CN114992709A - Wisdom eye mounting structure and air conditioner - Google Patents

Abstract

The embodiment of the application provides a smart eye mounting structure and an air conditioner, wherein the smart eye mounting structure comprises a smart eye component and a mounting component; the intelligent eye assembly comprises a detection device and a connecting piece connected with the detection device, and the connecting piece is provided with a rotating shaft and an anti-falling piece arranged on the side wall of the rotating shaft; the installation component has the shaft hole and can supply the dismouting mouth that anticreep piece passes through, the dismouting mouth sets up week side in shaft hole and with the shaft hole intercommunication, the pivot is rotationally worn to establish in the shaft hole, anticreep piece is followed one side warp of installation component the dismouting mouth removes extremely the opposite side that the installation component is relative, and through rotating the intelligent eye subassembly makes anticreep piece take and lean on the installation component. The wisdom eye mounting structure of this application embodiment is convenient for the dismouting.

Description

Wisdom eye mounting structure and air conditioner

Technical Field

The application relates to the technical field of air conditioners, in particular to an intelligent eye mounting structure and an air conditioner.

Background

In the related art, an intelligent eye is installed on an indoor unit of an air conditioner, and the indoor unit obtains indoor related conditions, such as a body temperature, a position, and the like, through the intelligent eye and intelligently controls the indoor unit according to the obtained information.

However, the smart eyes in the related art are generally integrated on the return air panel of the indoor unit, which is inconvenient to assemble and disassemble.

Disclosure of Invention

In view of this, it is desirable to provide an intelligent eye mounting structure and an air conditioner that are easy to assemble and disassemble.

To achieve the above object, an embodiment of the present application provides a smart eye mounting structure for an air conditioner, including:

the intelligent eye assembly comprises a detection device and a connecting piece connected with the detection device, and the connecting piece is provided with a rotating shaft and an anti-falling piece arranged on the side wall of the rotating shaft;

the installation component, the installation component has the shaft hole and can supply the dismouting mouth that anti-slip member passes through, the dismouting mouth sets up all sides in shaft hole and with the shaft hole intercommunication, the pivot is rotationally worn to establish in the shaft hole, anti-slip member follows one side warp of installation component the dismouting mouth removes extremely the opposite side that the installation component is relative, and through rotating the intelligence eye subassembly makes anti-slip member takes and leans on the installation component is last.

In one embodiment, the anti-disengaging piece comprises a first anti-disengaging piece and a second anti-disengaging piece, the dismounting opening comprises a first dismounting opening and a second dismounting opening, the first dismounting opening can allow the first anti-disengaging piece to pass through, and the second dismounting opening can allow the second anti-disengaging piece to pass through.

In one embodiment, the first and second retaining members are located at radially opposite ends of the rotating shaft.

In one embodiment, the first anti-slip member and the second attaching/detaching port have an outer shape satisfying: when the intelligent eye assembly arranged on the mounting assembly rotates to enable the first anti-falling part to move to the second dismounting opening, the first anti-falling part is abutted against the part of the mounting assembly on the periphery side of the second dismounting opening; and/or the presence of a gas in the atmosphere,

the appearance of second anticreep piece and the appearance of first dismouting mouth satisfy: when installing on the installation component the smart eye subassembly makes through rotating the second anticreep piece removes extremely first dismouting mouthful department, the second anticreep piece takes up and leans on the installation component is located on the position of first dismouting mouthful week side.

In one embodiment, the length of the first anti-slip part is greater than that of the second dismounting opening; the width of the second anti-falling part is larger than that of the first dismounting and mounting opening.

In one embodiment, the mounting assembly is provided with a limiting member, and when the smart eye assembly rotates to an extreme position, the first anti-slip member abuts against the limiting member.

In one embodiment, the limiting member is disposed at one side of the first opening along the rotation direction of the smart eye assembly, and is close to the edge of the first opening; and/or the presence of a gas in the gas,

the set position of the limiting part avoids the second anti-falling part.

In one embodiment, the mounting assembly has a rib surrounding the circumference of the shaft hole and avoiding the mounting/dismounting opening, and the anti-falling part is abutted against the rib.

In one embodiment, the rib forms a guide surface toward an end of the attachment/detachment opening.

In one embodiment, the installation component comprises an installation seat with an avoiding opening and a fixed disk with the shaft hole and the dismounting opening, wherein the fixed disk is detachably arranged on the installation seat, and the avoiding opening avoids the shaft hole and the dismounting opening.

In one implementation mode, be provided with first elasticity buckle and second elasticity buckle on the mount pad, be provided with first draw-in groove and second draw-in groove on the fixed disk, first draw-in groove with the second draw-in groove forms jointly and prevents slow-witted structure, first elasticity buckle with first draw-in groove joint cooperation, second elasticity buckle with second draw-in groove joint cooperation.

