CN220152668U - Intelligent control equipment - Google Patents

Abstract

The utility model discloses intelligent control equipment, which comprises a face shell, a fixed seat, a power supply assembly, a button switch assembly, a trigger assembly and a control panel assembly, wherein the face shell is arranged on the fixed seat; the surface shell cover is arranged on the fixed seat, and a first opening is formed in the side wall of the surface shell; the power supply assembly and the button switch assembly are both arranged on the fixed seat, and the power supply assembly is provided with a first power supply circuit and a second power supply circuit which are arranged in parallel and are respectively connected to the electric equipment and the control panel assembly; the button switch assembly is connected with the first power supply circuit and comprises a pressing piece; the trigger component is movably arranged on the surface shell and is connected with the button switch component, and an actuating part of the trigger component is exposed from the first opening; the trigger assembly is configured to press the pressing member in an opening direction of the first opening to actuate the push button switch assembly to switch on/off of the first power supply circuit. In the intelligent control equipment disclosed by the utility model, the probability of false triggering of the button switch assembly is low, and the power supply reliability of a circuit in which the button switch assembly is positioned is ensured.

Description

Intelligent control equipment

Technical Field

The utility model relates to the technical field of electrical equipment, in particular to intelligent control equipment.

Background

With the development of intelligent technology, more and more families choose to use intelligent lamps, which greatly promotes the development of intelligent lamps. The intelligent lamp needs to be matched with an intelligent terminal for use, for example, a user can realize on-off control of lamplight and freely adjust the cold and warm color temperature and the color of the lamplight through an APP installed on the terminal.

Since conventional wall switches are used to match with common lamps in the prior home decoration, when a user changes the lamp to an intelligent lamp, the intelligent lamp is usually connected to the conventional wall switch. However, the traditional wall switch is easy to be triggered by mistake, and has no state indication, when the switch is disconnected, the intelligent lamp is powered off, the network cannot be connected, and a control signal sent by the terminal APP cannot be received, so that inconvenience is brought to the use of the intelligent lamp.

Disclosure of Invention

In view of the above, the utility model provides an intelligent control device, which can reduce the probability of false triggering of a control switch of an intelligent lamp and ensure the power supply reliability of a power supply circuit where the control switch is positioned.

The utility model adopts the following technical scheme:

the embodiment of the utility model provides intelligent control equipment, which comprises a face shell, a fixed seat, a power supply component, a button switch component, a trigger component and a control panel component;

the surface shell cover is arranged on the fixed seat, and a first opening is formed in the side wall of the surface shell;

the power supply assembly and the button switch assembly are both arranged on the fixing seat, the power supply assembly is provided with a first power supply circuit and a second power supply circuit which are arranged in parallel, the first power supply circuit is suitable for being connected to electric equipment, and the second power supply circuit is connected with the control panel assembly;

the button switch assembly is connected with the first power supply circuit and comprises a pressing piece;

the trigger component is movably mounted on the surface shell and is connected with the button switch component, and an actuating part of the trigger component is exposed out of the first opening;

the trigger assembly is configured to press the pressing member in an opening direction of the first opening to actuate the push button switch assembly to switch on/off of the first power supply circuit.

Optionally, the trigger assembly comprises an actuating member and a force transmitting member, the actuating portion being located on the actuating member;

the force transmission piece is connected with at least one of the actuating piece and the pressing piece and is used for transmitting the actuating force received by the actuating piece so as to enable the pressing piece to be pressed.

Optionally, the force-transmitting member has a first end connected to the pressing member and a second end located in the direction of movement of the actuating member, the second end being opposite to the first end.

Optionally, the moving direction of the actuating member is the same as the pressed direction of the pressing member;

the force transmission piece is positioned between the actuating piece and the pressing piece and is vertically connected with the pressing piece.

Optionally, the fixing seat comprises a seat body and a cover body, the cover body is covered on the seat body, and a second opening is formed in the cover body;

the button switch assembly is positioned in the base body, and the second end of the force transmission piece extends out of the second opening, and the second end is the end, away from the pressing piece, of the force transmission piece.

Optionally, a third opening is formed in a shell wall of the face shell, which is connected with the fixing seat;

the second end of the force transmission piece extends into the surface shell from the third opening and is positioned in the moving-in direction of the actuating piece;

the force transmission piece and a first inner side wall on the face shell are provided with a distance, wherein the first inner side wall is used for forming the third opening and is positioned on the inner side wall of the force transmission piece, which is far away from the actuating piece.

