CN216246335U - Two-unit multidirectional installation sensor assembly - Google Patents
Two-unit multidirectional installation sensor assembly Download PDFInfo
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- CN216246335U CN216246335U CN202121996873.4U CN202121996873U CN216246335U CN 216246335 U CN216246335 U CN 216246335U CN 202121996873 U CN202121996873 U CN 202121996873U CN 216246335 U CN216246335 U CN 216246335U
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- head locking
- adjusting support
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Abstract
The utility model provides a two-unit multidirectional installation sensor assembly, comprising: sensor mount pad, sensor mount pad one side is equipped with laser detection sensor subassembly I, sensor mount pad opposite side is equipped with laser detection sensor subassembly II, the sensor mount pad is including adjusting the seat body, it is equipped with the regulation bracing piece installation cavity to adjust seat body middle part, it is equipped with sensor adjusting support rod to adjust bracing piece installation cavity both ends, sensor adjusting support rod one end is equipped with adjusts the support bulb, adjust the support bulb and install in adjusting the bracing piece installation cavity, laser detection sensor subassembly I, laser detection sensor subassembly II install on sensor adjusting support rod. According to the utility model, multi-angle large-range adjustment can be realized through ball head installation, so that adjustment and installation are more convenient, and stable locking of the ball head can be realized by the arc-shaped contact surface, so that the stability of the product is ensured.
Description
Technical Field
The utility model relates to the technical field of engineering construction monitoring equipment, in particular to a two-unit multidirectional installation sensor assembly.
Background
In recent years, various accidents caused by building safety are frequent, and building safety management faces a severe test. The party, the state and all levels of governments pay high attention to the innovation and development problem in the field. How to follow up the brand-new requirements of the development of the new era and how to better ensure the operation safety of railways, bridges, urban buildings, rail transit, urban comprehensive pipe galleries, hydraulic engineering, mines and the like, a great part of accident causes in the construction process of various buildings can be attributed to 'displacement': such as foundation pit settlement, building settlement, landslide, and the like. The existing solution is to manually use instruments such as a total station to perform field detection, the observation is not real-time, the interval between two measurements is one week or even more than one month, and great potential safety hazards are left. Secondly, the manual observation result is influenced by manual operation, and the accuracy and the reliability are greatly influenced by the professional quality of the operator. Finally, the existing observation methods require a large amount of human resources and are high in cost. During traditional measurement, the handheld prism rod is directly erected on a monitoring point, so that artificial measurement errors can be increased, and even foundation pit false alarm can be caused to influence engineering construction.
SUMMERY OF THE UTILITY MODEL
The present invention is directed to a two-unit multi-directional sensor assembly, which solves the above problems.
The technical problem solved by the utility model is realized by adopting the following technical scheme: a two-unit multi-directionally mounted sensor assembly comprising: sensor mount pad I, sensor mount pad I one side is equipped with laser detection sensor subassembly I, sensor mount pad I opposite side is equipped with laser detection sensor subassembly II, sensor mount pad I is including adjusting the seat body, it is equipped with the regulation bracing piece installation cavity to adjust seat body middle part, it is equipped with sensor adjusting support rod to adjust bracing piece installation cavity both ends, sensor adjusting support rod one end is equipped with adjusts the support bulb, adjust the support bulb and install in adjusting support rod installation cavity, adjusting support rod installation cavity one side is equipped with side bulb locking screw, adjusting support rod installation cavity upper end is equipped with top bulb locking screw, be equipped with side bulb locking piece in the side bulb locking screw, be equipped with top bulb locking piece in the top bulb locking screw, laser detection sensor subassembly I, And the laser detection sensor component II is arranged on the sensor adjusting support rod.
The side ball head locking piece comprises a top ball head locking pin, the top ball head locking pin is installed in a top ball head locking screw hole, a top ball head locking bolt is arranged in the top ball head locking screw hole on the outer side of the top ball head locking pin, the top ball head locking bolt is installed in the top ball head locking screw hole through threads, and the contact surface of the top ball head locking pin and the adjusting support ball head is an arc-shaped surface.