In one embodiment, the shaft has a wire passage.

In one embodiment, the connecting part comprises a connecting disc and the rotating shaft arranged on the connecting disc, and the connecting disc is detachably connected with the detection device.

Another embodiment of the present application provides an air conditioner, including: air conditioner main part and the aforesaid wisdom eye mounting structure, detection device with air conditioner main part signal connection.

In one embodiment, the smart eye mounting structure is independently installed apart from the air conditioner main body.

The embodiment of the application provides a wisdom eye mounting structure and air conditioner, wisdom eye mounting structure has set up the installation component that has shaft hole and dismouting mouth and has the wisdom eye subassembly of pivot and anticreep piece, during the installation wisdom eye subassembly, only need aim at the shaft hole on the installation component with the pivot on the connecting piece, aim at the dismouting mouth with the anticreep piece, then the axial of following the pivot removes wisdom eye subassembly towards the direction that is close to the installation component, after the anticreep piece removes to the opposite side that the installation component is relative from one side of installation component through the dismouting mouth, the rethread rotates wisdom eye subassembly, just can take the anticreep piece to lean on the installation component, in order to play spacing the countershaft, prevent the effect that the pivot is deviate from the shaft hole. When the wisdom eye subassembly is pulled down from the installation component to needs, only need through rotating wisdom eye subassembly, make anticreep piece remove to the position of aiming at with the dismouting mouth, again along the axial of pivot towards the direction of keeping away from the installation component remove wisdom eye subassembly can. The whole dismounting process can be completed by hands without any tools, the operation is simple and convenient, and the after-sale maintenance can be facilitated.

Drawings

Fig. 1 is a schematic structural view illustrating a smart eye mounting structure according to an embodiment of the present application mounted on a ceiling;

FIG. 2 is a schematic structural view of the smart eye mounting structure shown in FIG. 1;

FIG. 3 is a schematic diagram of the smart eye module shown in FIG. 1;

FIG. 4 is a schematic structural view of the mounting assembly shown in FIG. 1;

FIG. 5 is an exploded view of FIG. 4;

FIG. 6 is a schematic structural view of the fixing plate shown in FIG. 5;

FIG. 7 is a schematic view of the smart-eye module of FIG. 2 prior to connection to a mounting module, with arrows indicating the direction of movement of the smart-eye module;

FIG. 8 is a view showing the first and second anti-separation members shown in FIG. 7 after they have been inserted through the first and second openings, respectively;

fig. 9 is a state diagram of the smart eye assembly shown in fig. 8 when the second anti-falling part passes through the limiting part during the rotation process, and an arrow on the outer side of the smart eye assembly indicates the rotation direction;

FIG. 10 is a view of the smart-eye assembly of FIG. 8 after it has been rotated approximately 180 degrees, with the arrow on the outside of the smart-eye assembly indicating the direction of rotation;

fig. 11 is a state view of the smart-eye device shown in fig. 8 after being rotated substantially 360 °, and an arrow outside the smart-eye device indicates a rotation direction.

Description of the reference numerals

A smart eye mounting structure 10; a smart-eye assembly 11; a detection device 111; a positioning member 111 b; a connecting member 112; a land 1121; fastener clearance grooves 1121 a; positioning holes 1121 b; a rotary shaft 1122; a wire-through channel 1122 a; an anti-slip member 1123; a first retaining member 1123 a; a second retaining member 1123 b; a mounting assembly 12; a mount 121; an avoidance port 121 a; a first elastic catch 121 b; a second elastic catch 121 c; a fixed disk 122; the shaft holes 122 a; a mounting/dismounting port 122 b; first removal/attachment opening 122b 1; second removal/installation opening 122b 2; a first card slot 122 c; second card slot 122 d; a stopper 122 e; the ribs 122 f; a guide surface 122 g; a ceiling 20.

Detailed Description

It should be noted that, in the present application, technical features in examples and embodiments may be combined with each other without conflict, and the detailed description in the specific embodiment should be understood as an explanation of the gist of the present application and should not be construed as an improper limitation to the present application.

An embodiment of the present application provides a smart eye mounting structure 10 for an air conditioner, please refer to fig. 1 to 4, the smart eye mounting structure 10 includes a smart eye component 11 and a mounting component 12.

The smart eye assembly 11 includes a detecting device 111 and a connecting member 112 connected to the detecting device 111, wherein the connecting member 112 has a rotating shaft 1122 and an anti-falling member 1123 disposed on a side wall of the rotating shaft 1122.

Specifically, the detection device 111 is a detection device 111 for detecting an indoor situation, wherein the detection device 111 is provided with a detection element, a connection line, a circuit board, and other structures, the detection element includes, but is not limited to, an imaging device, a sensor, and other components, and the sensor includes an infrared sensor, an ultrasonic sensor, a radar, and the like.

