CN213064106U - Power station and desilting system - Google Patents

Abstract

The utility model relates to an engineering machine tool technical field discloses a power station and desilting system. The power station includes: a traveling mechanism; and the power system is arranged on the travelling mechanism and can provide power for the dredging robot and the travelling mechanism. The utility model discloses a power station not only can provide the power supply for box culvert desilting robot, still possesses from the walking function, and then need not use the freight train to change the pipe and transition in the desilting work progress, compares with current power station, has reduced one set of driving system, effectively reduces the total cost of power station.

Description

Power station and desilting system

Technical Field

The utility model relates to an engineering machine tool technical field specifically, relates to a power station and desilting system.

Background

The existing mobile power station for box culvert dredging is carried by a truck, the power station 1 is arranged at the front part of the truck 20, the whole power station 1 is integrated in a cabin body, and an operation room 21 is arranged at the tail part of the truck 20, as shown in figure 1. The hydraulic power pipes and control cables of the dredging robot power line 6 are connected with the power station 1 and the operation room 21, respectively, to provide power and control signals to the dredging robot.

Because the existing power station 1 is arranged on a truck 20, two sets of power systems are equivalently required to be arranged, one set is a power system of the truck, and the other set is a power system for driving the dredging robot, so that the equipment cost is high. Meanwhile, the existing power station is simple in configuration, can only provide a power source for the dredging robot, and is single in function.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a can provide the power supply for box culvert desilting robot, possess power station and desilting system from the walking function simultaneously.

In order to achieve the above object, the present invention provides a power station, including:

a traveling mechanism;

and the power system is arranged on the travelling mechanism and can provide power for the dredging robot and the travelling mechanism.

Optionally, the power station further comprises a hoisting mechanism, the hoisting mechanism is arranged on the traveling mechanism, and the power system is further arranged to be capable of providing power for the hoisting mechanism.

Optionally, the power station further comprises a high-pressure cleaning mechanism, the high-pressure cleaning mechanism is arranged on the traveling mechanism, and the power system is further arranged to be capable of providing power for the high-pressure cleaning mechanism.

Optionally, the power station further comprises a hoisting mechanism and a high-pressure cleaning mechanism, the hoisting mechanism and the high-pressure cleaning mechanism are both arranged on the traveling mechanism, and the power system is further arranged to be capable of providing power for the hoisting mechanism and the high-pressure cleaning mechanism.

Optionally, the power station further comprises an underframe, the underframe is arranged on the travelling mechanism, and the power system, the hoisting mechanism and the high-pressure cleaning mechanism are all arranged on the underframe;

the hoisting mechanism and the high-pressure cleaning mechanism are arranged at the same end part of the bottom frame.

Optionally, the power station further comprises a water tank, the water tank is arranged to provide a water source for the high-pressure cleaning mechanism, and the water tank is arranged on the bottom frame and far away from the winding mechanism.

Optionally, the power station further comprises a material hopper, and the material hopper is arranged on the high-pressure cleaning mechanism.

Optionally, driving system includes engine and hydraulic assembly, the engine with hydraulic assembly locates on the running gear, hydraulic assembly includes hydraulic tank, hydraulic oil pump, hydraulic pressure valves and a hydraulic motor, the hydraulic oil pump respectively with hydraulic tank with hydraulic pressure valves intercommunication, the engine sets up to be used for the drive the hydraulic oil pump rotates, so that the hydraulic oil pump is followed absorb hydraulic oil in the hydraulic oil tank, the hydraulic oil pump will hydraulic oil converts pressure oil into and will the pressure oil distributes to the hydraulic pressure valves, a hydraulic motor connect respectively in running gear with the hydraulic pressure valves, desilting robot's power line connect in the hydraulic pressure valves.

Optionally, the driving system comprises a battery pack, a first driving motor and a second driving motor, the battery pack is arranged to be used for supplying power to the first driving motor and the second driving motor, the first driving motor is arranged to be used for driving the traveling mechanism to move, and the second driving motor is arranged to be used for driving the dredging robot to operate.

