CN113007533A - Direction-adjusting coal mine laser instrument fixing and mounting equipment and using method thereof - Google Patents

Abstract

The invention discloses a direction-adjusting type coal mine laser operation instrument fixing and mounting device and a using method thereof, wherein the mounting device comprises a mounting mechanism, a guide mechanism and a fixing mechanism, the mounting mechanism is a semi-closed box body with an opening at the top end, and a threaded connecting hole is radially formed at the bottom end of the mounting mechanism; the guide mechanism is a hollow cylinder with openings at two ends, the inner wall surface of the guide mechanism is provided with threads and is internally provided with a spherical guide rod, the lower part of the spherical guide rod is provided with a guide ball, the guide ball is provided with a threaded rod body, the threaded rod body is connected with the threaded connecting hole, and the top end of the side wall of the guide mechanism is communicated with the hollow part and is provided with a groove; the upper portion of the fixing mechanism is an external thread cylinder, a spherical pit matched with the guide ball is formed in the top end of the external thread cylinder, the external thread cylinder extends into the guide mechanism and is connected with the guide ball in a threaded mode, the top end of the external thread cylinder is connected with the surface of the guide ball, and a connecting seat is arranged below the external thread cylinder. The invention can realize omnibearing and multi-angle direction adjustment and measurement, simplify the operation steps, reduce the labor intensity of operators and improve the accuracy of laser instruments.

Description

Direction-adjusting coal mine laser instrument fixing and mounting equipment and using method thereof

Technical Field

The invention belongs to the technical field of mining instruments and equipment, and particularly relates to direction-adjusting type coal mine laser instrument fixing and mounting equipment and a using method thereof.

Background

In the field of optical intelligent equipment application, laser instrumentation is an important means for data monitoring and collection in current engineering applications, wherein small laser-type working instruments are frequently used due to portability and accurate measurement. However, in the coal mine measurement operation, the operation space of the laser instrument is limited due to the narrow operation space of the coal mine, and the currently used laser instrument generally does not have a fixing device, needs manual grasping and holding for measurement, and causes the problems of long-time operation fatigue, incapability of ensuring precision and the like; in addition, need constantly alternate the angle in the operation and measure, and the staff slightly rocks during manual operation and can influence measurement accuracy, brings very big influence for later stage exploitation work.

In order to ensure the measurement accuracy, engineers with abundant measurement experience are often required to repeatedly correct the measurement accuracy, so that the problems of large work amount and low work accuracy still exist, and a large amount of manpower, financial resources and material resources are wasted.

Chinese patent No. CN 210376685U discloses a laser measuring device, which comprises a laser instrument mounting structure, a connecting plate, an upper guide rod, a steering handle, a matching block, a middle sliding structure, a worm, a lower guide rod, a bottom screwed structure, a bottom fixing plate, a positioning universal wheel, a connecting rod and a recess mechanism, wherein the laser instrument mounting structure comprises a triangular outer frame and a middle direction rod, the middle sliding structure comprises a middle guide sleeve, the bottom screwed structure comprises a bottom guide sleeve and a screwed part, the middle direction rod is fixed and the connecting plate, the upper guide rod is slidably mounted on the middle guide sleeve, the matching block is mounted on the middle sliding structure, the worm is rotatably mounted inside the matching block of the middle sliding structure, the worm wheel is in meshing transmission with the worm, the recess structure is mounted at the end part of the worm, the worm is rotated by rotating the handle to rotate the worm, and then adjust the position of the laser. The device makes laser instrument fixed mounting, realizes adjusting from top to bottom, but can't carry out angle modulation to its structure is complicated, is not suitable for the mine and measures the use.

Disclosure of Invention

The invention aims to provide direction-adjusting type coal mine laser instrument fixing and mounting equipment and a using method thereof, which have the functions of adjusting the operation direction of an instrument and stably fixing equipment maintenance, and simplify the process of repeated proofreading and approving of the previous instrument, thereby improving the operation efficiency, reducing the labor intensity of workers and reducing the influence of human factors on the measurement precision.

