CN213841051U - Smoke ventilator operating panel control module group and smoke ventilator - Google Patents

Abstract

The disclosure relates to a range hood operation panel control module and a range hood. The range hood operation panel control module comprises a storage groove, an operation panel and a storage assembly; the storage groove is arranged on the bottom surface of the smoke exhaust ventilator, which is connected with the smoke suction module through the host machine, and the operation panel is movably connected with the storage groove through the storage assembly; the storage assembly is used for fixing the operation panel in the storage groove when the operation panel is in a storage state; and the control device is used for controlling the operation panel to change from the storage state to the operation state when the first trigger operation is acquired, and the operation panel and the bottom surface form a preset angle when the operation panel is in the operation state. When the user cooks among this technical scheme, it is nearer with operating panel's distance, namely the user can in time modify smoke ventilator's wind-force or extraction mode through this operating panel, avoids appearing the condition that the oil smoke can not clear away rapidly, and user experience preferred.

Description

Smoke ventilator operating panel control module group and smoke ventilator

Technical Field

The utility model relates to an intelligence kitchen utensils and appliances technical field especially relates to a smoke ventilator operating panel control module group and smoke ventilator.

Background

Because cooking fumes can cause skin aging, range hoods are a necessity in most homes.

In the related art, the range hood can provide a man-machine interaction mode through a button or a touch screen, namely, a user can control the range hood through the button or the touch screen. But current button or touch screen set up the side at smoke ventilator usually for the operating distance of user when the culinary art is far away, is difficult to in time revise smoke ventilator's wind-force or extraction mode, and then the condition that the oil smoke can not clear away rapidly appears, and user experience is not good.

SUMMERY OF THE UTILITY MODEL

In order to overcome the problems in the related art, the embodiment of the disclosure provides a range hood operation panel control module and a range hood. The technical scheme is as follows:

according to a first aspect of the embodiments of the present disclosure, there is provided a range hood operation panel control module, which includes a storage groove, an operation panel, and a storage assembly;

the accommodating groove is formed in the bottom surface of the range hood, where the host machine is connected with the smoking module, and the operating panel is movably connected with the accommodating groove through the accommodating component;

the storage assembly is used for fixing the operation panel in the storage groove when the operation panel is in a storage state; and the control device is used for controlling the operation panel to change from the storage state to the operation state when a first trigger operation is acquired, and the operation panel and the bottom surface form a preset angle when the operation panel is in the operation state.

The technical scheme provided by the embodiment of the disclosure can have the following beneficial effects: a bottom surface for controlling smoke ventilator's operating panel sets up the host computer and the smoking module is connected at smoke ventilator through accomodating the groove and accomodating the subassembly, like this when the user cooks, is nearer with operating panel's distance, and the user can in time modify smoke ventilator's wind-force or extraction mode through this operating panel promptly, avoids appearing the condition that the oil smoke can not clear away rapidly, user experience preferred.

In one embodiment, the receiving assembly includes a rotating portion and a driving portion;

the rotating part comprises a rotating shaft and a first gear fixedly connected with the rotating shaft; the driving part comprises a motor and a second gear fixedly connected with the motor, and the first gear is matched with the second gear;

the operation panel is connected with the fixed edge of the accommodating groove through the rotating shaft and can be driven by the rotating shaft to rotate;

when the operation panel is in a storage state, the first gear is clamped with the second gear, so that the operation panel is fixed in the storage groove; when the first trigger operation is acquired, the motor is started to drive the second gear to rotate, the second gear drives the first gear to rotate, the first gear drives the rotating shaft to rotate, and the rotating shaft drives the operating panel to rotate from the storage state to the operating state.

In one embodiment, the first gear is engaged with the second gear when the operation panel is in the operation state such that the operation panel is fixed at a position at a preset angle to the bottom surface; when the second trigger operation is obtained, the motor is started to drive the second gear to rotate, the second gear drives the first gear to rotate, the first gear drives the rotating shaft to rotate, and the rotating shaft drives the operating panel to return to the storage state from the operating state.

In one embodiment, the range hood operation panel control module is further provided with an operation switch;

the operation switch is used for receiving an opening instruction or a closing instruction;

the storage assembly is used for confirming to acquire the first trigger operation when the operation switch receives the starting instruction; and confirming to acquire the second trigger operation when the operation switch receives the closing instruction.