The utility model discloses the second aspect provides a desilting system, including desilting robot and above-mentioned arbitrary scheme the power station, the desilting robot with connect through power pipeline between the power station.

Through the technical scheme, the utility model discloses a power station not only can provide the power supply for box culvert desilting robot, still possesses from the walking function, and then need not use the freight train to change the pipe and transition in the desilting work progress, compares with the mode that current power station arranged in on the freight train, has reduced one set of driving system in other words to the total cost of power station has effectively been reduced.

Other features and advantages of the present invention will be described in detail in the detailed description which follows.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of a prior art power station configuration;

FIG. 2 is a front view of a power station according to an embodiment of the present invention;

FIG. 3 is a rear view of the power station of FIG. 2;

fig. 4 is a top view of the power station of fig. 2.

Description of the reference numerals

1-power station, 2-running mechanism, 3-hydraulic oil tank, 4-hydraulic oil pump, 5-hydraulic valve group, 6-power pipeline, 7-hoisting mechanism, 8-radiator, 9-high-pressure cleaning mechanism, 10-water tank, 11-underframe, 12-electrical system, 13-engine, 14-fuel tank, 15-silencer, 16-hood, 17-air filter, 18-storage battery box, 19-material hopper, 20-truck, 21-operation room.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

With reference to fig. 2-4, according to an aspect of the present invention, there is provided a power station, comprising:

a traveling mechanism 2;

and the power system is arranged on the travelling mechanism 2 and can provide power for the dredging robot and the travelling mechanism 2.

Through the technical scheme, the utility model discloses a power station not only can provide the power supply for box culvert desilting robot, guarantees the normal operation of desilting robot, still possesses from the walking function, and then need not use the freight train to change the pipe and transition in the desilting work progress, arranges the structure on the freight train in with current power station and compares, has reduced one set of driving system in other words, need not to realize the removal of power station with the help of the freight train to the total cost of power station has effectively been reduced.

Of course, the power system can take any suitable form as long as the functional requirements described above are met. As an embodiment wherein, driving system includes engine 13 and hydraulic assembly, engine 13 with hydraulic assembly locates on the running gear 2, hydraulic assembly includes hydraulic tank 3, hydraulic oil pump 4, hydraulic valve group 5 and first hydraulic motor, hydraulic oil pump 4 respectively with hydraulic tank 3 with hydraulic valve group 5 intercommunication, engine 13 sets up to be used for the drive hydraulic oil pump 4 rotates, so that hydraulic oil pump 4 follows absorb hydraulic oil in the hydraulic oil tank 3, hydraulic oil pump 4 will hydraulic oil converts pressure oil into pressure oil and will pressure oil distributes to hydraulic valve group 5, first hydraulic motor connect respectively in running gear with hydraulic valve group 5, desilting robot's power line 6 connect in hydraulic valve group 5.

In the working process, the hydraulic oil pump 4 is started, hydraulic oil is sucked from the hydraulic oil tank 3 through the oil suction pipe and is converted into pressure oil, and then the pressure oil is conveyed to the hydraulic valve group 5 through the oil outlet pipe, and the hydraulic valve group 5 is connected with the first hydraulic motor for driving the traveling mechanism 2 to move, so that the traveling mechanism 2 can be driven to work, and the self-traveling function of the power station is realized. Further, power pipeline 6 here includes hydraulic power pipe, and one of them one end of hydraulic power pipe is connected in the desilting robot, and the other end is connected in hydraulic pressure valves 5 to utilize hydraulic pressure component drive to realize the normal operation of desilting robot, and then carry the desilting robot with oil through hydraulic pressure valves 5, provide power for the work of desilting robot. Therefore, the requirement that the power station automatically walks and the dredging robot works is met by a single set of power system, two sets of power systems are not required to be arranged, and the cost is saved. The power pipeline 6 further comprises an oil return pipe, two ends of the oil return pipe are respectively connected to the dredging robot and the hydraulic valve group 5, and the oil return pipe is used for recovering hydraulic oil returned from the dredging robot and finally returned and stored in the hydraulic oil tank 3 so as to realize the repeated cyclic use of the hydraulic oil.