Optionally, a limiting member is disposed on the face shell, and the limiting member is used for limiting the moving distance of the actuating member and the force transmission member.

Optionally, the limiting piece is a limiting convex rib;

the limiting convex rib is positioned on one side, away from the actuating piece, of the force transmission piece, and is separated from the force transmission piece, and the limiting convex rib is connected with the inner wall of the face shell.

Optionally, the limit rib is exposed to the third opening, and a distance between the limit rib and the second inner side wall of the face case is smaller than a distance between the first inner side wall and the second inner side wall of the face case in a direction parallel to a moving-in direction of the actuating member;

wherein the second inner sidewall is used to form the third opening and is opposite to the first inner sidewall.

Optionally, the actuating member is an operation button, and the operation button is located in the first opening;

the trigger assembly further comprises an elastic piece, wherein the elastic piece is used for applying elastic force to the operation button, and the direction of the elastic force is opposite to the moving direction of the operation button;

the operation button is provided with a limiting part, and the limiting part is positioned in the face shell and props against the edge of the first opening so as to prevent the operation button from reversely separating from the first opening under the action of elastic force.

Optionally, the trigger assembly further comprises a push rod piece and a support piece;

one end of the pushing rod piece is connected with the operation button, and the other end extends towards the force transmission piece;

the support piece is positioned in the moving direction of the operation button and is arranged at intervals with the operation button, the support piece is provided with an avoidance opening, and the push rod piece passes through the avoidance opening;

the elastic piece is a compression spring, the compression spring is sleeved on the push rod piece, one end of the compression spring abuts against the operation button, and the other end of the compression spring abuts against the supporting piece.

Optionally, the control panel assembly includes a key panel and a control circuit board;

the key panel is connected with one side of the panel shell, which is far away from the fixed seat;

the control circuit board is arranged in the panel shell and is electrically connected with the second power supply circuit, and the control circuit board is provided with at least one micro switch which is connected with the key panel.

In the intelligent control device provided by the embodiment of the utility model, the power supply assembly comprises a first power supply circuit and a second power supply circuit which are arranged in parallel and are used for supplying power to electric equipment and the control panel assembly respectively. The side wall of the face cover is provided with a first opening, an actuating part of the trigger assembly is exposed from the first opening, and when external force is applied to the actuating part, the trigger assembly is actuated to press a pressing piece of the button switch assembly along the opening direction of the first opening. The button switch assembly is connected with the first power supply circuit of the power supply assembly, so that the button switch assembly can switch on and off of the first power supply circuit after the pressing piece is pressed. The actuating part of the triggering component is exposed on the side wall of the face shell and is not arranged on the panel side of the face shell, so that after the intelligent control device is installed, the actuating part on the side wall of the face shell is not easy to trigger by mistake, the probability of false triggering of the button switch component is further reduced, the power supply reliability of the first power supply circuit is ensured, and the second power supply circuit is independent of the first power supply circuit, so that the first power supply circuit cannot influence the power-on condition of the control panel component after power-off.

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 apparent that the drawings in the following description are only 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 view of an intelligent control device according to an embodiment of the present utility model;

FIG. 2 is an exploded view of a first partial structure of an intelligent control device according to an embodiment of the present utility model;

FIG. 3 is a first partial sectional view of an intelligent control device according to an embodiment of the present utility model;

FIG. 4 is a second partial sectional view of an intelligent control device according to an embodiment of the present utility model;

FIG. 5 is a (cross-sectional) exploded view of an intelligent control device provided by an embodiment of the present utility model;

FIG. 6 is a schematic view of the back structure of a face shell according to an embodiment of the present utility model;

FIG. 7 is an assembled schematic view of a trigger assembly according to an embodiment of the present utility model;

fig. 8 is an exploded view of a second partial structure of an intelligent control device according to an embodiment of the present utility model.

Reference numerals:

1. a face shell; 11. a sidewall; 12. a first opening; 13. a third opening; 14. a first inner sidewall; 15. a second inner sidewall; 16. a limiting piece;

2. a fixing seat; 21. a base; 22. a cover body; 221. a second opening;

3. a power supply assembly; 31. a first power supply circuit; 32. a second power supply circuit;

4. a push button switch assembly; 41. a pressing member;

5. a trigger assembly; 51. an actuator; 511. operating a button; 5111. a limit part; 52. a force transmitting member; 521. a first end; 522. a second end; 53. an elastic member; 54. a pushing rod piece; 55. a support; 551. an avoidance opening;

6. a control panel assembly; 61. a key panel; 62. a control circuit board; 63. and a micro-switch.