In one embodiment, the receiving assembly comprises a fixed portion and a drive connection portion;

the fixing part comprises a clamping groove arranged on the accommodating groove and a buckle arranged on the operation panel; the driving connecting part comprises a spring, one end of the spring is connected with the accommodating groove, and the other end of the spring is connected with the operation panel;

when the operation panel is in a storage state, the buckle is clamped with the clamping groove, and the spring is in a compression state; when the first trigger operation is acquired, the buckle is disengaged from the clamping groove, and the spring rebounds from the compressed state, so that the operation panel is changed from the storage state to the operation state.

In one embodiment, when the operation panel is in the operation state, the spring is in an extension state, and supports the operation panel at a position forming a preset angle with the bottom surface; when the second trigger operation is acquired, the spring returns to the compression state from the extension state, and the buckle is clamped with the clamping groove, so that the operation panel returns to the storage state from the operation state.

In one embodiment, the storage assembly further comprises a toggle switch, a first end of the toggle switch is arranged on the host, and the other second end of the toggle switch is matched with the clamping groove;

the second end of the toggle switch is used for generating displacement when the first end of the toggle switch is subjected to force applied in a preset direction, so that the buckle positioned in the clamping groove is separated from the clamping groove.

In one embodiment, the operating panel is provided with at least one touch screen and/or at least one operating key.

In one embodiment, the operating panel is provided with a camera.

According to a second aspect of the embodiments of the present disclosure, there is provided a range hood, comprising a host, a smoking module and a range hood operation panel control module according to any one of the embodiments of the first aspect;

the smoking module is used for forming an air inlet to suck oil smoke;

the main machine is used for generating suction force and discharging the oil smoke.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

Fig. 1 is a schematic structural diagram illustrating a range hood operation panel control module according to an exemplary embodiment.

Fig. 2a is a side view illustrating an operation state of a hood operation panel control module according to an exemplary embodiment.

Fig. 2b is a front view illustrating an operation state of a hood operation panel control module according to an exemplary embodiment.

Fig. 3a is a side view illustrating a storage state of the hood operation panel control module according to an exemplary embodiment.

Fig. 3b is a front view illustrating a storage state of the hood operation panel control module according to an exemplary embodiment.

Fig. 4 is a schematic structural diagram illustrating a hood operation panel control module according to an exemplary embodiment.

Fig. 5 is a schematic structural view illustrating a hood operation panel control module according to an exemplary embodiment.

Fig. 6 is a schematic structural diagram illustrating a hood operation panel control module according to an exemplary embodiment.

Fig. 7 is a schematic structural view of a hood according to an exemplary embodiment.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the exemplary embodiments below are not intended to represent all implementations consistent with the present disclosure. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present disclosure, as detailed in the appended claims.

The embodiment of the present disclosure provides a range hood operation panel control module 10, as shown in fig. 1, the range hood operation panel control module 10 includes a storage groove 101, an operation panel 102, and a storage assembly 103.

The storage groove 101 is disposed on a bottom surface 201 of the range hood where the main unit 20 is connected to the smoking module 30, and the operation panel 102 is movably connected to the storage groove 101 through the storage assembly 103.

The storage component 103 is used for fixing the operation panel 102 in the storage slot 101 when the operation panel 102 is in a storage state; and is used for controlling the operation panel 102 to change from the storage state to the operation state when the first trigger operation is acquired, and the operation panel 102 and the bottom surface 201 form a preset angle when the operation state is in the operation state.

As an example, the range hood operation panel control module 10 may be disposed on a range hood, where the range hood includes a main unit 20 and a smoking module 30, the smoking module 30 is used to form an air inlet to suck oil smoke, and the main unit 20 is used to generate suction force and discharge the oil smoke sucked by the smoking module 30 to the outside.

Optionally, the range hood is arranged right above the kitchen range, and if the kitchen range has two cooking ranges, the accommodating groove 101 can be arranged in a central area of the bottom surface 201 of the main machine 20 of the range hood, which is close to one side of the user, so that the range hood can be operated conveniently and quickly no matter which kitchen range is used by the user.

