CN220205658U - Intelligent control equipment - Google Patents

Abstract

The application discloses intelligent control equipment, which comprises a face shell, a fixing seat, a power supply assembly, a switch assembly and a control device; the surface shell cover is arranged on the fixed seat; the power supply assembly is accommodated in the fixing seat and 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 device; the switch assembly is connected with the first power supply circuit and used for switching on and off of the first power supply circuit, and an actuating part of the switch assembly is exposed from the side wall of the face shell. The application discloses intelligent control equipment can solve traditional mechanical switch and be triggered by mistake easily, leads to intelligent lamp outage unable networking controlled problem.

Description

Intelligent control equipment

Technical Field

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

Background

The intelligent lamp can receive control signals of the mobile phone application program end or other control equipment/ports and respond to the control signals to execute the functions of starting, closing, luminous brightness adjustment, luminous color adjustment, luminous mode adjustment and the like, and compared with the traditional lamp, the intelligent lamp has better flexibility.

In the related art, the intelligent lamp is usually used together with a traditional mechanical switch (such as a wall switch), when a button of the mechanical switch is pressed, the switch is turned on, the intelligent lamp is online and networked, and a user can control the intelligent lamp through a mobile phone APP; when the button of the mechanical switch is pressed again, the switch is disconnected, the intelligent lamp is disconnected, the network is disconnected, and a control signal sent by the mobile phone APP cannot be received.

However, because the traditional mechanical switch is easy to be triggered by mistake, the intelligent lamp cannot be guaranteed to be in an on-line and networking state all the time, and the use experience of a user is reduced.

Disclosure of Invention

In view of this, the application provides an intelligent control device, can solve among the related art traditional mechanical switch and be triggered by mistake easily, lead to intelligent lamp outage unable networking controlled problem.

The application adopts the following technical scheme:

the embodiment of the application provides intelligent control equipment, which comprises a face shell, a fixed seat, a power supply assembly, a switch assembly and a control device;

the surface shell cover is arranged on the fixed seat;

the power supply assembly is accommodated in the fixing seat and 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 device;

the switch assembly is connected with the first power supply circuit and used for switching on and off of the first power supply circuit, and an actuating part of the switch assembly is exposed from the side wall of the face shell.

Optionally, the switch assembly comprises a power switch and an actuator;

the power switch is electrically connected to the first power supply circuit and connected to the actuating member;

the actuating piece is arranged on the surface shell and can move relative to the surface shell under the actuation of external force so as to drive the power switch to be turned on or off, and the actuating part is positioned on the actuating piece.

Optionally, the power switch is a dial switch, and the dial switch is provided with a dial key;

the actuating piece is provided with a poking groove which is provided with a first groove wall and a second groove wall, and the first groove wall and the second groove wall are oppositely arranged in the moving direction of the actuating piece;

the dial key of the dial switch is positioned in the dial groove, and the dial key is in contact with at least one of the first groove wall and the second groove wall.

Optionally, the length of the dial slot is greater than or equal to the length of the dial key and less than or equal to the distance between the first dial position and the second dial position;

the length direction is parallel to the moving direction of the actuating piece, the first dialing position is the position of the dialing key when the dialing switch is turned on, and the second dialing position is the position of the dialing key when the dialing switch is turned off.

Optionally, the length of the poking groove is greater than the length of the poking key;

the switch assembly further comprises a limiting piece, one end of the limiting piece is connected with the face shell, the other end of the limiting piece is connected with the actuating piece, and the limiting piece is used for limiting the position of the poking key in the poking groove.

Optionally, a first opening is formed in the side wall of the face shell, and the actuating piece is exposed from the first opening;

the limiting piece has elasticity in the moving direction of the actuating piece, and can enable the actuating piece to be kept at the middle position of the first opening.

Optionally, two first limiting structures are arranged on the face shell, and the two first limiting structures are respectively located at two opposite sides of the actuating piece in the moving direction;

the limiting piece comprises a compression spring, one end of the compression spring abuts against the first limiting structure, and the other end of the compression spring abuts against the actuating piece.

