CN210197365U - Installation arrangement structure of relevant devices in intelligent appliance - Google Patents

Abstract

The utility model provides an installation arrangement structure of relevant device in intelligent utensil, intelligent utensil are microwave oven, light wave stove, little steam ager or evaporate the oven a little, and relevant device includes: the intelligent appliance comprises an image acquisition device, a lighting device and an infrared sensor for detecting the temperature of food in the intelligent appliance; the image acquisition device, the lighting device and the infrared sensor are installed on the intelligent appliance, and at least two of the image acquisition device, the lighting device and the infrared sensor share one supporting component and are installed on the intelligent appliance, so that at least two of the image acquisition device, the lighting device and the infrared sensor share one installation position on the intelligent appliance. Because with in image acquisition device, lighting device and the infrared sensor two at least sharing an installation position on intelligent utensil, compare with the different positions that current image acquisition device, lighting device and infrared sensor installed respectively at intelligent utensil, the installation mode of arranging of this application has reduced many places trompils on intelligent utensil, simplifies the equipment process of intelligent utensil.

Description

Installation arrangement structure of relevant devices in intelligent appliance

Technical Field

The utility model relates to an intelligent equipment technical field, concretely relates to installation structure of arranging of relevant device in intelligence utensil.

Background

The existing intelligent equipment, such as a microwave oven, an oven, a refrigerator and the like, mostly realize automatic control, and the intelligent equipment can realize automatic control and mainly depends on information acquisition at the front end, such as image acquisition and temperature acquisition; aiming at products such as a microwave oven, an oven and the like with image and temperature acquisition, a camera, an infrared sensor and a lighting lamp are separately placed at different positions of a cavity, so that corresponding fixing structures and light-transmitting holes are needed to be made at different positions of the cavity to respectively fix the camera, the infrared sensor and the lighting lamp, and the structure and the assembly process are complex.

Disclosure of Invention

The application provides a structure is arranged in installation of relevant device among intelligence utensil, can solve the technical problem that collection system, infrared sensor and lighting device separately installed.

In order to solve the technical problems, the application provides an installation and arrangement structure of related devices in an intelligent appliance, wherein the intelligent appliance is a microwave oven, a light wave oven, a micro-steamer or a micro-steaming oven, and the related devices in the intelligent appliance comprise an image acquisition device, an illumination device and an infrared sensor for detecting the temperature of food in the intelligent appliance;

the intelligent appliance comprises an intelligent appliance, an image acquisition device, a lighting device and an infrared sensor, wherein the image acquisition device, the lighting device and the infrared sensor are arranged on the intelligent appliance, and at least two of the image acquisition device, the lighting device and the infrared sensor share one supporting component and are arranged on the intelligent appliance, so that at least two of the image acquisition device, the lighting device and the infrared sensor share one installation position on the intelligent appliance.

In one embodiment, at least two of the image acquisition device, the illumination device and the infrared sensor share one supporting component and are mounted on an intelligent appliance, and the method comprises the following conditions:

the image acquisition device and the lighting device share one supporting assembly, so that the image acquisition device and the lighting device share one mounting position on the intelligent appliance;

the image acquisition device and the infrared sensor share one supporting assembly, so that the image acquisition device and the infrared sensor share one mounting position on the intelligent appliance;

the lighting device and the infrared sensor share one supporting assembly, so that the lighting device and the infrared sensor share one mounting position on the stopped intelligent appliance;

the image acquisition device, the lighting device and the infrared sensor share one supporting component, so that the image acquisition device, the lighting device and the infrared sensor share one mounting position on the intelligent appliance.

In one embodiment, the support assembly is mounted on a cavity wall of the smart appliance.

In one embodiment, the cavity wall of the intelligent appliance is provided with a mounting hole inclined towards the inside of the cavity, the supporting assembly comprises an inclined mounting part, the image acquisition device, the lighting device and/or the infrared sensor are mounted on the inclined mounting part, the inclined mounting part passes through the mounting hole and is mounted on the cavity wall of the intelligent appliance, and then the image acquisition device, the lighting device and/or the infrared sensor incline towards the inside of the cavity of the intelligent appliance.

