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CN-121994100-A - Accelerating tube measuring device

CN121994100ACN 121994100 ACN121994100 ACN 121994100ACN-121994100-A

Abstract

The invention relates to the technical field of accelerating tubes, in particular to an accelerating tube measuring device which comprises a mounting frame, a magnetic attraction base arranged at the top of the mounting frame and a rotating assembly arranged at the top of the magnetic attraction base, wherein the rotating assembly comprises a mounting seat and a movement groove arranged in the mounting seat. According to the invention, through the arranged rotating assembly, the rotating assembly can drive the gear ring to rotate by utilizing the moving ring, and drives the auxiliary rod to move with the conveying wheel by virtue of the meshing of the gear ring and the meshing wheel, so that the rotating ring can rotate stably, the detecting assembly is effectively driven to finish the detection of materials, meanwhile, the protecting assembly pushes the piston rod to move by utilizing the internal gas circuit through the sliding fit of the telescopic rod and the telescopic seat, so that the detector can act along with the connecting rod, the movable connection of the connecting rod and the moving plate further drives the protecting plate to move, the protection of the detector in a non-detection state is realized, and the detector can be moved out to a working position stably during detection, so that the material detecting function is reliably realized.

Inventors

  • WANG CHUANJING
  • QIU JIAQI
  • HAN YUNSHENG
  • WANG JIAN

Assignees

  • 昆山华清加高能电子科技有限公司
  • 北京华清加高能电子科技有限公司

Dates

Publication Date
20260508
Application Date
20260120

Claims (10)

  1. 1. An accelerating tube measuring device is characterized by comprising a mounting frame (1), a magnetic attraction base (8) arranged at the top of the mounting frame (1), a rotating assembly (2) arranged at the top of the magnetic attraction base (8), and a magnetic sensor The rotating assembly (2) comprises a mounting seat (21), a moving groove (22) arranged in the mounting seat (21), a moving ring (210) arranged in the moving groove (22), a gear ring (24) arranged outside the moving ring (210), an auxiliary rod (26) arranged in the moving groove (22), a conveying wheel (28) arranged outside the auxiliary rod (26), a meshing wheel (27) arranged outside the conveying wheel (28) and a rotating ring (29) arranged inside the mounting seat (21), The rotary ring (29) is slidably connected to the inside of the mounting seat (21), the gear ring (24) is movably arranged in the inside of the movement groove (22) through a bearing, the auxiliary rods (26) are distributed in the inside of the movement groove (22) in an equidistant annular mode, the rotary ring (29) is attached to the conveying wheel (28), the gear ring (24) is meshed with the meshing wheel (27) outside the conveying wheel (28), when the movement ring (210) acts, the gear ring (24) is driven to rotate through rotational driving force of the gear ring, the conveying wheel (28) is driven to rotate by means of meshing cooperation of the gear ring (24) and the meshing wheel (27), and then the rotary ring (29) is driven to complete rotational movement depending on attachment relation of the conveying wheel (28) and the rotary ring (29).
  2. 2. An accelerating tube measuring device as in claim 1, wherein a rotating tube (23) is also provided inside the moving groove (22), and the gear groove inside the gear ring (24) is engaged with a protruding rod on top of the moving ring (210).
  3. 3. An accelerating tube measuring device as in claim 1, wherein the inside of the mounting base (21) is further penetrated by a corrugated tube (211), and the corrugated tube (211) is in sliding connection with the rotating tube (23).
  4. 4. An accelerating tube measuring device as in claim 1, wherein a conveying disc (25) is further arranged in the moving groove (22), the conveying disc (25) is attached to the moving ring (210), and conveying belts are arranged on the outer walls of the conveying disc (25) and the rotating tube (23).
  5. 5. An accelerating tube measuring device as in claim 1, wherein a protective assembly (3) is further arranged inside the rotating ring (29), the protective assembly (3) comprises an assembly groove (31), a moving seat (33) is mounted inside the assembly groove (31) through bolts, and a telescopic seat (35) is arranged on one side of the moving seat (33).
  6. 6. An accelerating tube measuring device as set forth in claim 5, characterized in that a spring (36) is provided in the interior of the telescopic seat (35), one end of the spring (36) is provided with a telescopic rod (34) extending to the exterior of the telescopic seat (35), and the telescopic seat (35) is communicated with the moving seat (33).
  7. 7. An accelerating tube measuring device as set forth in claim 5, characterized in that one side of the motion seat (33) is provided with a flow tube (32), and the other end of the flow tube (32) is provided with a piston sleeve (37).
  8. 8. An accelerating tube measuring device as in claim 7 wherein the piston sleeve (37) has a piston rod (38) slidably connected therein and extending to the exterior thereof, the end of the piston rod (38) located outside the piston sleeve (37) being fixedly connected with a detector (39) slidably connected thereto.
  9. 9. The accelerating tube measuring device as set forth in claim 5, wherein a moving plate (310) is slidably connected to the inside of the assembly groove (31), a connecting rod (311) is disposed on one side of the moving plate (310), and the other end of the connecting rod (311) is movably connected to the detector (39).
  10. 10. The accelerating tube measuring device according to claim 1, wherein a fixing frame (5) is arranged at the top of the mounting frame (1), a hydraulic cylinder (6) is arranged in the fixing frame (5), an output end of the hydraulic cylinder (6) is connected with a mounting seat (21) through a connecting plate, and a water pipe ruler (4), a waveguide window ruler (7) and a titanium pump ruler (9) are further arranged at the top of the fixing frame (5).