Optionally, the face shell comprises a bottom cover and a mounting frame;

the bottom cover is connected with the fixed seat;

the mounting frame is positioned at one side of the bottom cover away from the fixed seat, a containing space is formed between the bottom cover and the mounting frame, and the actuating piece is positioned in the containing space;

the bottom cover is provided with a second opening, the second opening is communicated with the poking groove, and a poking key of the poking switch penetrates through the second opening.

Optionally, a second limiting structure is disposed on a side, facing the actuating member, of the bottom cover or the mounting frame, and the second limiting structure is used for limiting a moving distance of the actuating member relative to the face shell.

Optionally, the control device comprises a control panel and a control circuit board assembly;

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

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

In the intelligent control device provided by the embodiment of the application, the first power supply circuit of the power supply assembly is used for supplying power to the electric equipment, the second power supply circuit is used for supplying power to the control device, and the first power supply circuit and the second power supply circuit are in parallel connection, so that the first power supply circuit and the second power supply circuit are independent of each other and do not affect each other. The switch assembly is connected to the first power supply circuit, and can control the on-off of the first power supply circuit, wherein the actuating part of the switch assembly is exposed on the side wall of the face shell and is not arranged on the panel side of the face shell, so that the probability of false triggering of the switch assembly is reduced, and further, the condition that electric equipment (such as an intelligent lamp) connected to the first power supply circuit can always keep an electrified and online state under the condition of no power-off requirement is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that 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 application;

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

FIG. 3 is a first assembled schematic view of a switch assembly provided in an embodiment of the present application;

FIG. 4 is a second assembled schematic view of a switch assembly provided in an embodiment of the present application;

FIG. 5 is a third assembled schematic view of a switch assembly provided in an embodiment of the present application;

FIG. 6 is an exploded view of a second partial structure of the intelligent control device provided in an embodiment of the present application;

fig. 7 is a schematic diagram of the positions of the parts of the intelligent control device when the first power supply circuit is in an off state (under the condition of no external force);

FIG. 8 is a schematic diagram of the locations of the various parts of the intelligent control device in the transient state (actuated by external force) in which the first power supply circuit is on;

fig. 9 is a schematic diagram of positions of parts of the intelligent control device when the first power supply circuit is in a conductive state (under the condition of no external force);

fig. 10 is a schematic diagram of the locations of the parts of the intelligent control device in a transient state (actuated by external force) in which the first power supply circuit is disconnected.

Reference numerals:

1. a face shell; 11. a sidewall; 12. a first opening; 13. a first limit structure; 14. a bottom cover; 141. a second opening; 15. a mounting frame; 16. an accommodating space; 17. a second limit structure;

2. a fixing seat;

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

4. a switch assembly; 41. a power switch; 411. a key pulling; 42. an actuator; 421. a toggle groove; 4211. a first groove wall; 4212. a second groove wall; 43. a restriction member;

5. a control panel; 6. a control circuit board assembly; 61. and a micro-switch.

Detailed Description

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

The embodiment of the application provides intelligent control equipment, which can reduce the probability that a switch assembly is triggered by mistake, and further ensure that an intelligent lamp connected to the power assembly can always keep an on-line state.

Fig. 1 is a schematic structural diagram of an intelligent control device according to an embodiment of the present application. As shown in fig. 1, the intelligent control device comprises a face shell 1, a fixing seat 2, a power supply assembly 3, a switch assembly 4 and a control device. The face shell 1 is covered on the fixed seat 2. The power supply assembly 3 is accommodated in the holder 2, the power supply assembly 3 having a first power supply circuit 31 and a second power supply circuit 32 arranged in parallel, the first power supply circuit 31 being adapted to be connected to a consumer and the second power supply circuit 32 being connected to a control device. The switch assembly 4 is connected to the first power supply circuit 31 for switching on and off the first power supply circuit 31, and an actuating portion of the switch assembly 4 is exposed from the side wall 11 of the face housing 1.

