CN111237598A - Civil engineering interface image shooting and recording device - Google Patents

Abstract

The invention discloses a civil engineering interface image shooting and recording device, relates to the technical field of civil engineering, and solves the problems that the prior device is inconvenient to use, uneven in shooting moving speed and incapable of carrying out detailed shooting on an interface when a lifting suspension arm is used for shooting; the inner side of the bottom of the bracket body is axially connected with a group of chain connecting rods; the reversing mechanism further comprises the reversing spline, a group of reversing splines are arranged in the middle of the reversing driving shaft, and the reversing sliding block is connected on the reversing driving shaft in a sliding mode through the reversing spline; the front end face of the camera bearing table is axially connected with a group of sliding gears. The device can realize that the automatic recording of shooing is influenced to the interface of different width positions, high position, and translation rate is invariable, shoots effectually, and the device can accomplish width position and high position voluntarily, need not manual control in the use, convenience simple to use.

Description

Civil engineering interface image shooting and recording device

Technical Field

The invention relates to the technical field of civil engineering, in particular to a civil engineering interface image shooting and recording device.

Background

In civil engineering handover, detailed inspection and recording of construction conditions of engineering are required, and with the development of science and technology, image capturing technology is increasingly applied to inspection and recording of engineering interfaces.

Based on the above, in the process of checking and recording the existing engineering interface, the lifting boom is generally adopted to shoot the interface, and during shooting through the lifting boom, a worker is required to continuously adjust the position and the angle of the boom, so that the use is inconvenient, and meanwhile, in the existing shooting mode, the movement speed of the camera depends on the control of the worker, the shooting movement speed is not uniform, and the interface cannot be shot in detail; therefore, the prior requirement is not satisfied, and a civil engineering interface image capturing and recording device is provided for the requirement.

Disclosure of Invention

The invention aims to provide a civil engineering interface image shooting and recording device, which aims to solve the problems that the prior engineering interface image shooting and recording process proposed in the background technology generally adopts a lifting suspension arm to shoot an interface, and workers are required to continuously adjust the position and the angle of the suspension arm during shooting through the lifting suspension arm, so that the use is inconvenient, and meanwhile, the movement speed of a camera in the prior shooting mode depends on the control of the workers, the shooting movement speed is not uniform, and the interface cannot be shot in detail.

In order to achieve the purpose, the invention provides the following technical scheme: a civil engineering interface image shooting and recording device comprises a support body; the upper part of the bracket body is connected with a group of lifting blocks in a sliding manner; the inner side of the bottom of the bracket body is axially connected with a group of chain connecting rods; the left side and the right side of the bracket body are both axially connected with a group of lifting driving vertical shafts; the middle part of the lifting block is connected with a group of camera bearing tables in a sliding manner; the rear end face of the camera bearing table is axially connected with a group of driving motors; a group of reversing mechanisms is arranged in the camera bearing table; the reversing mechanism further comprises the reversing driving shaft, the reversing sliding blocks, the reversing right bevel gear, the middle bevel gear, the reversing rods and the reversing left bevel gear, the reversing driving shaft is arranged in the middle of the reversing mechanism, a group of reversing right bevel gears is axially connected to the right side of the reversing driving shaft, a group of reversing left bevel gears is axially connected to the left side of the reversing driving shaft, a group of reversing sliding blocks are slidably connected to the reversing driving shaft, the reversing left bevel gears and the reversing right bevel gears are in transmission connection through the middle bevel gear, a group of reversing rods are hinged to the top of the reversing mechanism, and the bottoms of the reversing rods are in plug-in connection with the reversing sliding blocks; the reversing mechanism further comprises the reversing spline, a group of reversing splines are arranged in the middle of the reversing driving shaft, and the reversing sliding block is connected on the reversing driving shaft in a sliding mode through the reversing spline; the front end face of the camera bearing table is axially connected with a group of sliding gears.