Illustratively, the operation panel 102 is in a storage state when the range hood is not powered, that is, the operation panel 102 is located in the storage groove 101. Specifically, the operation panel 102 in the storage state may be parallel to the bottom surface 201 of the host 20, or may be perpendicular to the bottom surface 201, which is not limited in the embodiment of the present disclosure. When a user needs to use the range hood, the range hood can be powered. The control module 10 of the operation panel of the range hood can detect whether the range hood is powered on in real time. If the range hood is detected to be powered on, it is confirmed that the first trigger operation is obtained, at this time, the storage assembly 103 may control the operation panel 102 to be disengaged from the storage groove 101, and control the operation panel 102 to move to a preset angle with the bottom surface 201, that is, control the operation panel 102 to change from the storage state to the operation state, which is shown in fig. 2a and 2 b.

When the operation panel 102 is in an operation state, the hood operation panel control module 10 can detect whether the hood is powered off in real time. If the range hood is detected to be powered off, it is determined that the second trigger operation is obtained, and the power stored in the power supply provided by the range hood at this time can support the storage assembly 103 to return to the storage state from the operation state, that is, the operation panel 102 is controlled to move into the storage groove 101, where the storage state is shown in fig. 3a and 3 b.

Optionally, the operation panel 102 may be provided with at least one touch screen and/or at least one operation key, and a user may control the air volume, the suction force, the cooking mode, or the like of the range hood through the at least one touch screen and/or the at least one operation key, that is, human-computer interaction may be implemented through the at least one touch screen and/or the at least one operation key.

Optionally, the operation panel 102 may further be provided with a camera, the camera is turned off when the operation panel 102 is in the storage state, and the camera is turned on when the operation panel 102 is in the operation state, so as to identify the user or identify a gesture instruction of the user, and record an operation video of the user for live broadcasting or archiving, and the like.

In the technical scheme that this disclosed embodiment provided, an operating panel 102 for controlling smoke ventilator sets up bottom surface 201 that is connected at smoke ventilator's host computer 20 and smoking module 30 through accomodating groove 101 and storage component 103, like this when the user cooks, is nearer with operating panel 102's distance, namely the user can in time modify smoke ventilator's wind-force or extraction mode through this operating panel 102, avoids appearing the condition that the oil smoke can not clear away rapidly, user experience preferred.

In one embodiment, as shown in fig. 4, the receiving assembly 103 includes a rotation part 1031 and a driving part 1032.

Wherein the rotation part 1031 includes a rotation shaft 1031a and a first gear 1031b fixedly connected to the rotation shaft 1031 a; the driving part 1032 includes a motor 1032a and a second gear 1032b fixedly connected to the motor 1032a, and the first gear 1031b is disposed to cooperate with the second gear 1032 b.

The operation panel 102 is connected to a fixing edge (not shown in fig. 4) of the receiving groove 101 through the rotation shaft 1031a, and can be rotated by the rotation shaft 1031 a.

When the operation panel 102 is in the storage state, the first gear 1031b is engaged with the second gear 1032b so that the operation panel 102 is fixed in the storage slot 101; when the first trigger operation is obtained, the motor 1032a is turned on to drive the second gear 1032b to rotate, the second gear 1032b drives the first gear 1031b to rotate, the first gear 1031b drives the rotating shaft 1031a to rotate, and the rotating shaft 1031a drives the operation panel 102 to rotate from the storage state to the operation state.

When the operation panel 102 is in the operation state, the first gear 1031b is engaged with the second gear 1032b so that the operation panel 102 is fixed at a position forming a predetermined angle with the bottom surface 201; when the second trigger operation is obtained, the motor 1032a is turned on to drive the second gear 1032b to rotate, the second gear 1032b drives the first gear 1031b to rotate, the first gear 1031b drives the rotating shaft 1031a to rotate, and the rotating shaft 1031a drives the operation panel 102 to return from the operation state to the storage state.

For example, when the hood operation panel control module 10 is not energized, the operation panel 102 is in the storage state. If the range hood operation panel control module 10 detects that the range hood is powered on, it is determined that the first trigger operation is acquired, at this time, the motor 1032a is turned on, and the second gear 1032b rotates in the forward direction along with the rotation of the motor 1032 a. Since the first gear 1031b is disposed in cooperation with the second gear 1032b, the second gear 1032b can drive the first gear 1031b to rotate reversely. Since the first gear 1031b is fixedly connected to the rotating shaft 1031a, the rotating shaft 1031a is driven by the first gear 1031b to rotate reversely. The rotation shaft 1031a is fixedly connected to the operation panel 102, and with the reverse rotation of the rotation shaft 1031a, the operation panel 102 can be detached from the storage tank 101 and reversely rotated to a position forming a predetermined angle with the bottom surface 201, that is, the operation panel 102 is changed from the storage state to the operation state. Meanwhile, the operation panel 102 may be fixed in the operation state due to the mutual engagement between the first gear 1031b and the second gear 1032 b.