In the intelligent control device provided in the embodiment of the present application, the first power supply circuit 31 of the power supply assembly 3 is used for supplying power to the electric device, the second power supply circuit 32 is used for supplying power to the control device, and since the first power supply circuit 31 and the second power supply circuit 32 are in a parallel connection, the first power supply circuit 31 and the second power supply circuit 32 are independent from each other and do not affect each other. The first power supply circuit 31 is also connected with a switch component 4, and the switch component 4 can control the on-off of the first power supply circuit 31, so as to control whether the electric equipment is electrified or not. Wherein, because the actuating portion of the switch assembly 4 is exposed on the side wall 11 of the panel shell 1 and is not arranged on the panel side of the panel shell 1, the probability of false triggering of the switch assembly 4 is reduced, and thus, the electric equipment (such as an intelligent lamp) connected to the first power supply circuit 31 can be always kept in an on-line state under the condition of no power-off requirement.

In this embodiment of the present application, the control device of the intelligent control device may be, for example, a function module or a function device having a control function, such as a scene panel, a control screen, a gateway, a dimmer switch, and the like. In some embodiments of the present application, as shown in fig. 2, the control device may include a control panel 5 and a control circuit board assembly 6, where the control panel 5 is connected to a side of the panel 1 away from the fixing base 2, the control circuit board assembly 6 is installed in the panel 1 and electrically connected to the second power supply circuit 32, and the control circuit board assembly 6 has at least one micro switch 61, and the micro switch 61 is connected to the control panel 5.

In fig. 2, the first power supply circuit 31 and the second power supply circuit 32, which are arranged in parallel in the power supply assembly 3, are respectively indicated by two different broken lines. 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 assembly 6 of the control device through a second output port.

The control means comprises a control panel 5, the control panel 5 being arranged to receive control instructions entered by a user. The control panel 5 is mounted on the panel side of the face housing 1, i.e. the side of the face housing 1 remote from the fixing base 2, the panel side of the face housing 1 being adjacent to the side wall 11 of the face housing 1. When the control device is a scene panel, at least one micro switch 61 is arranged on a control circuit board of the scene panel, and the control panel 5 is connected with the micro switch 61, so that a user can trigger the micro switch 61 to execute on-off control action by actuating the control panel 5.

Therefore, after the intelligent control device provided by the embodiment of the application is installed, the panel side opposite to the user is the control panel 5 of the scene panel, and the 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 some embodiments of the present application, as shown in fig. 1 and 2, the switch assembly 4 includes a power switch 41 and an actuator 42; the power switch 41 is electrically connected to the first power supply circuit 31 and to the actuator 42; the actuating member 42 is mounted on the panel 1 and is movable relative to the panel 1 under the actuation of an external force to turn on or off the power switch 41, and the actuating portion is located on the actuating member 42.

The power switch 41 is electrically connected to the first power supply circuit 31, and the first power supply circuit 31 is in an on state and an off state corresponding to the on and off of the power switch 41, respectively.

The actuator 42 has an actuating portion located outside the face housing 1, and a portion located inside the face housing 1 and mechanically connected to the power switch 41. The user can move the actuator 42 relative to the face housing 1 by operating the actuating portion, thereby bringing the power switch 41 to switch between on and off. Wherein the connection between the actuating member 42 and the power switch 41 is a detachable connection.

In some embodiments of the present application, the power switch 41 is a dial switch having a dial 411. The actuating member 42 is provided with a toggle slot 421, the toggle slot 421 has a first slot wall 4211 and a second slot wall 4212, and the first slot wall 4211 and the second slot wall 4212 are disposed opposite to each other in a moving direction of the actuating member 42. Wherein the dial 411 of the dial switch is located in the dial slot 421, and the dial 411 is in contact with at least one of the first slot wall 4211 and the second slot wall 4212.

The dial switch is an address switch which can be controlled by manual operation and adopts the 0/1 binary coding principle. As shown in fig. 2 and 3, the dial switch may be connected to the power board of the power module 3 and connected to the first power supply circuit 31 on the power board. Two pins are respectively arranged on the upper side and the lower side of the back surface corresponding to the dial key 411 of the dial switch, and when the dial key 411 moves to a dial position where the two pins below are contacted, the dial switch is turned on; when the dial 411 is moved to a dial position separating the lower two pins, the dial switch is turned off.