Preferably, the driving motor further comprises the driving bevel gear, a group of driving bevel gears is coaxially and fixedly connected to a rotating shaft of the driving motor, and the driving motor and the reversing mechanism form a bevel gear transmission mechanism together through the driving bevel gears.

Preferably, the reversing mechanism further comprises a set of slider end face teeth and bevel gear end face teeth, the left end face and the right end face of the reversing slider are respectively provided with a set of slider end face teeth, the inner end faces of the reversing right bevel gear and the reversing left bevel gear are respectively provided with a set of bevel gear end face teeth, and the slider end face teeth are in plug-in fit with the bevel gear end face teeth.

Preferably, the lifting block further comprises the reversing stop blocks, a group of reversing stop blocks are arranged on the inner sides of the left end and the right end of the lifting block, and the reversing stop blocks correspond to the reversing rods in position.

Preferably, the sliding gear further comprises the sliding bevel gear, a group of sliding bevel gears is coaxially and fixedly connected to the rear end face of the sliding gear, and the sliding bevel gears and the reversing mechanism jointly form a bevel gear transmission mechanism.

Preferably, the lifting block further comprises the sliding rack, a group of sliding racks is arranged on the lower portion of the front end face of the lifting block, and the sliding gear and the sliding racks are meshed to form a gear rack transmission mechanism together.

Preferably, the camera plummer is still including the lift drive rack, the terminal surface all is provided with a set ofly about the camera plummer the lift drive rack, the elevator still including lift drive gear, the equal axiality in the left and right sides of elevator is connected with a set ofly lift drive gear, the lift drive rack with the gear rack drive mechanism is constituteed jointly in the lift drive gear meshing.

Preferably, the lifting driving vertical shaft further comprises a lifting rod spline groove, the lifting rod spline groove is formed in the outer side of the lifting driving vertical shaft, and the lifting driving gear is in sliding connection with the lifting driving vertical shaft through the lifting rod spline groove.

Preferably, the chain connecting rod further comprises the lifting bevel gear transmission mechanism, a group of lifting bevel gear transmission mechanisms are arranged at the left end and the right end of the chain connecting rod, and the chain connecting rod is in transmission connection with the lifting driving vertical shaft through the lifting bevel gear transmission mechanisms.

Preferably, the lifting driving vertical shaft further comprises the ratchet mechanism, and the bottom of the lifting driving vertical shaft is connected with the bevel gear through a group of ratchet mechanisms.

Preferably, the chain connecting rod is further provided with the chain transmission mechanism, the left side and the right side of the chain connecting rod are fixedly connected with one group of chain transmission mechanism coaxially, the left side and the right side of the top of the bracket body are connected with one group of chain transmission mechanism axially, the upper group and the lower group of the chain transmission mechanism are wound with a group of common process rack transmission structure of a chain, the lifting block is fixedly connected with the chain, and the opposite surface of the chain is provided with a balancing weight with the same weight as the lifting block.

Preferably, the camera plummer is still including the quick mounting panel of camera, the preceding terminal surface of camera plummer is provided with a set of the quick mounting panel of camera.

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

the device is through setting up reversing mechanism, through reversing mechanism realize the automatic switch-over of the positive and negative rotation of the gear that slides, realized the horizontal slip of camera plummer, carry out the shooting record of left and right directions to the interface, simultaneously when the camera plummer slides to the left and right sides, the camera plummer realizes the rotation of lift drive vertical scroll through rack and pinion drive mechanism, realizes the unidirectional drive of chain link through ratchet simultaneously, realizes the lift of camera through chain drive mechanism, shoots the interface of co-altitude not.

The device can realize that the automatic recording of shooing is influenced to the interface of different width positions, high position, and translation rate is invariable, shoots effectually, carries out good inspection and record to the interface, guarantees engineering quality, and the device can accomplish width position and high position automatically, need not manual control in the use, convenience simple to use.