To facilitate the connection wire to extend out of the detection device 111 from the detection device 111, for example, referring to fig. 3, a wire passage 1122a may be disposed on the rotating shaft 1122, and the connection wire passes through the wire passage 1122 a.

The connecting member 112 may be detachably connected to the detecting device 111, for example, clamped, screwed, fastened by a fastener such as a screw or a bolt, etc., the connecting member 112 may also be non-detachably connected to the detecting device 111, for example, welded, adhered, etc., and the connecting member 112 may also be integrally formed with the detecting device 111.

The mounting assembly 12 has a shaft hole 122a and a mounting/dismounting opening 122b through which the retaining member 1123 can pass, and is equivalent to the mounting/dismounting opening 122b capable of avoiding the retaining member 1123, the mounting/dismounting opening 122b is disposed on the periphery of the shaft hole 122a and is communicated with the shaft hole 122a, the rotating shaft 1122 is rotatably inserted into the shaft hole 122a, the retaining member 1123 moves from one side of the mounting assembly 12 to the other side of the mounting assembly 12 through the mounting/dismounting opening 122b, and the retaining member 1123 is abutted against the mounting assembly 12 by rotating the smart eye assembly 11.

Specifically, the smart-eye component 11 and the mounting component 12 are two separable components, or the smart-eye component 11 and the mounting component 12 are detachably connected. Referring to fig. 7, when the smart eye assembly 11 is installed, the rotating shaft 1122 on the connecting member 112 needs to be aligned with the shaft hole 122a of the mounting assembly 12, the anti-slip member 1123 needs to be aligned with the detaching port 122b, and then the smart eye assembly 11 needs to be moved in a direction approaching the mounting assembly 12 along the axial direction of the rotating shaft 1122, in the process of moving the smart eye assembly 11, referring to fig. 8, the rotating shaft 1122 will penetrate into the shaft hole 122a, the anti-slip member 1123 will also move from one side of the mounting assembly 12 to the other side opposite to the mounting assembly 12 through the detaching port 122b, which is equivalent to the anti-slip member 1123 passing through the detaching port 122b, referring to fig. 9, after the anti-slip member 1123 moves to the other side opposite to the mounting assembly 12, by rotating the smart eye assembly 11, the anti-slip member 3 can be staggered from the detaching port 122b and abutted against the mounting assembly 12, and it should be noted that the abutment described herein mainly means that the anti-slip member 1123 can be contacted with the mounting assembly 12, the mounting component 12 can block the retaining member 1123 to prevent the retaining member 1123 from being removed from the mounting/dismounting opening 122b, and further prevent the rotating shaft 1122 from being removed from the shaft hole 122a, but the rotating shaft 1122 can still rotate in the shaft hole 122a, so that the smart eye component 11 can be mounted on the mounting component 12.

It should be noted that, after the smart-eye module 11 is mounted on the mounting module 12, the rotation angle of the smart-eye module 11 relative to the mounting module 12 can be designed as required, for example, in an embodiment, the rotation angle of the smart-eye module 11 relative to the mounting module 12 can only satisfy that the anti-dropping element 1123 can lean on the mounting module 12, that is, the rotation angle of the smart-eye module 11 relative to the mounting module 12 is small, and the rotation is only for mounting the smart-eye module 11, and the angle of the smart-eye module 11 can hardly change during the use process. In another embodiment, the smart eye device 11 may also have a larger rotation angle, which is equivalent to that the smart eye device 11 can rotate to adjust the orientation of the smart eye device 11 during the use process, so as to expand the working range of the smart eye device 11 and meet the detection requirements of different positions.

When the smart eye module 11 needs to be removed from the mounting module 12, the smart eye module 11 can be removed only by rotating the smart eye module 11, moving the anti-falling piece 1123 to the position aligned with the detaching opening 122b, and then moving the smart eye module 11 in the direction away from the mounting module 12 along the axial direction of the rotating shaft 1122.

In addition, at the in-process of dismouting wisdom eye subassembly 11, wisdom eye subassembly 11 mainly realizes rotating through operator's manual rotation's mode, and to wisdom eye subassembly 11 that can change the angle in the use, wisdom eye subassembly 11 can rotate through manual mode, wisdom eye subassembly 11 also can be connected with the actuating mechanism drive to rotate under actuating mechanism's drive.

Another embodiment of the present application further provides an air conditioner, which includes an air conditioner main body and the smart eye mounting structure 10 of any embodiment of the present application, wherein the detecting device 111 is in signal connection with the air conditioner main body, that is, the air conditioner main body can obtain the detection information detected by the detecting device 111, and perform related intelligent control on the air conditioner main body according to the obtained detection information.

The air conditioner can be of various types, for example, the air conditioner can be an air conditioner with an indoor unit and an outdoor unit, and can also be an air conditioner all-in-one machine, and correspondingly, for the air conditioner with the indoor unit and the outdoor unit, the air conditioner main body mainly refers to the indoor unit, and for the air conditioner all-in-one machine, the air conditioner main body is the air conditioner all-in-one machine.