The actuating member 42 cooperates with the dial 411 of the dial switch through the dial slot 421, so as to drive the dial 411 to move. Wherein, the toggle slot 421 may be a through slot penetrating through the actuating member 42 along the protruding direction of the toggle 411; alternatively, the toggle slot 421 may be a groove formed on a surface of the actuating member 42 adjacent to the toggle 411, the groove opening toward the toggle 411. The dial groove 421 has a first groove wall 4211 and a second groove wall 4212 disposed opposite to each other in a moving direction of the actuating member 42, and the dial 411 contacts at least one of the first groove wall 4211 and the second groove wall 4212, so that when the actuating member 42 is actuated to move, the dial 411 can immediately respond to the movement to switch the dial position.

In some embodiments of the present application, the length of the dial slot 421 is greater than or equal to the length of the dial 411, and is less than or equal to the distance between a first dial position and a second dial position, wherein the direction of the length is parallel to the moving direction of the actuating member 42, the first dial position is the position of the dial 411 when the dial switch is on, and the second dial position is the position of the dial 411 when the dial switch is off.

In some embodiments, the length of the toggle slot 421 may be equal to the length of the toggle 411, at which time the toggle 411 is fully jammed in the toggle slot 421, and the toggle 411 can move synchronously therewith no matter in which direction the actuator 42 moves.

In other embodiments, the length of the dial slot 421 may be greater than the length of the dial key 411, where the dial key 411 is capable of sliding in the dial slot 421. However, the length of the dial slot 421 should not be too long, and should be less than or equal to the distance between the first dial position and the second dial position, otherwise, the actuating member 42 may generate meaningless displacement during the dialing process, which results in excessive space occupation, and the dial 411 cannot respond to the movement of the actuating member 42 in time. Wherein, the distance between the first dialing position and the second dialing position refers to the distance between the sidewall 11 of the dialing key 411, which is far away from the second dialing position when the dialing key 411 is located at the first dialing position, and the sidewall 11 of the dialing key 411, which is far away from the first dialing position when the dialing key 411 is located at the second dialing position.

In some embodiments of the present application, as shown in fig. 3, the length of the dial slot 421 is greater than the length of the dial key 411; the switch assembly 4 further comprises a limiting member 43, one end of the limiting member 43 is connected to the face housing 1, the other end is connected to the actuating member 42, and the limiting member 43 is used for limiting the position of the poking key 411 in the poking groove 421.

The actuator 42 can slide relative to the dial 411 through the dial slot 421, which can result in the dial 411 possibly remaining in any position within the dial slot 421. However, when the dial 411 is at the middle position of the dial slot 421, if the dial 411 is driven by the actuating member 42 to switch the dial position, the actuating member 42 needs to be "idle" for a certain distance to contact the dial 411, and then the dial 411 is driven to move, so that the dial 411 cannot respond to the movement of the actuating member 42 in time. Wherein "blank movement" refers to that during relative movement of the actuating member 42 and the dial 411, the dial 411 is not in contact with either the first groove wall 4211 of the dial slot 421 or the second groove wall 4212 of the dial slot 421 of the actuating member 42.

The restricting member 43 is connected to the face cover and the actuating member 42, respectively, and is capable of restricting the position of the actuating member 42 relative to the face cover. Also, since the dial 411 has a specific first dial position and a specific second dial position, the position of the dial 411 in the dial slot 421 is further restricted.

In some embodiments, the length of the toggle slot 421 may be equal to the distance between the first dial position and the second dial position, and, as shown in fig. 4, the side wall 11 of the face shell 1 is provided with a first opening 12, and the actuating member 42 is exposed from the first opening 12; the restriction member 43 has elasticity in the moving direction of the actuating member 42, and can hold the actuating member 42 at the intermediate position of the first opening 12.