The technical scheme adopted by the invention is that the direction-adjusting type coal mine laser operation instrument fixing and mounting equipment is matched with a handheld portable laser operation instrument for use, and the mounting equipment comprises:

the laser operation instrument is arranged in the box body of the installation mechanism, a thread fixing hole is transversely formed in the middle of the installation mechanism through the side wall, and a fixing bolt is arranged in the thread fixing hole in a matched mode;

the guide mechanism is a hollow cylinder with openings at two ends, the inner wall surface of the guide mechanism is provided with threads, a spherical guide rod is arranged in the guide mechanism, the lower part of the spherical guide rod is provided with a guide ball, the diameter of the guide ball is matched with the inner diameter of the guide mechanism, the guide ball is positioned at the upper part of the guide mechanism and is movably connected with the guide mechanism, the aperture of an opening at the top end of the guide mechanism is smaller than the diameter of the guide ball, the top end of the guide ball is upwards and fixedly provided with a threaded rod body, the threaded rod body is positioned above the guide mechanism and is connected with a threaded connecting;

the fixing mechanism, fixing mechanism upper portion is the external screw thread cylinder that matches with guiding mechanism, and external screw thread cylinder top is equipped with the spherical nest that matches with spherical guide bar guide ball, and the external screw thread cylinder stretches into guiding mechanism rather than threaded connection and external screw thread cylinder top and guide ball surface connection, and the external screw thread cylinder below is equipped with the connecting seat.

Furthermore, the groove is a straight-side semicircular groove, and the width of the groove is matched with the threaded rod body of the spherical guide rod.

Furthermore, at least two grooves are formed, and the depth of each groove is different.

Furthermore, the upper part of the inner wall surface of the guide mechanism is a smooth surface corresponding to the guide ball part of the spherical guide rod.

Furthermore, the volume of the box body structure of the installation mechanism is larger than that of the laser operation instrument.

Furthermore, at least two thread fixing holes are formed in the base, and the two thread fixing holes are arranged oppositely.

Furthermore, the connecting seat is of a sleeve structure, and threads are arranged in the connecting seat and used for connecting the fixed end of the field environment.

Furthermore, the cross section of the connecting seat is of a polygonal structure.

A use method of fixed installation equipment of a direction-adjusting type coal mine laser operation instrument comprises the following steps:

step one, a spherical guide rod is arranged in a guide mechanism from an opening at the bottom end of the guide mechanism, and a threaded rod body of the spherical guide rod extends out of the guide mechanism from an opening at the top end of the guide mechanism;

screwing the external thread cylinder of the fixing mechanism into the guide mechanism from the bottom end of the guide mechanism until a spherical socket at the top end of the external thread cylinder is contacted with the surface of the guide ball, and pre-tightening the spherical guide rod;

step three, mounting the laser operation instrument into a mounting mechanism, and screwing a fixing bolt to fix the laser operation instrument;

connecting and fixedly connecting the guide mechanism and the mounting mechanism through the threaded rod body and the threaded connecting hole, connecting the fixing mechanism connecting seat with a fixed end in a field environment, and adjusting the laser irradiation direction of the laser operation instrument by adjusting the spherical guide rod and the guide mechanism while rotating the fixing mechanism until the fixing mechanism is screwed;

and step five, after the laser operation instrument is used, firstly disassembling the laser operation instrument, then disassembling the other parts according to the reverse order of the installation order, and cleaning the inner surface and the outer surface of each part.

Compared with the prior art, the invention has the beneficial effects that:

1) according to the invention, a laser operation instrument is arranged in the installation mechanism, the installation mechanism is connected with a specific guide mechanism, the laser operation instrument is subjected to angle adjustment and integral fixation through the fixing mechanism and the guide mechanism, the spherical guide rod and the fixing mechanism are mutually independent and are connected in a specific mode, the adjustment in all directions and multi-angle directions can be realized, the stepless steering and fixation of the spherical guide rod are realized by screwing and loosening the spherical socket matched with the external thread cylinder, the repeated calibration and fixation processes of the laser operation instrument are reduced, the operation steps are simplified, the operation efficiency of the instrument is improved, the labor intensity of operators is reduced, and the measurement accuracy is improved;

2) the diameter of the guide ball of the spherical guide rod is matched with the inner diameter of the guide mechanism, so that the spherical guide rod is convenient to mount and adjust the guide ball to rotate and fix, and the opening at the top end of the guide mechanism is smaller than the diameter of the guide ball, so that the guide ball is prevented from falling off from the guide mechanism;