In one embodiment, the supporting assembly further comprises at least one layer of transparent heat insulation glass which is installed in the inclined installation part in a matched mode, and the heat insulation glass is installed behind the inclined installation part and used for isolating the image acquisition device, the lighting device and/or the infrared sensor from the interior of the cavity of the intelligent appliance.

In one embodiment, the heat dissipation device is mounted on the side wall of the cavity body on the same side as the supporting component or mounted on the supporting component.

In one embodiment, the door body of the intelligent appliance is a transparent screen, and the support assembly is mounted on the door body of the intelligent appliance.

In one embodiment, the door body of the intelligent appliance comprises a door frame supporting frame for installing the transparent screen, the supporting assembly is obliquely installed on the door frame supporting frame, the image acquisition device, the lighting device and/or the infrared sensor are/is installed on the supporting assembly, after the supporting assembly is obliquely installed on the door frame supporting frame, the image acquisition device, the lighting device and/or the infrared sensor face towards the inner part of the cavity of the intelligent appliance.

In one embodiment, the lighting device comprises a carrier and an LED lamp group, the carrier is installed in a matched mode with the collecting device, the LED lamp group comprises a plurality of LED lamps, and the LED lamps are regularly or irregularly arranged on the carrier.

According to the installation arrangement structure of the related devices in the intelligent appliance, at least two of the image acquisition device, the illumination device and the infrared sensor share one supporting component and are installed on the intelligent appliance, so that at least two of the image acquisition device, the illumination device and the infrared sensor share one installation position on the intelligent appliance.

And the supporting component is installed behind the intelligent appliance in an inclined mode, so that the acquisition visual angle of the image acquisition device can cover a plurality of shooting surfaces to obtain multi-azimuth images, and the food identification precision is improved through the multi-azimuth images.

Drawings

Fig. 1 is a schematic view of an installation arrangement of related devices in a smart appliance according to a second embodiment;

FIG. 2 is a schematic view of the structure of the lighting device;

FIG. 3 is a schematic diagram of a dual fan configuration of an intelligent appliance;

FIG. 4 is a schematic diagram of a single fan configuration of an intelligent appliance;

fig. 5 is a schematic view of an installation arrangement of related devices in the smart appliance according to the third embodiment;

FIG. 6 is a schematic structural view of an infrared sensor installation cavity wall in the third embodiment.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

The first embodiment is as follows:

at present, in order to realize intelligent control of such appliances, these appliances generally perform image acquisition and temperature acquisition by installing a camera, a temperature sensor, an illumination device, etc., and then intelligently control the appliances according to the acquired image information and temperature information, however, since these information acquisition devices are respectively installed at different positions of the appliances, for example, the camera is installed at the top of the appliance, the temperature sensor is installed at the side of the appliance, in order to consider the temperature range in which the camera and the temperature sensor work, corresponding heat dissipation components are also needed to be configured at each installation position, and therefore, the independent installation and arrangement of these related components makes the procedure of the overall assembly of the appliance more complicated and cumbersome.

In order to solve the above problems, the present application provides a mounting arrangement structure of related devices in an intelligent appliance with simplified assembly process, the intelligent appliance can be a microwave oven, a light wave oven, a micro-steamer or a micro-steamer, the related devices in the intelligent appliance comprise an image acquisition device, an illumination device and an infrared sensor for detecting the temperature of food in the intelligent appliance, compared with the existing image acquisition device, the illumination device and the infrared sensor are respectively and independently mounted at different positions of the intelligent appliance, the basic concept of the present application is: at least two of the image acquisition device, the lighting device and the infrared sensor share one supporting assembly and are arranged on the intelligent appliance, so that at least two of the image acquisition device, the lighting device and the infrared sensor share one installation position on the intelligent appliance.

