CN220932077U - Sensor support convenient to adjust testing position - Google Patents
Sensor support convenient to adjust testing position Download PDFInfo
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- CN220932077U CN220932077U CN202322142849.XU CN202322142849U CN220932077U CN 220932077 U CN220932077 U CN 220932077U CN 202322142849 U CN202322142849 U CN 202322142849U CN 220932077 U CN220932077 U CN 220932077U
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- 238000001514 detection method Methods 0.000 claims abstract description 53
- 238000000034 method Methods 0.000 description 7
- 230000007547 defect Effects 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000001125 extrusion Methods 0.000 description 2
- 230000035945 sensitivity Effects 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 230000003993 interaction Effects 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
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Abstract
The utility model discloses a sensor bracket convenient for adjusting a detection position, which belongs to the technical field of sensor brackets and has the technical key points that: comprises an adjusting unit which is connected on the bracket in a sliding way; the fine tuning unit is connected to the side surface of the adjusting unit; and one end of the rotating unit is connected to the fine tuning unit, and the other end of the rotating unit is connected to the sensor body. When adjusting the detection position of sensor body, rotate the adjustment unit, the adjustment unit can drive the sensor body and slide to can adjust the detection position of sensor body. Through rotating the fine tuning unit, the fine tuning unit can enable the rotation unit to drive the sensor body on the surface of the fine tuning unit to slide, and then the detection position of the sensor body can be finely tuned. When the detection angle of the sensor body needs to be adjusted, the rotation unit can drive the sensor body to rotate through rotating the rotation unit, so that the detection angle of the sensor body can be adjusted.
Description
Technical Field
The utility model relates to the technical field of sensor supports, in particular to a sensor support convenient for adjusting a detection position.
Background
The sensor is a detecting device, can sense the information to be measured, and can convert the sensed information into an electric signal or other information output in a required form according to a certain rule so as to meet the requirements of information transmission, processing, storage, display, recording, control and the like, and the sensor needs to be installed at a sensor bracket for fixing before being used.
The existing sensor bracket usually slides the sensor so as to adjust the detection position of the sensor, and has the defect of low sensitivity in use, so that the sensor bracket is difficult to popularize and apply, and therefore, the sensor bracket convenient for adjusting the detection position is needed to solve the problems.
Disclosure of utility model
Aiming at the defects existing in the prior art, an embodiment of the utility model aims to provide a sensor bracket which is convenient for adjusting a detection position so as to solve the problems in the background art.
In order to achieve the above purpose, the present utility model provides the following technical solutions:
A sensor mount for facilitating adjustment of a detection position, comprising:
the sensor comprises a bracket, wherein a sensor body is arranged on the bracket;
The adjusting unit is connected to the bracket in a sliding way and used for adjusting the detection position of the sensor body;
the fine tuning unit is connected to the side surface of the adjusting unit and used for fine tuning the detection position of the sensor body;
And one end of the rotating unit is connected to the fine tuning unit, and the other end of the rotating unit is connected to the sensor body and is used for driving the detection angle of the sensor body to rotate.
Compared with the prior art, the embodiment of the utility model has the following beneficial effects: according to the utility model, the adjusting unit is arranged and is connected to the bracket in a sliding manner and is used for adjusting the detection position of the sensor body; the fine tuning unit is connected to the side surface of the adjusting unit and used for fine tuning the detection position of the sensor body; and one end of the rotating unit is connected to the fine tuning unit, and the other end of the rotating unit is connected to the sensor body and is used for driving the detection angle of the sensor body to rotate.
When adjusting the detection position of sensor body, rotate the adjustment unit, the adjustment unit can drive the sensor body and slide to can adjust the detection position of sensor body. Through rotating the fine tuning unit, the fine tuning unit can enable the sensor body on the surface of which is driven by the rotation unit to slide, so that the detection position of the sensor body can be finely tuned, and the sensitivity of the sensor for detecting position adjustment is improved. When the detection angle of the sensor body needs to be adjusted, the rotation unit can drive the sensor body to rotate through rotating the rotation unit, so that the detection angle of the sensor body can be adjusted. The detection position and angle of the sensor body can be adjusted through the matching of the adjusting unit, the fine adjusting unit and the rotating unit, the sensor is simple and portable, and the sensor can be automatically fixed after being adjusted, so that the stability is high.
