CN219994924U - Adjusting device and sensor device - Google Patents

Abstract

The utility model provides an adjusting device and sensor equipment. The main body is provided with a limiting space and an opening, and the opening is communicated with the limiting space. The rotating mechanism comprises a rotating structure and a fixed support which are connected, the fixed support is connected to the support, the rotating structure is movably located in the limiting space, and the outer diameter of the rotating structure is larger than the aperture of the opening. In this way, the rotating structure is movably positioned in the limiting space, so that the main body can rotate along a plurality of directions relative to the support, and the movement range of the main body relative to the support is enlarged. In addition, the rotating structure is arranged on the main body, so that the position of the main body can be adjusted more quickly and accurately, the requirements of users are met quickly, and the user experience is improved.

Description

Adjusting device and sensor device

Technical Field

The utility model relates to the technical field of sensors, in particular to an adjusting device and sensor equipment.

Background

In the related art, devices such as an atmosphere lamp device and a sensor device often need to be used in cooperation with an adjusting device, and the devices such as the atmosphere lamp device and the sensor device can be installed on a main body of the adjusting device, so that the adjusting device is beneficial to adjusting the irradiation angle of the atmosphere lamp and is also beneficial to adjusting the sensing range of the sensor. However, the conventional adjusting device has a smaller moving range, so that the moving range of the main body of the adjusting device is smaller, and it is difficult to satisfy the user's requirement.

Disclosure of Invention

The embodiment of the utility model provides an adjusting device and a sensor device, which are used for solving at least one of the problems.

The embodiments of the present utility model achieve the above object by the following technical means.

In a first aspect, embodiments of the present utility model provide an adjustment device that includes a support, a body, and a rotation mechanism. The main body is provided with a limiting space and an opening, and the opening is communicated with the limiting space. The rotating mechanism comprises a rotating structure and a fixed support which are connected, the fixed support is connected to the support, the rotating structure is movably located in the limiting space, and the outer diameter of the rotating structure is larger than the aperture of the opening.

In some embodiments, the body includes a housing and a limiting member connected to the housing, the limiting member and the housing enclosing to form a limiting space, and a portion of the rotating structure is movably located in the limiting space.

In some embodiments, the body is pitched at an angle of 0 degrees to 60 degrees relative to the mount.

In some embodiments, the rotating mechanism further comprises a damping member located in the limiting space and abutting between the rotating structure and the limiting member. Or, the rotating mechanism further comprises a damping layer, and the damping layer is abutted between the limiting piece and the rotating structure.

In some embodiments, the rotating structure is provided with a first plug structure. The rotating mechanism further comprises a damping piece, the damping piece is located in the limiting space and is abutted between the rotating structure and the limiting piece, the damping piece is provided with a second inserting structure, and the second inserting structure is inserted into the first inserting structure along the axial direction of the rotating mechanism.

In some embodiments, a side of the main body facing the support is provided with a first avoidance bit, a side of the support facing the main body is provided with a second avoidance bit, and the first avoidance bit is opposite to the second avoidance bit.

In some embodiments, the mount includes opposing mount bodies and a mounting bracket, the mounting bracket is provided with a first stop structure, the mount bodies are provided with a second stop structure, and the mount bodies are rotatably connected to the mounting bracket such that the second stop structure is in a positive fit with the first stop structure.

In some embodiments, the mounting bracket is further provided with a first clamping structure, the first clamping structure is located on the first stop structure, the support body is provided with a second clamping structure, and the second clamping structure is clamped and fixed with the first clamping structure.

In some embodiments, the support comprises a support body and a mounting bracket which are connected, wherein the support body is further provided with a wire containing through groove, and the wire containing through groove is arranged opposite to the mounting bracket.

In some embodiments, the support body is further provided with a locking clip protrusion, and the locking clip protrusion is located in the wire containing through groove.

In a second aspect, embodiments of the present utility model also provide a sensor device comprising a sensor arrangement and the adjustment device of any of the embodiments described above, the sensor arrangement being located within the body.

