CN210740545U - Camera assembly structure and have its air conditioning indoor set - Google Patents

Abstract

The utility model provides a machine in camera assembly structure and have its air conditioning, camera assembly structure are used for installing the camera, and camera assembly structure sets up on the casing of machine in the air conditioning, and camera assembly structure includes: the first driving assembly is arranged on a shell of the indoor unit of the air conditioner, and a driving end of the first driving assembly moves in a first preset direction; the second driving assembly is connected with the driving end of the first driving assembly, the driving end of the second driving assembly moves in a second preset direction, and the second preset direction and the first preset direction are arranged at a preset angle; the driving end of the second driving assembly is used for being connected with the camera so as to drive the camera to move in a first preset direction and a second preset direction under the driving of the first driving assembly and the second driving assembly. Through the technical scheme provided by the utility model, can solve the less technical problem of visual angle scope of the camera among the prior art.

Description

Camera assembly structure and have its air conditioning indoor set

Technical Field

The utility model relates to an air conditioning technology field particularly, relates to a camera assembly structure and have its machine in air conditioning.

Background

At present, with the continuous progress of society, the room air conditioner has become the essential life electrical appliance in the lives of the vast consumers, and the vast consumers pay more and more attention to the intellectualization of the air conditioner besides requiring the basic performance of the air conditioner when selecting the air conditioner.

The general air conditioner only has simple cooling and heating functions, and a camera is not arranged on the indoor unit of a few air conditioners generally. However, the camera on the indoor unit of the air conditioner is generally fixedly arranged, and the moving range is small, so that the visual angle range of the camera is not convenient to increase.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a camera assembly structure and have its air conditioning indoor set to solve the less technical problem of visual angle scope of the camera among the prior art.

In order to achieve the above object, according to the utility model discloses an aspect provides a camera assembly structure, and camera assembly structure is used for installing the camera, and camera assembly structure sets up on the casing of machine in the air conditioning, and camera assembly structure includes: the first driving assembly is arranged on a shell of the indoor unit of the air conditioner, and a driving end of the first driving assembly moves in a first preset direction; the second driving assembly is connected with the driving end of the first driving assembly, the driving end of the second driving assembly moves in a second preset direction, and the second preset direction and the first preset direction are arranged at a preset angle; the driving end of the second driving assembly is used for being connected with the camera so as to drive the camera to move in a first preset direction and a second preset direction under the driving of the first driving assembly and the second driving assembly.

Further, the driving end of the first driving assembly rotates in a first preset direction, and the driving end of the second driving assembly rotates in a second preset direction.

Furthermore, the first driving assembly comprises a first gear set, the first gear set comprises a first driving gear and a first driven gear, the first driving gear is meshed with the first driven gear to drive the first driven gear to rotate, and the first driven gear is connected with the second driving assembly to drive the second driving assembly to rotate in a first preset direction through the first driven gear.

Further, the second driving assembly comprises a gear box and a second gear set, the second gear set is arranged in the gear box, and the first driven gear is connected with the gear box so as to drive the gear box to rotate in a first preset direction through the first driven gear.

Furthermore, the second gear set comprises a second driving gear and a third driven gear, and a rotating shaft of the third driven gear and a rotating shaft of the first driven gear are arranged at a preset angle; the second driving gear is meshed with the third driven gear to drive the third driven gear to rotate, and the third driven gear is connected with the camera to drive the camera to rotate in the second preset direction through the third driven gear.

Further, the second driving assembly further comprises a second driven gear, and the second driven gear is arranged on the gear box; the second driven gear is meshed with the first driven gear, so that the first driven gear drives the gear box to rotate through the second driven gear.

Further, the second driven gear is an incomplete gear.

Further, the camera assembly structure further includes: the installation shell assembly is arranged on the shell and provided with an installation cavity, the first driving assembly and the second driving assembly are arranged in the installation cavity, and the camera is arranged on the installation shell assembly.

Further, the camera assembly structure further includes: the installation shell assembly is arranged on the shell and provided with an installation cavity, the first gear set and the gear box are arranged in the installation cavity, and the camera is arranged on the installation shell assembly.

Further, a first guide structure is arranged on the mounting shell assembly, and a second guide structure matched with the first guide structure is arranged on the gear box so as to guide the gear box to move in a first preset direction under the matching of the first guide structure and the second guide structure.

Further, first guide structure includes the guide rib, and second guide structure includes the guide way, and the guide way setting is on the guide rib to through the cooperation guide gear box of guide rib and guide way at first predetermined direction motion.