3) the grooves are straight-edge semicircular grooves and are used for accommodating threaded rod bodies of the spherical guide rods, and at least two grooves are arranged, have different depths and are suitable for different angle operation requirements;

4) the upper part of the inner wall surface of the guide mechanism is a smooth surface corresponding to the guide ball part, so that the guide ball can be conveniently adjusted to rotate;

5) the box body structure volume of the mounting mechanism is larger than that of the laser operation instrument, so that the mounting mechanism is convenient to adapt to instruments of various specifications for use, and a threaded fixing hole is transversely formed in the middle of the mounting mechanism through the side wall and used for fixing the laser operation instrument;

6) at least two thread fixing holes are formed in the base plate and are oppositely arranged, so that stable and firm fastening of a laser operation instrument is facilitated;

7) the connecting seat is of a sleeve structure, threads are arranged in the connecting seat and used for connecting the environment fixed end to fix the whole device, and the polygonal structure of the connecting seat can be matched with a clamp for fixing when the fixed end of the connecting seat is not arranged in a field environment.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the installation of the present invention;

FIG. 3 is a schematic representation of the use of the present invention;

FIG. 4 is a partial schematic view of the present invention.

The labels in the figure are: 1. the device comprises an installation mechanism, 2, a fastening bolt, 3, a spherical guide rod, 4, a guide mechanism, 5, a fixing mechanism, 6, a threaded fixing hole, 7 and a laser operation instrument.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail by referring to the following examples and the accompanying drawings.

Referring to fig. 1-4, a direction-adjustable coal mine laser operation instrument fixing and mounting device and a use method thereof are used together with a handheld portable laser operation instrument 7, and the laser operation instrument fixing and mounting device comprises a mounting mechanism 1, a guide mechanism 2 and a fixing mechanism 3.

The mounting mechanism 1 is a semi-closed box body structure with an opening at the top end, a threaded connecting hole is radially formed in the bottom end of the mounting mechanism 1, the laser operation instrument 7 is mounted in the box body of the mounting mechanism 1, a threaded fixing hole 6 is transversely formed in the middle of the mounting mechanism 1 through the side wall, and the threaded fixing hole 6 is matched with a fixing bolt 2 and used for fixing the position of the laser operation instrument 7 in the mounting mechanism 1 and preventing the laser operation instrument 7 from sliding; specifically, the at least two thread fixing holes 6 are formed, and the two thread fixing holes 6 are arranged oppositely, so that the laser operation instrument 7 can be fastened conveniently.

Furthermore, the volume of the box body structure of the installation mechanism 1 is larger than that of the laser operation instrument 7, so that the laser operation instruments 7 with different sizes can be installed, and the installation mechanism is convenient to adapt to instruments with various specifications for use.

The guide mechanism 4 is a hollow cylinder with openings at two ends, threads are arranged on the inner wall surface of the guide mechanism 4 and used for connecting the fixing mechanism 5, and the spherical guide rod 3 is arranged in the guide mechanism 4 and used for connecting the mounting mechanism 1 and adjusting the measuring angle of a laser operation instrument 7 in the mounting mechanism 1; the lower part of the spherical guide rod 3 is provided with a guide ball, the diameter of the guide ball is matched with the inner diameter of the guide mechanism 4, the spherical guide rod 3 is conveniently and directly arranged in the guide mechanism 4 from the bottom end of the guide mechanism 4, the diameter of an opening at the top end of the guide mechanism 4 is smaller than the diameter of the guide ball, the guide ball is limited, and the guide ball is prevented from slipping from the top end of the guide mechanism 4.

The guide ball is located 4 upper portions of guiding mechanism and swing joint to the guide ball top stretches out guiding mechanism 4 through 4 top openings of guiding mechanism and is located outside guiding mechanism 4, and the guide ball top is upwards fixed and is equipped with the screw rod body, and the screw rod body is located guiding mechanism 4 top and is connected with the threaded connection hole.

In this embodiment, the upper part of the inner wall surface of the guide mechanism 4 is a smooth surface corresponding to the guide ball portion, which is advantageous for adjusting the rotation of the guide ball of the ball guide bar 3.