That is, the intelligent appliance of this application installs corresponding devices such as image acquisition device, lighting device, infrared sensor through sharing a mounted position, and wherein, two at least sharing a supporting component install in intelligent appliance in image acquisition device, lighting device and the infrared sensor, include following several kinds of condition:

in the first case: the image acquisition device and the lighting device share one supporting assembly, so that the image acquisition device and the lighting device share one mounting position on the intelligent appliance;

in the second case: the image acquisition device and the infrared sensor share one supporting assembly, so that the image acquisition device and the infrared sensor share one mounting position on the intelligent appliance;

in the third case: the lighting device and the infrared sensor share one supporting assembly, so that the lighting device and the infrared sensor share one mounting position on the intelligent appliance;

in a fourth case: the image acquisition device, the lighting device and the infrared sensor share one supporting component, so that the image acquisition device, the lighting device and the infrared sensor share one mounting position on the intelligent appliance.

In practical application, the image acquisition device, the lighting device and the infrared sensor can be installed on the intelligent appliance according to any one of the four installation conditions according to specific requirements. Because of in image acquisition device, lighting device and the infrared sensor two at least sharing a mounted position on intelligent utensil, independently arrange respectively with current image acquisition device, lighting device and infrared sensor and install the different positions of installing at intelligent utensil and compare, the mounting means of this application has reduced many places trompils on intelligent utensil, has simplified the equipment process of intelligent utensil.

Example two:

based on the basic concept of the first embodiment, this example provides a specific installation arrangement structure application example of related devices in an intelligent appliance.

As shown in fig. 1, the intelligent appliance includes a housing 1 and a door 2, the related devices include an image acquisition device 3, a lighting device 4 and an infrared sensor 5 for detecting the temperature of food in the intelligent appliance, wherein the image acquisition device 3, the lighting device 4 and the infrared sensor 5 share one supporting assembly 6, so that the image acquisition device 3, the lighting device 4 and the infrared sensor 5 share one mounting position on the intelligent appliance, that is, only one mounting position is provided in the intelligent appliance of this embodiment, the effect of multiple openings on the intelligent appliance is greatly reduced, and accordingly, the assembly process of the intelligent appliance is simplified.

The supporting component 6 is installed on the cavity wall of the smart appliance, for example, the supporting component 6 can be installed on the left and right side walls of the smart appliance, can also be installed on the rear wall of the smart appliance, or can also be installed on the top of the smart appliance, and the specific installation of the supporting component 6 on which wall of the smart appliance is not particularly limited, and this example takes the case where the supporting component 6 is installed on the right side wall of the smart appliance as an example.

Correspondingly, mounting hole 11 towards the inside slope of cavity has been seted up to the right side wall of casing 1 of intelligent utensil, that is, mounting hole 11 is to the sunken slope in the cavity of casing 1, supporting component 6 includes slope installation department 61, image acquisition device 3, lighting device 4 and infrared sensor 5 install on slope installation department 61, treat that slope installation department 61 passes through mounting hole 11 and install the back on the cavity right side wall of intelligent utensil, image acquisition device 3, lighting device 4 and infrared sensor 5 towards the inside slope of cavity of intelligent utensil.

Because the image acquisition device 3, the lighting device 4 and the infrared sensor 5 are directly inclined towards the inside of the cavity through the mounting hole 11 and the inclined mounting part 61, in order to enable the image acquisition device 3, the lighting device 4 and the infrared sensor 5 to be in a stable working temperature range, for example, the working temperature of the image acquisition device 3 cannot exceed 80 degrees, therefore, the supporting assembly 6 further comprises at least one layer of transparent heat-insulating glass 62 which is matched with the inclined mounting part 61 for mounting, the surface of the heat-insulating glass 62 is coated with a heat-insulating coating, and the heat-insulating glass 62 is mounted on the inclined mounting part 61 and used for isolating the image acquisition device 3, the lighting device 4 and the infrared sensor 5 from the inside of the cavity of the intelligent appliance.

It should be noted that, because the infrared sensor 5 needs to measure the temperature of the object to be measured, the thermal radiation on the surface of the object will directly enter the infrared sensor 5, and for the purpose of detecting the temperature, a hole is further opened on the position of the thermal insulation glass 62 opposite to the infrared sensor 5, so that the thermal radiation on the surface of the food can directly enter the infrared sensor 5. In other embodiments, when the infrared sensor 5 is mounted by other devices, the other devices also need to be provided with a hole at a position opposite to the infrared sensor 5.