Drawings

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

FIG. 2 is a schematic side view of the drive shaft of the present invention;

FIG. 3 is a schematic side view of the elevating transmission shaft of the present invention;

FIG. 4 is an enlarged view of a portion of FIG. 3;

FIG. 5 is a schematic side view of a camera platform according to the present invention;

FIG. 6 is a schematic view of an inner shaft side structure of a camera platform according to the present invention;

FIG. 7 is a schematic side view of the reversing mechanism of the present invention;

FIG. 8 is a schematic side view of the reversing drive shaft of the present invention;

FIG. 9 is a schematic side view of the reversing left bevel gear drive shaft of the present invention;

in the figure: 1. a stent body; 2. a lifting block; 201. a sliding rack; 202. a lifting drive gear; 203. a reversing stop block; 3. a chain link; 301. a chain transmission mechanism; 302. a lifting bevel gear transmission mechanism; 4. lifting and driving the vertical shaft; 401. a lifter spline groove; 402. a ratchet mechanism; 5. a camera stage; 501. a camera quick mounting plate; 502. a lifting drive rack; 6. a drive motor; 601. a drive bevel gear; 7. a reversing mechanism; 701. a reversing driving shaft; 702. a reversing slide block; 703. a reversing right bevel gear; 704. a middle bevel gear; 705. slider end face teeth; 706. a reversing spline; 707. bevel gear face teeth; 708. a reversing lever; 709. a reversing left bevel gear; 8. a slip gear; 801. and sliding the bevel gear.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1 to 8, an embodiment of the present invention includes: a civil engineering interface image shooting and recording device comprises a support body 1; the upper part of the bracket body 1 is connected with a group of lifting blocks 2 in a sliding way; the lifting block 2 further comprises a sliding rack 201, the lower part of the front end face of the lifting block 2 is provided with a group of sliding racks 201, a sliding gear 8 is meshed with the sliding racks 201 to form a gear-rack transmission mechanism together, and in use, the sliding gear 8 rotates to drive the camera bearing table 5 to slide left and right through the gear-rack transmission mechanism; the camera bearing table 5 further comprises a lifting driving rack 502, a group of lifting driving racks 502 are arranged on the left end face and the right end face of the camera bearing table 5, the lifting block 2 further comprises a lifting driving gear 202, a group of lifting driving gears 202 are axially connected to the left side and the right side of the lifting block 2, the lifting driving rack 502 is meshed with the lifting driving gears 202 to form a gear and rack transmission mechanism, when the camera bearing table 5 slides to the right side in use, the lifting driving rack 502 is meshed with the lifting driving gears 202, and the camera bearing table 5 drives the lifting driving gears 202 to rotate through the gear and rack transmission mechanism; the lifting block 2 also comprises a reversing stop block 203, a group of reversing stop blocks 203 are arranged on the inner sides of the left end and the right end of the lifting block 2, the positions of the reversing stop blocks 203 correspond to the positions of the reversing rods 708, and when the camera bearing table 5 slides to the left end and the right end in use, the reversing stop blocks 203 push the reversing rods 708 to swing so as to realize reversing action of the reversing mechanism 7; a group of chain connecting rods 3 are axially connected to the inner side of the bottom of the bracket body 1; the chain connecting rod 3 also comprises a lifting bevel gear transmission mechanism 302, a group of lifting bevel gear transmission mechanisms 302 are arranged at the left end and the right end of the chain connecting rod 3, the chain connecting rod 3 is in transmission connection with the lifting driving vertical shaft 4 through the lifting bevel gear transmission mechanisms 302, and the lifting driving vertical shaft 4 drives the chain connecting rod 3 to rotate through