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CN-122015930-A - High-precision sensor

CN122015930ACN 122015930 ACN122015930 ACN 122015930ACN-122015930-A

Abstract

The invention discloses a high-precision sensor, which belongs to the technical field of sensors and comprises a storage component and a driving component arranged on the storage component, wherein a rotating component is arranged on the driving component, a moving component is arranged on the rotating component, a sensor component is arranged on the moving component, an extrusion component is arranged on the sensor component, a sliding component is arranged on the extrusion component, a protection component is arranged on the storage component, and a guide component is arranged on the sensor component. According to the invention, the motor is arranged, the motor is started to drive the rotating rod to rotate, the rack can be driven to move when the rotating rod rotates, the connecting plate can be driven to move when the rack moves, the sensor can be driven to move when the connecting plate moves, the sensor can be further moved into the storage box to be stored, and the main extrusion block can be driven to move when the connecting plate moves, so that the main extrusion block can be further far away from the auxiliary extrusion block, and the spring stretches and stretches to drive the guide rod to slide on the storage box.

Inventors

  • SHI XINYI
  • MA YIFAN
  • QIU YI
  • LIU HUAN
  • Xue Hanwu
  • DENG ZHENYI

Assignees

  • 武汉工程大学

Dates

Publication Date
20260512
Application Date
20260120

Claims (10)

  1. 1. The utility model provides a high accuracy sensor, its characterized in that, is in including accomodating the subassembly and installing drive assembly on accomodating the subassembly, install the rotation subassembly on the drive assembly, install the removal subassembly on the rotation subassembly, install the sensor subassembly on the removal subassembly, install the extrusion subassembly on the sensor subassembly, install the slip subassembly on the extrusion subassembly, install the protection subassembly on accomodating the subassembly, install the direction subassembly on the sensor subassembly.
  2. 2. The high-precision sensor according to claim 1, wherein the storage assembly comprises a bottom plate (1), a supporting frame (11), a bottom frame (12) and a storage box (13), the bottom plate (1) is provided with the bottom frame (12), the bottom frame (12) is provided with the supporting frame (11), and the supporting frame (11) is provided with the storage box (13).
  3. 3. The high-precision sensor according to claim 2, wherein the driving assembly comprises a motor (5), a support column (51) and an outer frame (52), the support column (51) is mounted on the storage box (13), the outer frame (52) is mounted at one end of the support column (51), and the motor (5) is mounted on the outer frame (52).
  4. 4. A high accuracy sensor according to claim 3, characterized in that the rotating assembly comprises a supporting ring (8), a side block (81), a supporting frame (82) and a rotating rod (83), the supporting frame (82) is mounted on the storage box (13), the side block (81) is mounted on the supporting frame (82), the supporting ring (8) is mounted on the side block (81), the rotating rod (83) is rotatably mounted on the supporting ring (8), and one end of the rotating rod (83) is connected with the output end of the motor (5).
  5. 5. The high-precision sensor according to claim 4, wherein the moving assembly comprises a rack (4), a gear (41) and a bottom rod (42), the gear (41) is mounted on the rotating rod (83), the bottom rod (42) is mounted on the sensor assembly, and the rack (4) in meshed connection with the gear (41) is mounted at one end of the bottom rod (42).
  6. 6. The high-precision sensor according to claim 5, wherein the sensor assembly comprises a connecting plate (7), a sensor (71), an adjusting plate (72) and a compensating rod (73), the other end of the bottom rod (42) is connected with the connecting plate (7), the compensating rod (73) is mounted on the connecting plate (7), one end of the compensating rod (73) is connected with the adjusting plate (72), and the sensor (71) is mounted on the adjusting plate (72).
  7. 7. The high-precision sensor according to claim 6, wherein the guide assembly comprises a limit rod (9), a limit ring (91), a second connecting block (92) and a connecting column (93), the limit rod (9) is mounted on the connecting plate (7), the limit ring (91) is mounted on the limit rod (9) in a sliding manner, the second connecting block (92) is mounted on the limit ring (91), the connecting column (93) is mounted on the second connecting block (92), and one end of the connecting column (93) is connected with the adjusting plate (72).
  8. 8. The high-precision sensor according to claim 7, wherein the sliding assembly comprises a sliding rod (3), a first connecting block (31) and side rods (32), the side rods (32) are arranged on the connecting plate (7), the first connecting block (31) is arranged at one end of each side rod (32), the sliding rod (3) is arranged on each first connecting block (31), and sliding holes matched with the sliding rod (3) are formed in the storage box (13).
  9. 9. The high-precision sensor according to claim 8, wherein the extrusion assembly comprises a connecting rod (6), an auxiliary extrusion block (61), a guide rod (62), a spring (63), a main extrusion block (64) and a support rod (65), the support rod (65) is mounted on the connecting plate (7), the main extrusion block (64) is mounted at one end of the support rod (65), the guide rod (62) is mounted on the storage box (13) in a sliding manner, the auxiliary extrusion block (61) is mounted at one end of the guide rod (62), the connecting rod (6) is mounted on the auxiliary extrusion block (61), and the guide rod (62) is connected with the storage box (13) through the spring (63).
  10. 10. The high-precision sensor according to claim 9, wherein the protection assembly comprises a protection screen plate (2) and a moving groove (21), the protection screen plate (2) is installed at one end of the connecting rod (6), and the moving groove matched with the protection screen plate (2) is formed in the storage box (13).