The top ball head locking piece comprises a side ball head locking pin, the side ball head locking pin is installed in a side ball head locking screw hole, a side ball head locking bolt is arranged in a side ball head locking screw hole in the outer side of the side ball head locking pin, the side ball head locking bolt is installed in the side ball head locking screw hole through threads, and the contact surface of the side ball head locking pin and the adjusting support ball head is an arc-shaped surface.
The sensor adjusting support rod is provided with an external thread, the sensor adjusting support rod is provided with a locking support plate, the middle part of the locking support plate is provided with an installation screw hole, and the locking support plate is installed on the sensor adjusting support rod through the thread.
Laser detection sensor subassembly I, laser detection sensor subassembly II include the sensor mount pad, be equipped with the laser detection sensor in the sensor mount pad, the sensor mount pad passes through mount pad fixing bolt and installs on the mount pad bracing piece, the mount pad bracing piece is installed on sensor adjusting support pole.
The sensor adjusting support device is characterized in that an upper mounting screw hole is formed in the upper end of the mounting base support plate, a lower supporting screw hole is formed in the lower end of the mounting base support plate, and the mounting base support plate is mounted on the sensor adjusting support rod through threads.
The laser detection sensor is installed on the sensor installation seat through a sensor fixing rod, screw holes are formed in two ends of the sensor fixing rod, and two ends of the sensor fixing rod are installed on the sensor installation seat through fixing rod installation screws.
Compared with the prior art, the utility model has the beneficial effects that: according to the utility model, multi-angle large-range adjustment can be realized through ball head installation, so that adjustment and installation are more convenient, and stable locking of the ball head can be realized by the arc-shaped contact surface, so that the stability of the product is ensured.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a schematic structural diagram of a sensor mounting seat according to the present invention.
Fig. 3 is a schematic structural diagram of a laser detection sensor assembly according to the present invention.
Fig. 4 is an exploded pictorial view of the sensor mount of the present invention.
Fig. 5 is an exploded pictorial view of the laser detection sensor assembly of the present invention.
Fig. 6 is a state diagram of the present invention.
Fig. 7 is another state diagram of the present invention.
Detailed Description
In the description of the present invention, it should be noted that unless otherwise specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected, mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.
Example 1
As shown in fig. 1 to 7, a two-unit multi-directionally mounted sensor assembly includes: sensor mount pad I1, sensor mount pad I1 one side is equipped with laser detection sensor subassembly I2, sensor mount pad I1 opposite side is equipped with laser detection sensor subassembly II3, sensor mount pad I1 includes adjusting the seat body 11, it is equipped with regulation bracing piece installation cavity 12 to adjust the seat body 11 middle part, it is equipped with sensor adjusting support pole 14 to adjust bracing piece installation cavity 12 both ends, sensor adjusting support pole 14 one end is equipped with regulation support bulb 13, regulation support bulb 13 is installed in regulation bracing piece installation cavity 12, it is equipped with side bulb locking screw hole 111 to adjust bracing piece installation cavity 12 one side, it is equipped with top bulb locking screw hole 110 to adjust bracing piece installation cavity 12 upper end, be equipped with side bulb locking piece in the side bulb locking screw hole 111, be equipped with top bulb locking piece in top bulb locking screw hole 110, the laser detection sensor assembly I2 and the laser detection sensor assembly II3 are arranged on the sensor adjusting support rod 14. The side ball head locking piece comprises a top ball head locking pin 16, the top ball head locking pin 16 is installed in a top ball head locking screw hole 110, a top ball head locking bolt 17 is arranged in the top ball head locking screw hole 110 on the outer side of the top ball head locking pin 16, the top ball head locking bolt 17 is installed in the top ball head locking screw hole 110 through threads, and the contact surface of the top ball head locking pin 16 and the adjusting support ball head 13 is an arc-shaped surface. The top ball head locking piece comprises a side ball head locking pin 18, the side ball head locking pin 18 is installed in a side ball head locking screw hole 111, a side ball head locking bolt 19 is arranged in the side ball head locking screw hole 111 on the outer side of the side ball head locking pin 18, the side ball head locking bolt 19 is installed in the side ball head locking screw hole 111 through threads, and the contact surface of the side ball head locking pin 18 and the adjusting support ball head 13 is an arc-shaped surface. The sensor adjusting support rod 14 is provided with an external thread, the sensor adjusting support rod 14 is provided with a locking support plate 15, the middle part of the locking support plate 15 is provided with an installation screw hole, and the locking support plate 15 is installed on the sensor adjusting support rod 14 through a thread.