In the adjusting device and the sensor device provided by the embodiment of the utility model, the adjusting device comprises a support, a main body and a rotating mechanism. The main body is provided with a limiting space and an opening, and the opening is communicated with the limiting space. The rotating mechanism comprises a rotating structure and a fixed support which are connected, the fixed support is connected to the support, the rotating structure is movably located in the limiting space, and the outer diameter of the rotating structure is larger than the aperture of the opening. In this way, the rotating structure is movably positioned in the limiting space, so that the main body can rotate along a plurality of directions relative to the support, and the movement range of the main body relative to the support is enlarged. In addition, the rotating structure is arranged on the main body, so that the position of the main body can be adjusted more quickly and accurately, the requirements of users are met quickly, and the user experience is improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present utility model, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 shows a schematic structural diagram of a sensor device according to an embodiment of the present utility model.

Fig. 2 shows a schematic cross-sectional view of the sensor device of fig. 1.

Fig. 3 shows a schematic structural view of the main body of fig. 2.

Fig. 4 shows a schematic structural view of the stopper in fig. 2.

Fig. 5 shows a schematic structural view of the rotating mechanism in fig. 2.

Fig. 6 shows a schematic structural view of the damping member in fig. 2.

Fig. 7 shows a schematic view of an exploded construction of the stand of fig. 2.

Fig. 8 shows a schematic structural view of the mounting bracket of fig. 7.

Fig. 9 shows a schematic structural view of the holder body of fig. 7.

Fig. 10 shows a schematic structural view of the holder body of fig. 7.

Reference numerals illustrate:

the adjusting device 10, the support 100, the second avoidance 101, the support body 110, the second stop structure 111, the second clamping structure 112, the wire containing through groove 113, the locking convex 114, the mounting bracket 120, the first stop structure 121, the first clamping structure 122, the sensor device 20, the main body 200, the limit space 201, the opening 202, the first avoidance 203, the accommodating space 204, the shell 210, the rotating mechanism 300, the rotating structure 310, the first inserting structure 311, the fixing bracket 320, the limit piece 330, the damping piece 340, the second inserting structure 350, the wire 400 and the sensor device 500.

Detailed Description

In order to make the present utility model better understood by those skilled in the art, the following description of the present utility model will be made in detail with reference to the accompanying drawings in the embodiments of the present utility model. It will be apparent that the described embodiments are only some, but not all, of the embodiments of the utility model. All other embodiments, based on the embodiments of the utility model, which a person skilled in the art would obtain without making any inventive effort, are within the scope of the utility model.

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

In the related art, the inventor has found that the adjusting device generally has only a telescopic function, so that the movement range of the main body of the adjusting device is small, and it is difficult to meet the use requirement of a user.

In view of this, referring to fig. 1 and 2, the present utility model proposes an adjusting device 10, where the adjusting device 10 is used in cooperation with an atmosphere lamp device, a sensor device 500, or a camera device, so as to adjust the working range of the atmosphere lamp device, the sensor device 500, or the camera device. In the following embodiments, the use of the adjusting device 10 and the sensor device 500 will be mainly described as an example, and other situations requiring the adjusting device 10 may be referred to as implementations.

Referring to fig. 1 to 3, the adjusting device 10 includes a support 100, a main body 200 and a rotating mechanism 300, wherein the main body 200 is provided with a limiting space 201 and an opening 202, the opening 202 is communicated with the limiting space 201, the rotating mechanism 300 includes a rotating structure 310 and a fixing support 320 which are connected, the fixing support 320 is connected to the support 100, the rotating structure 310 is movably located in the limiting space 201, and an outer diameter of the rotating structure 310 is larger than an aperture of the opening 202. In this way, the rotating structure 310 is movably located in the limiting space 201, so that the main body 200 can rotate in multiple directions relative to the support 100, thereby increasing the movement range of the main body 200 relative to the support 100. In addition, the rotating structure 310 is disposed on the main body 200, so that the main body 200 can adjust the position more rapidly and accurately, thereby rapidly meeting the requirements of users and improving the user experience.

In using the adjustment device 10, the stand 100 is mounted in a desired location, such as on a wall, door, ceiling or desk. When the position of the main body 200 needs to be adjusted, the operator pushes the main body 200, and the main body 200 rotates relative to the rotating structure 310 under the action of external force, so that the main body 200 can rotate relative to the support 100 under the action of external force, and the position of the main body 200 is adjusted, so that the sensing angle of the sensor device 500 is adjusted to a required position, and the sensor device is convenient to adjust and high in adaptability.