Wherein, in order to make hydraulic valve group 5 can be delivered hydraulic oil for the first hydraulic motor that desilting robot and drive running gear 2 removed, hydraulic valve group 5 including be used for with first valves that first hydraulic motor is connected with be used for with the second valves that the power pipeline 6 of desilting robot links to each other. For the purpose of oil transportation, the first valve group and the second valve group include, but are not limited to, the following two arrangements: (1) the second valve bank is connected with the first valve bank, and the first valve bank is connected with the hydraulic oil tank 3; under the arrangement mode, the first valve bank is particularly connected with a hydraulic oil pump 4 of a hydraulic oil tank 3, so that pressure oil is further transmitted to the second valve bank and the first hydraulic motor, the pressure oil transmitted to the first hydraulic motor provides power for transmission of the travelling mechanism 2, and the pressure oil transmitted to the second valve bank is continuously transmitted to the dredging robot through the second valve bank; in this arrangement, in order to realize the recycling of hydraulic oil, the oil return pipe of the dredging robot is connected with the second valve group, and the first hydraulic motor is also connected with the first valve group through other oil return pipes respectively. Since the first valve block is connected to the hydraulic oil tank 3, the hydraulic oil can be recovered into the hydraulic oil tank 3, so that the hydraulic oil can be reused. (2) The second valve group and the first valve group are connected to the hydraulic oil tank 3 through a main valve group; under this arrangement, the main valve bank is concrete to link to each other with hydraulic oil pump 4 of hydraulic tank 3, and first valves and second valves are connected respectively in the main valve bank, and the pressure oil through 4 conversions of hydraulic oil pump is carried to first valves and second valves respectively through the main valve bank, and then provides power to running gear 2 and desilting robot respectively again. In this arrangement, in order to realize the recycling of the hydraulic oil, the oil return pipe of the dredging robot is connected with the second valve group, and the first hydraulic motor is also connected with the first valve group through other oil return pipes. Because first valves and second valves all are connected with hydraulic tank 3, can retrieve hydraulic oil into hydraulic tank 3 from this to realize the used repeatedly of hydraulic oil.

Furthermore, the power station comprises an electrical system 12 for controlling the hydraulic valve pack 5, in particular, the electrical system 12 is capable of controlling all actions of the power station, including the opening of the power system, so as to realize the walking of the power station and the starting of the hoisting mechanism 7 and the high-pressure cleaning mechanism 9 mentioned below. Meanwhile, the electrical system 12 can provide an electrical interface for the dredging robot to control the automatic operation of the dredging robot. The power supply unit is connected with the electrical system 12 and the engine 13 at the same time and is used for supplying power to the electrical system 12 and the power system, and specifically comprises a battery box 18.

It will be appreciated that the power station also includes a fuel tank 14, the fuel tank 14 being used to provide fuel to the engine 13 for normal operation of the engine 13.

The traveling mechanism 2 may have any suitable configuration as long as it can realize a traveling function. In the present embodiment, the traveling mechanism 2 includes a traveling crawler or a tire-type traveling mechanism.

In this embodiment, the power station further includes a hoisting mechanism 7, the hoisting mechanism 7 is disposed on the traveling mechanism 2, and the power system is further configured to be capable of providing power for the hoisting mechanism 7. It will be appreciated that, in order to power the winding mechanism 7, the power system comprises a second hydraulic motor driving the winding mechanism 7 in motion, which is connected to the first valve group. From this, carry pressure oil to the second hydraulic motor through first valves, and then drive lowering or lifting of hoist mechanism 7. In the process of transferring pipes by the dredging robot, the hoisting mechanism 7 hoists the power pipeline 6 of the dredging robot, and the like, so that the dredging robot is assisted to complete the pipe transferring by the dredging robot, the problem of high labor intensity of the conventional manual pipe transferring by the dredging robot is solved, the labor cost and labor intensity in the dredging construction process are greatly reduced, and the efficiency of transferring pipes by the dredging robot is improved.

