CN110319319B

CN110319319B - Theodolite for modern engineering

Info

Publication number: CN110319319B
Application number: CN201910651810.6A
Authority: CN
Inventors: 徐玲
Original assignee: Quanzhou Taishang Investment Zone Shengda New Material Co ltd
Current assignee: Quanzhou Taishang Investment Zone Shengda New Material Co.,Ltd.
Priority date: 2019-07-18
Filing date: 2019-07-18
Publication date: 2020-10-30
Anticipated expiration: 2039-07-18
Also published as: CN110319319A

Abstract

The invention discloses a theodolite for modern engineering, which comprises a control frame arranged on a tripod, wherein the top end of the control frame is rotatably provided with an installation frame through a rotating shaft, a rotary driving assembly for controlling the installation frame to rotate is arranged between the installation frame and the control frame, an adjusting cavity is arranged in the installation frame, a theodolite is rotatably arranged in the adjusting cavity through a rotating rod, a worm wheel is fixedly arranged on the rotating rod at the front side of the theodolite, and a worm is meshed with the right side of the worm wheel. Preventing shaking from occurring at the time of measurement.

Description

Theodolite for modern engineering

Technical Field

The invention relates to the technical field of engineering measuring equipment, in particular to a theodolite for modern engineering.

Background

The theodolite is designed according to the angle measurement principle and is divided into an optical theodolite and an electronic theodolite, and the electronic theodolite is most commonly used at present.

The theodolite is a mechanical part of the telescope, which enables the telescope to point in different directions. The theodolite is provided with two mutually vertical rotating shafts so as to adjust the azimuth angle and the horizontal height of the telescope. The theodolite is an angle measuring instrument equipped with a telescope, a horizontal scale and a reading index, and a vertical scale and a reading index.

Theodolite is instrument commonly used in modern engineering construction, and when using, the theodolite among the conventional art needs artifical manual regulation and rotation direction to it, and its operation process is comparatively loaded down with trivial details, and in addition, the angle of fixed theodolite that can not be fine, when measuring, produces the accident easily and rocks, leads to measuring numerical value not accurate.

Disclosure of Invention

The invention aims to provide a theodolite for modern engineering, which is used for overcoming the defects in the prior art.

The theodolite for modern engineering comprises a control frame arranged on a tripod, wherein the top end of the control frame is rotatably provided with an installation frame through a rotating shaft, a rotary driving assembly for controlling the installation frame to rotate is arranged between the installation frame and the control frame, an adjusting cavity is arranged in the installation frame, the theodolite is rotatably arranged in the adjusting cavity through a rotating rod, a worm wheel is fixedly arranged on the rotating rod on the front side of the theodolite, the right side of the worm wheel is meshed with a worm, the worm is rotatably arranged between the upper side wall and the lower side wall of the adjusting cavity through a connecting rod, an extrusion sliding cavity is arranged in the installation frame at the bottom end of the adjusting cavity, an extrusion plate is slidably arranged in the extrusion sliding cavity, the top wall of the extrusion sliding cavity is provided with a conducting cavity, and a conducting block fixedly connected with the extrusion plate is slidably arranged in the conducting cavity, the left end of the conducting block is provided with an adjusting component for controlling the connecting rod to rotate, the periphery of the rotating shaft at the top end of the control frame is provided with a locking ring, the end surface of the bottom of the mounting frame is internally provided with a first sliding cavity, the first sliding cavity is internally and slidably provided with a lower locking rod which is opposite to the locking ring and can control the locking of the mounting frame, the bottom wall of the adjusting cavity is internally provided with a second sliding cavity, the second sliding cavity is internally and slidably provided with a lower inclined locking rod which is opposite to the worm wheel and can control the locking of the worm wheel, the end surface of the right side of the lower inclined locking rod is fixedly provided with a cross rod, a second stretching spring is arranged between the bottom end of the cross rod and the bottom wall of the adjusting cavity, a transmission cavity is communicated between the first sliding cavity and the second sliding cavity, and the transmission cavity is internally provided with a transmission gear which is respectively meshed with the, the extrusion plate is characterized in that an inclined plane notch which is connected with the lower inclined plane lock rod top in a press fit mode is arranged in the end face of the top of the extrusion plate, a screw rod is installed in the end face of the right side of the extrusion plate in a thread fit mode, a second adjusting motor is installed at the end of the right side of the screw rod, and the second adjusting motor is fixedly arranged in the end face of the right side of the extrusion sliding cavity.