In order to prevent possible temperature jump disturbances, the lower end (heat-sensitive end) of the infrared sensor 5 may be covered with a plastic film or a monocrystalline silicon wafer in some cases, depending on the product and environmental requirements.

The following describes a specific fitting manner of the image capturing device 3, the illuminating device 4 and the infrared sensor 5 sharing one supporting component 6.

The inclined mounting part 61 is provided with an avoiding opening for avoiding the image acquisition device 3, the illumination device 4 and the infrared sensor 5, so that when the image acquisition device 3, the illumination device 4 and the infrared sensor 5 are mounted on the inclined mounting part 61, corresponding acquisition visual angles or irradiation visual angles can be obtained through the avoiding opening to perform corresponding acquisition and illumination, in the embodiment, the image acquisition device 3 and the illumination device 4 share one avoiding opening on the inclined mounting part 61, and the infrared sensor independently adopts one avoiding opening on the inclined mounting part 61; in other embodiments, the image capturing device 3, the illuminating device 4 and the infrared sensor 5 may be arranged on the inclined mounting portion 61 in other manners, and the specific arrangement manner of the image capturing device 3, the illuminating device 4 and the infrared sensor 5 on the inclined mounting portion 61 is not limited in this example.

In order to realize that the image acquisition device 3 and the illumination device 4 share one avoidance opening and are installed on the inclined installation part 61, the image acquisition device 3 of the embodiment comprises a camera, the illumination device 4 comprises a carrier 41 and an LED lamp group 42, the structural diagram of the illumination device 4 is shown in fig. 2, the carrier 41 is installed in a matching way with the image acquisition device 3, the LED lamp group 42 comprises a plurality of LED lamps, and the LED lamps are regularly or irregularly arranged on the carrier 41.

The carrier 41 may be designed in various shapes according to practical applications, for example, the carrier 41 may be a long strip structure, may be a square structure, or may be a circular structure, when the carrier 41 specifically cooperates with the camera for assembling in various shapes, the carrier 41 may be designed with an avoiding opening through which the camera passes, or may not be designed with an avoiding opening, for example, the carrier 41 of the long strip structure, a plurality of LED lamps are arranged in a long strip shape, when the carrier 41 cooperates with the inclined installation portion 61 for installation, if the carrier 41 of the long strip structure can directly avoid the camera, the avoiding opening does not need to be designed, when the carrier 41 is a square structure or a circular structure, the avoiding opening on the inclined installation portion 61 is completely blocked when the carrier 41 is installed to the inclined installation portion 61, and then the carrier 41 needs to be designed with an avoiding opening through which the camera 23 passes.

In the concept of the present embodiment, a person skilled in the art may realize the matching assembly of the lighting device 4 and the image capturing device 3 through several modifications, so that the image capturing device 3 and the lighting device 4 share a avoiding opening to be mounted on the inclined mounting portion 61.

Further, supporting component 6 still includes with separate the first silica gel cover that warm glass 62 cooperation was used and with dodge the second silica gel cover 63 that the mouth cooperation was used, first silica gel cover will separate warm glass 62 and cup joint in the one end that the slope installation department 61 stretched into the cavity inside, when treating in the slope installation department 61 holding mounting hole 11, first silica gel cover and the inner wall sealing contact of mounting hole 11, the shape of second silica gel cover 63 cooperatees with corresponding shape of dodging the mouth, if, to infrared sensor 5 dodge the mouth, second silica gel cover 63 can cup joint infrared sensor 5 in corresponding dodging the mouth. The first silica gel sleeve and the second silica gel sleeve 63 of the embodiment not only have the fixing function, but also have the heat insulation and dustproof functions.

In order to realize the hardware control of the camera, the image acquisition device 3 further comprises a control panel for controlling the camera, the inclined installation part 61 is further provided with an installation support at the installation side of the camera, the control panel is installed on the installation support, and the camera and the control panel are fixed on the installation support after being combined, so that the camera inclines towards the cavity of the intelligent appliance.