The actuating member 42 is centrally disposed in the first opening 12 without external force, meaning that the toggle slot 421 is now facing the movement path of the toggle 411, and two ends of the toggle slot 421 cover the first and second toggle positions, respectively. No matter which dialing position the dialing key 411 is in, the dialing key can be accurately aligned with the dialing slot 421. It is ensured that the dial 411 can be accurately inserted into the dial slot 421 when the face housing 1 and the fixing base 2 are assembled.

In implementation, as shown in fig. 4, two first limiting structures 13 may be disposed on the face shell 1, where the two first limiting structures 13 are located on opposite sides of the actuating member 42 in the moving direction respectively; the limiting member 43 may comprise a compression spring, one end of which abuts the first limiting structure 13 and the other end abuts the actuating member 42.

The two first limiting structures 13 are disposed opposite to each other in the moving direction of the actuating member 42 and are respectively located at opposite sides of the actuating member 42, and at least one compression spring is disposed between each first limiting structure 13 and the actuating member 42. In the case that the actuating member 42 is not subjected to an external force, the actuating member 42 is located at an intermediate position of the two first limiting structures 13.

Alternatively, the number of compression springs on each side of the actuator 42 is equal, and the stiffness coefficient of each compression spring is the same.

Optionally, the compression spring abuts against a middle portion of the actuator to force balance the portions on the actuator and prevent the actuator from skewing during sliding.

In some embodiments of the present application, as shown in fig. 5, the face housing 1 includes a bottom cover 14 and a mounting bracket 15; the bottom cover 14 is connected with the fixed seat 2; the mounting frame 15 is located at a side of the bottom cover 14 away from the fixing base 2, and a receiving space 16 is formed between the bottom cover 14 and the mounting frame 15, and the actuating member 42 is located in the receiving space 16. The bottom cover 14 is provided with a second opening 141, the second opening 141 is communicated with the toggle slot 421, and a toggle 411 of the toggle switch passes through the second opening 141.

The actuator 42 is sandwiched between the bottom cover 14 and the mounting bracket 15 and is movable relative to the bottom cover 14 and the mounting bracket 15. The toggle groove 421 of the actuating member 42 is exposed from the second opening 141 formed in the bottom cover 14, and the toggle button 411 passes through the second opening 141 and is located in the toggle groove 421.

In some embodiments, as shown in fig. 6, a side of the bottom cover 14 or the mounting frame 15 facing the actuating member 42 is provided with a second limiting structure 17, and the second limiting structure 17 is used to limit the moving distance of the actuating member 42 relative to the panel shell 1.

When the actuating member 42 drives the dial 411 to move to the first dial position, the first outer wall of the actuating member 42 abuts against the first side wall 11 of the second limiting structure 17; when the actuating member 42 drives the dial 411 to move to the second dial position, the second outer wall of the actuating member 42 abuts against the second side wall 11 of the second limiting structure 17. Wherein the first outer wall and the second outer wall are two outer walls of the actuator 42 opposite to each other in the moving direction, and the first side wall 11 and the second side wall 11 are two side walls 11 of the limiting structure opposite to each other in the moving direction.

Alternatively, the second limiting structure 17 may include two limiting members disposed opposite to each other in the moving direction of the actuating member 42, and the two limiting members are located on opposite sides of the actuating member 42, respectively. When the actuating member 42 drives the dial 411 to move to the first dial position, the actuating member 42 abuts against one of the limiting members; when the actuating member 42 drives the dial 411 to move to the second dial position, the actuating member 42 abuts against the other limiting member.

Optionally, a surface of the bottom cover 14 facing the actuating member 42 and/or a surface of the mounting frame 15 facing the base are provided with a limit rib, which abuts against the actuating member 42.

The stop rib serves to stop the actuator 42 between the bottom cover 14 and the mounting bracket 15 such that the actuator 42 does not move back and forth in the direction in which the bottom cover 14 points toward the mounting bracket 15.

Alternatively, the stopper rib may extend in the moving direction of the actuating member 42 to reduce the influence on the sliding smoothness of the actuating member 42 as much as possible.

