piece is connected with the mounting fixing part, and the other end of the flexible connecting piece is connected with the rocker.

The device can open and close traditional push type switch through remote control, when the switch is opened to needs: the control assembly receives the signal and transmits the signal to a motor in the driving device, and a motor shaft rotates forwards to drive the driving gear, so that the driving device is driven to move linearly, the rocker is pushed to move linearly, the pressing arm extends out of the first opening of the shell, and the pressing arm and the pushing arm move to the position of the limiting part at the joint; at the moment, the transmission device still keeps linear motion, the rocker is pushed to rotate around the hinged position of the transmission device and the pushing arm, the switch is pressed by one end, extending out of the shell, of the pushing arm, opening of the switch is achieved, and at the moment, the tension spring is in a tension state.

When the switch needs to be closed: the control assembly receives the signal and transmits the signal to a motor in the driving device, and a motor shaft rotates reversely to drive the driving gear so as to pull the driving device to move linearly; the rocker rotates around the hinged position of the push arm and the transmission device to return to the right position under the action of the tension spring and resets under the action of the linear pulling of the transmission device, and at the moment, the flexible connecting piece arranged on the rocker pulls the original switch to reset, so that the switch is closed.

The utility model can realize the remote intelligent control of the existing switch by installing an intelligent control device on the existing mechanical switch. Meanwhile, the intelligent control device is simple in structure, and the mechanical switch can be turned on and off only by one motor.

Drawings

FIG. 1 is a schematic structural diagram of the intelligent control device of the present patent;

FIG. 2 is a schematic diagram of the internal structure of the intelligent control device of the present patent;

FIG. 3 is a schematic diagram of an explosive structure of the intelligent control device of the present patent;

FIG. 4 is a schematic structural view of the rocking lever described in embodiment 1;

FIG. 5 is a schematic view of the structure of the transmission rod described in embodiment 1;

FIG. 6 is a schematic structural view of the mounting assembly described in embodiment 1;

FIG. 7 is a schematic view showing the state of motion when the rocker described in embodiment 1 opens the switch;

fig. 8 is a schematic structural view of an initial state of the intelligent control device described in embodiment 1;

fig. 9 is a schematic structural view of a linear motion state of the intelligent control device described in embodiment 1;

fig. 10 is a schematic structural view showing a state of rotational motion of the intelligent control apparatus described in embodiment 1;

FIG. 11 is a schematic structural view of a rocker arm described in embodiment 2;

fig. 12 is a schematic view of the structure of the rotating groove described in embodiment 3.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Example 1

An intelligent control device is shown in fig. 1-3, and comprises a housing 1, a cavity 1-1 is formed in the housing 1, a driving device 2, a control component 3 for receiving a control signal to control the operation of the driving device 2, a battery 12 for supplying power to the control component 3 and the driving device 2, a rocker 4 and a transmission device 5 are arranged in the cavity 1-1;

the control component 3 is electrically connected with the driving device 2;

as shown in fig. 4, the rocker 4 comprises a pressing arm 4-1 and a pushing arm 4-2, wherein the pressing arm 4-1 and the pushing arm 4-2 are fixedly connected and form a certain included angle; preferably, the pressing arm 4-1 and the pushing arm 4-2 are integrally formed; preferably, the included angle between the pressing arm 4-1 and the pushing arm 4-2 is 90 degrees.

As shown in fig. 2 and 3, the driving device 2 is used for driving the transmission device 5 to move linearly; the linear motion of the transmission device 5 pushes the rocker 4 to move; the transmission device 5 is hinged with the push arm 4-2 at the end part far away from the pressing arm 4-1; specifically, referring to fig. 4 and 5, the pushing arm 4-2 is provided with a first hinge portion 4-4 at the end hinged to the transmission device 5, the transmission device 5 is provided with a second hinge portion 5-2 at the end hinged to the pushing arm 4-2, and the first hinge portion 4-4 and the second hinge portion 5-2 can be connected by a rotating pin 9. The structure pushes the hinged part of the rocker 4 and the transmission device 5 to move linearly while the transmission device 5 moves linearly, thereby driving the whole rocker 4 to move.

As shown in fig. 2-4, a limiting component 6 for stopping the linear motion of the rocker 4 is further disposed in the cavity 1-1 of the housing 1, preferably, the limiting component 6 is a cylinder, two ends of the cylinder are fixed on the housing, and the cylinder of the cylinder is in contact fit with the rocker 4; the end part of the pressing arm 4-1 far away from the pushing arm 4-2 is a pressing part 4-11; after the rocker 4 abuts against the limiting part 6, namely the joint of the pressing arm 4-1 and the pushing arm 4-2 moves to the limiting part 6, at least the pressing part 4-11 of the pressing arm 4-1 extends out of the shell 1, at the moment, the driving device 2 drives the transmission device 5 to continue to move linearly, and the transmission device 5 pushes the rocker 4 to rotate around the hinged part of the transmission device 5 and the pushing arm 4-2. Preferably, a first opening 1-2 for extending the pressing arm 4-1 is formed on a side wall of the housing 1. The height of the pressing part 4-11 is less than the height of the first opening 1-2 of the shell 1.