Detailed Description

In order to make the technical scheme and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail with reference to the accompanying drawings.

Fig. 1 is a schematic structural diagram of an intelligent control device according to an embodiment of the present utility model. As shown in fig. 1, the intelligent control device comprises a face shell 1, a fixing seat 2, a power supply assembly 3, a button switch assembly 4, a trigger assembly 5 and a control panel assembly 6. The face shell 1 is arranged on the fixed seat 2 in a covering manner, and a first opening 12 is formed in the side wall 11 of the face shell 1; the power supply assembly 3 and the button switch assembly 4 are both arranged on the fixed seat 2, the power supply assembly 3 is provided with a first power supply circuit 31 and a second power supply circuit 32, the first power supply circuit 31 is suitable for being connected to electric equipment, and the second power supply circuit 32 is connected with the control panel assembly 6; the push button switch assembly 4 is connected to the first power supply circuit 31, and the push button switch assembly 4 includes a push piece 41. The trigger assembly 5 is movably mounted on the face shell 1 and is connected with the button switch assembly 4, and an actuating part of the trigger assembly 5 is exposed from the first opening 12; the trigger assembly 5 is configured to press the pressing piece 41 in the opening direction of the first opening 12 to actuate the push button switch assembly 4 to switch the on-off of the first power supply circuit 31.

In the intelligent control device provided by the embodiment of the utility model, the power supply assembly 3 comprises a first power supply circuit 31 and a second power supply circuit 32 which are arranged in parallel and are used for respectively supplying power to electric equipment and the control panel assembly 6; the side wall 11 of the face shell 1 is provided with a first opening 12, and an actuating part of the trigger assembly 5 is exposed from the first opening 12; when an external force is applied to the actuation portion, the trigger assembly 5 is actuated to press the push piece 41 of the push button switch assembly 4 in the opening direction of the first opening 12. Since the push button switch assembly 4 can control the on-off of the first power supply circuit 31, the push piece 41 can switch the on-off state of the first power supply circuit 31 when being pressed. The actuating part is exposed on the side wall 11 of the face shell 1 and is not arranged on the panel side of the face shell 1, so that after the intelligent control device is installed, the actuating part on the side wall 11 of the face shell 1 is not easy to trigger by mistake, the probability of the false triggering of the button switch assembly 4 is further reduced, and the power supply reliability of the first power supply circuit 31 is ensured.

In the embodiment of the present utility model, the control panel assembly 6 may be, for example, a scene panel, a control screen, a gateway, a dimmer switch, or a functional panel assembly having a control function. In some embodiments of the present utility model, as shown in fig. 8, the control panel assembly 6 includes a key panel 61 and a control circuit board 62, the key panel 61 is connected to a side of the panel 1 away from the fixing base 2, the control circuit board 62 is installed in the panel 1 and is electrically connected to the second power supply circuit 32, the control circuit board 62 has at least one micro switch 63, and the micro switch 63 is correspondingly connected to a key on the key panel 61.

As shown in fig. 2, the power supply assembly 3 has a first power supply circuit 31 and a second power supply circuit 32 arranged in parallel, respectively indicated by two different broken lines in the figure. The first power supply circuit 31 has an input port and a first output port, and the second power supply circuit 32 has an input port and a second output port. The input port of the first power supply circuit 31 and the input port of the second power supply circuit 32 may be the same or different. As shown in fig. 2, the input ports may include a neutral input port N and a fire line input port L, the first output port may be an output pin, and the second output port may include fire line output ports L1, L2, and L3.

The first power supply circuit 31 may be a strong power supply circuit, and the second power supply circuit 32 may be a weak power supply circuit. The first power supply circuit 31 may be connected to a powered device, such as a light fixture, a household appliance, etc., through a first output port; the second power supply circuit 32 may be connected to the control circuit board 62 of the control panel assembly 6 through a second output port.

The control panel assembly 6 further comprises a key panel 61, as shown in fig. 2, the key panel 61 having at least one key, and each key being for receiving a control instruction input by a user. The key panel 61 is mounted on the panel side of the face case 1, that is, the side of the face case 1 away from the fixing base 2, the panel side of the face case 1 being adjacent to the side wall 11 of the face case 1. When the control panel assembly 6 is a scene panel, at least one micro switch 63 is disposed on the control circuit board 62 of the scene panel, and at least one key of the key panel 61 is correspondingly connected to the at least one micro switch 63, so that a user can trigger the micro switch 63 to perform a corresponding control action, such as an on-off control action, by actuating a key on the key panel 61.

