CN111496584B - Robot for polishing round pipe guardrail - Google Patents

Abstract

The invention discloses a robot for polishing a circular tube guardrail, which relates to the field of polishing equipment and comprises: the robot comprises a driving mechanism for driving the robot to move, a polishing mechanism for polishing the surface of a circular tube, and a fixing mechanism for fixing the robot on the circular tube; the driving mechanism is used for bearing the polishing mechanism and the fixing mechanism; the polishing mechanism is arranged on the fixing mechanism and can reciprocate on the fixing mechanism; this technical scheme polishes the robot of pipe guardrail through full automatic control's design, makes the robot need not personnel and participates in at the in-process of polishing, alleviates artifical intensity of labour, has also improved personnel's operational safety to through fixed establishment's design, make fixing on the pipe that the robot can be stable at the in-process of polishing, the effectual robot that prevents because vibrations and skew position.

Description

Robot for polishing round pipe guardrail

The invention is the application number: 201910760017X, filing date: 2019-08-16, invention name: a divide application of case for unmanned aerial vehicle robot that pipe guardrail was polished.

Technical Field

The invention relates to the field of polishing equipment, in particular to a robot for polishing a circular tube guardrail.

Background

The guardrail on the highway is a five-flower eight-door guardrail, wherein one of the guardrail is a concrete dam body provided with a metal round pipe which is often used for urban overhead, the round pipe part of the guardrail needs to be polished and painted frequently, but the speed of vehicles coming and going on the overhead is high, so that the danger of workers is increased, and a machine capable of replacing manpower is urgently needed;

for example, the chinese patent CN 204711719U discloses a steel tube rapid grinding machine for machine manufacturing, in which magnetic wheels are adsorbed on a steel tube, the steel tube rapid grinding machine rotates along the steel tube, while the cylindrical grinding wheel roller rotates at high speed to finish the grinding operation of the steel tube, and the groove-shaped grinding wheel roller can finish the grinding operation of the steel tube weld joint, the steel tube rapid grinding machine has high semi-automation degree, reduces labor intensity, improves work efficiency, and reduces the damage of grinding to human body. Magnetism wheel fixed mounting is in the pivot to magnetism wheel adsorbs on the steel pipe, and driving gear fixed connection is on reduction gear I's axle. The driven gear is fixedly arranged on a shaft of the cylindrical grinding wheel roller, and the cylindrical grinding wheel roller is contacted with the steel pipe. The speed reducer II is installed on the shell of the grinding machine, and a shaft of the speed reducer II penetrates through the shell of the grinding machine and is fixedly connected with the chain wheel. The chain wheel is matched with the chain, and the groove-shaped grinding wheel roller can be exchanged with the cylindrical grinding wheel roller.

For another example, chinese patent CN 105313009 a discloses a device for polishing steel pipes, which mainly includes a bottom plate seat and an arc-shaped groove above the bottom plate seat, wherein the left and right ends above the bottom plate seat are both provided with an elevated table, the lower part of the elevated table is provided with an air cylinder, the air cylinder is connected with an arc-shaped press block, and a polishing block which is shaped to be matched with the air cylinder and is horizontally slidably installed above the bottom plate seat is arranged above the arc-shaped groove. The steel pipe polishing clamp is simple to use, can quickly and automatically fix and clamp a steel pipe, is convenient for an operator to effectively polish, and is relatively labor-saving to use.

The invention aims at improving the grinding equipment of the steel pipe, so that the working efficiency of workers is improved to a great extent, but the workers cannot be separated from manual operation, and the working danger of the workers on the highway cannot be avoided.

Disclosure of Invention

First, technical problem to be solved

The invention aims to solve the problems in the prior art, and particularly provides a robot for polishing a circular tube guardrail, so as to solve the problem that a steel tube polisher in the prior art needs manual operation.