Because the storage temperature of the image acquisition device 3, the illumination device 4, the infrared sensor 5 and other devices is about 100-120 ℃, but when the baking function is started, the temperature of the baking oven body can reach more than 200 ℃, the embodiment also comprises a heat dissipation device 7 on the basis that the heat insulation glass 62 is adopted to ensure that the image acquisition device 3, the illumination device 4 and the infrared sensor 5 are at the normal working temperature, the heat dissipation device 7 dissipates heat of the devices to ensure that the devices work in a stable working temperature range, and the heat dissipation device 7 is arranged on the side wall of the cavity body at the same side with the support assembly 6 or on the support assembly 6 and is used for dissipating heat of the image acquisition device 3, the illumination device 4 and the infrared sensor 5; that is, the present embodiment is based on the concept that the image capturing device 3, the lighting device 4, and the infrared sensor 5 share one mounting location, and simultaneously proposes the concept that the image capturing device 3, the lighting device 4, and the infrared sensor 5 share one heat dissipation channel, so as to simplify the structural design in the heat dissipation aspect of the intelligent appliance, and according to the specific application of the product, the heat dissipation device 7 of the present embodiment may be an ac fan, a dc fan, or an air blower.

In a specific application, the heat dissipation device 7 may adopt different combination forms for heat dissipation, for example, the heat dissipation device 7 may adopt a structure in which two fans are combined, that is, a dual-fan structure (for example, an air suction fan 100 and an air exhaust fan 200), one fan is used for air suction, and the other fan is used for air outlet, so as to form a heat dissipation loop, an installation structure diagram of the heat dissipation device 7 of the dual-fan structure is shown in fig. 3, fig. 3 is only one example of the dual-fan structure, in other examples, the dual fans in the dual-fan structure may also be in other arrangement and combination forms, for example, the dual fans are located on the same horizontal plane; wherein, the outside air of smart machine inhales via induced-draft fan, and the wind current is discharged from the fan of airing exhaust through the wind channel, and further, smart machine's casing corresponds induced-draft fan 100 position department and is equipped with air intake 101, corresponds the fan 200 position department of airing exhaust and is equipped with air outlet 201, strengthens wind channel air convection, reaches good radiating effect.

The heat dissipation device 7 can also be only of a single-fan structure, heat dissipation is carried out on the mounting position of the support component 6 through the single fan and the design of a corresponding return air outlet, the heat dissipation device 7 (such as only an air suction fan) of the single-fan structure is mounted on the inclined mounting part 62 and is positioned above the image acquisition device 3, the lighting device 4 and the infrared sensor 5, correspondingly, an air inlet is formed in the position, corresponding to the air suction fan, of the shell of the intelligent appliance, an air outlet is formed in the position, corresponding to the lower part of the support component 6, air convection of an air duct is enhanced, and a good heat dissipation effect is achieved; in other embodiments, the heat sink 7 of the single fan structure may also be mounted below the inclined mounting portion 62, as shown in fig. 4.

Based on the concept of this example, a person skilled in the art can mount any two combinations of the image acquisition device 3, the illumination device 4 and the infrared sensor 5 on the intelligent appliance by changing the combination of the image acquisition device 3, the illumination device 4 and the infrared sensor 5 to share one support component and share one heat dissipation channel, and the details of the combination mounting manner of any two combinations are omitted here.

In other embodiments, in order to improve the interest and safety of the intelligent appliance, the door body 2 of the intelligent appliance of the present embodiment is made of at least three layers of glass, wherein the surface of the middle layer glass or/and the inner layer glass of the door body is coated with a thermal insulation coating, for example, the middle layer glass or/and the inner layer glass are both low-e glass, so that the door body 2 of the intelligent appliance has heat reflection, that is, the door body 2 of the intelligent appliance reflects heat of high temperature in the cavity, thereby achieving the purpose of preventing a user from being scalded by the door body 2 of the intelligent appliance, and meanwhile, because the door body is a transparent structure, the user can visually see objects and corresponding processes through the door body.

When the intelligent appliance is a food heating appliance such as a microwave oven and an oven, in order to enable the intelligent appliance to be more intelligent, the intelligent appliance further comprises a touch display screen, wherein the touch display screen is arranged on the door body 2 or arranged at the top of the cavity of the intelligent appliance and positioned right above the door body, so that a user can control the processing process of the intelligent appliance on food through the touch display screen, such as control of processing time, control of processing temperature and the like.