Furthermore, the guide ribs are arc ribs, the guide grooves are arc grooves, and the arc grooves are formed in the arc ribs and used for guiding the gear box to rotate in the first preset direction through the cooperation of the arc ribs and the arc grooves.

Further, first driven gear rotationally sets up on the inner wall of installation housing assembly, and camera assembly structure still includes: the limiting part is arranged on the inner wall of the mounting shell assembly, and the limiting part cover is arranged on at least part of the first driven gear so as to limit the first driven gear through the limiting part.

Furthermore, the mounting shell assembly is provided with a first driven gear shaft, the first driven gear is rotatably arranged on the first driven gear shaft, and the limiting piece is sleeved on the first driven gear shaft to limit the axial movement of the first driven gear.

Furthermore, the mounting shell assembly comprises a first mounting shell and a second mounting shell, the first mounting shell and the second mounting shell are connected to enclose a mounting cavity, a first driven gear shaft is arranged on the first mounting shell, the first driven gear is rotatably arranged on the first driven gear shaft, and the limiting piece is sleeved on the first driven gear shaft; and the second mounting shell is provided with a limiting structure so as to limit the limiting part through the limiting structure.

Further, limit structure includes first limiting plate and second limiting plate, and first limiting plate and second limiting plate interval set up, and first limiting plate is located the one end of locating part, and the second limiting plate is located the other end of locating part, and first limiting plate is used for laminating with the one end of locating part, and the second limiting plate is used for laminating with the other end of locating part to carry on spacingly through first limiting plate and second limiting plate to the locating part.

Further, the gear box comprises a first avoidance plate group, and the first avoidance plate group is matched with the appearance of the camera so that the camera can be movably arranged at the first avoidance plate group.

Furthermore, the installation shell assembly comprises a second avoidance plate group, the second avoidance plate group is matched with the appearance of the camera, and the second avoidance plate group and the first avoidance plate group are correspondingly arranged, so that the camera is movably arranged at the second avoidance plate group.

According to the utility model discloses an on the other hand provides an indoor unit of air conditioner, and the indoor unit of air conditioner includes casing, camera assembly structure and camera, and the camera is installed on camera assembly structure, and camera assembly structure sets up on the casing, and camera assembly structure is the above-mentioned camera assembly structure that provides.

Use the technical scheme of the utility model, because the drive end of this camera assembly structure's first drive assembly moves in first preset direction, the direction motion is preset at the second to the drive end of this camera assembly structure's second drive assembly. And the driving end of the first driving assembly is connected with the second driving assembly, and the driving end of the second driving assembly is connected with the camera. Like this, under first drive assembly and second drive assembly's combined action, can drive the camera and predetermine the direction motion at first preset direction and second to enlarge the motion range of camera, increase the visual angle scope of camera. Therefore, through the utility model provides a technical scheme, the less technical problem of visual angle scope of camera among the prior art can be solved.

Drawings

The accompanying drawings, which form a part of the present application, are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 shows an exploded view of a camera mounting structure according to an embodiment of the present invention;

fig. 2 shows a schematic structural diagram of a first driving assembly according to an embodiment of the present invention;

fig. 3 illustrates a cross-sectional view of a first drive assembly provided in accordance with an embodiment of the present invention;

fig. 4 shows a schematic structural diagram of a second driving assembly according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a second mounting shell according to an embodiment of the present invention;

fig. 6 shows a cross-sectional view of a second mounting shell provided in accordance with an embodiment of the present invention;

fig. 7 is a partial schematic structural view of a gear box according to an embodiment of the present invention; and

fig. 8 shows a side view of a second mounting shell provided in accordance with an embodiment of the present invention.

Wherein the figures include the following reference numerals:

10. a first drive assembly; 11. a first drive gear; 12. a first driven gear; 13. a first drive motor; 20. a second drive assembly; 21. a gear case; 211. a guide groove; 212. a first avoidance plate group; 22. a second driving gear; 23. a third driven gear; 24. a second driven gear; 25. a second drive motor; 30. a camera; 40. mounting the housing assembly; 41. a guide rib; 42. a first mounting case; 421. a first driven gear shaft; 43. a second mounting case; 431. a first limit plate; 432. a second limiting plate; 44. a second avoidance plate group; 50. and a limiting member.