If the range hood operation panel control module 10 detects that the range hood is powered off, it is determined that the second trigger operation is obtained, at this time, the motor 1032a may be turned on under the condition that the power supply of the range hood is provided, along with the rotation of the motor 1032a, the second gear 1032b rotates in the reverse direction, the second gear 1032b may drive the first gear 1031b to rotate in the forward direction, the first gear 1031b may drive the rotating shaft 1031a to rotate in the forward direction, along with the forward rotation of the rotating shaft 1031a, the operation panel 102 may rotate in the forward direction to the accommodating groove 101 from a position forming a preset angle with the bottom surface 201, that is, the operation panel 102 is changed from the operation state to the accommodating state. Meanwhile, the operation panel 102 may be fixed in the accommodated state due to the mutual engagement between the first gear 1031b and the second gear 1032 b.

The forward direction and the reverse direction are both distance descriptions, and the direction of rotation of each member is not limited. For example, if the forward direction is clockwise, the reverse direction is counterclockwise; alternatively, if the forward direction is in a counterclockwise order, the reverse direction is in a clockwise direction.

In one embodiment, as shown in fig. 5, the hood operation panel control module 10 is further provided with an operation switch 104.

The operation switch 104 is used for receiving an on command or an off command.

The accommodating component 103 is configured to confirm that the first trigger operation is obtained when the operating switch 104 receives the start instruction; when the operation switch 104 receives the close instruction, it is confirmed that the second trigger operation is acquired.

For example, the operation panel 102 may be in a storage state when the range hood is not opened, that is, the operation panel 102 is located in the storage groove 101. When the user needs to use the hood, the operation switch 104 can be pressed. The hood operation panel control module 10 can detect whether the operation switch 104 is pressed in real time. If the operation switch 104 is detected to be pressed, it is confirmed that the opening instruction is acquired, that is, it is confirmed that the first trigger operation is acquired. At this time, the storage assembly 103 can control the operation panel 102 to change from the storage state to the operation state. For example, if it is confirmed that the on command is obtained, the motor 1032a is turned on, and drives the second gear 1032b to rotate in the forward direction, and further drives the first gear 1031b to rotate in the reverse direction. The first gear 1031b can drive the rotating shaft 1031a to rotate reversely, and along with the reverse rotation of the rotating shaft 1031a, the operation panel 102 can be disengaged from the receiving slot 101 and rotate reversely to a position forming a predetermined angle with the bottom surface 201, that is, the operation panel 102 is changed from the receiving state to the operating state.

When the user needs to finish the use, the operation switch 104 can be pressed again. The hood operation panel control module 10 can detect whether the operation switch 104 is pressed again in real time. If the operation switch 104 is detected to be pressed again, it is confirmed that the closing instruction is acquired, that is, it is confirmed that the second trigger operation is acquired. The storage assembly 103 can control the operation panel 102 to return from the operation state to the storage state. For example, if it is confirmed that the closing instruction is obtained, the motor 1032a is turned on, the second gear 1032b rotates in the reverse direction along with the rotation of the motor 1032a, the second gear 1032b may drive the first gear 1031b to rotate in the forward direction, the first gear 1031b may drive the rotating shaft 1031a to rotate in the forward direction, and along with the forward rotation of the rotating shaft 1031a, the operation panel 102 may rotate in the forward direction from a position forming a predetermined angle with the bottom surface 201 to the storage groove 101, that is, the operation panel 102 is changed from the operation state to the storage state.

In one embodiment, as shown in fig. 6, the receiving assembly 103 includes a fixing portion and a driving connection portion.

Wherein, the fixing portion comprises a card slot 1033a arranged on the receiving groove 101 and a buckle 1033b arranged on the operation panel 102; the driving connection portion includes a spring 1034a, one end of the spring 1034a is connected to the receiving groove 101, and the other end is connected to the operation panel 102.

When the operation panel 102 is in the storage state, the latch 1033b is latched to the latch 1033a, and the spring 1034a is in a compressed state; upon acquiring the first trigger operation, the catch 1033b is disengaged from the catch 1033a, and the spring 1034a rebounds from the compressed state, so that the operation panel 102 is changed from the accommodated state to the operated state.