Example three:

based on the second embodiment, the present example provides another specific installation arrangement application example of related devices in the intelligent appliance.

In this example, the support assembly 6 is mounted on the door body 2 of the intelligent appliance, specifically, as shown in fig. 5, the door body 2 of the intelligent appliance includes a door frame support frame 21 on which a transparent screen is mounted, the support assembly 6 is obliquely mounted on the door frame support frame 21, the image acquisition device 3, the illumination device 4 and/or the infrared sensor 5 is mounted on the support assembly 6, and after the support assembly 6 is obliquely mounted on the door frame support frame 21, the image acquisition device 3, the illumination device 4 and/or the infrared sensor 5 is inclined toward the inside of the cavity of the intelligent appliance.

In specific application, the image acquisition device 3, the illumination device 4 and the infrared sensor 5 may all be mounted on the door body 2 through the support assembly 6, or any two or any one of the image acquisition device 3, the illumination device 4 and the infrared sensor 5 may be mounted on the door body 2 through the support assembly 6, and when one of the image acquisition device 3, the illumination device 4 and the infrared sensor 5 is mounted on the door body 2, the other two support assemblies 6 are mounted on the cavity wall of the housing 1 in common.

The present example is described with the image capturing device 3 and the illumination device 4 being mounted on the door body 2 via the support assembly 6, and the infrared sensor 5 being mounted on the cavity wall of the housing 1, as shown in fig. 6.

The door body 2 of this embodiment may have a three-layer glass composition, wherein two layers of glass (for example, a first layer of glass with reference number 400 and a second layer of glass with reference number 500 in fig. 5) are installed on one side of the door frame support frame 21 close to the cavity, and the surfaces of the two layers of glass are coated with a thermal insulation coating, so that the image acquisition device 3 and the illumination device 4 are thermally insulated by multiple layers of thermal insulation glass, therefore, this installation scheme does not need to dissipate heat for the image acquisition device 3 and the illumination device 4, only needs to dissipate heat for the infrared sensor 5, one layer of glass (for example, a third layer of glass with reference number 600 in fig. 5) is installed on one side of the door frame support frame 21 away from the cavity, and after the support assembly 6 is obliquely installed on the door frame support frame 21, the image acquisition device 3 and the illumination device 4 are tilted toward the cavity, the image acquisition, the lighting device 4 is a LED lamp set.

Specifically, the supporting assembly 6 includes a first mounting plate 601, a second mounting plate 602 and a silica gel pad 603, the image acquisition device 3 is mounted on the first mounting plate 601, and the illumination device 4 is mounted on the second mounting plate 602, wherein a through hole for a camera to pass through is formed in the first mounting plate 601, the silica gel pad 603 is sleeved on one side of the first mounting plate 601 close to the cavity through the through hole, the camera is mounted on one side of the first mounting plate 601 far from the cavity, and the camera is sleeved in the silica gel pad 603; a plurality of LED lamps of the LED lamp group are directly mounted on the second mounting plate 602, and after the first mounting plate 601 and the second mounting plate 602 are obliquely mounted on the door frame support frame 21, the camera and the LED lamps are all inclined toward the inside of the cavity, so that the collection view angle of the image collection device 3 covers a plurality of image pickup surfaces of the object.

The infrared sensor 5 is mounted on the wall of the chamber, for example, the infrared sensor 5 may be mounted on the side wall, the top wall or the rear wall, and the mounting position and whether the infrared sensor 5 is mounted obliquely are not particularly limited in this example. In order to dissipate heat from the infrared sensor 5, the infrared sensor 5 therefore still needs to be provided with a corresponding heat sink 7.

It should be noted that, with reference to the first embodiment and the second embodiment, when the infrared sensor 5 is installed on the cavity side wall of the housing 1, in order to improve the accuracy of the infrared sensor 5 in detecting the temperature, the infrared sensor 5 is preferably a multipoint infrared sensor, correspondingly, when the infrared sensor 5 is installed at the middle position of the cavity top wall of the housing 1, the infrared sensor 5 only needs to select a single-point infrared sensor, and the infrared sensor 5 is selected as appropriate according to the specific application, which is not limited in this embodiment.