Example 2
As shown in fig. 1 to 7, a two-unit multi-directionally mounted sensor assembly includes: sensor mount pad I1, sensor mount pad I1 one side is equipped with laser detection sensor subassembly I2, sensor mount pad I1 opposite side is equipped with laser detection sensor subassembly II3, sensor mount pad I1 includes adjusting the seat body 11, it is equipped with regulation bracing piece installation cavity 12 to adjust the seat body 11 middle part, it is equipped with sensor adjusting support pole 14 to adjust bracing piece installation cavity 12 both ends, sensor adjusting support pole 14 one end is equipped with regulation support bulb 13, regulation support bulb 13 is installed in regulation bracing piece installation cavity 12, it is equipped with side bulb locking screw hole 111 to adjust bracing piece installation cavity 12 one side, it is equipped with top bulb locking screw hole 110 to adjust bracing piece installation cavity 12 upper end, be equipped with side bulb locking piece in the side bulb locking screw hole 111, be equipped with top bulb locking piece in top bulb locking screw hole 110, the laser detection sensor assembly I2 and the laser detection sensor assembly II3 are arranged on the sensor adjusting support rod 14. Laser detection sensor subassembly I2, laser detection sensor subassembly II3 include sensor mount 21, be equipped with laser detection sensor 22 in the sensor mount 21, sensor mount 21 passes through mount 25 and installs on mount backup pad 26, mount backup pad 26 is installed on sensor adjusting support pole 14. The upper end of the mounting base supporting plate 26 is provided with an upper mounting screw hole 27, the lower end of the mounting base supporting plate 26 is provided with a lower supporting screw hole 28, and the mounting base supporting plate 26 is mounted on the sensor adjusting supporting rod 14 through threads. The laser detection sensor 22 is mounted on the sensor mounting seat 21 through a sensor fixing rod 23, screw holes are formed in two ends of the sensor fixing rod 23, and two ends of the sensor fixing rod 23 are mounted on the sensor mounting seat 21 through fixing rod mounting screws 24.
An adjusting support rod installation cavity 12 is arranged in the middle of an adjusting seat body 11, sensor adjusting support rods 14 are arranged at two ends of the adjusting support rod installation cavity 12, an adjusting support ball 13 is arranged at one end of each sensor adjusting support rod 14, the adjusting support ball 13 is installed in the adjusting support rod installation cavity 12, multi-angle large-range adjustment can be achieved through ball head installation, adjustment and installation are more convenient, in addition, the contact surface of a side ball head locking pin 18 and the adjusting support ball 13 is an arc-shaped surface, and the contact surface of a top ball head locking pin 16 and the adjusting support ball 13 is an arc-shaped surface, so that stable locking of the ball head can be achieved, and product stability is guaranteed.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.