Description

High-precision sensor Technical Field The invention relates to a sensor, in particular to a high-precision sensor, and belongs to the technical field of sensors. Background A sensor is a device capable of converting a physical quantity (e.g., temperature, pressure, light, sound, etc.) or a chemical quantity (e.g., gas concentration, pH) into a measurable electrical or other form of signal. Its core function is to sense environmental changes and output data. The existing high-precision sensor cannot be convenient to store and protect the sensor in the actual use process, and when the sensor is not used, the sensor is exposed to the outside for a long time and is easy to be damaged due to collision, so that the service life is reduced. Disclosure of Invention The invention mainly aims to provide a high-precision sensor for solving the problem that the sensor cannot be conveniently stored and protected. The aim of the invention can be achieved by adopting the following technical scheme: The utility model provides a high accuracy sensor, includes and accomodates the subassembly and installs drive assembly on the subassembly is accomodate, install the rotation subassembly on the drive assembly, install the removal subassembly on the rotation subassembly, install the sensor subassembly on the removal subassembly, install the extrusion subassembly on the sensor subassembly, install the slip subassembly on the extrusion subassembly, install the protection subassembly on the subassembly is accomodate, install the direction subassembly on the sensor subassembly. Preferably, the storage component comprises a bottom plate, a supporting frame, an underframe and a storage box, wherein the underframe is arranged on the bottom plate, the supporting frame is arranged on the underframe, and the storage box is arranged on the supporting frame. Preferably, the driving assembly comprises a motor, a support column and an outer frame, wherein the support column is arranged on the storage box, the outer frame is arranged at one end of the support column, and the motor is arranged on the outer frame. Preferably, the rotating assembly comprises a supporting ring, a side block, a supporting frame and a rotating rod, wherein the supporting frame is arranged on the storage box, the side block is arranged on the supporting frame, the supporting ring is arranged on the side block, the rotating rod is rotatably arranged on the supporting ring, and one end of the rotating rod is connected with the output end of the motor. Preferably, the moving assembly comprises a rack, a gear and a bottom rod, the gear is arranged on the rotating rod, the bottom rod is arranged on the sensor assembly, and the rack which is in meshed connection with the gear is arranged at one end of the bottom rod. Preferably, the sensor assembly comprises a connecting plate, a sensor, an adjusting plate and a compensating rod, wherein the other end of the bottom rod is connected with the connecting plate, the compensating rod is arranged on the connecting plate, one end of the compensating rod is connected with the adjusting plate, and the sensor is arranged on the adjusting plate. Preferably, the guide assembly comprises a limit rod, a limit ring, a second connecting block and a connecting column, wherein the limit rod is installed on the connecting plate, the limit ring is installed on the limit rod in a sliding mode, the second connecting block is installed on the limit ring, the connecting column is installed on the second connecting block, and one end of the connecting column is connected with the adjusting plate. Preferably, the sliding component comprises a sliding rod, a first connecting block and a side rod, wherein the side rod is arranged on the connecting plate, the first connecting block is arranged at one end of the side rod, the sliding rod is arranged on the first connecting block, and a sliding hole matched with the sliding rod is formed in the storage box. Preferably, the extrusion assembly comprises a connecting rod, an auxiliary extrusion block, a guide rod, a spring, a main extrusion block and a supporting rod, wherein the supporting rod is arranged on the connecting plate, the main extrusion block is arranged at one end of the supporting rod, the guide rod is slidably arranged on the storage box, the auxiliary extrusion block is arranged at one end of the guide rod, the connecting rod is arranged on the auxiliary extrusion block, and the guide rod is connected with the storage box through the spring. Preferably, the protection subassembly includes protection otter board and removal groove, the protection otter board is installed to the one end of connecting rod, set up on the receiver with the removal groove of mutually supporting of protection otter board. The beneficial technical effects of the invention are as follows: According to the high-precision sensor, the storage box can be conveniently supported by arranging the bottom plate, the support