The main body 200 can rotate in multiple directions relative to the support 100, specifically, the main body 200 can both pitch-rotate (such as direction a and direction B of fig. 1) relative to the support 100 and rotate (such as direction C and direction D of fig. 1) about the axial direction of the rotation mechanism 300, so that the main body 200 can rotate in multiple directions relative to the support 100, thereby increasing the movement range of the main body 200 relative to the support 100.

It will be appreciated that the outer diameter of the rotating structure 310 is larger than the aperture of the opening 202, that is, the diameter of the outer surface of the rotating structure 310 is larger than the aperture of the opening 202, thereby helping the main body 200 to limit the rotating structure 310 in the limiting space 201. Further, the rotating structure 310 may be a ball head structure.

The spacing space 201 can accommodate the rotating structure 310 such that the rotating structure 310 can move within the spacing space 201. The shape of the spacing space 201 may be adapted to the shape of the rotating structure 310, so that the spacing space 201 may limit the rotating structure 310, thereby enabling the rotating structure 310 to be stably connected to the main body 200.

Wherein the limit space 201 is substantially spherical, for example, the size of the limit space 201 is a whole spherical groove; for another example, the size of the limit space 201 is larger than half a spherical groove; the rotating structure 310 may be a ball head so that the rotating structure 310 moves within the spacing space 201.

In this embodiment, referring to fig. 2, the main body 200 is provided with a receiving space 204, and the receiving space 204 receives the sensor device 500, so that the main body 200 can enhance the protection of the sensor device 500. In other embodiments, the sensor device 500 is attached to the outer surface of the body 200 such that the sensor device 500 follows the movement of the body 200.

Referring to fig. 2 and 3, the main body 200 includes a housing 210 and a limiting member 330 connected to each other, the limiting member 330 and the housing 210 enclose a limiting space 201, a part of the rotating structure 310 is movably located in the limiting space 201, and another part of the rotating structure 310 extends out of the limiting space 201 from the opening 202 and is connected to the fixing bracket 320. Specifically, the limiting member 330 is connected to the housing 210 in various manners, for example, the limiting member 330 is connected to the housing 210 by a screw; for another example, the limiting member 330 is connected with the housing 210 by a buckle; for another example, the stopper 330 is connected to the housing 210 by a bolt. In this way, on one hand, the limiting piece 330 encloses with the housing 210 to form a space, and on the other hand, the limiting piece 330 plays a role in blocking, so that the rotating structure 310 is limited in the limiting space 201, and the sensor device 500 arranged in the main body 200 is damaged in the process of moving the rotating structure 310 is reduced.

The limiting space 201 may limit the rotating structure 310 in various manners.

The volume of the spacing space 201 is smaller than or equal to the volume of the rotating structure 310, so that the rotating structure 310 is abutted against one side, facing the rotating structure 310, of the spacing piece 330, and the rotating structure 310 is abutted against a part of the shell 210 forming the spacing space 201, so that the rotating structure 310 can be abutted against the spacing piece 330 and the part of the shell 210 in the spacing space 201, and further the spacing piece 330 and the part of the shell 210 limit the rotating structure 310 in the spacing space 201 to move, and the spacing space 201 can be used for the rotating structure 310 to move in a set space and also can limit the rotating structure 310.

Or, the volume of the spacing space 201 is larger than that of the rotating structure 310, the rotating structure 310 can be arranged with the spacing piece 330 and the part of the shell 210 forming the spacing space 201 at intervals in the moving process of the rotating structure 310, and the rotating structure 310 is limited in the spacing space 201 formed by the spacing piece 330 and the part of the shell 210, so that the spacing space 201 can be used for the rotating structure 310 to move in a certain space and limit the rotating structure 310.

In some embodiments, a portion of the rotational structure 310 is movably positioned within the spacing space 201 such that the body 200 can be pitching rotated relative to the rotational structure 310, thereby pitching the body 200 relative to the mount 100, wherein the body 200 is pitching rotated between 0 degrees and 60 degrees relative to the mount 100, and the body 200 may be pitching rotated between 0 degrees, 5 degrees, 15 degrees, 20 degrees, 25 degrees, 30 degrees, 35 degrees, 40 degrees, 45 degrees, 50 degrees, 55 degrees, 60 degrees, etc. relative to the mount 100.