A groove with a preset depth is formed in a hollow part communicated with the top end of the side wall of the guide mechanism 4, the groove is a straight-edge semicircular groove, the width of the groove is matched with that of a threaded rod body of the spherical guide rod 3, and the groove is used for accommodating the threaded rod body when the spherical guide rod 3 rotates, so that the angle adjusting function of the spherical guide rod 3 is realized; specifically, at least two grooves are formed, and the depths of the grooves are different so as to meet the operation requirements of different angles.

The upper part of the fixing mechanism 5 is an external thread cylinder matched with the guide mechanism 4, the top end of the external thread cylinder is provided with a spherical socket matched with the guide ball of the spherical guide rod 3, the external thread cylinder extends into the guide mechanism 4 and is in threaded connection with the guide mechanism 4, and the top end of the external thread cylinder is connected with the surface of the guide ball of the spherical guide rod 3; the external thread column body is screwed into the guide mechanism 4 to limit the spherical guide rod 3 to slide down from the bottom of the guide mechanism and fixedly clamp the spherical guide rod 3, and the spherical socket is matched with the guide mechanism 4 to adjust and fix the spherical guide rod 3 with the adjusted angle.

A connecting seat is arranged below the external thread column body, the connecting seat is of a sleeve structure, threads are arranged in the connecting seat, the connecting seat can be conveniently detachably connected with a fixed end of a site environment, the cross section of the connecting seat is of a polygonal structure, and the connecting seat can be matched with a clamp for fixing when the fixed end of the site environment does not exist; specifically, the connecting seat is the hexagon sleeve, satisfies the installation of most apparatus in place environment and uses.

A use method of fixed installation equipment of a direction-adjusting type coal mine laser operation instrument comprises the following steps:

step one, a spherical guide rod 3 is arranged into a guide mechanism 4 from an opening at the bottom end of the guide mechanism 4, and a threaded rod body of the spherical guide rod 3 extends out of the guide mechanism 4 from an opening at the top end of the guide mechanism 4;

secondly, screwing the external thread cylinder of the fixing mechanism 5 into the guide mechanism 4 from the bottom end of the guide mechanism 4 until a spherical socket at the top end of the external thread cylinder is contacted with the surface of the guide ball, and pre-tightening the spherical guide rod 3;

step three, the laser operation instrument 7 is arranged in a box body structure of the mounting mechanism 1, and the laser operation instrument 7 is fixed by screwing the fixing bolt 2;

step four, fixedly connecting the guide mechanism 4 and the mounting mechanism 1 through the threaded rod body and the threaded connecting hole, connecting a connecting seat of the fixing mechanism 5 with a fixed end in a field environment, and adjusting the laser irradiation direction of the laser operation instrument 7 by adjusting the spherical guide rod 3 and the guide mechanism 4 while rotating the fixing mechanism 5 until the fixing mechanism 5 is screwed;

and step five, after the laser operation instrument 7 is used, firstly disassembling the laser operation instrument 7, then disassembling the other parts according to the reverse order of the installation order, and cleaning the inner surface and the outer surface of each part.

According to the invention, the laser operation instrument 7 is arranged in the mounting mechanism 1 and is fixed through the fixing bolt 2, the specific guide mechanism 4 is connected through the threaded rod body of the spherical guide rod 3, the angle adjustment and the integral fixation of the laser operation instrument 7 are carried out through the fixing mechanism 5, the guide mechanism 4, the spherical guide rod 3 and the fixing mechanism 5 are mutually independent and are connected through a specific mode, the problem that the laser operation instrument 7 needs to be repeatedly calibrated due to human factors is solved, the operation steps are simplified, the operation efficiency of the instrument is improved, the labor intensity of operators is reduced, and the accuracy of measurement is improved; the external thread cylinder provided with the spherical pit is matched with the connecting seat to be screwed and loosened to realize stepless steering and fixing of the spherical guide rod 3, so that omnibearing and multi-angle stepless adjustment of the device is realized, and the device has practical popularization and use significance.