In summary, in the intelligent control device provided in the embodiment of the present application, the power supply assembly 3 has a first power supply circuit and a second power supply circuit that are arranged in parallel, where the first power supply circuit 31 is connected with the switch assembly 4, and the switch assembly 4 can control the on-off of the first power supply circuit 31. The first power supply circuit 31 is adapted to be connected to a consumer and the second power supply circuit 32 is adapted to be connected to a control device.

Wherein, because the actuating part of the switch component 4 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 switch component 4 is reduced, and the electric equipment connected to the power component 3 is ensured to be always in an on-line state.

In addition, since 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 control device 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 switch component 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.

When the intelligent control device provided by the embodiment of the application is used, the first power supply circuit is correspondingly turned on and off, and the states of all parts of the intelligent control device are shown in fig. 7 to 10.

Fig. 7 shows a schematic diagram of the positions of the parts of the intelligent control device when the first power supply circuit 31 is in an off state and the actuator 42 is not subjected to external force. As shown in the uppermost drawing in fig. 7, in this state, the actuator 42 is located at the intermediate position of the first opening 12; as shown in the middle diagram of fig. 7, in this state, the dial 411 is in contact with the left side wall of the dial slot 421, the actuating member 42 is located at the middle position of the two first limiting structures 13, and the deformation amounts of the compression springs at both sides of the actuating member 42 are the same; as shown in the lowermost drawing in fig. 7, in this state, the dial 411 is located at the second dial position.

Fig. 8 shows a schematic diagram of the positions of the parts of the intelligent control device when the first power supply circuit 31 is turned on and the actuating member 42 is still actuated by an external force. As shown in the uppermost drawing in fig. 8, in this state, the actuator 42 is located at the right end (ON position) of the first opening 12; as shown in the middle drawing of fig. 8, in this state, the dial 411 is in contact with the left side wall of the dial slot 421, the actuating member 42 is closer to the first stopper 13 on the right side, and the compression spring on the right side of the actuating member 42 is compressed, and the compression spring on the left side of the actuating member 42 is extended; as shown in the lowermost drawing in fig. 8, in this state, the dial 411 is located at the first dial position.

Fig. 9 shows a schematic diagram of the positions of the parts of the intelligent control device when the first power supply circuit 31 is in a conductive state and the actuator 42 is not subjected to external force. As shown in the uppermost drawing in fig. 9, in this state, the actuator 42 is located at the intermediate position of the first opening 12; as shown in the middle diagram of fig. 9, in this state, the dial 411 is in contact with the right side wall of the dial slot 421, the actuating member 42 is located at the middle position of the two first limiting structures 13, and the deformation amounts of the compression springs at both sides of the actuating member 42 are the same; as shown in the lowermost drawing in fig. 9, in this state, the dial 411 is located at the first dial position.

Fig. 10 shows a schematic diagram of the positions of the parts of the intelligent control device in the case where the first power supply circuit 31 is disconnected at the moment and the actuator 42 is still actuated by an external force. As shown in the uppermost drawing in fig. 10, in this state, the actuator 42 is located at the left end (OFF position) of the first opening 12; as shown in the middle drawing of fig. 10, in this state, the dial 411 is in contact with the right side wall of the dial slot 421, the actuating member 42 is closer to the first stopper 13 located on the left side, and the compression spring located on the left side of the actuating member 42 is compressed, and the compression spring located on the right side of the actuating member 42 is extended; as shown in the lowermost drawing in fig. 10, in this state, the dial 411 is located at the second dial position.

In this application, 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 implicitly indicating the number of technical features indicated.

The foregoing is merely for facilitating understanding of the technical solutions of the present application by those skilled in the art, and is not intended to limit the present application. Any modification, equivalent replacement, improvement, etc. made within the spirit and principles of the present application should be included in the protection scope of the present application.