Referring to fig. 3 and 4, the side of the limiting member 330 facing the opening 202 is generally arc-shaped, so that the limiting space 201 formed by the limiting member 330 and the housing 210 is spherically shaped, which is helpful for adapting the shape of the limiting space 201 to the shape of the rotating structure 310.

In some embodiments, referring to fig. 2 to 6, the rotating mechanism 300 further includes a damping member 340, where the damping member 340 is located in the limiting space 201 and abuts between the rotating structure 310 and the limiting member 330. Specifically, the damping member 340 has various options, for example, the damping member 340 is a silicone member; for another example, the damping member 340 is a rubber member. So, damping piece 340 makes to have suitable damping force between rotating structure 310 and the locating part 330 for the operating personnel need exert certain effort and just make main part 200 relative rotating structure 310 activity on main part 200 when adjusting the position of main part 200, are favorable to the accurate regulation and control position of main part 200 of operating personnel, thereby the accurate sensing area of regulation and control sensor device 500 of the staff of being convenient for, and damping piece 340 makes the feel of operating personnel drive main part 200 better, improves user experience sense.

In addition, when the external force applied to the main body 200 is removed, since the damping member 340 is abutted between the rotating structure 310 and the limiting member 330, the damping member 340 is tightly connected between the rotating structure 310 and the limiting member 330, which helps to prevent the main body 200 from loosening with respect to the rotating structure 310, thereby fixing the main body 200 with respect to the support 100, and further helping the main body 200 stay at any position within the rotation range.

In some embodiments, the rotating structure 310 is provided with a first inserting structure 311 (see fig. 5), the damping member 340 is provided with a second inserting structure 350 (see fig. 6), and the second inserting structure 350 is inserted into the first inserting structure 311 along the axial direction of the rotating mechanism 300. Specifically, the axial direction of the rotation mechanism 300 is the height direction of the rotation mechanism 300. The first plugging structure 311 is a plugging column, and correspondingly, the second plugging structure 350 is a plugging groove; alternatively, the first plugging structure 311 is a plugging slot, and correspondingly, the second plugging structure 350 is a plugging column. In this way, the second plug structure 350 is plugged into the first plug structure 311 along the axial direction of the rotating mechanism 300, which is helpful for the connection between the damping member 340 and the rotating structure 310, and has simpler structure and operation and lower cost; on the other hand, the rotation structure 310 and the damping piece 340 are beneficial to realizing limit in the radial direction of the rotation structure 300, and the risk of loosening between the rotation structure 310 and the damping piece 340 is reduced, so that the stability and reliability of connection of the rotation structure 310 and the damping piece 340 are improved.

In some embodiments, the rotating mechanism 300 is further provided with a damping layer, for example, the damping layer is a silica gel damping layer; for another example, the damping layer is a rubber damping layer.

The damping layer is abutted between the limiting member 330 and the rotating structure 310, for example, the damping layer is disposed on the surface of the rotating structure 310, such that the damping layer is abutted between the limiting member 330 and the rotating structure 310. So, the damping layer makes and has suitable damping force between rotating structure 310 and the locating part 330 for the action force that needs to exert when the position of operating personnel adjusts main part 200 just makes main part 200 relative rotating structure 310 activity on main part 200, is favorable to the accurate regulation and control position of main part 200 of operating personnel, thereby helps main part 200 to stay in the optional position of rotation within range, and then the accurate regulation and control sensor device 500 of the staff's of being convenient for response region, and the damping layer makes the feel of operating personnel drive main part 200 better.

In some embodiments, referring to fig. 1, a side of the main body 200 facing the support 100 is provided with a first avoidance space 203, for example, the first avoidance space 203 is an avoidance space; for another example, the first avoidance space is a avoidance slot. In this way, the first avoidance bit 203 reduces the risk of interference between the main body 200 and the support 100, so that the main body 200 has a larger moving space, thereby increasing the adjustment range of the main body 200. In this embodiment, the first avoidance space 203 is an avoidance space, and the main body 200 is disposed substantially in a tapered shape toward the side of the support 100, so that the first avoidance space 203 is convenient for forming the avoidance space. In other embodiments, the first avoidance bit 203 is a avoidance slot, and a slot is formed on a side of the main body 200 facing the support 100, so that the first avoidance bit 203 is the avoidance slot.