the lifting bevel gear transmission mechanisms 302 when the lifting driving vertical shaft 4 rotates in use; the left side and the right side of the bracket body 1 are both axially connected with a group of lifting driving vertical shafts 4; the lifting driving vertical shaft 4 further comprises a lifting rod spline groove 401, the lifting rod spline groove 401 is arranged on the outer side of the lifting driving vertical shaft 4, the lifting driving gear 202 is connected with the lifting driving vertical shaft 4 in a sliding mode through the lifting rod spline groove 401, and in use, the lifting driving gear 202 can slide up and down and can well slide; the middle part of the lifting block 2 is connected with a group of camera bearing tables 5 in a sliding way; the rear end face of the camera bearing table 5 is axially connected with a group of driving motors 6; the driving motor 6 also comprises a driving bevel gear 601, a group of driving bevel gears 601 are coaxially and fixedly connected to a rotating shaft of the driving motor 6, the driving motor 6 and the reversing mechanism 7 form a bevel gear transmission mechanism together through the driving bevel gears 601, and the driving motor 6 drives the reversing mechanism 7 to rotate through the bevel gear transmission mechanism in use; a group of reversing mechanisms 7 are arranged in the camera bearing table 5; the reversing mechanism 7 further comprises a reversing driving shaft 701, a reversing sliding block 702, a reversing right bevel gear 703, a middle bevel gear 704, a reversing rod 708 and a reversing left bevel gear 709, the reversing driving shaft 701 is arranged in the middle of the reversing mechanism 7, the right side of the reversing driving shaft 701 is axially connected with a group of reversing right bevel gears 703, the left side of the reversing driving shaft 701 is axially connected with a group of reversing left bevel gears 709, the reversing driving shaft 701 is slidably connected with a group of reversing sliding blocks 702, the reversing left bevel gears 709 are in transmission connection with the reversing right bevel gears 703 through the middle bevel gear 704, the top of the reversing mechanism 7 is hinged with a group of reversing rods 708, and the bottoms of the reversing rods 708 are in plug-in connection; the reversing mechanism 7 further comprises a reversing spline 706, the middle part of the reversing driving shaft 701 is provided with a group of reversing splines 706, and the reversing sliding block 702 is connected on the reversing driving shaft 701 in a sliding manner through the reversing splines 706; the reversing mechanism 7 also comprises a slide block end face tooth 705 and a bevel gear end face tooth 707, the left and right end faces of the reversing slide block 702 are respectively provided with a group of slide block end face teeth 705, the inner end faces of the reversing right bevel gear 703 and the reversing left bevel gear 709 are respectively provided with a group of bevel gear end face teeth 707, the slide block end face teeth 705 are in inserted fit with the bevel gear end face teeth 707, when the reversing slide block 702 slides to the left side in use, the slide block end face teeth 705 on the left side of the reversing slide block 702 are in inserted fit with the bevel gear end face teeth 707 on the reversing left bevel gear 709, so that the transmission of the reversing slide block 702 and the reversing left bevel gear 709 is realized, when the reversing slide block 702 slides to the right side, the slide block end face teeth 705 on the right side of the reversing slide; the front end surface of the camera bearing table 5 is axially connected with a group of sliding gears 8; the sliding gear 8 further comprises a sliding bevel gear 801, the rear end face of the sliding gear 8 is coaxially and fixedly connected with a group of sliding bevel gears 801, the sliding bevel gears 801 and the reversing mechanism 7 form a bevel gear transmission mechanism together, and in use, the reversing mechanism 7 drives the sliding gear 8 to rotate through the bevel gear transmission mechanism.