Therefore, after the intelligent control device provided by the embodiment of the utility model is installed, the panel side facing to the user is the key panel 61 of the scene panel, and the button switch assembly 4 for controlling the on-off of the intelligent lamp is arranged on the side wall 11 of the panel shell 1, so that a certain hiding effect is achieved visually, the intelligent control device is not easy to trigger by mistake, and the power-on reliability of the electric equipment connected to the first power supply circuit 31 is ensured.

In the embodiment of the present utility model, the trigger assembly 5 can move parallel to the opening direction of the first opening 12, and press the push button switch assembly 4, so as to actuate the push button switch assembly 4 to be turned on or off, and further control the first power supply circuit 31 to be turned on or off.

In some embodiments of the utility model, as shown in fig. 2, the trigger assembly 5 comprises an actuating member 51 and a force transmitting member 52, the actuating portion being located on the actuating member 51; the force transmitting member 52 is connected to at least one of the actuator 51 and the pressing member 41, and the force transmitting member 52 is configured to transmit the actuation force received by the actuator 51 so that the pressing member 41 is pressed.

The button switch is a switch which uses a button to push a transmission mechanism, enables a movable contact to be pressed on or off with a static contact and realizes circuit switching, and common button switches comprise a self-locking switch, a self-resetting switch and the like. In the embodiment of the utility model, a push button switch is taken as a self-locking switch as an example, and the matching structure of each part of intelligent control equipment is introduced. Wherein, the self-locking switch is provided with a pressing piece 41 for receiving pressing, when the pressing piece 41 is pressed once, the pressing piece 41 moves a certain distance and keeps at the position (namely self-locking), and the self-locking switch is conducted; when the presser 41 is pressed again, the presser 41 rebounds and returns to the position before being pressed last time (i.e., unlocked), and the self-locking switch is turned off.

The trigger assembly 5 may receive external actuation through the actuating member 51 and then transmit the actuation force to the push button switch by means of the force transmitting member 52, so that the push piece 41 of the push button switch is pressed under the action of the actuation force to perform self-locking or unlocking, thereby switching on or off the first power supply circuit 31.

Wherein the force-transmitting member 52 is located in the direction of movement of the actuating member 51. In practice, the force-transmitting member 52 may be connected to or in contact with the actuating member 51, the actuating member 51 being moved simultaneously with the force-transmitting member 52 in the direction of movement; alternatively, a gap may be provided between the force transmission member 52 and the actuator member 51, and the actuator member 51 is moved in the moving direction by a distance to contact the force transmission member 52, and then the force transmission member 52 is actuated to move in the moving direction.

In some embodiments of the present utility model, as shown in FIG. 3, a first end 521 of the force-transmitting member 52 is coupled to the push member 41, and a second end 522 is positioned in the direction of advancement of the actuating member 51, with the second end 522 being opposite the first end 521.

It should be noted that, although the actuator 51 actuates the force transmitting member 52 and thus actuates the pressing member 41 to be pressed when moved in, this does not mean that the moving direction of the actuator 51 and the pressed direction of the pressing member 41 are the same. In fact, the direction of movement of the actuator 51 and the direction in which the presser 41 is pressed may be the same or different, as long as movement of the actuator 51 causes the presser 41 to be pressed.

In some embodiments, as shown in fig. 3, the moving direction of the actuating member 51 is the same as the pressed direction of the pressing member 41; the force transmitting member 52 is located between the actuating member 51 and the pressing member 41 and is vertically connected to the pressing member 41.

In the direction of movement of the actuating member 51, there is a distance between the actuating member 51 and the pressing member 41. The force transmission member 52 is disposed between the actuating member 51 and the pressing member 41, and when the actuating member 51 moves in, the force transmission member 52 is actuated to move in the same direction synchronously, and the pressing member 41 connected to the force transmission member 52 also moves in the same direction, and the same effect as that of the pressing member 41 being pressed can be achieved because the moving direction of the pressing member 41 is the same as that of the pressing member being pressed.

In some embodiments of the present utility model, as shown in fig. 4, the fixing base 2 includes a base 21 and a cover 22, the cover 22 is disposed on the base 21, and a second opening 221 is formed in the cover 22. The push button switch assembly 4 is located inside the housing 21 and the second end 522 of the force transmitting member 52 protrudes from the second opening 221, the second end 522 being the end of the force transmitting member 52 remote from the push member 41.