It is right to have used specific individual example above the utility model discloses expound, only be used for helping to understand the utility model discloses, not be used for the restriction the utility model discloses. To the technical field of the utility model technical personnel, the foundation the utility model discloses an idea can also be made a plurality of simple deductions, warp or replacement.

Claims (9)

1. The utility model provides an installation arrangement structure of relevant device in intelligent utensil, intelligent utensil is microwave oven, light wave stove, little steam ager or little steam oven, its characterized in that, relevant device includes: the intelligent appliance comprises an image acquisition device, a lighting device and an infrared sensor for detecting the temperature of food in the intelligent appliance;

the intelligent appliance comprises an intelligent appliance, an image acquisition device, a lighting device and an infrared sensor, wherein the image acquisition device, the lighting device and the infrared sensor are arranged on the intelligent appliance, and at least two of the image acquisition device, the lighting device and the infrared sensor share one supporting component and are arranged on the intelligent appliance, so that at least two of the image acquisition device, the lighting device and the infrared sensor share one installation position on the intelligent appliance.

2. The mounting arrangement of associated devices in a smart appliance according to claim 1, wherein at least two of said image capturing device, said illuminating device and said infrared sensor share a support assembly mounted to said smart appliance, including:

the image acquisition device and the lighting device share one supporting assembly, so that the image acquisition device and the lighting device share one mounting position on the intelligent appliance;

the image acquisition device and the infrared sensor share one supporting assembly, so that the image acquisition device and the infrared sensor share one mounting position on the intelligent appliance;

the lighting device and the infrared sensor share one supporting assembly, so that the lighting device and the infrared sensor share one mounting position on the intelligent appliance;

the image acquisition device, the lighting device and the infrared sensor share one supporting component, so that the image acquisition device, the lighting device and the infrared sensor share one mounting position on the intelligent appliance.

3. The mounting arrangement for associated devices in a smart appliance according to claim 1 or 2, wherein the support assembly is mounted on a cavity wall of the smart appliance.

4. The mounting arrangement structure of related devices in an intelligent appliance according to claim 3, wherein a mounting hole inclined towards the inside of the cavity is formed in the cavity wall of the intelligent appliance, the support assembly comprises an inclined mounting portion, the image acquisition device, the illumination device and/or the infrared sensor are mounted on the inclined mounting portion, and when the inclined mounting portion is mounted on the cavity wall of the intelligent appliance through the mounting hole, the image acquisition device, the illumination device and/or the infrared sensor are inclined towards the inside of the cavity of the intelligent appliance.

5. The mounting arrangement of associated components in a smart appliance according to claim 4, wherein the support assembly further comprises at least one layer of transparent insulating glass mounted in cooperation with the angled mounting portion, the insulating glass being mounted to the angled mounting portion for isolating the image capture device, the illumination device and/or the infrared sensor from the interior of the cavity of the smart appliance.

6. The mounting arrangement for associated devices in a smart appliance of claim 3, further comprising a heat sink mounted on the side wall of the cavity on the same side as the support assembly or mounted to the support assembly.

7. The mounting arrangement of related devices in an intelligent appliance according to claim 1 or 2, wherein the door body of the intelligent appliance is a transparent screen, and the support assembly is mounted on the door body of the intelligent appliance.

8. The mounting arrangement of the related devices in the smart appliance according to claim 7, wherein the door body of the smart appliance includes a door frame support frame on which the transparent screen is mounted, the support assembly is obliquely mounted on the door frame support frame, the image capturing device, the illuminating device and/or the infrared sensor is mounted on the support assembly, and after the support assembly is obliquely mounted on the door frame support frame, the image capturing device, the illuminating device and/or the infrared sensor is/are inclined toward the inside of the cavity of the smart appliance.

9. The mounting arrangement of associated devices in a smart appliance according to claim 1, wherein said lighting device comprises a LED light bank, said LED light bank comprising a plurality of LED lights.

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