Crossing type dead-angle-free cleaning machine for road isolation fence
Technical Field
The invention relates to the field of road cleaning equipment, in particular to a road isolation fence crossing type dead-corner-free cleaning machine.
Background
The industrial construction causes the urban population and vehicles to increase year by year, the traffic of people and lane roads generates great contradiction, almost all places with crowded roads are provided with guardrail isolation, and the central guardrail of the urban road can guide the sight of drivers to prevent traffic accidents caused by vehicles going out of the road. The isolation guardrail is often dirty and; through exposure to the sun and rain, which not only affects the cleanness and beauty of road, but also is easy to wear. The cleaning of the urban highway central guardrail not only aims at clean urban appearance, but also can prolong the service life of the guardrail. In order to keep the center guardrail of the urban highway good in sight guiding function and clean and beautiful, the guardrail needs to be cleaned regularly.
At present, the guardrail is cleaned mainly by manpower, the labor intensity of manually cleaning the guardrail is high, the cleaning efficiency is low, and each person can only clean about 600 meters every day. Traffic flow is very big daytime, and the manual cleaning guardrail is unsafe and influences the traffic, generally washs when traffic flow is less night, and often takes place the accident that the car collided the sanitationman night when wasing.
Although some cleaning vehicles can clean the transverse barriers, the lower sides of the transverse barriers cannot be cleaned. There are dead angles for cleaning and no dead angle cleaning of the transverse barriers is possible. This is a disadvantage of the prior art.
Disclosure of Invention
The invention aims to provide a crossing type dead-angle-free road isolation fence cleaning machine, which is convenient for cleaning the road isolation fence.
The invention adopts the following technical scheme to realize the purpose of the invention:
the utility model provides a no dead angle cleaning machine of formula is strideed across to road isolated column, includes the U-shaped board of symmetry, its characterized in that: the symmetrical U-shaped plates are fixedly connected with T-shaped plates respectively, the symmetrical T-shaped plates are fixedly connected with one side of a vertical rod respectively, the symmetrical upper ends of the vertical rods are fixedly connected with screw rods respectively, two sections of reverse threads of the threaded cylinder are in threaded connection with the corresponding screw rods respectively, and the symmetrical U-shaped plates are fixedly connected with a cleaning mechanism respectively.
As a further limitation of the technical solution, the clamping mechanism includes symmetrical motors, the other sides of the symmetrical U-shaped plates are respectively and fixedly connected with the corresponding motors, the output shafts of the symmetrical motors are respectively and fixedly connected with the first rotating wheels, one ends of the two first belts are respectively and correspondingly surrounded by the first rotating wheels, the other ends of the two first belts are respectively and correspondingly surrounded by the second rotating wheels, the second rotating wheels are respectively and fixedly connected with the corresponding third rotating wheels, and the eccentric parts of the two rotating wheels are respectively and fixedly connected with the first round rods.
As a further limitation of the technical scheme, the middle parts of the symmetrical vertical rods are respectively and fixedly connected with the square blocks, the symmetrical square blocks are respectively provided with grooves, and the symmetrical belts respectively penetrate through the corresponding grooves.
As a further limitation of the technical solution, the symmetrical T-shaped plates are respectively hinged with a group of brush rods which are uniformly distributed, each brush rod is respectively and fixedly connected with a group of brushes which are uniformly distributed, one end of each brush rod is respectively and fixedly connected with the corresponding rotating wheel iii, and the adjacent rotating wheels iii are respectively surrounded by the corresponding ends of the corresponding belts ii.
As a further limitation of the technical solution, each round bar i is respectively disposed in a corresponding sliding slot, the symmetrical sliding slots are respectively and fixedly connected with a guide bar, and the symmetrical guide bars respectively penetrate through the corresponding blocks.
As a further limitation of the technical scheme, the vertical rods are symmetrically hinged with a group of water pipes respectively, each water pipe is fixedly connected with one end of a connecting rod respectively, the other end of each connecting rod is fixedly connected with a second round rod respectively, and each second round rod is arranged in the corresponding sliding groove respectively.
As a further limitation of the technical scheme, each water pipe is fixedly connected with a group of uniformly distributed first water distribution pipes respectively, each water pipe is fixedly connected with a group of uniformly distributed second water distribution pipes respectively, and an included angle between each adjacent first water distribution pipe and each adjacent second water distribution pipe is 90 degrees.
As the further injecture of this technical scheme, every two montants of U-shaped board are provided with two round holes two respectively, every the montant of U-shaped board matches the riser respectively, every be provided with a set of round hole one on the riser respectively, every group the round hole one matches two that correspond respectively round hole two, every two difference threaded connection bolts of round hole, every the bolt passes respectively corresponding round hole one, every the lower part of riser articulates the wheel respectively.
As a further limitation of the technical scheme, the other sides of the symmetrical U-shaped plates are respectively and fixedly connected with water tanks, the symmetrical water tanks are respectively and fixedly connected with water pumps, and the symmetrical water tanks are respectively and fixedly communicated with water inlet pipes.