Second, technical scheme

In order to solve the above technical problems, the present invention provides a robot for polishing a circular tube guardrail, comprising: a driving mechanism for driving the robot to move,

a polishing mechanism for polishing the surface of the circular tube,

a fixing mechanism for fixing the robot to the circular tube;

the driving mechanism is used for bearing the polishing mechanism and the fixing mechanism;

the polishing mechanism is arranged on the fixing mechanism and can reciprocate on the fixing mechanism;

the fixing mechanism comprises a first fixing device and a second fixing device, and the first fixing device is connected with the second fixing device through a polish rod;

the first fixing device and the second fixing device respectively comprise a connecting seat, a clamping arm motor, a clamping arm connecting rod, a clamping arm connecting block and a clamping arm transmission rod;

the clamping arms are movably arranged at two ends of the connecting seat and do lever motion;

the clamping arm motor is arranged on the connecting seat, and a front output shaft of the clamping arm motor is fixedly connected with the clamping arm transmission rod;

the first end of the clamping arm connecting rod is movably connected with the clamping arm connecting block, and the second end of the clamping arm connecting rod is movably connected with the clamping arm;

the clamping arm connecting block is sleeved on the clamping arm transmission rod.

This technical scheme polishes the robot of pipe guardrail through full automatic control's design, makes the robot need not personnel and participates in at the in-process of polishing, alleviates artifical intensity of labour, has also improved personnel's operational safety to through fixed establishment's design, make fixing on the pipe that the robot can be stable at the in-process of polishing, the effectual robot that prevents because vibrations and skew position.

The clamping arm comprises a first clamping plate, a second clamping plate and a clamping block;

the clamping block is fixed between the first clamping plate and the second clamping plate.

The design of splint and clamp splice is passed through to the arm lock of this technical scheme, makes the structure of arm lock simpler to splint still are located the design of arm lock transfer line and connecting seat both sides, make the motion of arm lock more stable.

Wherein, the contact surface of the clamping block and the round pipe is also provided with an anti-skid damping layer.

According to the technical scheme, the clamping arms are designed by arranging the anti-skidding damping layers on the clamping blocks, so that the robot can obtain an effective damping effect in the polishing process after the clamping arms clamp the round pipe.

The driving mechanism comprises a connecting plate, a driving motor, a motor base and a rubber wheel;

the motor base fixes the driving motor, the rubber wheel is connected with a front output shaft of the driving motor, and the connecting plate is connected with the motor base.

The polishing mechanism comprises a polishing driving assembly, a longitudinal polishing assembly and a transverse polishing assembly;

the longitudinal polishing assembly and the transverse polishing assembly are arranged on the polishing driving assembly in a crossed manner, and the polishing driving assembly can drive the longitudinal polishing assembly and the transverse polishing assembly to do reciprocating linear motion along the axial direction of the round pipe, so that the longitudinal polishing assembly and the transverse polishing assembly polish the round pipe.

The grinding mechanism of the technical scheme has the advantages that through the design that the longitudinal grinding assemblies and the transverse grinding assemblies are arranged in a cross mode, the grinding mechanism can grind round pipes more comprehensively.

The polishing driving assembly comprises a polishing sliding block, a polishing sliding block driving rod, a polishing sliding block driving motor and a polishing sliding block driving motor bracket;

the polishing sliding block is sleeved on the polished rod and can slide on the polished rod;

the polishing slide block driving motor is arranged on the polishing slide block driving motor bracket, the polishing slide block driving rod is fixedly connected with the polishing slide block driving motor, and the polishing slide block driving motor can drive the polishing slide block driving rod to rotate;

the slider actuating lever of polishing runs through the slider of polishing, and the slider of polishing can make on the polished rod slip by rotatory slider actuating lever of polishing.

The longitudinal grinding assembly comprises a first longitudinal grinding wheel, a second longitudinal grinding wheel, a longitudinal grinding wheel driving motor and a longitudinal fixing device;

the first longitudinal grinding wheel and the second longitudinal grinding wheel are vertically overlapped and installed on the longitudinal fixing device, and the first longitudinal grinding wheel and the second longitudinal grinding wheel are respectively positioned on the upper side and the lower side of the circular tube;

the first longitudinal grinding wheel and the second longitudinal grinding wheel are in transmission connection through a synchronous belt;

the longitudinal grinding wheel driving motor is connected with the first longitudinal grinding wheel through a synchronous belt in a transmission mode.