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

As shown in fig. 1 to 8, the first embodiment of the present invention provides a camera assembly structure, which is used to install a camera 30, and the camera assembly structure is disposed on the casing of the indoor unit of the air conditioner. The camera assembling structure comprises a first driving assembly 10 and a second driving assembly 20, wherein the first driving assembly 10 is arranged on a shell of the indoor unit of the air conditioner, and a driving end of the first driving assembly 10 moves in a first preset direction. The second driving assembly 20 is connected to the driving end of the first driving assembly 10, and the driving end of the second driving assembly 20 moves in a second predetermined direction, which is set at a predetermined angle with the first predetermined direction. The driving end of the second driving assembly 20 is used for being connected with the camera 30, so that the camera 30 is driven by the first driving assembly 10 and the second driving assembly 20 to move in a first preset direction and a second preset direction.

By adopting the camera assembling structure provided by the embodiment, the movement range of the camera 30 can be improved through the combined action of the first driving component 10 and the second driving component 20, and further the visual angle range of the camera 30 is increased. At present, most families are provided with special children rooms, and children are weak in safety protection of the children, so that for general family type children rooms, the trend is to selectively install an air conditioner capable of remotely monitoring the activity state of the children. Use the embodiment of the utility model provides a camera assembly structure can solve most parents to the worry problem of children self safety on the one hand, and on the other hand has solved the problem that camera 30 visual angle scope is little and camera 30 can't rotate, satisfies current social intelligent development requirement more.

In the present embodiment, the driving end of the first driving member 10 rotates in a first preset direction, and the driving end of the second driving member 20 rotates in a second preset direction. Specifically, the rotating shaft in the first preset direction and the rotating shaft in the second preset direction have a preset angle, and in this embodiment, an included angle between the rotating shaft in the first preset direction and the rotating shaft in the second preset direction is 90 °. The driving end of the first driving assembly 10 is rotated in a first preset direction, so that the camera 30 can be rotated in the up-and-down direction; the driving end of the second driving component 20 rotates in the second preset direction, so that the camera 30 can rotate in the left and right directions, and the problems that the visual angle range of the camera 30 is small and the camera 30 cannot rotate can be solved more effectively.

Specifically, the first driving assembly 10 in this embodiment includes a first gear set including a first driving gear 11 and a first driven gear 12. The first driving gear 11 is engaged with the first driven gear 12 to drive the first driven gear 12 to rotate, and the first driven gear 12 is connected with the second driving assembly 20 to drive the second driving assembly 20 to rotate in a first preset direction through the first driven gear 12. In the present embodiment, the first gear set is used to realize the rotation of the camera 30 in the up-down direction.

In this embodiment, the second driving assembly 20 includes a gear box 21 and a second gear set disposed in the gear box 21, and the first driven gear 12 is connected to the gear box 21 to drive the gear box 21 to rotate in a first predetermined direction through the first driven gear 12, even if the first driven gear 12 integrally realizes the rotation in the up-down direction. In this embodiment, the second gear set is used to realize the rotation of the camera 30 in the left-right direction.

Specifically, the second gear set in this embodiment includes a second driving gear 22 and a third driven gear 23, and a rotation axis of the third driven gear 23 and a rotation axis of the first driven gear 12 are arranged at a predetermined angle. The second driving gear 22 is engaged with the third driven gear 23 to drive the third driven gear 23 to rotate, and the third driven gear 23 is connected with the camera 30 to drive the camera 30 to rotate in the second preset direction through the third driven gear 23. The driving structure adopting the first gear set and the second gear set drives, the structure is simple, the production and the manufacture are convenient, and the camera 30 can be driven to rotate in the first preset direction and the second preset direction more stably.

In order to more stably drive the gear box 21 to rotate in the first preset direction, the second driving assembly 20 in this embodiment further includes a second driven gear 24, and the second driven gear 24 is disposed on the gear box 21. The second driven gear 24 is engaged with the first driven gear 12 so that the first driven gear 12 rotates the gear box 21 through the second driven gear 24. Specifically, the gear case 21 and the second driven gear 24 in this embodiment may be integrally formed, and they are integrally formed, so as to facilitate production and manufacture.

Specifically, the second driven gear 24 in the present embodiment is an incomplete gear. With this arrangement, it is possible to save the occupied space of the second driven gear 24, optimize the spatial distribution within the gear box 21, and make the internal structure of the gear box 21 more compact.