Claims (10)

1. The intelligent control equipment is characterized by comprising a face shell (1), a fixing seat (2), a power supply component (3), a switch component (4) and a control device;

the face shell (1) is arranged on the fixed seat (2) in a covering way;

the power supply assembly (3) is accommodated in 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 device;

the switch assembly (4) is connected with the first power supply circuit (31) and is used for switching on and off of the first power supply circuit (31), and an actuating part (40) of the switch assembly (4) is exposed from the side wall (11) of the face shell (1).

2. Intelligent control device according to claim 1, characterized in that the switch assembly (4) comprises a power switch (41) and an actuator (42);

the power switch (41) is electrically connected to the first power supply circuit (31) and is connected to the actuating member (42);

the actuating member (42) is mounted on the surface shell (1) and can move relative to the surface shell (1) under the actuation of external force so as to drive the power switch (41) to be turned on or off, and the actuating part (40) is positioned on the actuating member (42).

3. The intelligent control device according to claim 2, characterized in that the power switch (41) is a dial switch having a dial key (411);

a toggle groove (421) is formed in the actuating member (42), the toggle groove (421) is provided with a first groove wall (4211) and a second groove wall (4212), and the first groove wall (4211) and the second groove wall (4212) are oppositely arranged in the moving direction of the actuating member (42);

wherein a dial (411) of the dial switch is located within the dial slot (421), and the dial (411) is in contact with at least one of the first slot wall (4211) and the second slot wall (4212).

4. The intelligent control device of claim 3, wherein the length of the toggle slot (421) is greater than or equal to the length of the toggle key (411) and less than or equal to the distance between the first and second toggle positions;

the direction of the length is parallel to the moving direction of the actuating piece (42), the first dialing position is the position of the dialing key (411) when the dialing switch is turned on, and the second dialing position is the position of the dialing key (411) when the dialing switch is turned off.

5. The intelligent control device of claim 4, wherein the length of the toggle slot (421) is greater than the length of the toggle key (411);

the switch assembly (4) further comprises a limiting piece (43), one end of the limiting piece (43) is connected with the face shell (1), the other end of the limiting piece is connected with the actuating piece (42), and the limiting piece (43) is used for limiting the position of the poking key (411) in the poking groove (421).

6. The intelligent control device according to claim 5, characterized in that a first opening (12) is provided in a side wall (11) of the face housing (1), the actuating member (42) being exposed from the first opening (12);

the restricting member (43) has elasticity in the moving direction of the actuating member (42), and can hold the actuating member (42) at the intermediate position of the first opening (12).

7. The intelligent control device according to claim 5 or 6, characterized in that two first limit structures (13) are provided on the face housing (1), the two first limit structures (13) being located on opposite sides of the actuating member (42) in the moving direction, respectively;

the limiting piece (43) comprises a compression spring, one end of the compression spring abuts against the first limiting structure (13), and the other end of the compression spring abuts against the actuating piece (42).

8. An intelligent control device according to claim 3, characterized in that the face-piece (1) comprises a bottom cover (14) and a mounting bracket (15);

the bottom cover (14) is connected with the fixed seat (2);

the mounting frame (15) is positioned on one side of the bottom cover (14) away from the fixed seat (2), a containing space (16) is formed between the bottom cover (14) and the mounting frame (15), and the actuating piece (42) is positioned in the containing space (16);

the bottom cover (14) is provided with a second opening (141), the second opening (141) is communicated with the poking groove (421), and a poking key (411) of the poking switch passes through the second opening (141).

9. Intelligent control device according to claim 8, characterized in that the side of the bottom cover (14) or the mounting frame (15) facing the actuating element (42) is provided with a second limit structure (17), the second limit structure (17) being used for limiting the movement distance of the actuating element (42) relative to the face-piece (1).

10. Intelligent control device according to claim 1, characterized in that the control means comprise a control panel (5) and a control circuit board assembly (6);

the control panel (5) is connected with one side of the face shell (1) far away from the fixed seat (2);

the control circuit board assembly (6) is installed in the face shell (1) and is electrically connected with the second power supply circuit (32), the control circuit board assembly (6) is provided with at least one micro switch (61), and the micro switch (61) is connected with the control panel (5).