Wherein, transversely polish the subassembly and include: the device comprises a first transverse grinding wheel, a second transverse grinding wheel, a transverse grinding wheel driving motor and a transverse fixing device;

the first transverse grinding wheel and the second transverse grinding wheel are arranged on the transverse fixing device and are respectively positioned on the left side and the right side of the circular tube;

the transverse driving motor is arranged at the bottom of the transverse fixing device and is in transmission connection with the first transverse grinding wheel;

the first transverse grinding wheel and the second transverse grinding wheel are in transmission connection through synchronous belt wheels.

Concave arcs are arranged on the outer circular surfaces of the first longitudinal grinding wheel, the second longitudinal grinding wheel, the first transverse grinding wheel and the second transverse grinding wheel;

the radius of the concave arc is equal to that of the round pipe, and the length of the arc length of the concave arc is one fourth of the circumference of the round pipe.

The grinding wheel of the technical scheme has the advantages that the outer part of the grinding wheel, which can be better matched with the circular tube, is designed by the concave arc with the same radius as the circular tube

The edge and the surface are contacted, so that the polishing efficiency is improved.

Wherein, the anti-skidding shock-absorbing layer is made for flexible rubber, and the contact surface of anti-skidding shock-absorbing layer and pipe still is equipped with the feeler.

The anti-skidding shock attenuation of this technical scheme makes the arm lock further play skid-proof effect behind the tight pipe of clamp through the design of flexible rubber preparation.

Drawings

FIG. 1 is a schematic view of a robot for polishing a guardrail of a round tube according to the present invention;

FIG. 2 is an overall schematic view of a robot for grinding a round tube guardrail of the present invention;

FIG. 3 is a schematic view of a drive mechanism of a robot for grinding a round tube guardrail of the present invention;

FIG. 4 is a schematic view of a grinding mechanism of a robot for grinding a round tube guardrail of the present invention;

FIG. 5 is a schematic view of a securing mechanism of a robot for polishing a round tube fence according to the present invention;

FIG. 6 is a schematic view of a first or second fixture of a robot for polishing a tubular fence according to the present invention;

FIG. 7 is an exploded view of the clamp arm of a robot for polishing a round tube guardrail of the present invention;

FIG. 8 is a schematic view of a longitudinal grinding assembly of a robot for grinding a round tube guardrail of the present invention;

FIG. 9 is a schematic view of a transverse sanding assembly of a robot for sanding round tubular fenders in accordance with the present invention;

FIG. 10 is a schematic view of a grinding drive assembly of a robot for grinding a round tube guardrail of the present invention;

fig. 11 is a schematic diagram of a first longitudinal grinding wheel or a second longitudinal grinding wheel or a first transverse grinding wheel or a second transverse grinding wheel of the robot for grinding the circular tube guardrail of the invention;

FIG. 12 is a schematic view of an anti-skid shock-absorbing layer of a robot for polishing a circular tube guardrail according to the present invention;

FIG. 13 is a schematic cross-sectional view of a round tube being polished by a polishing mechanism of a robot for polishing a round tube fence according to the present invention;

in the figure: 1 is a driving mechanism; 2, a polishing mechanism; 3 is a fixing mechanism; 11 is a connecting plate; 12 is a driving motor; 13 is a motor base; 14 is a rubber wheel; 21 is a grinding driving component; 22 is a longitudinal sanding component; 23 is a transverse grinding component; 31 is a connecting seat; 32 is a clamping arm; a clamping arm motor 33; 34 is a clamping arm connecting rod; 35 is a clamping arm connecting block; 36 is a clamping arm transmission rod; 100 is a round tube; 101 is an antenna; 200 is a concave arc; 211 is a polishing slide block; 212 is a polishing slide block driving rod; 213 is a polishing slide block driving motor; 214 is a grinding slide block driving motor bracket; 221 is a first longitudinal grinding wheel; 222 is a second longitudinal sanding wheel; 223 is a longitudinal grinding wheel driving motor; 224 is a longitudinal fixation device; 231 is a first transverse sanding wheel; 232 is a second transverse grinding wheel; 233 is a transverse grinding wheel driving motor; 234 is a lateral fixation device; 301 is a first fixture; 302 is a second fixture; 303 is a polish rod; 321 is a first splint; 322 is a second splint; 323 is a clamping block; 324 is a slip resistant shock absorber.