On the basis of the technical scheme, the rotary driving assembly comprises a toothed ring fixedly arranged at the bottom end of the installation rack, a motor installation rack is installed on the control rack, a rotary motor is installed on the motor installation rack, and a straight gear meshed with the toothed ring is arranged on the right side of the rotary motor.

On the basis of the technical scheme, the adjusting component comprises a second adjusting motor fixedly arranged in the left side end face of the conducting block, a first bevel gear is installed at the left side end of the second adjusting motor, a second bevel gear can be meshed with the top end of the first bevel gear, and the second bevel gear is fixedly installed at the bottom end of the connecting rod.

On the basis of the technical scheme, a control panel is installed to control frame left side terminal surface, last first shift knob, second shift knob and the third shift knob of installing of control panel, first shift knob with rotate motor electric connection, second shift knob with first accommodate motor electric connection, the third shift knob with second accommodate motor electric connection.

On the basis of the technical scheme, a protective sleeve is rotatably arranged between the control frame and the mounting rack on the outer side of the straight gear.

On the basis of the technical scheme, a telescopic adjusting rod is movably mounted at the bottom end of the tripod, and a rubber foot pad is fixedly arranged at the bottom end of the telescopic adjusting rod.

The invention has the beneficial effects that: the theodolite rotation and direction adjustment device is simple in structure and convenient to operate, the theodolite can be automatically rotated, the direction of the theodolite can be adjusted and the theodolite can be automatically locked through the first switch button, the second switch button and the third switch button, manual turning of a knob is not needed for adjustment, the theodolite rotation and direction adjustment and locking operation are simple and convenient to operate, the adjustment accuracy is high, the speed block is adjusted, the stability of the theodolite can be effectively improved through locking of the theodolite and an installation rack, the phenomenon that the theodolite shakes during measurement to influence the measurement result is avoided, and the theodolite rotation and direction adjustment device is.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic diagram of the internal overall structure of a modern theodolite for engineering of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

fig. 3 is a schematic view of the structure in the direction of arrows in fig. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-3, for the sake of convenience, the orientations described hereinafter being defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-3, according to the embodiment of the invention, a theodolite for modern engineering includes a control frame 13 installed on a tripod 12, an installation frame 14 is installed on the top end of the control frame 13 through a rotating shaft 43 in a rotating manner, a rotary driving component for controlling the installation frame 14 to rotate is arranged between the installation frame 14 and the control frame 13, an adjusting cavity 15 is arranged in the installation frame 14, a theodolite 16 is installed in the adjusting cavity 15 through a rotating rod 19 in a rotating manner, a worm wheel 18 is fixedly arranged on the rotating rod 19 at the front side of the theodolite 16, a worm 17 is meshed with the right side of the worm wheel 18, the worm 17 is installed between the upper and lower side walls of the adjusting cavity 15 through a connecting rod 34 in a rotating manner, an extrusion sliding cavity 38 is arranged in the installation frame 14 at the bottom end of the adjusting cavity 15, an extrusion plate 25 is installed in the extrusion sliding cavity 38 in a sliding manner, the top wall of the extrusion sliding cavity 38 is provided with a transmission cavity 33, the transmission cavity 33 is internally and slidably provided with a conduction block 31 fixedly connected with the extrusion plate 25, the left side end of the conduction block 31 is provided with a control, the connecting rod 34 is provided with a rotating adjusting component, the top end of the control frame 13 is provided with a locking ring 44 at the periphery of the rotating shaft 43, a first sliding cavity 41 is arranged in the end face of the bottom of the installation frame 14, the first sliding cavity 41 is internally and slidably provided with a lower locking rod 42 which is opposite to and controllable with the locking ring 44, the bottom wall of the adjustment cavity 15 is internally provided with a second sliding cavity 51, the second sliding cavity 51 is internally and slidably provided with a lower inclined surface locking rod 40 which is opposite to and controllable with the worm wheel 18, the end of the lower inclined surface locking rod right side 40 is fixedly provided with a cross rod 36, the bottom end of the cross rod 36 is fixedly provided with a second stretching spring 35 which is arranged between the bottom wall of, first smooth chamber 41 with the intercommunication is equipped with a transmission chamber 53 between the smooth chamber 51 of second, be equipped with in the transmission chamber 53 respectively with lock lever 42 and the inclined plane lock lever 40 meshing down drive gear 52, be equipped with in the stripper plate 25 top terminal surface one with inclined plane notch 37 that the cooperation of inclined plane lock lever 40 roof pressure is connected down, a screw rod 26 is installed to stripper plate 25 right side terminal surface internal thread fit, a first regulating motor 27 is installed to screw rod 26 right side end, first regulating motor 27 set firmly in extrude in the smooth chamber 38 right side terminal surface.