The smart eye mounting structure 10 may be mounted on the air conditioner main body, for example, the mounting component 12 may be mounted on a panel of the air conditioner main body, and the smart eye mounting structure 10 may also be mounted independently from the air conditioner main body, that is, the smart eye mounting structure 10 may not be mounted on the air conditioner main body, for example, referring to fig. 1, the mounting component 12 may be mounted on the indoor ceiling 20, and preferably, the mounting component 12 may be mounted inside the ceiling 20, and only the shaft hole 122a and the dismounting hole 122b need to be exposed, which is equivalent to hiding the mounting component 12 inside the ceiling 20, after the smart eye component 11 is mounted on the mounting component 12, only the smart eye component 11 is visible from the appearance, but the mounting component 12 is not visible, thereby, the appearance of the smart eye mounting structure 10 may be more concise and beautiful.

Exemplarily, when the air conditioner main body is disposed in the living room, the detection device 111 may be configured to sense a direction of a person and feed back detection information to the air conditioner main body, and the air conditioner main body controls the air outlet panel to rotate according to the received detection information and a preset mode, so as to achieve wind direction control of blowing the person or keeping away from the person.

For example, when the air conditioner main body is disposed in a bedroom, the detecting device 111 may be configured to sense a sleeping condition of a person, for example, sense whether a child kicks the quilt while sleeping, and feed back detection information to the air conditioner main body, and the air conditioner main body determines whether to start the wind avoiding mode according to the received detection information.

Among the correlation technique, the wisdom eye is integrated on the return air panel of indoor set generally, and the installation is all comparatively inconvenient with the dismantlement, and maintainability is relatively poor.

The smart eye mounting structure 10 of the embodiment of the present application is provided with the mounting component 12 having the shaft hole 122a and the dismounting hole 122b and the smart eye component 11 having the shaft 1122 and the anti-slip-off piece 1123, when the smart eye component 11 is mounted, only the shaft 1122 on the connecting member 112 needs to be aligned with the shaft hole 122a on the mounting component 12, the anti-slip-off piece 1123 needs to be aligned with the dismounting hole 122b, and then the smart eye component 11 is moved in a direction close to the mounting component 12 along the axial direction of the shaft 1122, after the anti-slip-off piece 1123 is moved from one side of the mounting component 12 to the other side opposite to the mounting component 12 through the dismounting hole 122b, the anti-slip-off piece 1123 can be abutted to the mounting component 12 by rotating the smart eye component 11, so as to limit the shaft 1122 and prevent the shaft 1122 from coming out of the shaft hole 122 a. When the smart eye assembly 11 needs to be removed from the mounting assembly 12, the anti-falling piece 1123 is moved to the position aligned with the removal/installation opening 122b by rotating the smart eye assembly 11, and then the smart eye assembly 11 is moved in the direction away from the mounting assembly 12 along the axial direction of the rotating shaft 1122. The whole dismounting process can be completed by hands without any tools, the operation is simple and convenient, and the after-sale maintenance can be facilitated.

In addition, in order to prevent the smart-eye module 11 from falling off the mounting module 12 when the user rotates the smart-eye module 11 to the position where the anti-slip member 1123 is aligned with the mounting/dismounting opening 122b as much as possible during the use, when the mounting module 12 is mounted, the position of the mounting module 12 may be adjusted so that when the smart-eye module 11 is located at the position where the anti-slip member 1123 is aligned with the mounting/dismounting opening 122b, the detection portion of the detection element in the detection device 111 faces the detection blind area in the room, which means that the user can distinguish whether the current angle of the smart-eye module 11 is appropriate according to the direction of the detection portion of the detection element, or a shielding member such as a cover plate may be disposed at the mounting/dismounting opening 122b during the use, and when the smart-eye module 11 needs to be mounted/dismounted, the cover plate is opened.

The connecting member 112 may have various configurations, and for example, referring to fig. 3, the connecting member 112 includes a connecting disc 1121 and a rotating shaft 1122 provided on the connecting disc 1121, and the connecting disc 1121 may be detachably connected to the detecting device 111.

Referring to fig. 3, the connection disc 1121 shown in fig. 3 is fastened to the detection device 111, in order to facilitate mounting of a fastener, a partial region of the connection disc 1121 may be recessed to form a fastener avoiding groove 1121a, a first fastener mounting hole is disposed on a bottom wall of the fastener avoiding groove 1121a, and a second fastener mounting hole corresponding to the first fastener mounting hole is disposed on the detection device 111, that is, the fastener is inserted into the first fastener mounting hole and the second fastener mounting hole to enable the connection disc 1121 to be fastened to the detection device 111. Fastener clearance slots 1121a can function to conceal fasteners.