When the operation panel 102 is in the operation state, the spring 1034a is in an extended state, supporting the operation panel 102 at a position forming a predetermined angle with the bottom surface 201; upon acquisition of the second trigger operation, the spring 1034a returns from the expanded state to the compressed state, and the catch 1033b is caught by the catch 1033a, so that the operation panel 102 returns from the operation state to the housed state.

Optionally, referring to fig. 6, the receiving assembly 103 further includes a toggle switch 1035, a first end of the toggle switch 1035 is disposed on the host 20, and a second end of the toggle switch 1035 is disposed in cooperation with the card slot 1033 a. The second end of the toggle switch 1035 is configured to displace when the first end of the toggle switch 1035 is subjected to a force applied in a predetermined direction, so that the latch 1033b located in the card slot 1033a is disengaged from the card slot 1033 a.

For example, the operation panel 102 is normally in a storage state, i.e., the latch 1033b is latched with the latch 1033a, and the spring 1034a is in a compression state. If the user needs to control the range hood through the operation panel 102, the user can toggle the first end of the toggle switch 1035 in a preset direction. If the first end receives a force applied along the predetermined direction, it is determined that the first trigger operation is obtained, and at this time, the second end of the toggle switch 1035 is displaced, that is, the second end of the toggle switch 1035 moves toward the open end of the card slot 1033a, so that the card 1033b can be pulled out of the card slot 1033a, and the card 1033b can be detached from the card slot 1033 a. With the disengagement of the latch 1033b from the slot 1033a, the spring 1034a rebounds from the compressed state to drive the operation panel 102 to change from the storage state to the operation state, and the length of the spring 1034a is adjusted to make the operation panel 102 in the operation state form a predetermined angle with the bottom surface 201.

If the user finishes using the portable electronic device, the user can push the operation panel 102 to move in the direction of the bottom surface 201 until the operation panel 102 returns to the storage slot 101, and the pushing operation by the user is the second triggering operation. The operation panel 102 gradually moves to the receiving slot 101 according to the second triggering operation, when the operation panel 102 is located in the receiving slot 101, the catch 1033b is again caught with the catch 1033a, and the spring 1034a gradually changes to a compressed state under the influence of the user's pushing force, that is, the operation panel 102 is again in the receiving state.

The embodiment of the present disclosure provides a range hood operation panel control module 10, an operation panel 102 for controlling a range hood in this range hood operation panel control module 10 is disposed on a bottom surface 201 connected with a smoke suction module 30 of a host 20 of the range hood through a storage groove 101 and a storage module 103, so when a user cooks, the distance from the operation panel 102 is short, that is, the user can modify the wind power or the extraction mode of the range hood through this operation panel 102 in time, the situation that the oil smoke can not be cleared away rapidly is avoided, and the user experience is better.

The embodiment of the present disclosure provides a range hood, as shown in fig. 7, including a host 20, a smoking module 30 and the range hood operation panel control module 10 according to any one of the embodiments.

The smoking module 30 is used to form an air inlet for sucking oil smoke.

The main unit 20 is used for generating suction force and discharging the oil smoke.

The hood operation panel control module 10 includes a storage groove 101, an operation panel 102, and a storage module 103.

The storage groove 101 is disposed on a bottom surface 201 of the range hood where the main unit 20 is connected to the smoking module 30, and the operation panel 102 is movably connected to the storage groove 101 through the storage assembly 103.

The storage component 103 is used for fixing the operation panel 102 in the storage slot 101 when the operation panel 102 is in a storage state; meanwhile, the control device is used for controlling the operation panel 102 to change from the storage state to an operation state when a first trigger operation is acquired, and the operation panel 102 and the bottom surface 201 form a preset angle when the operation panel is in the operation state; and is used to control the operation panel 102 to return from the operation state to the storage state when the second trigger operation is acquired.

The embodiment of the present disclosure provides a range hood, operating panel 102 in this range hood sets up on the bottom surface 201 that host computer 20 and smoking module 30 are connected through accomodating groove 101 and accomodating subassembly 103, like this when the user cooks, is nearer with operating panel 102's distance, namely the user can in time modify range hood's wind-force or extraction mode through this operating panel 102, avoids appearing the condition that the oil smoke can not clear away rapidly, user experience preferred.