As shown in fig. 3 and 4, the body 21 of the fixing base 2 has a hollow inner cavity capable of accommodating the power supply assembly 3 and the push button switch assembly 4. The cover 22 is arranged at the opening end of the seat 21 to seal the battery assembly and the button switch assembly 4 in the seat 21, so that the accidental damage probability of the battery assembly and the button switch assembly 4 is reduced. The cover 22 is provided with a second opening 221, the opening direction of the second opening 221 faces the face housing 1, and the second opening 221 is used for communicating the inside and the outside of the base 21. The first end 521 of the force-transmitting member 52 extends from the second opening 221 into the housing 21 and is connected to the push-piece 41 of the push-button switch assembly 4, and the second end 522 of the force-transmitting member 52 is located outside the fixed seat 2 for cooperation with the actuating member 51 mounted on the face-piece 1.

Wherein the second opening 221 has an extension in the direction of movement of the actuating member 51, the actuating member 51 is capable of actuating the force transmitting member 52 to move in the second opening 221, and the edge of the second opening 221 does not form a barrier for the force transmitting member 52 during the self-locking and unlocking of the push button switch actuated by the force transmitting member 52.

Alternatively, the force-transmitting member 52 has a maximum moving-in distance that can be defined by a third inner side wall of the cover 22, which is an inner side wall for forming the second opening 221 and which is located in the moving-in direction of the force-transmitting member 52. When the force-transmitting member 52 moves into this maximum movement distance, the force-transmitting member 52 contacts the third inner side wall. The maximum displacement distance of the force-transmitting member 52 can be determined based on the maximum pressed distance of the push-button member 41.

In some embodiments, as shown in fig. 5, a third opening 13 is formed in a wall of the face shell 1 connected to the fixing seat 2, and a second end 522 of the force transmission member 52 extends into the face shell 1 from the third opening 13 and is located in a moving direction of the actuating member 51; there is a distance between the force-transmitting member 52 and the first inner side wall 14 of the face-piece 1, the first inner side wall 14 being the inner side wall for forming the third opening 13 and being located on the side of the force-transmitting member 52 remote from the actuating member 51.

The actuator 51 is mounted on the face-piece 1, with its actuating portion exposed in the first opening 12 and the remaining portion located inside the face-piece 1. The third opening 13 is for communicating the inside and the outside of the face housing 1. When the fixing seat 2 and the face-piece 1 are assembled, the second end 522 of the force-transmitting member 52 can extend from the third opening 13 into the interior of the face-piece 1 and be positioned in the moving direction of the actuating member 51 to cooperate with the actuating member 51 to receive the actuating force.

The second opening 221 and the third opening 13 may be disposed opposite to each other. Wherein the third opening 13 also has an extension length in the direction of movement of the actuator 51, which extension length is defined by the first inner side wall 14 and the second inner side wall 15 of the face housing 1, the first inner side wall 14 and the second inner side wall 15 being oppositely arranged in the direction of movement of the actuator 51. The first inner side wall 14 is spaced from the non-actuated transmission member, and the actuating member 51 can actuate the force-transmitting member 52 to move in the third opening 13 to approach the first inner side wall 14, so that the first inner side wall 14 does not block the force-transmitting member 52 during the self-locking and unlocking of the push button switch assembly 4 actuated by the force-transmitting member 52.

Alternatively, the force transfer member 52 has a maximum travel distance that may be defined by the first inner sidewall 14. When the force transfer member 52 moves into this maximum travel distance, the force transfer member 52 contacts the first inner sidewall 14. The maximum displacement distance of the force-transmitting member 52 can be determined based on the maximum pressed distance of the push-button member 41.

In some embodiments, the face housing 1 is provided with a limiting member 16, and the limiting member 16 is used to limit the moving distance of the actuating member 51 and the force transmitting member 52.

The stop 16 serves to prevent excessive movement of the actuator 51 and the force-transmitting member 52, resulting in damage to the push button switch. Illustratively, the limiting member 16 may be the third inner side wall of the cover 22, the first inner side wall 14 of the face cover, or other structures.

Alternatively, as shown in fig. 5, the limiting member 16 is a limiting rib, which is located on the side of the force transfer member 52 facing away from the actuating member 51 and is spaced from the force transfer member 52, and which is connected to the inner wall of the face housing 1.

The limit bead is located in the direction of movement of the force-transmitting member 52. When the user presses the actuating portion of the actuating member 51 to actuate the force-transmitting member 52 to move, the force-transmitting member 52 approaches the limiting rib under the action of the actuating force until the force-transmitting member abuts against the limiting rib, and at this time, the force-transmitting member 52 cannot move continuously. In this case, the limit bead defines the maximum displacement distance of the force-transmitting member 52.