Further, referring to fig. 3, a positioning hole 1121b may be formed in the connection disc 1121, a positioning member 111b may be formed in the detection device 111, and when the connection disc 1121 is mounted, the positioning member 111b is inserted into the positioning hole 1121b, so that the first fastener mounting hole in the connection disc 1121 is automatically aligned with the second fastener mounting hole in the detection device 111, and thus, the mounting efficiency may be improved.

In some embodiments, the positioning element 111b may be disposed on the connection disc 1121, and the positioning hole 1121b may be disposed on the detection device 111.

The mounting assembly 12 may have various structural forms, for example, referring to fig. 4 to fig. 6, the mounting assembly 12 may include a mounting seat 121 and a fixing disk 122, the mounting seat 121 and the fixing disk 122 may be plastic parts, sheet metal parts, and the like, the mounting seat 121 is configured to be structurally connected to an air conditioner main body or a ceiling 20, the mounting seat 121 has an avoiding opening 121a, the fixing disk 122 has a shaft hole 122a and a dismounting opening 122b, the fixing disk 122 is detachably disposed on the mounting seat 121, the avoiding opening 121a avoids the shaft hole 122a and the dismounting opening 122b, that is, when the smart eye assembly 11 is mounted, the rotating shaft 1122 penetrates into the shaft hole 122a from the avoiding opening 121a, and the anti-disengaging part 1123 also penetrates into the dismounting opening 122b from the avoiding opening 121 a.

The fixing plate 122 may be fixed on the mounting seat 121 by clamping, screwing, fastening, or the like, for example, referring to fig. 4 to 6, an elastic buckle may be disposed on the mounting seat 121, and the elastic buckle presses the fixing plate 122 on the mounting seat 121 by elastic deformation.

Further, referring to fig. 4 to 6, a first elastic buckle 121b and a second elastic buckle 121c may be disposed on the mounting seat 121, a first card slot 122c and a second card slot 122d may be disposed on the fixed disk 122, and the first card slot 122c and the second card slot 122d together form a foolproof structure, that is, the first card slot 122c and the second card slot 122d have different shapes and/or sizes, for example, referring to fig. 4 to 6, the width of the first card slot 122c may be greater than the width of the second card slot 122d, or the shape of the first card slot 122c is semicircular, the shape of the second card slot 122d is rectangular, etc., the first elastic buckle 121b can only be in clamping fit with the first card slot 122c, and the second elastic buckle 121c can only be in clamping fit with the second card slot 122d, thereby preventing the fixed disk 122 from being incorrectly installed.

In some embodiments, mount 121 and mounting plate 122 may also be a unitary structure.

In an embodiment, referring to fig. 4 to 6, the mounting assembly 12 may be provided with a rib 122f, and the rib 122f surrounds the axial hole 122a and avoids the dismounting opening 122 b. For mounting assemblies 12 with mounting plates 122 shown in fig. 4-6, ribs 122f are provided on the mounting plates 122, and for other mounting assemblies 12 without mounting plates 122, ribs 122f may be provided on other structures of the mounting assembly 12. The retaining member 1123 abuts on the rib 122f, that is, when the smart eye module 11 rotates, the retaining member 1123 also contacts the rib 122 f. The convex rib 122f can provide rotary damping for the intelligent eye component 11 when the intelligent eye component 11 rotates, so as to realize the function of angle positioning and avoid angle deviation dislocation.

Further, referring to fig. 4 to 6, the end of the rib 122f facing the mounting/dismounting opening 122b may further form a guide surface 122g, and after the anti-slip-off part 1123 moves from one side of the mounting component 12 to the other side of the mounting component 12 through the mounting/dismounting opening 122b, or in the normal use process, the anti-slip-off part 1123 moves from one side of the mounting/dismounting opening 122b to the other side of the mounting/dismounting opening 122b by rotating the smart eye assembly 11, the guide surface 122g may guide the anti-slip-off part 1123 to move onto the rib 122f, thereby preventing the end of the rib 122f facing the mounting/dismounting opening 122b from interfering with the anti-slip-off part 1123 as much as possible.

The number of the retaining pieces 1123 may be one or more, the number of the detaching ports 122b corresponds to the number of the retaining pieces 1123, for example, referring to fig. 3 and 4, two retaining pieces 1123 may be disposed on the rotating shaft 1122, two detaching ports 122b may be disposed on the mounting assembly 12, for convenience of description, the two retaining pieces 1123 may be respectively referred to as a first retaining piece 1123a and a second retaining piece 1123b, the two detaching ports 122b may be respectively referred to as a first detaching port 122b1 and a second detaching port 122b2, the first detaching port 122b1 may be passed by the first retaining piece 1123a, and the second detaching port 122b2 may be passed by the second retaining piece 1123 b.