A second avoidance space 101 is provided on a side of the support 100 facing the main body 200, for example, the second avoidance space 101 is an avoidance space; for another example, the second avoidance bit 101 is a avoidance slot. In this way, the second avoidance bit 101 reduces the risk of interference between the main body 200 and the support 100, so that the main body 200 has a larger moving space, thereby increasing the adjustment range of the main body 200. In this embodiment, the second avoidance space 101 is an avoidance space, and the support 100 is disposed substantially in a tapered shape toward one side of the main body 200, so that the second avoidance space 101 is conveniently formed as an avoidance space. In other embodiments, the second avoidance bit 101 is a avoidance slot, and a slot is formed on a side of the support 100 facing the main body 200, so that the second avoidance bit 101 is a avoidance slot.

The first avoidance bit 203 is disposed opposite to the second avoidance bit 101. The main body 200 and the support are provided with a larger space, so that the risk of interference between the main body 200 and the support 100 is greatly reduced, the main body 200 has a larger movable space, and the adjusting range of the main body 200 is effectively improved.

In some embodiments, referring to fig. 7 to 10, the stand 100 includes a stand body 110 and a mounting bracket 120 opposite to each other, the mounting bracket 120 is provided with a first stop structure 121, the stand body 110 is provided with a second stop structure 111, and the stand body 110 is rotatably connected to the mounting bracket 120, so that the second stop structure 111 is in a limit fit with the first stop structure 121.

Wherein the first stop structure 121 is a stop block, and correspondingly, the second stop structure 111 is also a stop block; alternatively, the first stop structure 121 is a stop protrusion, and the second stop structure 111 is a stop groove, and the stop protrusion is embedded in the stop groove, so that the second stop structure 111 is in limit fit with the first stop structure 121.

The support body 110 is rotatably connected to the mounting bracket 120 in a plurality of manners, for example, the support body 110 is connected to the mounting bracket 120 by a threaded connection manner, so that the support body 110 can rotate relative to the mounting bracket 120; for another example, the support body 110 is provided with an insertion slot, and the mounting bracket 120 is provided with an insertion end, and the insertion end is inserted into the insertion slot, so that the support body 110 can rotate relative to the mounting bracket 120.

In the use process of the adjusting device 10, the mounting bracket 120 is fixed at a required position through screws, bolts or back adhesive tapes and the like, then the support body 110 is rotationally connected to the mounting bracket 120, the support body 110 is rotated to a proper position, and the second stop structure 111 is in limit fit with the first stop structure 121, so that the support body 110 is conveniently limited to rotate relative to the mounting bracket 120, the relative position of the manufacturing body and the mounting bracket 120 is facilitated to be set at a proper position, and the support body 110 is stably connected with the mounting bracket 120.

In some embodiments, the mounting bracket 120 is further provided with a first engaging structure 122, the support body 110 is provided with a second engaging structure 112, and the second engaging structure 112 is engaged and fixed with the first engaging structure 122. Wherein, the first engaging structure 122 is a convex engaging structure, and correspondingly, the second engaging structure 112 is a concave engaging structure; alternatively, the first engaging structure 122 is a groove, and correspondingly, the second engaging structure 112 is a protrusion. The mounting bracket 120 is clamped and fixed with the second clamping structure 112 of the support body 110 through the first clamping structure 122, so that an operator can quickly fix the mounting bracket 120 with the bracket body, and the structure and the operation are simpler and the cost is lower.

The first locking structure 122 is located on the first stopping structure 121, so that when the second stopping structure 111 is in spacing fit with the first stopping structure 121, the first locking structure 122 is also fast locked and fixed with the second locking structure 112.

In some embodiments, the support 100 includes a support body 110 and a mounting bracket 120 that are connected, and the support body 110 is further provided with a wire through slot 113, where the wire through slot 113 is disposed opposite to the mounting bracket 120. Specifically, the wire receiving through groove 113 receives the wire 400 (the wire 400 is connected to the sensor device 500 connected to the main body 200, and the wire 400 is a signal wire or a power wire, etc.), which is helpful for the support body 110 to adjust the arrangement path of the wire 400, so that the arrangement path of the wire 400 is reasonable.