In some embodiments, with the force transfer member 52 unactuated, the distance between the first inner side wall 14 of the face cover and the force transfer member 52 is equal to the distance between the third inner side wall of the cover 22 and the force transfer member 52, and is equal to the distance between the spacing bead and the force transfer member 52, in the direction of movement of the actuating member 51.

In some embodiments of the present utility model, the spacing rib is exposed at the third opening 13, and the distance between the spacing rib and the second inner side wall 15 of the face-piece 1 is smaller than the distance between the first inner side wall 14 and the second inner side wall 15 of the face-piece 1 in the direction parallel to the moving-in direction of the actuating member 51. Wherein the second inner sidewall 15 is used to form the third opening 13 and is opposite to the first inner sidewall 14.

In this case, the stop bead is closer to the force-transmitting member 52 than the first inner side wall 14 of the face housing 1. At this point, the maximum travel distance of the force transfer member 52 is defined by the spacing bead and there is a distance between the force transfer member 52 and the first inner side wall 14 when the force transfer member 52 moves into contact with the spacing bead.

As shown in fig. 6, since the stopper rib is exposed from the third opening 13, the user can directly see the position of the stopper rib from the outside of the face housing 1. When the face shell 1 and the fixing base 2 are assembled, the second end 522 of the force transmission piece 52 can extend into the space between the actuating piece 51 and the limiting convex rib, so that the alignment accuracy during assembly is ensured.

In the embodiment of the present utility model, the actuator 51 may also be automatically restored to the advanced position after the external force is removed.

As shown in fig. 7, the actuator 51 may be an operation button 511, and the operation button 511 is located in the first opening 12; the triggering component 5 may further include an elastic member 53, where the elastic member 53 is used to apply an elastic force to the operation button 511, and the direction of the elastic force is opposite to the moving direction of the operation button 511; the operation button 511 has a limiting portion 5111, and the limiting portion 5111 is located in the face shell 1 and abuts against the edge of the first opening 12, so as to prevent the operation button 511 from being reversely separated from the first opening 12 under the action of elastic force.

The elastic member 53 always applies an elastic force in a direction opposite to the moving-in direction to the operation button 511. The operation button 511 has a movement tendency opposite to the moving direction due to the elastic force when no external force is applied thereto, but since the limit portion 5111 is provided on the operation button 511, the limit portion 5111 abuts against the edge of the first opening 12, preventing the operation button 511 from being reversely pulled out from the first opening 12. Wherein the reverse direction refers to a direction opposite to the moving-in direction.

When the external force applied to the operation button 511 is greater than the elastic force, the operation button 511 moves in under the actuation of the external force, and the button switch is actuated to be turned on or off by the force transmitting member 52. When the external force is removed, the operation button 511 moves reversely under the action of the elastic force until the limit portion 5111 abuts against the edge of the first opening 12, so that the operation button 511 returns to the advanced position.

In some embodiments of the present utility model, as shown in fig. 6 and 7, the trigger assembly 5 further comprises a pusher member 54 and a support member 55; one end of the push rod piece 54 is connected to the operation button 511, and the other end extends toward the force transmitting piece 52; the supporting member 55 is located in the moving direction of the operation button 511 and is arranged at intervals from the operation button 511, the supporting member 55 is provided with an avoidance opening 551, and the push rod member 54 passes through the avoidance opening 551; the elastic member 53 is a compression spring, which is sleeved on the push rod member 54, and has one end abutting against the operation button 511 and the other end abutting against the support member 55.

The push rod member 54 is used to mount a compression spring and to transmit an actuation force to the force transmitting member 52. As shown in fig. 7, the push rod member 54 is connected to the operation button 511, and the operation button 511 has a mounting groove at an end near the force transmitting member 52, the mounting groove being open toward the force transmitting member 52, and one end of the push rod member 54 being inserted into the mounting groove to be engaged.

Alternatively, the other end of the push rod member 54 extends in the direction of the stopper rib to be exposed from the third opening 13, as shown in fig. 6. Wherein a gap is provided between the push rod and the stop bead for receiving the force-transmitting member 52. When the face shell 1 and the fixed seat 2 are assembled, the second end 522 of the force transmission piece 52 is extended between the push rod and the limiting convex rib, and then the face shell 1 and the fixed seat 2 are connected together. In a state of not receiving an external force, a first interval is formed between the force transmission piece 52 and the push rod piece 54, and a second interval is formed between the force transmission piece 52 and the limiting ribs. Optionally, the second interval is greater than the first interval.