Specifically, referring to fig. 8, when the smart eye assembly 11 is installed, the first anti-slip-off piece 1123a moves from one side of the installation assembly 12 to the opposite side of the installation assembly 12 through the first assembling and disassembling opening 122b1, the second anti-slip-off piece 1123b moves from one side of the installation assembly 12 to the opposite side of the installation assembly 12 through the second assembling and disassembling opening 122b2, and then the first anti-slip-off piece 1123a and the second anti-slip-off piece 1123b are respectively abutted against the installation assembly 12 by rotating the smart eye assembly 11.

The relative positions of the first retaining member 1123a and the second retaining member 1123b on the rotating shaft 1122 can be determined according to the requirement, and preferably, referring to fig. 3, the first retaining member 1123a and the second retaining member 1123b can be respectively located at two opposite ends of the rotating shaft 1122 in the radial direction, that is, the angle between the center line of the first retaining member 1123a in the radial direction of the rotating shaft 1122 and the center line of the second retaining member 1123b in the radial direction of the rotating shaft 1122 can be 180 °, and the positions of the first attaching/detaching port 122b1 and the second attaching/detaching port 122b2 correspond to the first retaining member 1123a and the second retaining member 1123b, so that the smart eye assembly 11 can be more smoothly rotated.

In some embodiments, the angle between the center line of the first retaining member 1123a along the radial direction of the rotating shaft 1122 and the center line of the second retaining member 1123b along the radial direction of the rotating shaft 1122 may be any other angle.

Further, referring to fig. 10, the shape of the first retaining member 1123a and the shape of the second assembling/disassembling opening 122b2 satisfy: when the smart eye module 11 mounted on the mounting module 12 is rotated to move the first retaining member 1123a to the second attaching/detaching opening 122b2, the first retaining member 1123a abuts on the mounting module 12 at a portion around the second attaching/detaching opening 122b 2. The outer shape of the second retaining member 1123b and the outer shape of the first attaching/detaching port 122b1 satisfy: when the smart eye module 11 mounted on the mounting module 12 is rotated to move the second retaining member 1123b to the first attaching/detaching opening 122b1, the second retaining member 1123b abuts on the mounting module 12 at a portion around the first attaching/detaching opening 122b 1.

That is, the angle of the smart eye module 11 mounted on the mounting module 12 can be adjusted by rotation, when the smart eye module 11 is rotated to move the first stopper 1123a to the second mounting/dismounting port 122b2, the first stopper 1123a abuts on the mounting module 12 at the portion around the second mounting/dismounting port 122b2 to prevent the first stopper 1123a from coming off the second mounting/dismounting port 122b2, and similarly, when the smart eye module 11 is rotated to move the second stopper 1123b to the first mounting/dismounting port 122b1, the second stopper 1123b abuts on the mounting module 12 at the portion around the first mounting/dismounting port 122b1 to prevent the second stopper 1123b from coming off the first mounting/dismounting port 122b1, thereby enabling the smart eye module 11 to have a larger rotation angle.

For example, referring to fig. 10, the length of the first retaining member 1123a may be greater than the length of the second opening 122b2, that is, when the first retaining member 1123a moves to the second opening 122b2, the end of the first retaining member 1123a away from the rotating shaft 1122 may abut on the portion of the mounting assembly 12 located at the second opening 122b2 away from the rotating shaft 1122.

The second retaining member 1123b may be disposed on the mounting assembly 12 around the first opening 122b1 in various ways, for example, referring to fig. 10, the width of the second retaining member 1123b may be larger than the width of the first opening 122b1, that is, when the second retaining member 1123b moves to the first opening 122b1, the two sides of the second retaining member 1123b along the width direction may be disposed on the mounting assembly 12 around the two sides of the second opening 122b2 along the width direction.

Taking the first retaining member 1123a and the second retaining member 1123b shown in fig. 10 as an example, since the first retaining member 1123a and the second retaining member 1123b are respectively located at the two opposite ends of the rotating shaft 1122 in the radial direction, when the shapes of the first attaching/detaching port 122b1 and the second attaching/detaching port 122b2 satisfy the above requirements, the smart eye module 11 can rotate 180 ° at least, that is, when the smart eye module 11 rotates 180 °, the first retaining member 1123a moves from the first attaching/detaching port 122b1 to the second attaching/detaching port 122b2, and the second retaining member 1123b moves from the second attaching/detaching port 122b2 to the first attaching/detaching port 122b 1.

In addition, it can be understood that, when the first and second retaining members 1123a and 1123b are not located at the opposite ends of the rotating shaft 1122 in the radial direction, that is, an angle between a center line of the first retaining member 1123a in the radial direction of the rotary shaft 1122 and a center line of the second retaining member 1123b in the radial direction of the rotary shaft 1122 is not 180, if the first retaining member 1123a moves to the second port 122b2, the second retaining member 1123b moves to a position offset from the first port 122b1, and, similarly, if the second retaining member 1123b is moved to the first port 122b1, the first retaining member 1123a is moved to a position offset from the second port 122b2, however, since the second attaching/detaching port 122b2 can prevent the first stopper 1123a from coming off the second attaching/detaching port 122b2 and the first attaching/detaching port 122b1 can prevent the second stopper 1123b from coming off the first attaching/detaching port 122b1, the smart eye module 11 can have a large rotation angle.