In addition, in one embodiment, the rotary driving assembly including fixed set up in the ring gear 24 of installation frame 14 bottom, install a motor mounting bracket 20 on the control frame 13, install one on the motor mounting bracket 20 and rotate motor 21, rotate motor 21 right side be equipped with one with ring gear 24 meshed spur gear 23 to the accessible starts to rotate motor 21 and drives spur gear 23 and rotate, and spur gear 23's rotation can drive installation frame 14 and rotate, and then adjusts 16 measuring directions of theodolite.

In addition, in an embodiment, the adjusting component includes a second adjusting motor 28 fixedly disposed in the left side end face of the conducting block 31, a first bevel gear 29 is installed at the left side end of the second adjusting motor 28, a second bevel gear 32 is engaged with the top end of the first bevel gear 29, the second bevel gear 32 is fixedly installed at the bottom end of the connecting rod 34, so that when the first bevel gear 29 is engaged with the second bevel gear, the second adjusting motor 28 is started to drive the connecting rod 34 to rotate, the connecting rod 34 rotates to drive the worm gear 18 to rotate, and the worm gear 18 rotates to drive the theodolite 16 to adjust the measuring direction.

In addition, in one embodiment, a control panel 48 is installed to the control frame 13 left side terminal surface, install first shift knob 45, second shift knob 46 and third shift knob 47 on the control panel 48, first shift knob 45 with rotating motor 21 electric connection, second shift knob 46 with first accommodate motor 27 electric connection, third shift knob 47 with second accommodate motor 28 electric connection to the accessible starts first shift knob 45 and controls theodolite 16 and rotate, and the accessible starts the position locking of second shift knob 46 control theodolite 16, and the accessible starts third shift knob 47 control theodolite 16 and adjusts the measuring direction.

In addition, in one embodiment, a protection sleeve 22 is rotatably installed between the control frame 13 and the installation frame 14 outside the spur gear 23, so that devices between the control frame 13 and the installation frame 14 can be effectively protected, and the service life is effectively prolonged.

In addition, in one embodiment, a telescopic adjusting rod 11 is movably mounted at the bottom end of the tripod 12, and a rubber foot pad 10 is fixedly arranged at the bottom end of the telescopic adjusting rod 11, so that the height of the theodolite 16 can be adjusted conveniently.

In the initial state, the pressing plate 25 is located at the rightmost side of the pressing slide chamber 38, the lower bevel lock lever 40 is extended into the bevel recess 37 by the tensile force of the second tension spring 35, the lower bevel lock lever 40 is not in contact with the worm wheel 18, and the lower lock lever 42 is not in contact with the lock ring 44.

When the direction of the theodolite 16 needs to be rotated, the first switch button 45 is pressed, the rotating motor 21 is started, the straight gear 23 is driven to rotate, the straight gear 23 rotates, the mounting rack 14 is driven to rotate, and the measuring direction of the theodolite 16 is adjusted;

when the angle of the theodolite 16 needs to be adjusted, the third switch button 47 is pressed, the second adjusting motor 28 is started, the connecting rod 34 is driven to rotate, the worm gear 18 can be driven to rotate by the rotation of the connecting rod 34, and the theodolite 16 can be driven to adjust the measuring direction by the rotation of the worm gear 18;

when the theodolite 16 needs to be fixed after adjustment is finished, the second switch button 46 is pressed, the second adjusting motor 28 is started, the extrusion plate 25 can be driven to slide leftwards, at the moment, the extrusion plate 25 pushes the lower inclined plane lock rod 40 upwards, the lower inclined plane lock rod 40 is abutted to the worm wheel 18 and locks the worm wheel 18, when the lower inclined plane lock rod 40 slides upwards, the lower lock rod 42 slides downwards to be abutted to the lock ring 44 and locks the installation rack 14 under the action of the transmission gear 52, at the moment, the first bevel gear 29 is meshed with the second bevel gear, the direction of the theodolite 16 can be prevented from being adjusted by starting the second adjusting motor 28 accidentally, and the theodolite 16 can be fixed.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims

1. The utility model provides a theodolite for modern engineering, is including installing the control frame on the tripod, its characterized in that: the top of the control frame is rotatably provided with an installation frame through a rotating shaft, the installation frame is provided with a control part between the control frame and the installation frame for rotating a rotary driving assembly, an adjusting cavity is arranged in the installation frame, a theodolite is rotatably arranged in the adjusting cavity through a rotating rod, a worm wheel is fixedly arranged on the rotating rod at the front side of the theodolite, the right side of the worm wheel is meshed with a worm, the worm is rotatably arranged between the upper side wall and the lower side wall of the adjusting cavity through a connecting rod, an extruding sliding cavity is arranged in the installation frame at the bottom end of the adjusting cavity, an extruding plate is slidably arranged in the extruding sliding cavity, a transmission cavity is arranged on the top wall of the extruding sliding cavity, a transmission block fixedly connected with the extruding plate is slidably arranged in the transmission cavity, and the left side end of the transmission block is provided with a control part for controlling the rotation, a locking ring is arranged on the periphery of the rotating shaft at the top end of the control frame, a first sliding cavity is arranged in the end face of the bottom of the mounting frame, a lower locking rod which is opposite to the locking ring and can control the locking of the mounting frame is arranged in the first sliding cavity in a sliding manner, a second sliding cavity is arranged in the bottom wall of the adjusting cavity, a lower inclined locking rod which is opposite to the worm wheel and can control the locking of the worm wheel is arranged in the second sliding cavity in a sliding manner, a cross rod is fixedly arranged on the end face of the right side of the lower inclined locking rod, a second extension spring is arranged between the bottom end of the cross rod and the bottom wall of the adjusting cavity, a transmission cavity is communicated between the first sliding cavity and the second sliding cavity, a transmission gear which is respectively meshed with the lower locking rod and the lower inclined locking rod is arranged in the transmission cavity, an inclined notch which is connected with the top of the lower inclined locking rod in a press fit manner, a screw rod is installed in the right side end face of the extrusion plate in a threaded fit mode, a first adjusting motor is installed at the right side end of the screw rod, and the first adjusting motor is fixedly arranged in the right side end face of the extrusion sliding cavity.

2. A modern theodolite for engineering according to claim 1, characterized in that: the rotary driving assembly comprises a toothed ring fixedly arranged at the bottom end of the installation rack, a motor installation frame is installed on the control frame, a rotary motor is installed on the motor installation frame, and a straight gear meshed with the toothed ring is arranged on the right side of the rotary motor.

3. A modern theodolite for engineering according to claim 2, characterized in that: the adjusting component comprises a second adjusting motor fixedly arranged in the left side end face of the conducting block, a first bevel gear is installed at the left side end of the second adjusting motor, a second bevel gear can be meshed with the top end of the first bevel gear, and the second bevel gear is fixedly installed at the bottom end of the connecting rod.

4. A modern theodolite for engineering according to claim 3, characterized in that: a control panel is installed to control frame left side terminal surface, control panel is last to install first shift knob, second shift knob and third shift knob, first shift knob with rotate motor electric connection, second shift knob with first accommodate motor electric connection, third shift knob with second accommodate motor electric connection.

5. A modern theodolite for engineering according to claim 4, characterized in that: and a protective sleeve is rotatably arranged between the control frame and the mounting rack outside the straight gear.

6. A modern theodolite for engineering according to claim 1, characterized in that: the tripod is characterized in that a telescopic adjusting rod is movably mounted at the bottom end of the tripod, and a rubber foot pad is fixedly arranged at the bottom end of the telescopic adjusting rod.