The structure can realize that the rocker 4 rotates to press the switch after extending out of the shell 1 through remote control.

On the basis, as shown in fig. 4, a rotating groove 4-3 is arranged at the joint of the pressing arm 4-1 and the pushing arm 4-2, and preferably, the inner wall of the rotating groove 4-3 is arc-shaped. This kind of structure can cooperate with stop component 6, better realization rocker 4 rotates.

As a specific scheme, as shown in fig. 2 and fig. 3, the driving device 2 is a motor, a driving gear 10 is arranged on a motor shaft, the transmission device 5 is a transmission rod with transmission teeth, and the length of a rod body of the transmission rod is greater than the width; the driving gear 10 drives the transmission 5 to move linearly, wherein the linear movement direction is the length direction of the transmission 5.

On the basis, as shown in fig. 3 and 5, the bottom of the transmission device 5 extends to the side far away from the driving gear 10 to form a stopping part 5-3; a pressing block 11 matched with the stopping part 5-3 is arranged in the cavity 1-1 of the shell 1, and the pressing block 11 is used for preventing the transmission device 5 from moving along the direction vertical to the linear motion. Preferably, the pressing block 11 and the housing 1 may be fixedly connected in a separated manner or may be integrally formed. The structure can limit the transmission device 5 to move along the direction vertical to the linear motion, and can play a role in guiding the motion direction of the transmission device 5, thereby avoiding the deviation of the transmission device 5 from the linear motion direction.

On the basis, as shown in fig. 2 and 3, a tension spring 7 is arranged between the transmission device 5 and the rocker 4. Specifically, as described with reference to fig. 4 and 5, a first fixing hole 4-5 is formed in one end of the pushing arm 4-2, which is far away from the pressing arm 4-1, a second fixing hole 5-1 is formed in the transmission device 5, and two ends of the tension spring 7 are fixed to the first fixing hole 4-5 and the second fixing hole 5-1, respectively. When the switch is pressed, the rocker 4 rotates around the hinge joint of the transmission device 5 and the push arm 4-2 to enable the tension spring 7 to be in a tension state; when the switch returns, the transmission device 5 pulls the hinged part of the transmission device 5 and the pushing arm 4-2 to move linearly, one end of the pushing arm 4-2 far away from the pressing arm 4-1 rotates to return to the natural state of the tension spring 7 under the action of the tension force of the tension spring 7, and therefore the rocker 4 is in the same position and state in the shell before the switch is pressed and after the switch returns.

On the basis, as shown in fig. 6, the device further comprises a mounting assembly 8, the mounting assembly 8 comprises a mounting fixing portion 8-1 and a flexible connecting member 8-2, the mounting fixing portion is used for being fixed on an existing switch, one end of the flexible connecting member 8-2 is connected with the mounting fixing portion 8-1, the other end of the flexible connecting member 8-2 is connected with the rocker 4, as one mode, a mounting hole is formed in one end, away from the push arm 4-2, of the push arm 4-1 of the rocker 4, the flexible connecting member 8-2 can be a connecting rope, the flexible connecting member 8-2 penetrates through the mounting hole to be fixedly connected with the mounting fixing portion 8-1, and the mounting fixing portion 8-1 is fixed on an existing switch panel in a mode of pasting or sucking discs and the like.

In addition, the control component 3 controls the driving motor to move by receiving a remote signal, wherein the remote signal can be realized by: one or two of infrared, Bluetooth, Wifi, 2G/3G/4G/5G, ZigBee, Zwave, NFC, infrared, NB-IoT, LoRA or 433M wireless modules, and any combination of more than two of the wireless modules. Such as: a remote controller, or a mobile phone remote controller, etc., where the implementation of remote control is a general operation of communication and will not be described in detail.

The use principle is as follows: the device is fixedly installed on the side surface of the existing switch, and the installation fixing part 8-1 is fixed on the switch panel, which is explained by combining with fig. 7-10: fig. 7 is a diagram showing three main movement states of the rocker 4 when the switch is turned on, fig. 8 is an initial state diagram, fig. 7 is a linear movement state diagram, and fig. 8 is a rotational state diagram.

On switch (i.e. press switch): the control component 3 receives signals and transmits the signals to a motor in the driving device 2, a motor shaft rotates forwards to drive the driving gear 10 to rotate, and the driving device 5 is driven to move linearly, so that the hinged part of the rocker 4 and the driving device 5 is pushed to move linearly, the pressing arm 4-1 extends out of the first opening 1-2 of the shell 1, and the joint of the pressing arm 4-1 and the pressing arm 4-2 moves linearly to the position of the limiting part 6 (namely the process from fig. 8 to fig. 9); at this time, the transmission device 5 continues to move linearly, the pushing rocker 4 rotates around the hinge joint of the pushing arm 4-2 and the transmission device 5 (i.e. the process from fig. 9 to fig. 10), so that the pressing part 4-11 presses the switch, and the tension spring 7 is in a tension state.