In some embodiments, the support body 110 is further provided with a locking protrusion 114, the locking protrusion 114 is located in the wire receiving through groove 113, and the locking protrusion 114 limits the signal wire or the power wire, etc., thereby preventing the signal wire or the power wire from loosening in the wire receiving through groove 113, and improving the stability and reliability of connection of the wire 400 with the sensor device 500 on the main body 200.

Referring to fig. 1 and 2, the present utility model further proposes a sensor apparatus 20, where the sensor apparatus 20 includes a sensor device 500 and an adjusting device 10, and the sensor device 500 includes a circuit board, a sensor, and other components, and the sensor device 500 is located in the main body 200 of the adjusting device 10. The specific structure of the adjusting device 10 refers to the following examples, and since the sensor apparatus 20 adopts all the technical solutions of all the above embodiments, at least all the beneficial effects brought by the technical solutions of the above embodiments are provided, and will not be described in detail herein.

In the present utility model, the terms "mounted," "connected," and the like should be construed broadly unless otherwise specifically indicated or defined. For example, a fixed connection, a detachable connection, an integral connection, or a transmission connection; is directly connected, and is also indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model is understood by those of ordinary skill in the art according to the specific circumstances.

Furthermore, the terms "first," "second," and the like, are used merely for distinguishing between descriptions and not for understanding as a specific or particular structure. The description of the term "some embodiments" means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the utility model. In the present utility model, the schematic representations of the above terms are not necessarily for the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, various embodiments or examples, as well as features of various embodiments or examples, described herein are combined and combined by those skilled in the art without any conflict.

The above embodiments are only for illustrating the technical solution of the present utility model, and are not limiting thereof; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments is still modified or some technical features thereof are replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present utility model, and they should be included in the protection scope of the present utility model.

Claims (11)

1. An adjustment device, comprising:

a support;

the main body is provided with a limiting space and an opening, and the opening is communicated with the limiting space; and

the rotating mechanism comprises a rotating structure and a fixed support, wherein the rotating structure and the fixed support are connected, the rotating structure is movably located in the limiting space, and the outer diameter of the rotating structure is larger than the aperture of the opening.

2. The adjustment device of claim 1, wherein the body comprises a housing and a spacing member connected, the spacing member circumscribing the housing to form the spacing space, a portion of the rotational structure being movably located in the spacing space.

3. An adjustment device according to claim 2, wherein the body is rotated in pitch relative to the support by an angle of 0 to 60 degrees.

4. The adjustment device of claim 2, wherein the rotation mechanism further comprises a damping member positioned within the spacing space and abutting between the rotation structure and the spacing member;

or, the rotating mechanism further comprises a damping layer, and the damping layer is abutted between the limiting piece and the rotating structure.

5. The adjustment device of claim 2, wherein the rotating structure is provided with a first plug structure; the rotating mechanism further comprises a damping piece, the damping piece is located in the limiting space and is abutted between the rotating structure and the limiting piece, the damping piece is provided with a second inserting structure, and the second inserting structure is inserted into the first inserting structure along the axial direction of the rotating mechanism.

6. The adjustment device of any one of claims 1 to 5, wherein a side of the body facing the support is provided with a first relief, a side of the support facing the body is provided with a second relief, and the first relief is disposed opposite the second relief.

7. An adjustment device according to any one of claims 1 to 5, wherein the support comprises an opposed support body and a mounting bracket, the mounting bracket being provided with a first stop arrangement, the support body being provided with a second stop arrangement, the support body being rotatably connected to the mounting bracket such that the second stop arrangement is in positive engagement with the first stop arrangement.

8. The adjusting device of claim 7, wherein the mounting bracket is further provided with a first engagement structure, the first engagement structure is located on the first stop structure, the support body is provided with a second engagement structure, and the second engagement structure is engaged and fixed with the first engagement structure.

9. The device according to any one of claims 1 to 5, wherein the support comprises a support body and a mounting bracket connected to each other, the support body further being provided with a wire-receiving through groove, the wire-receiving through groove being disposed opposite the mounting bracket.

10. The adjusting device of claim 9, wherein the support body is further provided with a locking protrusion, and the locking protrusion is located in the wire receiving through groove.

11. A sensor device, comprising:

an adjustment device according to any one of claims 1 to 10; and

a sensor device located within the body.