In some embodiments, only the shape of the first retaining member 1123a and the shape of the second attaching/detaching opening 122b2 may satisfy: when the smart eye assembly 11 mounted on the mounting assembly 12 is rotated to move the first retaining member 1123a to the second attaching/detaching opening 122b2, the first retaining member 1123a abuts on the mounting assembly 12 at the peripheral portion of the second attaching/detaching opening 122b2, and the external shape of the second retaining member 1123b and the external shape of the first attaching/detaching opening 122b1 do not satisfy: when the smart eye module 11 mounted on the mounting module 12 is rotated to move the second retaining member 1123b to the first attaching/detaching opening 122b1, the second retaining member 1123b abuts on the mounting module 12 at a portion around the first attaching/detaching opening 122b 1. Alternatively, only the outer shape of the second retaining member 1123b and the outer shape of the first attaching/detaching port 122b1 may satisfy: when the smart eye module 11 mounted on the mounting module 12 is rotated to move the second retaining member 1123b to the first mounting/dismounting opening 122b1, the second retaining member 1123b abuts on the mounting module 12 at the peripheral portion of the first mounting/dismounting opening 122b1, and the external shape of the first retaining member 1123a and the external shape of the second mounting/dismounting opening 122b2 do not satisfy: when the smart eye module 11 mounted on the mounting module 12 is rotated to move the first retaining member 1123a to the second attaching/detaching opening 122b2, the first retaining member 1123a abuts on the mounting module 12 at the portion located on the peripheral side of the second attaching/detaching opening 122b 2.

In an embodiment, referring to fig. 4, 8 and 11, the mounting assembly 12 is provided with a limiting member 122e, when the smart eye assembly 11 rotates to the limiting position, the first anti-falling off member 1123a abuts against the limiting member 122e, that is, the limiting member 122e is provided to limit the rotation angle and the rotation direction of the smart eye assembly 11. In addition, since the connection line in the detection device 111 needs to extend to the outside of the detection device 111, the rotation angle of the smart eye assembly 11 is limited by the stopper 122e, and the connection line can also be prevented from being excessively twisted.

The position of the limiting element 122e can be determined as required, for example, referring to fig. 4, 8 and 11, the limiting element 122e can be disposed at one side of the first opening 122b1 along the rotation direction of the smart eye assembly 11 and near the edge of the first opening 122b 1. The limiting member 122e in fig. 4, 8 and 11 is disposed at the rear side edge of the first opening 122b1 along the clockwise direction of the smart-eye assembly 11, that is, after the first anti-separation member 1123a moves from one side of the installation assembly 12 to the other side of the installation assembly 12 opposite to the first opening 122b1, the smart-eye assembly 11 can only be rotated in the counterclockwise direction.

In some embodiments, the limiting member 122e may also be disposed at the front edge of the first opening 122b1 along the clockwise direction of the smart-eye assembly 11, that is, after the first anti-slip-off member 1123a moves from one side of the mounting assembly 12 to the other side of the mounting assembly 12 through the first opening 122b1, the smart-eye assembly 11 can only be rotated clockwise. Alternatively, the limiting member 122e may not be close to the edge of the first assembling and disassembling opening 122b1, that is, the limiting member 122e has a certain distance from the edge of the first assembling and disassembling opening 122b1, which is equivalent to that after the first anti-dropping member 1123a moves from one side of the mounting component 12 to the other side of the mounting component 12 opposite to the first assembling and disassembling opening 122b1, the smart eye component 11 may be rotated in the counterclockwise direction, or the smart eye component 11 may be rotated in the clockwise direction.

In addition, for the mounting unit 12 provided with the fixed disk 122 shown in fig. 4, 8 and 11, the stopper 122e is provided on the fixed disk 122, and for other mounting units 12 not provided with the fixed disk 122, the stopper 122e may be provided on other structures of the mounting unit 12.

In an embodiment, referring to fig. 9, the position of the limiting member 122e can also be set to avoid the second anti-dropping-off member 1123b, that is, the limiting member 122e only blocks the first anti-dropping-off member 1123a, but not the second anti-dropping-off member 1123 b. For example, referring to fig. 9, a shortest distance between the limiting member 122e and the axis of the rotating shaft 1122 may be greater than a longest distance between the second anti-falling off part 1123b and the axis of the rotating shaft 1122, and the second anti-falling off part 1123b may pass through a side of the limiting member 122e close to the rotating shaft 1122 without contacting the limiting member 122 e.