Claims (7)
1. A two-unit multi-directionally mounted sensor assembly comprising: sensor mount pad I (1), sensor mount pad I (1) one side is equipped with laser detection sensor subassembly I (2), sensor mount pad I (1) opposite side is equipped with laser detection sensor subassembly II (3), its characterized in that: the sensor mounting seat I (1) comprises an adjusting seat body (11), an adjusting support rod mounting cavity (12) is arranged in the middle of the adjusting seat body (11), the two ends of the adjusting support rod installation cavity (12) are provided with sensor adjusting support rods (14), one end of the sensor adjusting support rod (14) is provided with an adjusting support ball head (13), the adjusting support ball head (13) is arranged in the adjusting support rod mounting cavity (12), one side of the adjusting support rod mounting cavity (12) is provided with a side ball head locking screw hole (111), the upper end of the adjusting support rod mounting cavity (12) is provided with a top ball head locking screw hole (110), a side ball head locking piece is arranged in the side ball head locking screw hole (111), a top ball head locking piece is arranged in the top ball head locking screw hole (110), the laser detection sensor component I (2) and the laser detection sensor component II (3) are arranged on the sensor adjusting support rod (14).
2. A two-unit multi-directionally mounted sensor assembly as recited in claim 1, wherein: the side ball head locking piece comprises a top ball head locking pin (16), the top ball head locking pin (16) is installed in a top ball head locking screw hole (110), a top ball head locking bolt (17) is arranged in the top ball head locking screw hole (110) on the outer side of the top ball head locking pin (16), the top ball head locking bolt (17) is installed in the top ball head locking screw hole (110) through threads, and the contact surface of the top ball head locking pin (16) and the adjusting support ball head (13) is an arc-shaped surface.
3. A two-unit multi-directionally mounted sensor assembly as recited in claim 1, wherein: the top ball head locking piece comprises a side ball head locking pin (18), the side ball head locking pin (18) is installed in a side ball head locking screw hole (111), a side ball head locking bolt (19) is arranged in the side ball head locking screw hole (111) on the outer side of the side ball head locking pin (18), the side ball head locking bolt (19) is installed in the side ball head locking screw hole (111) through threads, and the contact surface of the side ball head locking pin (18) and the adjusting support ball head (13) is an arc-shaped surface.
4. A two-unit multi-directional mounted sensor assembly according to any of claims 1-3, wherein: the sensor adjusting support rod (14) is provided with an external thread, the sensor adjusting support rod (14) is provided with a locking support plate (15), the middle of the locking support plate (15) is provided with an installation screw hole, and the locking support plate (15) is installed on the sensor adjusting support rod (14) through a thread.
5. A two-unit multi-directionally mounted sensor assembly as recited in claim 4, wherein: laser detection sensor subassembly I (2), laser detection sensor subassembly II (3) include sensor mount pad (21), be equipped with laser detection sensor (22) in sensor mount pad (21), sensor mount pad (21) are installed on mount pad backup pad (26) through mount pad fixing bolt (25), mount pad backup pad (26) are installed on sensor regulation bracing piece (14).
6. A two-unit multi-directionally mounted sensor assembly as recited in claim 5, wherein: the sensor adjusting support rod is characterized in that an upper mounting screw hole (27) is formed in the upper end of the mounting base support plate (26), a lower supporting screw hole (28) is formed in the lower end of the mounting base support plate (26), and the mounting base support plate (26) is mounted on the sensor adjusting support rod (14) through threads.
7. A two-unit multi-directionally mounted sensor assembly as recited in claim 5, wherein: the laser detection sensor (22) is installed on the sensor installation seat (21) through a sensor fixing rod (23), screw holes are formed in two ends of the sensor fixing rod (23), and two ends of the sensor fixing rod (23) are installed on the sensor installation seat (21) through fixing rod installation screws (24).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121996873.4U CN216246335U (en) | 2021-08-24 | 2021-08-24 | Two-unit multidirectional installation sensor assembly |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202121996873.4U CN216246335U (en) | 2021-08-24 | 2021-08-24 | Two-unit multidirectional installation sensor assembly |
Publications (1)
Publication Number | Publication Date |
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CN216246335U true CN216246335U (en) | 2022-04-08 |
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CN202121996873.4U Active CN216246335U (en) | 2021-08-24 | 2021-08-24 | Two-unit multidirectional installation sensor assembly |
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CN (1) | CN216246335U (en) |
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2021
- 2021-08-24 CN CN202121996873.4U patent/CN216246335U/en active Active
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