A support 55 is provided on the inner wall of the face housing 1, the support 55 being for mounting a compression spring. Since the support member 55 is located in the moving direction of the operation button 511, the extension and the moving of the push rod member 54 are blocked, and thus, the support member 55 is provided with the escape opening 551, and the push rod member 54 passes through the escape opening 551. As shown in fig. 7, the relief opening 551 may alternatively extend to the edge of the support 55 remote from the inner wall of the face cover.

The elastic member 53 may be a compression spring which is sleeved on the outside of the push rod member 54, and both ends of which are respectively abutted against the operation button 511 and the support member 55, thereby providing the operation button 511 with an elastic force for moving it away from the support member 55 in a direction opposite to the moving-in direction of the operation button 511.

In summary, in the intelligent control device provided by the embodiment of the present utility model, the power supply assembly 3 has the first power supply circuit 31 and the second power supply circuit 32 that are arranged in parallel, where the first power supply circuit 31 is connected with the button switch, and the button switch can control the on-off of the first power supply circuit 31. The pressing member 41 of the push button switch can be pressed by the triggering component 5, wherein the actuating member 51 of the triggering component 5 is provided with an actuating part exposed from the side wall 11 of the face shell 1, a user can apply a pressing force to the actuating part to enable the actuating member 51 to move into the face shell 1, then the pressing force is transmitted to the force transmitting member 52 by the actuating member 51 and further transmitted to the pressing member 41 by the force transmitting member 52, so that the pressing member 41 achieves the pressed effect, and after the pressing member 41 is pressed, the moving contact and the fixed contact of the push button switch can be driven to be conducted or separated, and the first power supply circuit 31 can be conducted or separated.

Because the actuating part of the triggering component 5 is exposed on the side wall 11 of the face shell 1 and is not arranged on the panel side of the face shell 1, the probability of false triggering of the button switch component 4 is reduced, and the electric equipment connected to the power supply component 3 can be always kept in an on-line state.

In the intelligent control device provided by the embodiment of the utility model, the first power supply circuit 31 in the power supply assembly 3 is suitable for being connected to electric equipment, and the second power supply circuit 32 is suitable for being connected to the control panel assembly 6. Because the first power supply circuit 31 and the second power supply circuit 32 are in parallel connection, when the electric equipment connected to the first power supply circuit 31 needs to be controlled to be on-off, the power-on condition of the control panel assembly 6 connected to the second power supply circuit 32 is not affected. For example, in a scene light control scene, the intelligent non-main lamp can be connected to the first power supply circuit 31, and the scene panel is connected to the second power supply circuit 32, and if the intelligent non-main lamp is turned off through the button switch assembly 4, normal power supply of the scene panel is not affected, so that normal use of the intelligent panel is ensured. Compared with the scheme that control switch products are needed to be respectively configured for the intelligent main-free lamp and the scene panel in the related art so as to respectively control the on-off of the intelligent main-free lamp and the scene panel, the cost is lower, and the occupied arrangement space is smaller.

In the present utility model, it should be understood that the terms "first," "second," "third," 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 features being indicated.

The foregoing description is only for the convenience of those skilled in the art to understand the technical solution of the present utility model, and is not intended to limit the present utility model. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (12)

1. The intelligent control equipment is characterized by comprising a face shell (1), a fixing seat (2), a power supply assembly (3), a button switch assembly (4), a trigger assembly (5) and a control panel assembly (6);

the face shell (1) is arranged on the fixed seat (2) in a covering mode, and a first opening (12) is formed in the side wall (11) of the face shell (1);

the power supply assembly (3) and the button switch assembly (4) are both arranged on the fixing seat (2), the power supply assembly (3) is provided with a first power supply circuit (31) and a second power supply circuit (32) which are arranged in parallel, the first power supply circuit (31) is suitable for being connected to electric equipment, and the second power supply circuit (32) is connected with the control panel assembly (6);

the button switch assembly (4) is connected with the first power supply circuit (31), and the button switch assembly (4) comprises a pressing piece (41);

the trigger assembly (5) is movably mounted on the face shell (1) and is connected with the button switch assembly (4), and an actuating part of the trigger assembly (5) is exposed out of the first opening (12);

the trigger assembly (5) is configured to press the pressing member (41) in an opening direction of the first opening (12) to actuate the push button switch assembly (4) to switch on and off of the first power supply circuit (31).