In order to facilitate installation, the camera head assembling structure in the present embodiment further includes an installation housing assembly 40, and the installation housing assembly 40 is disposed on the housing. The mounting housing assembly 40 has a mounting cavity in which the first and second drive assemblies 10 and 20 are disposed, and the camera 30 is disposed on the mounting housing assembly 40. With this arrangement, the first driving assembly 10 and the second driving assembly 20 can be protected by installing the casing assembly 40, and the first driving assembly 10 and the second driving assembly 20 can be conveniently installed on the casing of the air conditioning indoor unit.

In this embodiment, the camera assembling structure further includes a mounting housing assembly 40, the mounting housing assembly 40 is disposed on the housing, the mounting housing assembly 40 has a mounting cavity, the first gear set and the gear box 21 are both disposed in the mounting cavity, and the camera 30 is disposed on the mounting housing assembly 40. With such an arrangement, not only the first gear set and the gear box 21 can be protected, but also the camera assembly structure can be conveniently installed on the casing of the indoor unit of the air conditioner.

In order to enable the gear box 21 to stably move in the first preset direction, a first guide structure is provided on the mounting housing assembly 40 in the embodiment, and a second guide structure matched with the first guide structure is provided on the gear box 21 to guide the gear box 21 to move in the first preset direction under the matching of the first guide structure and the second guide structure.

Specifically, the first guide structure in this embodiment includes guide ribs 41, and the second guide structure includes guide grooves 211. The guide grooves 211 are provided on the guide ribs 41 to guide the gear case 21 to move in the first preset direction by the cooperation of the guide ribs 41 with the guide grooves 211. With this arrangement, the stability of the movement of the gear case 21 can be improved by the cooperation of the guide ribs 41 and the guide grooves 211.

Specifically, the guide rib 41 in this embodiment is an arc rib, and the guide groove 211 is an arc groove, and the arc groove is disposed on the arc rib to guide the gear box 21 to rotate in the first preset direction through the cooperation of the arc rib and the arc groove, so as to further improve the stability of rotation.

In the present embodiment, the first driven gear 12 is rotatably provided on the inner wall of the mounting case assembly 40. The camera head assembling structure further includes a limiting member 50, the limiting member 50 is disposed on an inner wall of the mounting housing assembly 40, and the limiting member 50 covers at least a portion of the first driven gear 12 to limit the first driven gear 12 through the limiting member 50. With such an arrangement, the first driven gear 12 can be prevented from falling off from the mounting case assembly 40 during operation, and the operation stability of the first driven gear 12 is improved.

In order to enable the first driven gear 12 to stably rotate on the mounting case assembly 40, a first driven gear shaft 421 is provided on the mounting case assembly 40 in the present embodiment. The first driven gear 12 is rotatably disposed on the first driven gear shaft 421, and the limiting member 50 is sleeved on the first driven gear shaft 421 to limit the axial movement of the first driven gear 12. With such an arrangement, the axial position of the first driven gear 12 can be better restricted, and the first driven gear 12 is prevented from falling off from the first driven gear shaft 421 during rotation.

Specifically, the mounting housing assembly 40 in the present embodiment includes a first mounting shell 42 and a second mounting shell 43, and the first mounting shell 42 and the second mounting shell 43 are connected to enclose a mounting cavity. The first mounting shell 42 is provided with a first driven gear shaft 421, the first driven gear 12 is rotatably arranged on the first driven gear shaft 421, and the limiting member 50 is sleeved on the first driven gear shaft 421. The second mounting shell 43 is provided with a limiting structure to limit the limiting member 50 through the limiting structure. By adopting the structure, the limiting part 50 is stably limited through the limiting structure, so that the limiting part 50 can stably limit the first driven gear 12, and the limiting stability is further improved.

In order to further improve the stability of the position limitation, the position limitation structure in the embodiment includes a first position limitation plate 431 and a second position limitation plate 432, and the first position limitation plate 431 and the second position limitation plate 432 are arranged at intervals. The first limiting plate 431 is located at one end of the limiting member 50, the second limiting plate 432 is located at the other end of the limiting member 50, the first limiting plate 431 is attached to one end of the limiting member 50, and the second limiting plate 432 is attached to the other end of the limiting member 50, so that the limiting member 50 is limited by the first limiting plate 431 and the second limiting plate 432.

To facilitate the flexibility of rotation of the camera 30, the gear box 21 in this embodiment includes a first escape plate set 212. The first set of bypass plates 212 is adapted to the shape of the camera 30 such that the camera 30 is movably disposed at the first set of bypass plates 212.

In order to better increase the rotation range of the camera 30, the mounting housing assembly 40 in this embodiment includes a second bypass plate group 44, the second bypass plate group 44 is adapted to the outer shape of the camera 30, and the second bypass plate group 44 is disposed opposite to the first bypass plate group 212, so that the camera 30 is movably disposed at the second bypass plate group 44.