Further, the vertical lifting driving shaft 4 further comprises a ratchet mechanism 402, the bottom of the vertical lifting driving shaft 4 is connected with a bevel gear through a group of ratchet mechanisms 402, and in use, the ratchet mechanism 402 realizes the unidirectional rotation of the vertical lifting driving shaft 4 and the chain connecting rod 3.

Further, chain connecting rod 3 is still including chain drive 301, the equal coaxial fixedly connected with a set of chain drive 301 in the left and right sides of chain connecting rod 3, the equal axiality in the top left and right sides of stake body 1 is connected with a set of chain drive 301, the winding has a set of chain common process rack gear structure between upper and lower two sets of chain drive 301, and elevator 2 and chain fixed connection, and be provided with the balancing weight with the same weight of elevator 2 in the opposite of chain, in use drives elevator 2 and slides from top to bottom through chain drive 301 when chain connecting rod 3 is rotatory.

Further, camera plummer 5 is still including the quick mounting panel 501 of camera, and the preceding terminal surface of camera plummer 5 is provided with a set of quick mounting panel 501 of camera, installs the camera through quick mounting panel 501 of camera when using.

The working principle is as follows: when the camera is used, a camera is installed on a camera bearing platform 5 through a camera quick installation plate 501, a driving motor 6 drives a reversing driving shaft 701 to rotate through a bevel gear transmission mechanism, the reversing driving shaft 701 rotates through a reversing spline 706, when a reversing sliding block 702 is positioned on the left side, the reversing sliding block 702 drives a reversing left bevel gear 709 to rotate through a sliding block end face tooth 705, the reversing left bevel gear 709 drives a sliding gear 8 to rotate anticlockwise through the bevel gear transmission mechanism, the sliding gear 8 rolls on a sliding rack 201 through a gear rack transmission mechanism, when a reversing stop 203 and a reversing rod 708, the reversing rod 708 drives the reversing sliding block 702 to slide to the right side, at the moment, the reversing sliding block 702 drives a reversing right bevel gear 703 to rotate through a sliding block end face tooth 705, the reversing right bevel gear 703 drives a middle bevel gear 704 to rotate through the bevel gear transmission mechanism, the middle bevel gear 704, the left-shifting bevel gear 709 drives the sliding bevel gear 801 to rotate clockwise through a bevel gear transmission mechanism, and the sliding bevel gear 801 drives the camera bearing platform 5 to slide right through a rack-and-pinion transmission mechanism; when the camera bearing table 5 slides to the left side and the right side, the lifting driving rack 502 is meshed with the lifting driving gear 202, the camera bearing table 5 drives the lifting driving gear 202 to rotate through a gear-rack transmission mechanism, the lifting driving gear 202 drives the lifting driving vertical shaft 4 to slide through a lifting rod spline groove 401, the lifting driving vertical shaft 4 drives the chain connecting rod 3 to rotate in a single direction through a ratchet mechanism 402 and a lifting bevel gear transmission mechanism 302, and the chain connecting rod 3 drives the lifting block 2 to slide downwards through a transmission mechanism.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A civil engineering interface image shooting recording device is characterized in that: comprises a bracket body (1); the upper part of the bracket body (1) is connected with a group of lifting blocks (2) in a sliding way; the inner side of the bottom of the bracket body (1) is axially connected with a group of chain connecting rods (3); the left side and the right side of the bracket body (1) are both axially connected with a group of lifting driving vertical shafts (4); the middle part of the lifting block (2) is connected with a group of camera bearing tables (5) in a sliding manner; the rear end face of the camera bearing table (5) is axially connected with a group of driving motors (6); a group of reversing mechanisms (7) is arranged in the camera bearing table (5); the reversing mechanism (7) further comprises the reversing driving shaft (701), the reversing sliding block (702), the right reversing bevel gear (703), the middle bevel gear (704), the reversing rod (708) and the left reversing bevel gear (709), the reversing driving shaft (701) is arranged in the middle of the reversing mechanism (7), a group of the reversing right bevel gear (703) is axially connected to the right side of the reversing driving shaft (701), a group of the reversing left bevel gear (709) is axially connected to the left side of the reversing driving shaft (701), a group of the reversing sliding block (702) is slidably connected to the reversing driving shaft (701), the left reversing bevel gear (709) is in bevel gear transmission connection with the reversing right bevel gear (703) through the middle bevel gear (704), and a group of the reversing rods (708) is hinged to the top of the reversing mechanism (7), the bottom of the reversing rod (708) is connected with the reversing sliding block (702) in an inserting manner; the reversing mechanism (7) further comprises the reversing spline (706), the middle part of the reversing driving shaft (701) is provided with a group of the reversing spline (706), and the reversing sliding block (702) is in sliding connection on the reversing driving shaft (701) through the reversing spline (706); the front end face of the camera bearing table (5) is axially connected with a group of sliding gears (8);