In order to more clearly illustrate the structural features and efficacy of the present utility model, the present utility model will be described in detail below with reference to the accompanying drawings and examples.
Drawings
Fig. 1 is a schematic diagram of an overall structure of a sensor support, which is provided in an embodiment of the present utility model and is convenient for adjusting a detection position.
Fig. 2 is a schematic structural diagram of a fine tuning unit according to an embodiment of the present utility model.
Fig. 3 is a schematic structural view of a first limiting member according to an embodiment of the present utility model.
Reference numerals: 1-bracket, 11-sensor body, 2-adjusting unit, 21-spout, 22-slider, 23-adjusting lever, 3-fine tuning unit, 31-carriage, 32-elastic member, 33-pillar, 34-fine tuning unit, 4-rotation unit, 41-bracing piece, 42-groove frame, 43-buffer air bag, 44-first limiting member, 441-V-shaped groove, 45-second limiting member, 46-rotation lever, 47-handle.
Detailed Description
The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.
Specific implementations of the utility model are described in detail below in connection with specific embodiments.
Referring to fig. 1-3, a sensor holder for facilitating adjustment of a detection position, comprising:
a bracket 1, wherein a sensor body 11 is arranged on the bracket 1;
An adjusting unit 2 slidably connected to the bracket 1 for adjusting a detection position of the sensor body 11;
A fine adjustment unit 3 connected to the side surface of the adjustment unit 2 for fine adjustment of the detection position of the sensor body 11;
and one end of the rotating unit 4 is connected to the fine tuning unit 3, and the other end of the rotating unit is connected to the sensor body 11 and is used for driving the detection angle of the sensor body 11 to rotate.
In the embodiment of the present utility model, when the detection position of the sensor body 11 is adjusted, the adjusting unit 2 is rotated, and the adjusting unit 2 may drive the sensor body 11 to slide, so that the detection position of the sensor body 11 may be adjusted. By rotating the fine adjustment unit 3, the fine adjustment unit 3 can enable the rotation unit 4 to drive the sensor body 11 on the surface to slide, and then fine adjustment can be performed on the detection position of the sensor body 11. When the detection angle of the sensor body 11 needs to be adjusted, the rotation unit 4 can drive the sensor body 11 to rotate by rotating the rotation unit 4, so that the detection angle of the sensor body 11 can be adjusted. The detection position and angle of the sensor body 11 can be adjusted through the matching of the adjusting unit 2, the fine adjusting unit 3 and the rotating unit 4, the sensor is simple and portable, and the sensor can be automatically fixed after being adjusted, so that the sensor is high in stability.
In one embodiment of the utility model, as shown in fig. 1 and 2, the adjusting unit 2 comprises:
A chute 21 which is arranged on the bracket 1;
The sliding piece 22 is connected in the sliding groove 21 in a sliding way, and an adjusting rod 23 is connected to the surface of the sliding piece through threads.
In this embodiment, the chute 21 is formed on the bracket 1; the sliding piece 22 is slidably connected in the chute 21, and an adjusting rod 23 is connected to the surface of the sliding piece through threads.
When the detection position of the sensor body 11 is adjusted, the adjusting rod 23 is rotated upwards, the end part of the adjusting rod 23 is separated from the sliding groove 21, the sliding piece 22 is pulled manually, the sliding piece 22 slides in the sliding groove 21, and the sliding piece 22 can drive the sensor body 11 to synchronously slide through the fine adjustment unit 3 and the rotation unit 4 when in progress, so that the detection position of the sensor body 11 can be adjusted. When the slider 22 slides to a proper position, the adjustment lever 23 is reversely rotated so that the adjustment lever 23 can position the slider 22, thereby improving the stability of the slider 22 after sliding.
The side of the sliding piece 22 in the adjusting unit 2 can be provided with a rubber pad, and the rubber pad is in sliding connection with the inner wall of the chute 21, so that the stability of the sliding piece 22 in the chute 21 can be improved through the rubber pad.
In one embodiment of the present utility model, as shown in fig. 1 and 2, the fine adjustment unit 3 includes:
A sliding frame 31 slidably connected to the inside of the chute 21 and connected to the side surface of the sliding member 22 via an elastic member 32;
The support column 33 is fixed on the side surface of the sliding frame 31, and the surface is connected with the fine tuning piece 34 through threads, and the side surface of the fine tuning piece 34 is in sliding connection with the side surface of the sliding piece 22.