2. Intelligent control device according to claim 1, characterized in that the triggering assembly (5) comprises an actuating member (51) and a force transmitting member (52), the actuating portion being located on the actuating member (51);

the force transmission member (52) is connected with at least one of the actuating member (51) and the pressing member (41), and the force transmission member (52) is used for transmitting an actuating force received by the actuating member (51) so that the pressing member (41) is pressed.

3. Intelligent control device according to claim 2, characterized in that a first end (521) of the force-transmitting element (52) is connected to the pressing element (41), a second end (522) being located in the direction of displacement of the actuating element (51), the second end (522) being opposite the first end (521).

4. A smart control device according to claim 3, characterized in that the direction of movement of the actuating member (51) is the same as the direction in which the pressing member (41) is pressed;

the force transmission piece (52) is positioned between the actuating piece (51) and the pressing piece (41) and is vertically connected with the pressing piece (41).

5. The intelligent control device according to any one of claims 2-4, wherein the fixing base (2) comprises a base body (21) and a cover body (22), the cover body (22) is arranged on the base body (21) in a covering manner, and a second opening (221) is formed in the cover body (22);

the push button switch assembly (4) is located inside the base (21), and a second end (522) of the force transmission member (52) protrudes from the second opening (221), and the second end (522) is an end of the force transmission member (52) away from the pressing member (41).

6. The intelligent control device according to claim 5, characterized in that a third opening (13) is formed in a wall of the face shell (1) connected with the fixing seat (2);

the second end (522) of the force-transmitting element (52) protrudes from the third opening (13) into the interior of the face housing (1) and is located in the direction of displacement of the actuating element (51);

the force transmission piece (52) and a first inner side wall (14) on the face shell (1) are provided with a distance, the first inner side wall (14) is used for forming the third opening (13), and the inner side wall is located on the side, away from the actuating piece (51), of the force transmission piece (52).

7. The intelligent control device according to claim 6, characterized in that a limiting member (16) is provided on the face housing (1), the limiting member (16) being used for limiting the moving distance of the actuating member (51) and the force transmitting member (52).

8. The intelligent control device according to claim 7, characterized in that the limiting element (16) is a limiting bead;

the limiting convex rib is positioned on one side, away from the actuating piece (51), of the force transmission piece (52), a distance is reserved between the limiting convex rib and the force transmission piece (52), and the limiting convex rib is connected with the inner wall of the face shell (1).

9. The intelligent control device according to claim 8, characterized in that the limit bead is exposed to the third opening (13) and that the distance between the limit bead and the second inner side wall (15) of the face-piece (1) is smaller than the distance between the first inner side wall (14) and the second inner side wall (15) of the face-piece (1) in a direction parallel to the direction of movement of the actuating member (51);

wherein the second inner side wall (15) is for forming the third opening (13) and is opposite to the first inner side wall (14).

10. Intelligent control device according to claim 2, characterized in that the actuation member (51) is an operating button (511), the operating button (511) being located within the first opening (12);

the trigger assembly (5) further comprises an elastic piece (53), wherein the elastic piece (53) is used for applying elastic force to the operation button (511), and the direction of the elastic force is opposite to the moving-in direction of the operation button (511);

the operation button (511) is provided with a limiting part (5111), and the limiting part (5111) is positioned in the face shell (1) and abuts against the edge of the first opening (12) so as to prevent the operation button (511) from reversely separating from the first opening (12) under the action of elasticity.

11. The intelligent control device according to claim 10, characterized in that the triggering assembly (5) further comprises a pusher member (54) and a support member (55);

one end of the push rod piece (54) is connected with the operation button (511), and the other end extends towards the force transmission piece (52);

the supporting piece (55) is positioned in the moving-in direction of the operation button (511) and is arranged at intervals with the operation button (511), an avoidance opening (551) is formed in the supporting piece (55), and the push rod piece (54) passes through the avoidance opening (551);

the elastic piece (53) is a compression spring, the compression spring is sleeved on the push rod piece (54), one end of the compression spring abuts against the operation button (511), and the other end of the compression spring abuts against the supporting piece (55).

12. The intelligent control device according to claim 1, characterized in that the control panel assembly (6) comprises a key panel (61) and a control circuit board (62);

the key panel (61) is connected with one side of the surface shell (1) far away from the fixed seat (2);

the control circuit board (62) is installed in the panel shell (1) and is electrically connected with the second power supply circuit (32), the control circuit board (62) is provided with at least one micro switch (63), and the micro switch (63) is connected with the key panel (61).