Detailed Description

The following detailed description of embodiments of the present invention is provided in connection with the accompanying drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

Example one

The structure of a robot for grinding a round pipe guardrail of the present embodiment, as shown in fig. 1 to 13, includes:

the driving mechanism 1 is used for driving the robot to move, and the driving mechanism 1 drives the whole robot to move on the dam body along the axial direction of the circular tube 100;

the polishing mechanism 2 is used for polishing the surface of the circular tube 100, and the polishing mechanism 2 is responsible for polishing the outer surface of the circular tube 100 and polishing and derusting the outer surface of the circular tube.

And the fixing mechanism 3 is used for fixing the robot on the circular tube 100, and the whole robot is fixed with the circular tube 100 by the fixing mechanism 3, so that the robot is prevented from generating position deviation due to the vibration of the polishing mechanism 2.

The driving mechanism 1 is used for bearing the polishing mechanism 2 and the fixing mechanism 3;

the polishing mechanism 2 is arranged on the fixing mechanism 3, and the polishing mechanism 2 can reciprocate on the fixing mechanism 3;

the fixing mechanism 3 comprises a first fixing device 301 and a second fixing device 302, and the first fixing device 301 and the second fixing device 302 are connected through two polish rods 303;

the first fixing device 301 and the second fixing device 302 both comprise a connecting seat 31, two clamping arms 32, a clamping arm motor 33, a clamping arm connecting rod 34, a clamping arm connecting block 35 and a clamping arm transmission rod 36;

the clamping arms 32 are movably arranged at two ends of the connecting seat 31, and the clamping arms 32 do lever motion;

the clamping arm motor 33 is installed on the connecting seat 31, and a front output shaft of the clamping arm motor 33 is fixedly connected with the clamping arm transmission rod 36;

the first end of the clamping arm connecting rod 34 is movably connected with the clamping arm connecting block 35, and the second end of the clamping arm connecting rod 34 is movably connected with the clamping arm 32;

the clamping arm connecting block 35 is sleeved on the clamping arm transmission rod 36.

The clamping arm 32 comprises a first clamping plate 321, a second clamping plate 322 and a clamping block 323;

the clamping block 323 is fixed between the first clamping plate 321 and the second clamping plate 322.

Meanwhile, the first clamping plate 321 and the second clamping plate 322 are arranged on two sides of the connecting seat 31 and the clamping arm connecting rod 34, and the first clamping plate 321 and the second clamping plate are movably connected with the connecting seat 31 or the clamping arm connecting rod 34 through pin shafts;

when the clamping arm motor 33 drives the clamping arm transmission rod 36 to rotate, the clamping arm connecting block 35 can slide on the clamping arm transmission rod 36, when the clamping arm connecting block 35 slides upwards, the two clamping arms 32 are mutually opened, and when the clamping arm connecting block 35 slides downwards, the two clamping arms 32 clamp the circular pipe;

when polishing, the clamping arm motor 33 drives the clamping arm transmission rod 36 to rotate, the clamping arm connecting block 35 slides downwards, and the two clamping arms 32 clamp the circular tube;

after polishing is finished, the clamping arm motor 33 drives the clamping arm transmission rod 36 to rotate reversely, and when the clamping arm connecting block 35 slides upwards, the two clamping arms 32 are mutually opened;

the driving mechanism 1 drives the whole robot to move on the dam body along the axial direction of the circular tube 100, so that the robot enters the position of the next section of the circular tube 100 to be polished;

the driving mechanism 1 comprises a connecting plate 11, a driving motor 12, a motor base 13 and a rubber wheel 14;

the connecting plate 11 is connected with a motor base 13, the motor base 13 fixes a driving motor 12, the rubber wheel 14 is connected with a front output shaft of the driving motor 12, and the driving motor 12 drives the rubber wheel 14 to rotate.