In the present embodiment, the sliding frame 31 is slidably connected in the sliding groove 21, and is connected to the side surface of the sliding member 22 through the elastic member 32; the support column 33 is fixed on the side surface of the sliding frame 31, and the surface is connected with the fine tuning piece 34 through threads, and the side surface of the fine tuning piece 34 is in sliding connection with the side surface of the sliding piece 22.
Through rotating the fine tuning 34, the fine tuning 34 can rotate on the pillar 33, and the fine tuning 34 can drive the sliding frame 31 to slide in the sliding groove 21 through the pillar 33 in the sliding process, so that the sliding frame 31 drives the rotating unit 4 on the surface to synchronously slide, so that the rotating unit 4 can drive the sensor body 11 on the surface to synchronously slide, and further the detection position of the sensor body 11 can be finely tuned.
The sliding frame 31 can stretch the elastic piece 32 in the sliding process, so that the elastic piece 32 can limit the sliding frame 31, and the stability of the sliding frame 31 after sliding is improved.
The elastic member 32 may be a spring or elastic rubber, so as to facilitate the positioning of the sliding frame 31.
In one embodiment of the present utility model, as shown in fig. 1 and 3, the rotation unit 4 includes:
a support bar 41 fixed to the carriage 31 and having a groove frame 42 connected to an end thereof;
a cushion airbag 43 installed in the groove frame 42;
a first stopper 44 installed at one side of the inner wall of the groove frame 42;
The second limiting piece 45 is arranged on the other side of the inner wall of the groove frame 42 and is rotationally connected with the first limiting piece 44;
The rotating rod 46 is rotatably connected in the groove frame 42, and both ends are respectively connected with the second limiting member 45 and the sensor body 11.
In this embodiment, the supporting rod 41 is fixed on the sliding frame 31, and the end part is connected with a groove frame 42; the buffer air bag 43 is arranged in the groove frame 42; the first limiting piece 44 is installed on one side of the inner wall of the groove frame 42; the second limiting piece 45 is installed on the other side of the inner wall of the groove frame 42 and is rotationally connected with the first limiting piece 44; the rotating rod 46 is rotatably connected in the groove frame 42, and both ends are respectively connected with the second limiting member 45 and the sensor body 11. A handle 47 is mounted on the side of the second limiting member 45.
When the detection angle of the sensor body 11 needs to be adjusted, the groove frame 42 is pulled upwards, so that the first limiting piece 44 and the second limiting piece 45 on the inner side of the groove frame 42 are separated, and the groove frame 42 can stretch the buffer air bag 43 in the opening process.
The handle 47 is rotated, the handle 47 can drive the second limiting part 45 to rotate, and the second limiting part 45 can drive the sensor body 11 at the upper end of the second limiting part to rotate through the rotating rod 46 in the rotating process, so that the detection angle of the sensor body 11 can be adjusted.
When the detection angle of the sensor body 11 is adjusted to a proper angle, the handle 47 is loosened, and at the moment, the groove frame 42 can be drawn close under the pulling of the buffer air bag 43, so that the groove frame 42 can respectively drive the first limiting piece 44 and the second limiting piece 45 to be in contact with each other, and further the second limiting piece 45 can limit and fix the sensor body 11 through the rotating rod 46 under the extrusion of the first limiting piece 44, and the stability of the sensor body 11 after the angle rotation is improved.
The buffer air bag 43 in the rotation unit 4 can be replaced by an elastic pull rope, so that two sides of the groove frame 42 can be pulled to be close to each other.
In one embodiment of the present utility model, as shown in fig. 1 and 3, V-shaped grooves 441 are formed on the sides of the first limiting member 44 and the second limiting member 45, and the two sets of V-shaped grooves 441 are engaged with each other.
In this embodiment, V-shaped grooves 441 are formed on the side surfaces of the first and second limiting members 44 and 45, and the two sets of V-shaped grooves 441 are engaged with each other. Therefore, through the clamping connection between the two groups of V-shaped grooves 441, the second limiting piece 45 can be positioned, and the second limiting piece 45 can be positioned on the sensor body 11 through the rotating rod 46.
The working principle of the utility model is as follows: when the detection position of the sensor body 11 is adjusted, the adjusting rod 23 is rotated upwards, the end part of the adjusting rod 23 is separated from the sliding groove 21, the sliding piece 22 is pulled manually, the sliding piece 22 slides in the sliding groove 21, and the sliding piece 22 can drive the sensor body 11 to synchronously slide through the fine adjustment unit 3 and the rotation unit 4 when in progress, so that the detection position of the sensor body 11 can be adjusted.