The power station further comprises a high-pressure cleaning mechanism 9, the high-pressure cleaning mechanism 9 is arranged on the traveling mechanism 2, and the power system is further arranged to be capable of providing power for the high-pressure cleaning mechanism 9. Specifically, after the operation of the dredging robot is completed, the dredging robot is moved to the position above the box culvert and then cleaned by the high-pressure cleaning mechanism 9. It should be noted that the power station of the present invention may include one of the high pressure cleaning mechanism 9 and the hoisting mechanism 7, or both of them.

Further, the power station comprises an underframe 11, the underframe 11 is arranged on the travelling mechanism 2, and the power system, the hoisting mechanism 7 and the high-pressure cleaning mechanism 9 are all arranged on the underframe 11; the hoisting mechanism 7 and the high-pressure cleaning mechanism 9 are arranged at the same end part of the bottom frame 11, and the engine 13 of the power system is arranged at the other end part of the bottom frame 11 far away from the hoisting mechanism 7 so as to maintain the balance in the operation process of the power station.

In addition, the power station still includes water tank 10, water tank 10 sets up to be able to for high pressure cleaning mechanism 9 provides the water source to utilize high pressure cleaning mechanism 9 to solve the washing problem after the desilting robot operation is accomplished.

The power station further comprises a material hopper 19, the material hopper 19 is arranged on the high-pressure cleaning mechanism 9, and the material hopper 19 is used for containing corresponding random spare parts and auxiliary tools required by the work of the power station. Of course, the utility model discloses a still can be provided with silencer 15, empty filter 17, aircraft bonnet 16 and radiator 8 on the power station, wherein, aircraft bonnet 16 can provide the guard action to engine 13. Further, an air filter 17 is mounted on a bracket of the hood 16, the engine 13 is fixed to the under frame 11 by bolts, the radiator 8 is connected to the engine 13 and also fixed to the under frame 11, and a hydraulic oil pump 14 is connected to the engine 12 and disposed above the engine 12.

As shown in fig. 2, the end where the winding mechanism 7 and the high pressure washing mechanism 9 are located is defined as the rear end of the chassis 11, the end where the motor 13 is located is defined as the front end of the chassis 11, and the portion between the front end and the rear end is defined as the middle position of the chassis 11. As one of the installation and arrangement modes, the material hopper 19 is installed on the high-pressure cleaning mechanism 9, the electric system 12 is installed at the tail end of the bottom frame 11 and is arranged at an interval with the high-pressure cleaning mechanism 9, and the winding mechanism 7 is located between the high-pressure cleaning mechanism 9 and the electric system 12. Particularly, the hoisting mechanism 7 can be arranged at the middle position of the tail end, so that the whole chassis 11 can be ensured to be stressed in balance when the hoisting mechanism 7 is used for hoisting operation, and the working stability of the whole power station can be ensured. Specifically, the winding mechanism 7 may be fixed to the base frame 11 by a connecting seat or a saddle bolt.

The front end of the chassis 11 may be provided with an operation chamber, etc., the fuel tank 14 and the battery tank 18 are located at the middle position of the chassis 11, and the arrangement of the fuel tank 14 and the battery tank 18 is set according to the volume of the fuel tank 12 and the battery tank 18. Further, the water tank 10 is placed on the fuel tank 14, and the hydraulic oil tank 3 is placed on the battery box 18.

The fuel tank 14 and the like are arranged in the middle of the underframe 11, and the engine 13 is arranged at the front end of the underframe 11, so that the power station can balance the overturning moment of the power pipeline 6 in the process of hoisting the power pipeline 6 by the hoisting mechanism 7, and the balance of the power station is ensured.

