CN214143721U - High-efficient leveling device - Google Patents

Abstract

The utility model discloses a high-efficiency leveling device, which comprises a chute stone tube, a guide mechanism, a hull and a feeding device, wherein the top of the chute stone tube is provided with a material receiving port, and the bottom of the chute stone tube is provided with a material discharging port; the guide mechanism is used for driving the stone sliding pipe to move along the front-back direction and/or the left-right direction; the ship body is provided with a material storage device and a lifting device, the material storage device is used for storing stones, and the lifting device is used for driving the guide mechanism to move along the up-down direction; the feeding device comprises a rotary driving device and a swing arm, the rotary driving device is installed on the ship body and used for driving the swing arm to swing transversely above the guide mechanism, a discharging trolley is arranged on the swing arm and can move along the swing arm, and the discharging trolley is used for receiving stones of the material storage device and then is put into the material receiving port. This technical scheme's high-efficient leveling device realizes high-efficient, no dead angle feed through setting up the swing arm, satisfies the feed demand, improves work efficiency, and can simplify equipment structure, reduces use cost.

Description

High-efficient leveling device

Technical Field

The utility model is used for flattening ship technical field especially relates to a high-efficient leveling device.

Background

The long-distance sea-crossing channel is generally constructed by combining a bridge and a tunnel, and the method for constructing the submarine tunnel (namely, a immersed tube tunnel) is generally a immersed tube method, namely, a plurality of immersed tubes are laid on a seabed and then are communicated to form the submarine channel. The construction steps of the immersed tube tunnel comprise foundation trench excavation, foundation construction, immersed tube installation and the like. Wherein, the excavation of the foundation trench is to select a dredger, a hoisting device with a claw bucket and the like to open the foundation trench; the foundation construction is to lay coarse stones and then fine stones; the installation of the immersed tube comprises the hoisting of the immersed tube, and the backfilling of gravels and the like on the two sides of the immersed tube. The leveling ship riples and levels stones towards the bed under deep water conditions.

Traditional flattening ship gets into the regional back of flattening, transports near by fortune stone ship building stones to flattening ship, snatchs the building stones on the fortune stone ship by the loop wheel machine grab bucket on the flattening ship again, and the loop wheel machine grab bucket can be supplied to the hopper on the flattening ship in. The riprap leveling work of the foundation bed can be finished along with the movement of the hopper back and forth in the leveling area. It has the following disadvantages: firstly, at least one stone carrier needs to follow up to supply materials, so that the consumption cost is high; secondly, a crane grab bucket is adopted for transporting stone materials, and a certain dead angle exists during feeding, so that the leveling effect of the foundation bed and the installation precision of the immersed tube tunnel are influenced; thirdly, the whole equipment structure is complex, the movement is inconvenient, and the working efficiency is not high.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve one of the technical problem that exists among the prior art at least, provide a high-efficient leveling device, it can realize high-efficient, no dead angle feed, improves work efficiency, simplifies equipment structure, reduce cost.

The utility model provides a technical scheme that its technical problem adopted is:

an efficient leveling device comprises

The top of the stone slipping pipe is provided with a material receiving port, and the bottom of the stone slipping pipe is provided with a material discharging port;

the guide mechanism is used for driving the stone sliding pipe to move along the front-back direction and/or the left-right direction;

the ship body is provided with a material storage device and a lifting device, the material storage device is used for storing stone materials, and the lifting device is used for driving the guide mechanism to move along the up-down direction;

the feeding device comprises a rotary driving device and a swing arm, wherein the rotary driving device is installed on the ship body and used for driving the swing arm to swing transversely above the guide mechanism, the swing arm is provided with a discharging trolley, the discharging trolley can move along the swing arm and is used for receiving stones of the storage device and then putting the stones into the material receiving port.

In combination with the above implementation manner, in certain implementation manners of the present invention, the swing arm includes a conveying device, the conveying device is used for receiving the stone material of the storage device is conveyed to the discharging trolley.

In combination with the foregoing implementation manner, in certain implementation manners of the present invention, the conveying device includes a first belt conveying device.

In combination with the above implementation manner, the utility model discloses an among certain implementation, storage device is including transporting storehouse, second belt conveyor and a plurality of storage silo, the storage silo is used for storing building stones, the storage silo is equipped with first discharge gate, it is equipped with feed inlet and second discharge gate to transport the storehouse, second belt conveyor is located the below of first discharge gate, and extend to the feed inlet, first belt conveyor's one end is located the below of second discharge gate.