Description

Accelerating tube measuring device Technical Field The invention relates to the technical field of accelerating tubes, in particular to an accelerating tube measuring device. Background The accelerating tube is used as a core device of important equipment, components such as a mounting flange, a waveguide window, an electronic gun, a titanium pump and a water cooling component can introduce certain dimensional uncertainty due to complex forming technology and welding technology, meanwhile, the shape and position size requirements of each flange interface are strict when the accelerating tube is mounted on an external device, the unqualified size can directly influence the mountability, usability and the product construction period of the whole machine, meanwhile, the appearance profile of the accelerating tube is complex and asymmetric, the traditional measuring tool cannot be adapted, the measuring tool cannot accurately and efficiently measure, and under the urgent requirements, the device can efficiently detect whether the important size of the accelerating tube meets the product technical requirements or not, and the yield and the production efficiency are improved. The common accelerating tube measuring device in the current market mostly relies on a tape or a simple mechanical structure to measure the circumference or the size, and the method has the problems of large measuring difficulty and complicated steps in actual operation, so that the detection efficiency is low, and the wide application and popularization of the accelerating tube measuring device in actual production are limited. Disclosure of Invention The present invention has been made in view of the above or the problem in the prior art that the circumference measurement of the acceleration tube cannot be effectively performed. Therefore, the invention aims to provide an accelerating tube measuring device which comprises a mounting frame, a magnetic attraction base arranged at the top of the mounting frame and a rotating assembly arranged at the top of the magnetic attraction base; The rotary assembly comprises a mounting seat, a movement groove, a movement ring, a gear ring, an auxiliary rod, a conveying wheel, a meshing wheel and a rotary ring, wherein the movement groove is formed in the mounting seat; The rotary ring sliding connection is in the inside of mount pad, the gear ring passes through the bearing activity and sets up in the inside of motion groove, the auxiliary rod is equidistant annular distribution in the inside of motion groove, the rotary ring is laminated mutually with the delivery wheel, the gear ring meshes with the outside meshing wheel of delivery wheel, when the motion ring action, drives the gear ring through its rotation driving force and rotates, with the help of the meshing cooperation of gear ring and meshing wheel, drives the delivery wheel rotation, and then relies on the laminating butt relation of delivery wheel and rotary ring, drives the rotary ring and accomplishes the rotation action. As a preferable scheme of the accelerating tube measuring device, a rotating tube is further arranged in the moving groove, and the gear groove in the gear ring is meshed with the protruding rod at the top of the moving ring. As a preferable scheme of the accelerating tube measuring device, a corrugated tube is penetrated in the mounting seat, and the corrugated tube is in sliding connection with the rotating tube. As a preferable scheme of the accelerating tube measuring device, a conveying disc is further arranged in the moving groove, the conveying disc is attached to the moving ring, and conveying belts are arranged on the outer walls of the conveying disc and the rotating tube. As a preferable scheme of the accelerating tube measuring device, a protection component is further arranged in the rotating ring, the protection component comprises an assembly groove, a moving seat is arranged in the assembly groove through a bolt, and a telescopic seat is arranged on one side of the moving seat. As a preferable scheme of the accelerating tube measuring device, a spring is arranged in the telescopic seat, one end of the spring is provided with a telescopic rod extending to the outside of the telescopic seat, and the telescopic seat is communicated with the moving seat. As a preferable scheme of the accelerating tube measuring device, one side of the moving seat is provided with a flow tube, and the other end of the flow tube is provided with a piston sleeve. As a preferable scheme of the accelerating tube measuring device, the inside of the piston sleeve is connected with a piston rod extending to the outside of the piston sleeve in a sliding manner, and one end of the piston rod positioned outside the piston sleeve is fixedly connected with a detector in a sliding manner. As a preferable scheme of the accelerating tube measuring device, the accelerating tube measuring device is characterized in that a moving plate is conne