Search

CN-121632076-B - Directional engineering exploration directional azimuth and distance detection equipment

CN121632076BCN 121632076 BCN121632076 BCN 121632076BCN-121632076-B

Abstract

The application relates to a directional engineering exploration directional azimuth and distance detection device, which relates to the technical field of directional engineering exploration directional azimuth and distance detection, and comprises a total station body and a mounting seat, wherein the total station body is arranged on the mounting seat, and a supporting mechanism is arranged on one side of the mounting seat, which is away from the total station body; the protective sleeve is connected to the mounting seat in a sliding mode, the positioning seat is arranged on the mounting seat, the bottom of the positioning seat can be in contact with the ground, the first driving mechanism is arranged on the mounting seat, and when the bottom of the positioning seat is not in contact with the ground, the first driving mechanism drives the protective sleeve to slide along the direction close to the total station body so as to shield the total station body. According to the application, before the equipment is toppled to collide with the ground, the protective sleeve can move to the position covered on the periphery of the total station body, so that a physical barrier is provided for the internal precise total station body, and damage caused by falling is effectively reduced.

Inventors

  • CHEN XIANGGUI
  • WU GAOQUAN
  • ZHOU MINGLI
  • ZHANG CHAO
  • XUE GUANGMING
  • HE SHAOSHENG
  • Kang Cunbo

Assignees

  • 湖南有色工程勘察研究院有限公司

Dates

Publication Date
20260508
Application Date
20260204

Claims (8)

  1. 1. The directional engineering exploration directional azimuth and distance detection equipment is characterized by comprising a total station body (1) and a mounting seat (2), wherein the total station body (1) is arranged on the mounting seat (2), a supporting mechanism (3) is arranged on one side, away from the total station body (1), of the mounting seat (2), a protective sleeve (4) is connected onto the mounting seat (2) in a sliding mode, a positioning seat (5) is arranged on the mounting seat (2), the bottom of the positioning seat (5) can be in contact with the ground, a first driving mechanism (6) is arranged on the mounting seat (2), when the bottom of the positioning seat (5) is not in contact with the ground, the first driving mechanism (6) drives the protective sleeve (4) to slide in the direction close to the total station body (1) so as to shield the total station body (1), a locking component (7) is arranged on the mounting seat (2), the locking component (7) is used for fixing the protective sleeve (4) onto the protective sleeve (4) so as to shield the position of the total station (1) which is not in contact with the ground, the push rod (8) is arranged on the mounting seat (8) far away from the sliding seat (8), the positioning seat (5) is provided with a fixing component (9) used for fixing the push rod (8), the mounting seat (2) is provided with a matching groove (10) for enabling the top end of the push rod (8) to slide in, the locking component (7) comprises a positioning rod (701) which is connected with the mounting seat (2) in a sliding mode, the sliding direction of the positioning rod (701) is not parallel to that of the push rod (8), the protecting sleeve (4) is provided with a positioning hole (11), one end of the positioning rod (701) can be inserted into the positioning hole (11), the other end of the positioning rod (701) can be inserted into the matching groove (10) and is abutted to the push rod (8), and the mounting seat (2) is provided with a reset part (12) used for driving the positioning rod (701) to be far away from the positioning hole (11).
  2. 2. The directional engineering exploration directional azimuth and distance detection device according to claim 1, wherein the installation seat (2) is internally provided with a driving groove (13), the reset part (12) comprises a first elastic piece (1201) arranged in the driving groove (13), the positioning rod (701) is provided with a driving block (1202), and the driving block (1202) is positioned in the driving groove (13) and is abutted to the first elastic piece (1201).
  3. 3. The directional engineering exploration directional azimuth and distance detection device according to claim 1, wherein a second elastic piece (14) is arranged in the matching groove (10), and the second elastic piece (14) is abutted with the top end of the push rod (8).
  4. 4. The directional engineering exploration directional azimuth and distance detection equipment according to claim 1, wherein a first sliding hole (15) is formed in the positioning seat (5), a second sliding hole (16) is formed in the push rod (8), and the fixing assembly (9) comprises a positioning screw (901) penetrating through the first sliding hole (15) and the second sliding hole (16) synchronously.
  5. 5. The directional engineering exploration directional orientation and distance detection equipment according to claim 1, wherein the first driving mechanism (6) comprises a third elastic piece (601), an extension part (18) is arranged at one end of the protective sleeve (4) far away from the positioning seat (5), and the third elastic piece (601) is located between the extension part (18) and the mounting seat (2).
  6. 6. The directional engineering exploration directional azimuth and distance detection device according to claim 1, wherein the outer wall of the protective sleeve (4) is sleeved with a flexible pad.
  7. 7. The directional engineering exploration directional azimuth and distance detection device according to claim 1, wherein a plurality of protective support plates (19) capable of being contacted with the ground are arranged at the bottom of the positioning seat (5), and anti-slip pads are arranged at the bottoms of the protective support plates (19).
  8. 8. The directional engineering exploration directional azimuth and distance detection device according to claim 1, wherein the supporting mechanism (3) comprises a plurality of telescopic supporting legs (301), the telescopic supporting legs (301) are hinged to one side, away from the total station body (1), of the mounting base (2), and an avoidance groove (20) is formed in the protective sleeve (4) at a position corresponding to each telescopic supporting leg (301) and used for providing an avoidance space when the telescopic supporting legs (301) rotate.