In this embodiment, the camera assembly structure further includes a first driving motor 13 and a second driving motor 25, both the first driving motor 13 and the second driving motor 25 are stepping motors, and the first driving motor 13 is connected with the first driving gear 11 to drive the first driving gear 11 to rotate through the first driving motor 13. The second driving motor 25 is connected to the second driving gear 22 to drive the second driving gear 22 to rotate via the second driving motor 25. The camera 30 comprises a camera 30 main body and a camera 30 end handle, the camera 30 main body is arranged on the camera 30 end handle, the end face of the camera 30 end handle is provided with an end shaft structure matched with the third driven gear 23, and specifically, a semi-circular groove structure matched with the camera 30 end handle is arranged on the gear box. The gear box in this embodiment includes first gear lid and second gear lid, and first gear lid is established and is covered at the second gear, and first gear lid and second gear cover enclose into the gear chamber, and second driving gear 22 and third driven gear 23 install in this gear chamber.

With the camera assembling structure provided in this embodiment, under the action of the first driving motor 13, the driving gear box moves along the guiding direction of the guiding ribs 41, so that the gear box realizes the rotation in the up-down direction, and the camera 30 realizes the swing in the up-down direction.

In the present embodiment, a semicircular groove structure is provided in the gear box to cooperate with the second driving gear 22 and the third driven gear 23. Meanwhile, a flat shaft structure matched with the flat shaft hole of the third driven gear is arranged on the end face of the end handle of the camera 30, so that the camera 30 is driven to rotate in the left and right directions under the driving of the second driving structure, and the visual range is enlarged. In order to better guide the rotation of the gear box in the up-down direction, the first gear cover and the second gear cover are provided with guide grooves 211 in the embodiment, so as to improve the guiding effect and ensure the normal operation of the whole mechanism.

The second embodiment of the utility model provides an indoor unit of air conditioner, the indoor unit of air conditioner includes casing, camera assembly structure and camera 30, and camera 30 installs on camera assembly structure, and camera assembly structure sets up on the casing, and camera assembly structure is the first camera assembly structure that provides of embodiment.

From the above description, it can be seen that the above-mentioned embodiments of the present invention achieve the following technical effects: the visual angle range of the camera is enlarged, so that the camera can be rotatably arranged on the shell of the indoor unit of the air conditioner.

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

Claims (19)

1. The utility model provides a camera assembly structure, its characterized in that, camera assembly structure is used for installing camera (30), camera assembly structure sets up on the casing of air conditioning indoor set, camera assembly structure includes:

the first driving assembly (10) is arranged on a shell of the air conditioner indoor unit, and a driving end of the first driving assembly (10) moves in a first preset direction;

the second driving assembly (20), the second driving assembly (20) is connected with the driving end of the first driving assembly (10), the driving end of the second driving assembly (20) moves in a second preset direction, and the second preset direction and the first preset direction are arranged at a preset angle;

the driving end of the second driving assembly (20) is used for being connected with the camera (30) so as to drive the camera (30) to move in the first preset direction and the second preset direction under the driving of the first driving assembly (10) and the second driving assembly (20).

2. The camera mounting structure according to claim 1, wherein the driving end of the first driving member (10) rotates in the first preset direction, and the driving end of the second driving member (20) rotates in the second preset direction.

3. The camera head assembling structure according to claim 1, wherein the first driving assembly (10) comprises a first gear set including a first driving gear (11) and a first driven gear (12), the first driving gear (11) is engaged with the first driven gear (12) to drive the first driven gear (12) to rotate, and the first driven gear (12) is connected with the second driving assembly (20) to drive the second driving assembly (20) to rotate in the first preset direction through the first driven gear (12).

4. The camera mounting structure according to claim 3, wherein the second driving assembly (20) includes a gear box (21) and a second gear set, the second gear set is disposed in the gear box (21), and the first driven gear (12) is connected to the gear box (21) so as to drive the gear box (21) to rotate in the first preset direction through the first driven gear (12).

5. The camera mounting structure according to claim 4, wherein the second gear set includes a second driving gear (22) and a third driven gear (23), and a rotation axis of the third driven gear (23) is disposed at a predetermined angle to a rotation axis of the first driven gear (12); the second driving gear (22) is meshed with the third driven gear (23) to drive the third driven gear (23) to rotate, and the third driven gear (23) is connected with the camera (30) to drive the camera (30) to rotate in the second preset direction through the third driven gear (23).