As a further limitation of the technical scheme, the screw rods of the screw thread cylinders, which are correspondingly and symmetrically connected with the jackscrews, are respectively in threaded connection.
Compared with the prior art, the invention has the advantages and positive effects that:
1. the device is provided with a threaded cylinder, and the threaded cylinder is rotated to drive the related elements to move, so that the distance between the brushes on the two sides is adjusted to adapt to barriers with different models.
2. A group of first round holes are formed in the transverse plate of the device, and the height of the hairbrush is adjusted by selecting two of the first round holes, so that the hairbrush is suitable for barriers with different heights.
3. The first water distribution pipe and the second water distribution pipe of the device swing in a reciprocating mode and are symmetrically distributed, so that water sprayed out of the first water distribution pipe and the second water distribution pipe can be uniformly sprayed to the upper side, the lower side and the side faces of the partition fence.
4. The brush of the device keeps rotating all the time, and cleans the partition, thereby improving the cleaning efficiency.
5. The elements of the device are distributed symmetrically, and the stability of the system is high.
6. The core structure of the device ingeniously realizes the rotation of the brush and the reciprocating swing of the first water distribution pipe and the second water distribution pipe through the motor, and has stronger creativity.
7. The denser part of the guardrail is concentrated at the middle part, and most of water can be intensively sprayed at the middle part in the swinging process, so that the utilization rate of the water is improved.
Drawings
Fig. 1 is a schematic perspective view of the present invention.
Fig. 2 is a partial perspective view of the first embodiment of the present invention.
Fig. 3 is a partial perspective view of the second embodiment of the present invention.
Fig. 4 is a schematic view of a partial three-dimensional structure of the present invention.
Fig. 5 is a partial perspective view illustrating a fourth embodiment of the present invention.
Fig. 6 is a schematic partial perspective view of the present invention.
Fig. 7 is a schematic diagram of a partial three-dimensional structure according to the present invention.
Fig. 8 is a schematic partial perspective view illustrating a seventh embodiment of the present invention.
Fig. 9 is a schematic perspective view of the present invention.
In the figure: 1. the water pump comprises a threaded cylinder, 2, a vertical rod, 3, a jackscrew, 4, a water pump, 5, a water inlet pipe, 6, a water tank, 7, a U-shaped plate, 8, a bolt, 9, a vertical plate, 10, a first round hole, 11, a wheel, 12, a second round hole, 13, a screw, 14, a T-shaped plate, 15, a first belt, 16, a first rotary wheel, 17, a motor, 18, a second rotary wheel, 19, a first round rod, 20, a third rotary wheel, 21, a second belt, 22, a hairbrush rod, 23, a hairbrush, 24, a groove, 25, a square, 26, a guide rod, 27, a sliding groove, 28, a water pipe, 29, a connecting rod, 30, a second round rod, 31, a first water diversion pipe, 32 and a.
Detailed Description
An embodiment of the present invention will be described in detail below with reference to the accompanying drawings, but it should be understood that the scope of the present invention is not limited to the embodiment.
As shown in fig. 1 to 9, the cleaning device comprises symmetrical U-shaped plates 1, the symmetrical U-shaped plates 7 are respectively and fixedly connected with T-shaped plates 14, the symmetrical T-shaped plates 14 are respectively and fixedly connected with one side of a vertical rod 2, the upper ends of the symmetrical vertical rods 2 are respectively and fixedly connected with a screw 13, two sections of reverse threads of the threaded cylinder 1 are respectively and fixedly connected with the corresponding screw 13, and the symmetrical U-shaped plates 7 are respectively and fixedly connected with a cleaning mechanism.
The clamping mechanism comprises symmetrical motors 17, the other sides of the symmetrical U-shaped plates 7 are respectively and fixedly connected with the corresponding motors 17, the output shafts of the symmetrical motors 17 are respectively and fixedly connected with first rotating wheels 16, one ends of two first belts 15 are respectively and correspondingly wound around the first rotating wheels 16, the other ends of the two first belts 15 are respectively and correspondingly wound around second rotating wheels 18, the second rotating wheels 18 are respectively and fixedly connected with corresponding third rotating wheels 20, and the eccentric parts of the second rotating wheels 18 are respectively and fixedly connected with first round rods 19.
The middle parts of the vertical rods 2 are respectively and fixedly connected with square blocks 25 symmetrically, the square blocks 25 are respectively provided with grooves 24 symmetrically, and the belts 15 penetrate through the corresponding grooves 24 symmetrically.
The symmetrical T-shaped plates 14 are respectively hinged with a group of uniformly distributed brush rods 22, each brush rod 22 is respectively and fixedly connected with a group of uniformly distributed brushes 23, one end of each brush rod 22 is respectively and fixedly connected with the corresponding rotating wheel III 20, and the adjacent rotating wheels III 20 are respectively surrounded by the corresponding ends of the corresponding belts II 21.
Each round rod I19 is respectively arranged in a corresponding sliding groove 27, the symmetrical sliding grooves 27 are respectively fixedly connected with a guide rod 26, and the symmetrical guide rods 26 respectively penetrate through the corresponding blocks 25.