The present invention is not described in detail, but is known to those skilled in the art. Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that various changes and modifications may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (9)

1. The utility model provides a transfer to formula colliery laser operation instrument fixed mounting equipment, uses with handheld portable laser operation instrument cooperation, its characterized in that, the erection equipment includes:

the laser operation instrument is characterized by comprising an installation mechanism (1), wherein the installation mechanism is a semi-closed box body structure with an opening at the top end, a threaded connection hole is radially formed in the bottom end of the installation mechanism, a laser operation instrument (7) is installed in the box body of the installation mechanism (1), a threaded fixing hole (6) is transversely formed in the middle of the installation mechanism (1) through the side wall, and a fixing bolt (2) is arranged in the threaded fixing hole (6) in;

the guide mechanism (4) is a hollow cylinder with openings at two ends, the inner wall surface of the guide mechanism (4) is provided with threads, a spherical guide rod (3) is arranged in the guide mechanism (4), the lower part of the spherical guide rod (3) is provided with a guide ball, the diameter of the guide ball is matched with the inner diameter of the guide mechanism (4), the guide ball is positioned at the upper part of the guide mechanism (4) and is movably connected with the guide mechanism, the aperture of the opening at the top end of the guide mechanism (4) is smaller than the diameter of the guide ball, the top end of the guide ball is upwards fixedly provided with a threaded rod body, the threaded rod body is positioned above the guide mechanism (4) and is connected with a threaded connecting hole, and a groove with a;

fixing mechanism (5), fixing mechanism (5) upper portion is the external screw thread cylinder that matches with guiding mechanism (4), and external screw thread cylinder top is equipped with the spherical nest that matches with spherical guide bar (3) guide ball, and the external screw thread cylinder stretches into guiding mechanism (4) and threaded connection and external screw thread cylinder top and guide ball surface connection, and the external screw thread cylinder below is equipped with the connecting seat.

2. The direction-adjustable coal mine laser operation instrument fixing and mounting equipment as claimed in claim 1, wherein: the groove is a straight-side semicircular groove, and the width of the groove is matched with the threaded rod body of the spherical guide rod (3).

3. The direction-adjustable coal mine laser operation instrument fixing and mounting equipment as claimed in claim 1, wherein: at least two grooves are formed, and the depths of the grooves are different.

4. The direction-adjustable coal mine laser operation instrument fixing and mounting equipment as claimed in claim 1, wherein: the upper part of the inner wall surface of the guide mechanism (4) is a smooth surface corresponding to the guide ball part of the spherical guide rod (3).

5. The direction-adjustable coal mine laser operation instrument fixing and mounting equipment as claimed in claim 1, wherein: the volume of the box body structure of the installation mechanism (1) is larger than that of the laser operation instrument (7).

6. The direction-adjustable coal mine laser operation instrument fixing and mounting equipment as claimed in claim 1, wherein: the number of the thread fixing holes (6) is at least two, and the two thread fixing holes (6) are arranged oppositely.

7. The direction-adjustable coal mine laser operation instrument fixing and mounting equipment as claimed in claim 1, wherein: the connecting seat is of a sleeve structure, and threads are arranged in the connecting seat and used for connecting the fixed end of the field environment.

8. The direction-adjustable coal mine laser operation instrument fixing and mounting equipment as claimed in claim 1, wherein: the cross section of the connecting seat is of a polygonal structure.

9. The use method of the direction-adjusting type coal mine laser operation instrument fixing and mounting equipment as claimed in any one of claims 1 to 8, is characterized by comprising the following steps:

step one, a spherical guide rod (3) is installed into a guide mechanism (4) from an opening at the bottom end of the guide mechanism (4), and a threaded rod body of the spherical guide rod (3) extends out of the guide mechanism (4) from an opening at the top end of the guide mechanism (4);

secondly, screwing the external thread cylinder of the fixing mechanism (5) into the guide mechanism (4) from the bottom end until a spherical socket at the top end of the external thread cylinder is contacted with the surface of the guide ball, and pre-tightening the spherical guide rod (3);

step three, installing the laser operation instrument (7) into the installation mechanism (1), and screwing the fixing bolt (2) to fix the laser operation instrument (7);

step four, the guide mechanism (4) and the mounting mechanism (1) are fixedly connected through the threaded rod body and the threaded connecting hole, the connecting seat of the fixing mechanism (5) is connected with a fixed end in a field environment, and the laser irradiation direction of the laser operation instrument (7) is adjusted by adjusting the spherical guide rod (3) and the guide mechanism (4) while the fixing mechanism (5) is rotated until the fixing mechanism (5) is screwed;

and step five, after the laser operation instrument is used, the laser operation instrument (7) is firstly disassembled, then the rest parts are disassembled according to the reverse order of the installation order, and the inner surface and the outer surface of each part are cleaned.

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