Through rotating the fine tuning 34, the fine tuning 34 can rotate on the pillar 33, and the fine tuning 34 can drive the sliding frame 31 to slide in the sliding groove 21 through the pillar 33 in the sliding process, so that the sliding frame 31 drives the rotating unit 4 on the surface to synchronously slide, so that the rotating unit 4 can drive the sensor body 11 on the surface to synchronously slide, and further the detection position of the sensor body 11 can be finely tuned.
When the detection angle of the sensor body 11 needs to be adjusted, the groove frame 42 is pulled upwards, so that the first limiting piece 44 and the second limiting piece 45 on the inner side of the groove frame 42 are separated, and the groove frame 42 can stretch the buffer air bag 43 in the opening process. The handle 47 is rotated, the handle 47 can drive the second limiting part 45 to rotate, and the second limiting part 45 can drive the sensor body 11 at the upper end of the second limiting part to rotate through the rotating rod 46 in the rotating process, so that the detection angle of the sensor body 11 can be adjusted.
When the detection angle of the sensor body 11 is adjusted to a proper angle, the handle 47 is loosened, and at the moment, the groove frame 42 can be drawn close under the pulling of the buffer air bag 43, so that the groove frame 42 can respectively drive the first limiting piece 44 and the second limiting piece 45 to be in contact with each other, and further the second limiting piece 45 can limit and fix the sensor body 11 through the rotating rod 46 under the extrusion of the first limiting piece 44, and the stability of the sensor body 11 after the angle rotation is improved.
In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically connected, electrically connected or can be communicated with each other; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.
The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.
Claims (5)
1. A sensor holder for facilitating adjustment of a detection position, comprising:
the sensor comprises a bracket, wherein a sensor body is arranged on the bracket;
The adjusting unit is connected to the bracket in a sliding way and used for adjusting the detection position of the sensor body;
the fine tuning unit is connected to the side surface of the adjusting unit and used for fine tuning the detection position of the sensor body;
And one end of the rotating unit is connected to the fine tuning unit, and the other end of the rotating unit is connected to the sensor body and is used for driving the detection angle of the sensor body to rotate.
2. The sensor mount for facilitating adjustment of a detection position according to claim 1, wherein the adjustment unit comprises:
The sliding groove is arranged on the bracket;
The sliding piece is connected in the sliding groove in a sliding way, and the surface of the sliding piece is connected with an adjusting rod through threads.
3. The sensor mount for facilitating adjustment of a sensing position according to claim 2, wherein the fine adjustment unit comprises:
The sliding frame is connected in the sliding groove in a sliding way and is connected with the side face of the sliding piece through an elastic piece;
And the support is fixed on the side surface of the sliding frame, the surface of the support is connected with a fine tuning piece through threads, and the side surface of the fine tuning piece is in sliding connection with the side surface of the sliding piece.
4. A sensor holder for facilitating adjustment of a detection position according to claim 3, wherein said rotation unit comprises:
The support rod is fixed on the sliding frame, and the end part of the support rod is connected with a groove frame;
the buffer air bag is arranged in the groove frame;
the first limiting piece is arranged on one side of the inner wall of the groove frame;
the second limiting piece is arranged on the other side of the inner wall of the groove frame and is rotationally connected with the first limiting piece;
The rotating rod is rotationally connected in the groove frame, and two end parts are respectively connected with the second limiting piece and the sensor body.
5. The sensor support convenient to adjust a detection position according to claim 4, wherein the side surfaces of the first limiting piece and the second limiting piece are provided with V-shaped grooves, and the two sets of V-shaped grooves are connected in a clamping mode.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322142849.XU CN220932077U (en) | 2023-08-10 | 2023-08-10 | Sensor support convenient to adjust testing position |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322142849.XU CN220932077U (en) | 2023-08-10 | 2023-08-10 | Sensor support convenient to adjust testing position |
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CN220932077U true CN220932077U (en) | 2024-05-10 |
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CN202322142849.XU Active CN220932077U (en) | 2023-08-10 | 2023-08-10 | Sensor support convenient to adjust testing position |
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2023
- 2023-08-10 CN CN202322142849.XU patent/CN220932077U/en active Active
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