The symmetry montant 2 articulates a set of water pipe 28 respectively, every water pipe 28 is the one end of fixed connection connecting rod 29 respectively, every the other end of connecting rod 29 is two 30 of fixed connection round bar respectively, every two 30 of round bar set up respectively in the corresponding spout 27.
Every water pipe 28 is a set of evenly distributed distributive pipe 31 of fixed connection respectively, every water pipe 28 is a set of evenly distributed distributive pipe two 32 of fixed connection respectively, and adjacent distributive pipe 31 with distributive pipe two 32 contained angles are 90 degrees.
Every two montants of U-shaped plate 7 are provided with two round holes two 12 respectively, every the montant of U-shaped plate 7 matches riser 9 respectively, every be provided with a set of round hole 10 on the riser 9 respectively, every group round hole 10 matches two that correspond respectively round hole two 12, every round hole two 12 threaded connection bolt 8 respectively, every bolt 8 passes respectively and corresponds round hole 10, every the articulated wheel 11 respectively of lower part of riser 9.
The other sides of the symmetrical U-shaped plates 7 are respectively and fixedly connected with a water tank 6, the symmetrical water tanks 6 are respectively and fixedly connected with a water pump 4, and the symmetrical water tanks 6 are respectively and fixedly communicated with a water inlet pipe 5.
The screw rods 13 which are correspondingly and symmetrically arranged on the threaded cylinder 1 are respectively in threaded connection with the jackscrews 3.
The water pipes 28 on one side are respectively fixedly communicated with the corresponding water pumps 4 through hoses.
The screw 13 has a self-locking function.
The motor 17 is of the type PLF 120.
The working process of the invention is as follows: and selecting a proper round hole I10 according to the height of the guardrail, and screwing the bolt 8 into a corresponding round hole II 12 through the selected round hole I10. According to the width of the guardrail, the jackscrew 3 is unscrewed, the threaded barrel 1 is rotated, the threaded barrel 1 drives the screw 13 to move, the screw 13 drives the vertical rod 2 to move, the vertical rod 2 drives the T-shaped plate 14, the square block 25 and the water pipe 28 to move, the square block 25 drives the guide rod 26 to move, the guide rod 26 drives the chute 27 to move, the water pipe 28 drives the connecting rod 29, the first diversion pipe 31 and the second diversion pipe 32 to move, the connecting rod 29 drives the second round rod 30 to move, the T-shaped plate 14 drives the U-shaped plate 7 and the brush rod 22 to move, the brush rod 22 drives the brush 23 and the third runner 20 to move, the third runner 20 drives the second runner 18 to move, the U-shaped plate 7 drives the motor 17 to move, the motor 17 drives the first runner 16 to move, the first runner 16 and the second runner 18 drive the first belt 15 to move, the third runner 20 drives the second belt 21 to move, the second runner 18 drives the first round rod 19, the U-shaped plate 7 drives the bolt 8 to move, the bolt 8 drives the vertical plate 9 to move, the vertical plate 9 drives the wheels 10 to move until the distance between the two side brush rods is matched with the width of the rail, and the jackscrew 3 is screwed down.
The device is moved to enable the brushes 23 at the two sides to clamp the handrail in the middle, and the motor 17 and the water pump 4 are started. The water pump 4 enables water to enter the water pipe 28 from the water tank 6 through the hose, the water is sprayed out of the first water distribution pipe 31 and the second water distribution pipe 32 onto the handrail, the motor 17 drives the first rotating wheel 16 to rotate, the first rotating wheel 16 drives the first belt 15 to rotate, the first belt 15 drives the second rotating wheel 18 to rotate, the second rotating wheel 18 drives the third rotating wheel 20 matched with the second rotating wheel to rotate, the third rotating wheel 20 drives the other third rotating wheels 20 to rotate through the second belt 21, the third rotating wheel 20 drives the hairbrush rod 22 to rotate, the hairbrush rod 22 drives the hairbrush 23 to rotate, the second rotating wheel 18 drives the first round rod 19 to rotate and simultaneously move along the chute 27, the chute 27 drives the guide rod 26 to reciprocate along the square block 25, the chute 27 drives the second round rod 30 to reciprocate, the second round rod 30 drives the connecting rod 29 to reciprocate, the connecting rod 29 drives the water pipe 28 to reciprocate, the first water distribution pipe 31 and the second water distribution pipe 32 to reciprocate, the brush 23 rotates back and forth to clean the handrail, especially the underside of the handrail.
When the sliding chute 27 moves towards the motor 17, the water pipe 28 above the second rotating wheel 18 swings towards the second rotating wheel 18, the water pipe 28 below the second rotating wheel 18 swings towards the second rotating wheel 18, and when the sliding chute 27 moves towards the opposite direction of the motor 17, the water pipes 28 on the upper side and the lower side return, so that most of water can be intensively sprayed at the middle position in the swinging process, and the water utilization rate is improved.
Meanwhile, the device is pushed to move along the handrails, and all the handrails are cleaned.
The above disclosure is only for the specific embodiment of the present invention, but the present invention is not limited thereto, and any variations that can be made by those skilled in the art should fall within the scope of the present invention.