6. The camera mounting structure according to claim 4, wherein the second driving assembly (20) further includes a second driven gear (24), the second driven gear (24) being provided on the gear case (21); the second driven gear (24) is meshed with the first driven gear (12), so that the first driven gear (12) drives the gear box (21) to rotate through the second driven gear (24).

7. The camera head assembling structure according to claim 6, wherein the second driven gear (24) is a partial gear.

8. The camera mounting structure according to claim 1, further comprising:

a mounting housing assembly (40) disposed on the housing, the mounting housing assembly (40) having a mounting cavity, the first drive assembly (10) and the second drive assembly (20) both disposed within the mounting cavity.

9. The camera mounting structure according to claim 4, further comprising:

the mounting shell assembly (40) is arranged on the shell, the mounting shell assembly (40) is provided with a mounting cavity, the first gear set and the gear box (21) are arranged in the mounting cavity, and the camera (30) is arranged on the mounting shell assembly (40).

10. The camera mounting structure according to claim 9, wherein a first guide structure is provided on the mounting housing assembly (40), and a second guide structure cooperating with the first guide structure is provided on the gear case (21) to guide the gear case (21) to move in the first preset direction in cooperation with the first guide structure and the second guide structure.

11. The camera mounting structure according to claim 10, wherein the first guide structure includes a guide rib (41), and the second guide structure includes a guide groove (211), and the guide groove (211) is provided on the guide rib (41) to guide the gear case (21) to move in the first preset direction by engagement of the guide rib (41) with the guide groove (211).

12. The camera assembling structure according to claim 11, wherein the guide rib (41) is an arc rib, and the guide groove (211) is an arc groove, and the arc groove is provided on the arc rib to guide the gear box (21) to rotate in the first preset direction by the cooperation of the arc rib and the arc groove.

13. The camera mounting structure according to claim 9, wherein the first driven gear (12) is rotatably provided on an inner wall of the mounting housing assembly (40), the camera mounting structure further comprising:

the limiting part (50) is arranged on the inner wall of the installation shell assembly (40), and the limiting part (50) covers at least part of the first driven gear (12) so as to limit the first driven gear (12) through the limiting part (50).

14. The camera mounting structure according to claim 13, wherein a first driven gear shaft is provided on the mounting housing assembly (40), the first driven gear (12) is rotatably provided on the first driven gear shaft, and the stopper (50) is fitted over the first driven gear shaft to restrict axial movement of the first driven gear (12).

15. The camera assembling structure according to claim 13, wherein the mounting housing assembly (40) includes a first mounting housing (42) and a second mounting housing (43), the first mounting housing (42) and the second mounting housing (43) are connected to enclose the mounting cavity, a first driven gear shaft is provided on the first mounting housing (42), the first driven gear (12) is rotatably provided on the first driven gear shaft, and the limiting member (50) is fitted on the first driven gear shaft; the second mounting shell (43) is provided with a limiting structure so as to limit the limiting part (50) through the limiting structure.

16. The camera head assembling structure according to claim 15, wherein the limiting structure includes a first limiting plate (431) and a second limiting plate (432), the first limiting plate (431) and the second limiting plate (432) are disposed at an interval, the first limiting plate (431) is located at one end of the limiting member (50), the second limiting plate (432) is located at the other end of the limiting member (50), the first limiting plate (431) is configured to be attached to one end of the limiting member (50), and the second limiting plate (432) is configured to be attached to the other end of the limiting member (50), so that the limiting member (50) is limited by the first limiting plate (431) and the second limiting plate (432).

17. The camera mounting structure according to claim 9, wherein the gear box (21) includes a first bypass plate group (212), and the first bypass plate group (212) is adapted to an outer shape of the camera (30) so that the camera (30) is movably disposed at the first bypass plate group (212).

18. The camera mounting structure according to claim 17, wherein the mounting housing assembly (40) includes a second bypass plate group (44), the second bypass plate group (44) is adapted to the outer shape of the camera (30), and the second bypass plate group (44) is disposed corresponding to the first bypass plate group (212) so that the camera (30) is movably disposed at the second bypass plate group (44).

19. An air-conditioning indoor unit, characterized in that, the air-conditioning indoor unit includes a casing, a camera assembly structure and a camera, the camera is installed on the camera assembly structure, the camera assembly structure is arranged on the casing, the camera assembly structure is the camera assembly structure of any one of claims 1 to 18.

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