Other embodiments of the disclosure will be apparent to those skilled in the art from consideration of the specification and practice of the disclosure disclosed herein. This application is intended to cover any variations, uses, or adaptations of the disclosure following, in general, the principles of the disclosure and including such departures from the present disclosure as come within known or customary practice within the art to which the disclosure pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the disclosure being indicated by the following claims.

It will be understood that the present disclosure is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the present disclosure is limited only by the appended claims.

Claims (10)

1. A control module for an operation panel of a range hood is characterized by comprising a storage groove, an operation panel and a storage assembly;

the accommodating groove is formed in the bottom surface of the range hood, where the host machine is connected with the smoking module, and the operating panel is movably connected with the accommodating groove through the accommodating component;

the storage assembly is used for fixing the operation panel in the storage groove when the operation panel is in a storage state; and the control device is used for controlling the operation panel to change from the storage state to the operation state when a first trigger operation is acquired, and the operation panel and the bottom surface form a preset angle when the operation panel is in the operation state.

2. The range hood operation panel control module of claim 1, wherein the housing assembly comprises a rotating portion and a driving portion;

the rotating part comprises a rotating shaft and a first gear fixedly connected with the rotating shaft; the driving part comprises a motor and a second gear fixedly connected with the motor, and the first gear is matched with the second gear;

the operation panel is connected with the fixed edge of the accommodating groove through the rotating shaft and can be driven by the rotating shaft to rotate;

when the operation panel is in a storage state, the first gear is clamped with the second gear, so that the operation panel is fixed in the storage groove; when the first trigger operation is acquired, the motor is started to drive the second gear to rotate, the second gear drives the first gear to rotate, the first gear drives the rotating shaft to rotate, and the rotating shaft drives the operating panel to rotate from the storage state to the operating state.

3. The hood operation panel control module according to claim 2,

when the operation panel is in the operation state, the first gear is in clamping connection with the second gear, so that the operation panel is fixed at a position forming a preset angle with the bottom surface; when the second trigger operation is obtained, the motor is started to drive the second gear to rotate, the second gear drives the first gear to rotate, the first gear drives the rotating shaft to rotate, and the rotating shaft drives the operating panel to return to the storage state from the operating state.

4. The range hood operation panel control module according to claim 3, further provided with an operation switch;

the operation switch is used for receiving an opening instruction or a closing instruction;

the storage assembly is used for confirming to acquire the first trigger operation when the operation switch receives the starting instruction; and confirming to acquire the second trigger operation when the operation switch receives the closing instruction.

5. The range hood operating panel control module of claim 1, wherein the receiving assembly comprises a fixed portion and a drive connection portion;

the fixing part comprises a clamping groove arranged on the accommodating groove and a buckle arranged on the operation panel; the driving connecting part comprises a spring, one end of the spring is connected with the accommodating groove, and the other end of the spring is connected with the operation panel;

when the operation panel is in a storage state, the buckle is clamped with the clamping groove, and the spring is in a compression state; when the first trigger operation is acquired, the buckle is disengaged from the clamping groove, and the spring rebounds from the compressed state, so that the operation panel is changed from the storage state to the operation state.

6. The range hood operating panel control module of claim 5, wherein when the operating panel is in the operating state, the spring is in an extended state, supporting the operating panel in a position at a preset angle to the bottom surface; when the second trigger operation is acquired, the spring returns to the compression state from the extension state, and the buckle is clamped with the clamping groove, so that the operation panel returns to the storage state from the operation state.

7. The control module of the range hood operation panel according to claim 5 or 6, wherein the storage module further comprises a toggle switch, a first end of the toggle switch is disposed on the main machine, and a second end of the toggle switch is disposed in cooperation with the slot;

the second end of the toggle switch is used for generating displacement when the first end of the toggle switch is subjected to force applied in a preset direction, so that the buckle positioned in the clamping groove is separated from the clamping groove.

8. The range hood operation panel control module of any one of claims 1 to 6, wherein the operation panel is provided with at least one touch screen and/or at least one operation key.

9. The range hood operation panel control module of any one of claims 1 to 6, wherein the operation panel is provided with a camera.

10. A range hood, characterized by comprising a main machine, a smoking module and a range hood operation panel control module of any one of claims 1 to 9;

the smoking module is used for forming an air inlet to suck oil smoke;

the main machine is used for generating suction force and discharging the oil smoke.

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