When the switch is closed (i.e. the switch is returned): the control assembly 3 receives signals and transmits the signals to a motor in the driving device 2, a motor shaft rotates reversely to drive the driving gear 10 to rotate, so that the transmission device 5 is pulled to move linearly, under the action of the tension spring 7, one end, far away from the pressing arm 4-2, of the pushing arm 4-1 of the rocker 4 rotates around the hinged position of the pushing arm 4-2 and the transmission device 5 to enable the rocker 4 to return to the right position, then the rocker 4 is pulled to reset by the linear movement of the transmission device 5, and at the moment, the flexible connecting piece 8-2 arranged on the rocker 4 pulls the existing switch panel to close the switch.

Example 2

On the basis of the embodiment 1, as shown in fig. 11, the end part of the pressing arm 4-1 far away from the pushing arm 4-2 extends to the direction far away from the pushing arm 4-2 to form a pressing part 4-11; the height of the pressing part 4-11 is less than or equal to the height of the first opening 1-2 of the shell 1, and preferably, the height of the pressing part 4-11 is equal to the height of the first opening 1-2 of the shell 1. This configuration requires only a small degree of rotation to push on the switch panel after the push arm 4-1 is extended out of the housing 1, thereby turning on the switch. It should be noted that the relationship between the height of the first opening 1-2 and the height of the pressing portion 4-11 can be designed according to the actual situation, and is not limited to the above form.

Example 3

On the basis of the embodiment 1, as shown in fig. 12, a rotating groove 4-3 is arranged at the joint of the pressing arm 4-1 and the pushing arm 4-2, the rotating groove 4-3 is arranged on the periphery of the pressing arm 4-1 and the pushing arm 4-2, and preferably, the inner wall of the rotating groove 4-3 is arc-shaped. This construction also enables the limiting member 6 to cooperate with, and limit the movement of, the rocker 4. In addition, the rotation groove 4-3 may be provided on the pressing arm 4-1, which will not be described herein.

Although the present invention has been described with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the scope of the present invention.

Claims (8)

1. An intelligent control device comprises a shell (1), wherein a cavity (1-1) is formed in the shell (1), a driving device (2), a control component (3) for receiving a control signal to control the driving device (2) to operate and a rocker (4) are arranged in the cavity (1-1); the method is characterized in that: also comprises a transmission device (5);

the rocker (4) comprises a pressing arm (4-1) and a pushing arm (4-2), and the pressing arm (4-1) and the pushing arm (4-2) are fixedly connected and form a certain included angle;

the driving device (2) is used for driving the transmission device (5) to move linearly; the motion of the transmission device (5) pushes the rocker (4) to move; the transmission device (5) is hinged with the push arm (4-2) at the end part far away from the pressing arm (4-1);

a limiting component (6) for stopping the linear motion of the rocker (4) is also arranged in the cavity (1-1) of the shell (1);

when the rocker (4) abuts against the limiting component (6), the driving device (2) drives the transmission device (5) to move linearly, and meanwhile, the transmission device (5) pushes the rocker (4) to rotate around the hinged position of the transmission device (5) and the push arm (4-2);

the control component (3) is electrically connected with the driving device (2).

2. The intelligent control device according to claim 1, wherein: a rotating groove (4-3) is arranged at the joint of the pressing arm (4-1) and the pushing arm (4-2).

3. The intelligent control device according to claim 1, wherein: the driving device (2) is provided with a driving gear (10), and the driving gear (10) is used for driving the transmission device (5) to move linearly.

4. The intelligent control device according to claim 1, wherein: the end part of the pressing arm (4-1) far away from the pushing arm (4-2) is a pressing part (4-11); when the transmission device (5) pushes the rocker (4) to rotate around the hinged part of the transmission device (5) and the push arm (4-2), at least the pressing part (4-11) of the pressing arm (4-1) extends out of the shell (1).

5. The intelligent control device according to claim 4, wherein: a first opening (1-2) for extending the pressing arm (4-1) is formed on the side wall of the shell (1).

6. The intelligent control device of claim 3, wherein: the bottom of the transmission device (5) extends to one side far away from the driving gear (10) to form a stopping part (5-3); a pressing block (11) matched with the stopping part (5-3) is arranged in the cavity (1-1) of the shell (1), and the pressing block (11) is used for preventing the transmission device (5) from moving along the direction vertical to the linear motion.

7. The intelligent control device of claim 3, wherein: and a tension spring (7) is arranged between the transmission device (5) and the rocker (4).

8. The intelligent control device according to claim 1, wherein: the switch is characterized by further comprising a mounting assembly (8), wherein the mounting assembly (8) comprises a mounting fixing part (8-1) and a flexible connecting piece (8-2), the mounting fixing part is used for being fixed on a switch to be used, one end of the flexible connecting piece (8-2) is connected with the mounting fixing part (8-1), and the other end of the flexible connecting piece is connected with the rocker (4).

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