The purpose of avoiding the second retaining member 1123b from the installation position of the retaining member 122e is that, from the initial position where the first retaining member 1123a abuts against the retaining member 122e, after the smart-eye assembly 11 rotates approximately 360 °, the first retaining member 1123a will abut against the retaining member 122e again, and thus, the smart-eye assembly 11 can rotate approximately 360 °, and the working range of the smart-eye assembly 11 can be further increased.

In some embodiments, the limiting member 122e may also be used to limit the second retaining member 1123b, which means that when the smart eye assembly 11 rotates to the first limit position, the first retaining member 1123a abuts against the limiting member 122e, and when the smart eye assembly 11 rotates to the second limit position, the second retaining member 1123b abuts against the limiting member 122 e.

The various embodiments/implementations provided herein can be combined with each other without contradiction.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application are included in the protection scope of the present application.

Claims (15)

1. An intelligent eye mounting structure for an air conditioner, comprising:

the intelligent eye assembly comprises a detection device and a connecting piece connected with the detection device, and the connecting piece is provided with a rotating shaft and an anti-falling piece arranged on the side wall of the rotating shaft;

the installation component, the installation component has the shaft hole and can supply the dismouting mouth that anti-slip member passes through, the dismouting mouth sets up all sides in shaft hole and with the shaft hole intercommunication, the pivot is rotationally worn to establish in the shaft hole, anti-slip member follows one side warp of installation component the dismouting mouth removes extremely the opposite side that the installation component is relative, and through rotating the intelligence eye subassembly makes anti-slip member takes and leans on the installation component is last.

2. The smart eye mounting structure of claim 1 wherein the anti-slip member comprises a first anti-slip member and a second anti-slip member, the opening comprises a first opening through which the first anti-slip member passes and a second opening through which the second anti-slip member passes.

3. The smart eye mounting structure according to claim 2, wherein the first and second retaining members are respectively located at diametrically opposite ends of the rotation shaft.

4. A smart eye mounting structure as claimed in claim 2 or 3, wherein the first anti-slip member and the second attaching/detaching port have a shape satisfying: when the intelligent eye assembly arranged on the mounting assembly rotates to enable the first anti-falling part to move to the second dismounting opening, the first anti-falling part is abutted against the part of the mounting assembly on the periphery side of the second dismounting opening; and/or the presence of a gas in the gas,

the appearance of second anticreep piece and the appearance of first dismouting mouth satisfy: when installing on the installation component the smart eye subassembly makes through rotating the second anticreep piece removes extremely first dismouting mouthful department, the second anticreep piece takes up and leans on the installation component is located on the position of first dismouting mouthful week side.

5. The smart eye mounting structure according to claim 3, wherein the first anti-slip member has a length greater than that of the second attaching/detaching port; the width of the second anti-falling part is larger than that of the first dismounting and mounting opening.

6. The structure of claim 2, wherein the mounting assembly is provided with a limiting member, and when the smart eye assembly rotates to an extreme position, the first anti-slip member abuts against the limiting member.

7. The structure of claim 6, wherein the limiting member is disposed at one side of the first opening along the rotation direction of the smart eye assembly and near the edge of the first opening; and/or the presence of a gas in the gas,

the set position of the limiting part avoids the second anti-falling part.

8. The smart eye mounting structure as claimed in claim 1, wherein the mounting member has a rib surrounding a circumference of the shaft hole and avoiding the mounting/dismounting hole, and the anti-slip member is abutted against the rib.

9. The smart eye mounting structure as claimed in claim 8, wherein the rib forms a guide surface toward an end of the attaching/detaching opening.

10. The mounting structure of claim 1, wherein the mounting assembly comprises a mounting seat having an avoiding opening and a fixing plate having the shaft hole and the mounting and dismounting opening, the fixing plate is detachably disposed on the mounting seat, and the avoiding opening avoids the shaft hole and the mounting and dismounting opening.

11. The mounting structure of claim 10, wherein the mounting seat is provided with a first elastic buckle and a second elastic buckle, the fixing plate is provided with a first clamping groove and a second clamping groove, the first clamping groove and the second clamping groove together form a fool-proof structure, the first elastic buckle is in clamping fit with the first clamping groove, and the second elastic buckle is in clamping fit with the second clamping groove.

12. The smart eye mounting structure of claim 1 wherein the shaft has a wire passage.

13. The smart eye mounting structure of claim 1 wherein the connecting member comprises a connecting pad and the rotation shaft provided on the connecting pad, the connecting pad being detachably connected to the detecting device.

14. An air conditioner, comprising: an air conditioner main body and the smart eye mounting structure of claims 1-13, wherein the detection device is in signal connection with the air conditioner main body.

15. The air conditioner as claimed in claim 14, wherein the smart eye mounting structure is independently installed apart from the air conditioner main body.

Images