Description

Directional engineering exploration directional azimuth and distance detection equipment Technical Field The application relates to the field of directional engineering exploration directional azimuth and distance detection technology, in particular to directional engineering exploration directional azimuth and distance detection equipment. Background In the field of directional engineering exploration, such as tunneling, mineral drilling, line exploration and the like, accurate detection of space azimuth and distance is a key for guaranteeing engineering quality and accuracy. The core equipment widely used in the work is directional azimuth and distance detection equipment which integrates light, mechanical and electrical technologies and can simultaneously finish angle measurement and distance measurement, and is commonly called as a total station in the mapping industry. The total station is used as a high-precision measuring instrument, and can complete all measuring works such as horizontal angle, vertical angle, distance (inclined distance and flat distance) and height difference of a measuring station through one-time arrangement, and the total station has become indispensable equipment in scenes such as precision engineering measurement, large-scale overground building and underground tunnel construction due to the high-efficiency and accurate characteristics. However, it is precisely in the above complex and demanding directional engineering exploration environment that total stations have a critical role that faces serious challenges in practical use. First, total stations are often used in complex sites such as construction sites, exploration paths, etc., where these environments tend to be cluttered and vehicle shuttled. Because the external environment is complex and changeable, emergency situations are very easy to occur, for example, a traveling engineering vehicle or equipment can accidentally collide with the total station or a bracket thereof, so that the total station falls to the ground from the bracket. The accidental falling can not only cause damage to the instrument shell, but also damage the precise optical and electronic components in the instrument shell, so that the whole instrument is scrapped, and huge economic loss is brought and the engineering progress is seriously influenced. Disclosure of Invention In order to solve the problems in the prior art, the application provides a directional engineering exploration directional azimuth and distance detection device. The application provides a directional engineering exploration directional azimuth and distance detection device, which adopts the following technical scheme: The utility model provides a directional orientation of directional engineering exploration and distance detection equipment, includes total powerstation body and mount pad, the total powerstation body set up in on the mount pad, the mount pad deviates from one side of total powerstation body is provided with supporting mechanism, sliding connection has the protective sheath on the mount pad, be provided with the positioning seat on the mount pad, positioning seat bottom can with ground contact, be provided with first actuating mechanism on the mount pad, works as positioning seat bottom is not with ground contact, first actuating mechanism drives the protective sheath slides along being close to the direction of total powerstation body in order to shelter from the total powerstation body. By adopting the technical scheme, when the equipment works normally, the equipment supports the mounting seat through the supporting mechanism, the total station body is supported and fixed, the bottom of the positioning seat is contacted with the ground at the moment, the protective sleeve is positioned on the mounting seat and does not shield the total station body, the total station body is exposed at the moment, azimuth detection and distance detection operation are carried out, when the equipment is collided and overturns, the inclination of the equipment causes the positioning seat to be separated from the ground, namely the bottom of the positioning seat is not contacted with the ground any more, the change of the physical state is a trigger signal, the first driving mechanism operates at the moment, and the protective sleeve slides in the direction close to the total station body under the operation of the first driving mechanism until the total station body is shielded. The cooperation of each part of above-mentioned in-process for equipment emptys and bumps with ground before, and the protective sheath can remove to the cage in the peripheral position of total powerstation body, thereby absorbs and disperses impact energy through the rigid structure of protective sheath, provides a physical barrier for inside accurate total powerstation body, effectively alleviates the damage that drops and causes. Optionally, a locking component is disposed on the mounting base, and