The grinding mechanism 2 comprises a grinding driving component 21, a longitudinal grinding component 22 and a transverse grinding component 23;

the longitudinal grinding assembly 22 and the transverse grinding assembly 23 are arranged on the grinding driving assembly 21 in a crisscross manner, and the grinding driving assembly 21 can drive the longitudinal grinding assembly 22 and the transverse grinding assembly 23 to do reciprocating linear motion along the axial direction of the circular tube 100, so that the longitudinal grinding assembly 22 and the transverse grinding assembly 23 grind the circular tube 100.

The polishing driving assembly 21 comprises a polishing slider 211, a polishing slider driving rod 212, a polishing slider driving motor 213 and a polishing slider driving motor bracket 214;

the polishing sliding block 211 is sleeved on the polish rod 303, and the polishing sliding block 211 can slide on the polish rod 303;

the polishing slider driving motor 213 is mounted on the polishing slider driving motor bracket 214, the polishing slider driving rod 212 is fixedly connected with the polishing slider driving motor 213, and the polishing slider driving motor 213 can drive the polishing slider driving rod 212 to rotate;

the polishing slider driving lever 212 penetrates through the polishing slider 211, and rotating the polishing slider driving lever 212 enables the polishing slider 211 to slide on the polish rod 303.

The polishing slider driving motor 213 drives the polishing slider driving rod 212 to rotate, so that the polishing slider 211 slides on the polish rod 303, when the polishing slider 211 slides to one end on the polish rod 303, the polishing slider driving motor 213 drives the polishing slider driving rod 212 to rotate reversely, and the polishing slider 211 slides reversely on the polish rod 303, so that the longitudinal polishing assembly 22 and the transverse polishing assembly 23 are driven to repeatedly polish the circular tube 100 until the polishing requirement is met.

The longitudinal grinding assembly 22 comprises a first longitudinal grinding wheel 221, a second longitudinal grinding wheel 222, a longitudinal grinding wheel driving motor 223 and a longitudinal fixing device 224;

the first longitudinal grinding wheel 221 and the second longitudinal grinding wheel 222 are vertically stacked and mounted on the longitudinal fixing device 224, and the first longitudinal grinding wheel 221 and the second longitudinal grinding wheel 222 are respectively located at the upper side and the lower side of the circular tube 100;

the first longitudinal grinding wheel 221 and the second longitudinal grinding wheel 222 are in transmission connection through a synchronous belt;

the longitudinal grinding wheel driving motor 223 is connected with the first longitudinal grinding wheel 221 through a synchronous belt transmission.

After the longitudinal grinding wheel driving motor 223 drives the second longitudinal grinding wheel 222 to rotate, the second longitudinal grinding wheel 222 drives the first longitudinal grinding wheel 221 to rotate, so that the grinding work is realized.

The lateral sharpening assembly 23 comprises: a first lateral grinding wheel 231, a second lateral grinding wheel 232, a lateral grinding wheel drive motor 233, and a lateral fixing device 234;

the first transverse grinding wheel 231 and the second transverse grinding wheel 232 are mounted on the transverse fixing device 234, and the first transverse grinding wheel 231 and the second transverse grinding wheel 232 are respectively positioned at the left side and the right side of the circular tube 100;

the transverse driving motor 233 is arranged at the bottom of the transverse fixing device 234, and the transverse driving motor 233 is in transmission connection with the first transverse grinding wheel 231;

the first transverse sanding wheel 231 and the second transverse sanding wheel 232 are in transmission connection through synchronous pulleys.

After the transverse driving motor 233 drives the first transverse grinding wheel 231 to rotate, the first transverse grinding wheel 231 drives the second transverse grinding wheel 232 to rotate, so that grinding is realized.

Concave arcs 200 are arranged on the outer circular surfaces of the first longitudinal grinding wheel 221, the second longitudinal grinding wheel 222, the first transverse grinding wheel 231 and the second transverse grinding wheel 232;

the radius of the concave arc 200 is equal to that of the round pipe 100, and the arc length of the concave arc 200 is one fourth of the circumference of the round pipe 100;

the concave arcs 200 of the four grinding wheels just surround the circumference of the circular tube 100, and the four grinding wheels rotate simultaneously to realize full-coverage grinding of the circumferential outer surface of the circular tube 100.