the driving motor (6) further comprises the driving bevel gear (601), a group of driving bevel gears (601) are coaxially and fixedly connected to a rotating shaft of the driving motor (6), and the driving motor (6) and the reversing mechanism (7) form a bevel gear transmission mechanism together through the driving bevel gears (601);

the reversing mechanism (7) further comprises a slider end face tooth (705) and a bevel gear end face tooth (707), a group of slider end face teeth (705) are arranged on the left end face and the right end face of the reversing slider (702), a group of bevel gear end face teeth (707) are arranged on the inner end faces of the right-hand bevel gear (703) and the left-hand bevel gear (709), and the slider end face teeth (705) are in plug-in fit with the bevel gear end face teeth (707).

2. The civil engineering interface image capturing and recording device of claim 1, wherein: the lifting block (2) further comprises the reversing stop blocks (203), a group of reversing stop blocks (203) are arranged on the inner sides of the left end and the right end of the lifting block (2), and the positions of the reversing stop blocks (203) correspond to the positions of the reversing rods (708).

3. The civil engineering interface image capturing and recording device of claim 1, wherein: the sliding gear (8) further comprises a sliding bevel gear (801), the rear end face of the sliding gear (8) is coaxially and fixedly connected with a group of sliding bevel gears (801), and the sliding bevel gears (801) and the reversing mechanism (7) jointly form a bevel gear transmission mechanism.

4. The civil engineering interface image capturing and recording device of claim 1, wherein: the lifting block (2) further comprises a sliding rack (201), a group of sliding racks (201) is arranged on the lower portion of the front end face of the lifting block (2), and a sliding gear (8) is meshed with the sliding racks (201) to form a gear-rack transmission mechanism.

5. The civil engineering interface image capturing and recording device of claim 1, wherein: camera plummer (5) are still including lift drive rack (502), the terminal surface all is provided with a set ofly about camera plummer (5) lift drive rack (502), elevator (2) are still including lift drive gear (202), the equal axiality in both sides of elevator (2) is connected with a set ofly lift drive gear (202), lift drive rack (502) with lift drive gear (202) mesh constitutes gear rack drive jointly.

6. The civil engineering interface image capturing and recording device of claim 1, wherein: the lifting driving vertical shaft (4) further comprises a lifting rod spline groove (401), the lifting rod spline groove (401) is formed in the outer side of the lifting driving vertical shaft (4), and the lifting driving gear (202) is in sliding connection with the lifting driving vertical shaft (4) through the lifting rod spline groove (401).

7. The civil engineering interface image capturing and recording device of claim 1, wherein: the chain connecting rod (3) further comprises a lifting bevel gear transmission mechanism (302), a group of lifting bevel gear transmission mechanisms (302) are arranged at the left end and the right end of the chain connecting rod (3), and the chain connecting rod (3) is in transmission connection with the lifting driving vertical shaft (4) through the lifting bevel gear transmission mechanisms (302).

8. The civil engineering interface image capturing and recording device of claim 1, wherein: the lifting driving vertical shaft (4) further comprises the ratchet mechanism (402), and the bottom of the lifting driving vertical shaft (4) is connected with the bevel gear through a group of ratchet mechanisms (402).

9. The civil engineering interface image capturing and recording device of claim 1, wherein: chain connecting rod (3) still including chain drive (301), the equal coaxial fixedly connected with in the left and right sides of chain connecting rod (3) is a set of chain drive (301), the equal axiality in the top left and right sides of stake body (1) is connected with a set ofly chain drive (301), upper and lower two sets of the winding has a set of chain common process rack gear structure between chain drive (301), just elevator (2) and chain fixed connection to be provided with in the opposite of chain with the balancing weight of elevator (2) the same weight.

10. The civil engineering interface image capturing and recording device of claim 1, wherein: the camera bearing table (5) is characterized by further comprising a camera quick mounting plate (501), and a group of camera quick mounting plates (501) are arranged on the front end face of the camera bearing table (5).

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