It is worth noting that as another embodiment of the utility model, driving system includes battery package, first driving motor and second driving motor, the battery package sets up to be used for first driving motor with the power supply of second driving motor, first driving motor sets up to be used for the drive running gear 2 removes, second driving motor sets up to be used for the drive desilting robot operation.

The utility model discloses the second aspect provides a desilting system, including desilting robot and above-mentioned arbitrary scheme the power station, the desilting robot with connect through power pipeline 6 between the power station. The utility model discloses power station among the desilting system not only can provide the power supply for box culvert desilting robot, guarantees the normal operation of desilting robot, still possesses from the walking function, and then need not to use the freight train to change the pipe and transition in the desilting work progress, has effectively reduced the cost of desilting system.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, however, the present invention is not limited to the details of the above embodiments, and the technical concept of the present invention can be within the scope of the present invention to perform various simple modifications to the technical solution of the present invention, and these simple modifications all belong to the protection scope of the present invention.

It should be noted that the various features described in the above embodiments may be combined in any suitable manner without departing from the scope of the invention. In order to avoid unnecessary repetition, the present invention does not separately describe various possible combinations.

In addition, various embodiments of the present invention can be combined arbitrarily, and the disclosed content should be regarded as the present invention as long as it does not violate the idea of the present invention.

Claims (10)

1. A power station, comprising:

a traveling mechanism; and

and the power system is arranged on the travelling mechanism and can provide power for the dredging robot and the travelling mechanism.

2. The power station of claim 1, further comprising a hoisting mechanism disposed on the traveling mechanism, wherein the power system is further configured to provide power to the hoisting mechanism.

3. The power station of claim 1, further comprising a high pressure washer mechanism disposed on the travel mechanism, the power system further configured to power the high pressure washer mechanism.

4. The power station of claim 1, further comprising a hoisting mechanism and a high pressure cleaning mechanism, wherein the hoisting mechanism and the high pressure cleaning mechanism are both disposed on the traveling mechanism, and the power system is further configured to provide power for the hoisting mechanism and the high pressure cleaning mechanism.

5. The power station of claim 4, further comprising a chassis, wherein the chassis is disposed on the traveling mechanism, and the power system, the hoisting mechanism, and the high pressure cleaning mechanism are disposed on the chassis;

the hoisting mechanism and the high-pressure cleaning mechanism are arranged at the same end part of the bottom frame.

6. The power station of claim 5, further comprising a water tank configured to provide a water source for the high pressure cleaning mechanism, the water tank being disposed on the chassis and remote from the winding mechanism.

7. The power station of any of claims 3-6, further comprising a material hopper disposed on the high pressure cleaning mechanism.

8. The power station of claim 1, wherein the power system comprises an engine and a hydraulic assembly, the engine and the hydraulic assembly are arranged on the traveling mechanism, the hydraulic assembly comprises a hydraulic oil tank, a hydraulic oil pump, a hydraulic valve bank and a first hydraulic motor, the hydraulic oil pump is respectively communicated with the hydraulic oil tank and the hydraulic valve bank, the engine is arranged to be used for driving the hydraulic oil pump to rotate, so that the hydraulic oil pump sucks hydraulic oil from the hydraulic oil tank, the hydraulic oil pump converts the hydraulic oil into pressure oil and distributes the pressure oil to the hydraulic valve bank, the first hydraulic motor is respectively connected to the traveling mechanism and the hydraulic valve bank, and a power pipeline of the desilting robot is connected to the hydraulic valve bank.

9. The power station of claim 1, wherein the power system comprises a battery pack, a first drive motor and a second drive motor, the battery pack is configured to supply power to the first drive motor and the second drive motor, the first drive motor is configured to drive the traveling mechanism to move, and the second drive motor is configured to drive the dredging robot to work.

10. A dredging system, comprising a dredging robot and a power station according to any one of claims 1-9, wherein the dredging robot and the power station are connected through a power pipeline.

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