Example two

When the four grinding wheels work simultaneously, a large amount of vibration is generated, if the vibration is too large, a large amount of noise is generated, and the service life of the robot is also shortened;

therefore, in order to reduce noise and shock, an anti-skid shock absorption layer 324 is also arranged on the contact surface of the clamping block 323 and the circular tube 100; the anti-skid damping layer 324 is made of flexible rubber, the contact surface of the anti-skid damping layer 324 and the circular tube 100 is further provided with the antenna 101, the anti-skid damping layer 324 has a good noise reduction and damping function after the clamping arm 32 clamps the circular tube 100, and the clamping force on the circular tube 100 is further improved by the clamping arm 32 due to the performance of the flexible rubber.

The above is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, it is possible to make several improvements and modifications without departing from the technical principle of the present invention, and these improvements and modifications should also be considered as the protection scope of the present invention.

Claims (2)

1. The utility model provides a robot of polishing pipe guardrail which characterized in that, the robot of polishing pipe guardrail includes:

a driving mechanism (1) for driving the robot to move,

a polishing mechanism (2) for polishing the surface of the circular tube (100),

a fixing mechanism (3) for fixing the robot to the circular tube (100);

the driving mechanism (1) is used for bearing the grinding mechanism (2) and the fixing mechanism (3);

the polishing mechanism (2) is arranged on the fixing mechanism (3), and the polishing mechanism (2) can reciprocate on the fixing mechanism (3);

the fixing mechanism (3) comprises a first fixing device (301) and a second fixing device (302), and the first fixing device (301) and the second fixing device (302) are connected through a polish rod (303);

the first fixing device (301) and the second fixing device (302) respectively comprise a connecting seat (31), a clamping arm (32), a clamping arm motor (33), a clamping arm connecting rod (34), a clamping arm connecting block (35) and a clamping arm transmission rod (36);

the clamping arms (32) are movably arranged at two ends of the connecting seat (31), and the clamping arms (32) do lever motion;

the clamping arm motor (33) is arranged on the connecting seat (31), and a front output shaft of the clamping arm motor (33) is fixedly connected with the clamping arm transmission rod (36);

the first end of the clamping arm connecting rod (34) is movably connected with the clamping arm connecting block (35), and the second end of the clamping arm connecting rod (34) is movably connected with the clamping arm (32);

the clamping arm connecting block (35) is sleeved on the clamping arm transmission rod (36) and slides up and down along with the rotation of the clamping arm transmission rod (36);

the clamping arm (32) comprises a first clamping plate (321), a second clamping plate (322) and a clamping block (323);

the clamping block (323) is fixed between the first clamping plate (321) and the second clamping plate (322);

the contact surface of the clamping block (323) and the circular tube (100) is also provided with an anti-skid damping layer (324);

the driving mechanism (1) comprises a connecting plate (11), a driving motor (12), a motor base (13) and a rubber wheel (14);

the motor base (13) is used for fixing the driving motor (12), the rubber wheel (14) is connected with a front output shaft of the driving motor (12), and the connecting plate (11) is connected with the motor base (13);

the grinding mechanism (2) comprises a grinding driving component (21), a longitudinal grinding component (22) and a transverse grinding component (23);

the vertical polishing assembly (22) and the horizontal polishing assembly (23) are arranged in a cross mode and are installed on the polishing driving assembly (21), the polishing driving assembly (21) can drive the vertical polishing assembly (22) and the horizontal polishing assembly (23) to do reciprocating linear motion along the axial direction of the circular tube (100), and the vertical polishing assembly (22) and the horizontal polishing assembly (23) polish the circular tube (100).

2. A robot for sanding round pipe guardrail as recited in claim 1, characterized in that the anti-skid shock-absorbing layer (324) is made of flexible rubber, and the contact surface of the anti-skid shock-absorbing layer (324) and the round pipe (100) is further provided with an antenna (101).

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