In combination with the above implementation manner, in certain implementation manners of the present invention, the storage device comprises a plurality of second belt conveyors, each of which are distributed side by side along the left and right directions, and a plurality of storage silos are arranged above the second belt conveyors along the front and back directions at intervals.

In combination with the above implementation manner, the utility model discloses an in certain implementation, guiding mechanism includes first guiding mechanism and second guiding mechanism, first guiding mechanism includes along relative first link and the second link that sets up of fore-and-aft direction, along the relative third guide rail and the fourth guide rail that sets up of left right direction, first link, third guide rail, second link and fourth guide rail connect gradually and form first guiding mechanism, second guiding mechanism along fore-and-aft direction slidable install in third guide rail and fourth guide rail, be equipped with the walking dolly on the second guiding mechanism, the swift current stone pipe with the walking dolly is connected.

In combination with the above implementation manner, the utility model discloses an in some implementation manners, first link, second link, third guide rail and fourth guide rail all are equipped with telescopic leg, first guiding mechanism in handing-over department of first link and third guide rail, handing-over department of first link and fourth guide rail, handing-over department of second link and third guide rail the handing-over department of second link and fourth guide rail all is equipped with the measuring frame.

In combination with the above implementation manner, the utility model discloses an in some implementation manners, elevating gear includes electric block, guiding mechanism through the hoist and mount crossbeam with electric block connects.

In combination with the above implementation, in certain implementations of the present invention, the rotation driving device includes a motor.

In combination with the above implementation manners, in certain implementation manners of the present invention, the ship body is provided with a GPS positioning device.

One of the above technical solutions has at least one of the following advantages or beneficial effects: when the efficient leveling device is used, the guide mechanism is lowered to an operation water area through the lifting device, and the stone sliding pipe is driven by the guide mechanism to move in the left-right direction and the front-back direction. The swing arm drives the discharging trolley to swing above the guide mechanism so as to change along with the movement of the position of the ore slide pipe, and the discharging trolley receives stones of the storage device and then puts the stones into a material receiving port of the ore slide pipe until the stone throwing and leveling work of the foundation bed in the water area is completed. And then, lifting the guide mechanism upwards by the lifting mechanism, moving the ship body until the ship body enters the next operation water area, and circularly working in the way. This technical scheme's high-efficient leveling device realizes high-efficient, no dead angle feed through setting up the swing arm, satisfies the feed demand, improves work efficiency, and can simplify equipment structure, reduces use cost.

Drawings

The present invention will be further explained with reference to the accompanying drawings:

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

FIG. 2 is a schematic view of the connection of the lifting device to the guide mechanism of the embodiment of FIG. 1;

FIG. 3 is a schematic top view of the embodiment of FIG. 1;

FIG. 4 is a schematic representation of the use of one embodiment shown in FIG. 1.

Detailed Description

This section will describe in detail the embodiments of the present invention, preferred embodiments of the present invention are shown in the attached drawings, which are used to supplement the description of the text part of the specification with figures, so that one can intuitively and vividly understand each technical feature and the whole technical solution of the present invention, but they cannot be understood as the limitation of the protection scope of the present invention.

In the present invention, if there is a description of directions (up, down, left, right, front and back), it is only for convenience of description of the technical solution of the present invention, and it is not intended to indicate or imply that the technical features indicated must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present invention.

In the utility model, the meaning of a plurality of is one or more, the meaning of a plurality of is more than two, and the meaning of more than two is understood as not including the number; the terms "above", "below", "within" and the like are understood to include the instant numbers. In the description of the present invention, if there is any description of "first" and "second" only for the purpose of distinguishing technical features, it is not to be understood as indicating or implying relative importance or implicitly indicating the number of indicated technical features or implicitly indicating the precedence of the indicated technical features.

In the present invention, unless otherwise explicitly defined, the terms "set", "install", "connect", and the like are to be understood in a broad sense, and for example, may be directly connected or may be indirectly connected through an intermediate medium; can be fixedly connected, can also be detachably connected and can also be integrally formed; may be mechanically coupled, may be electrically coupled or may be capable of communicating with each other; either as communication within the two elements or as an interactive relationship of the two elements. The technical skill in the art can reasonably determine the specific meaning of the above words in the present invention by combining the specific contents of the technical solution.

Referring to fig. 1 and 3, an embodiment of the present invention provides a high-efficiency leveling device, which includes a rock chute 1, a guiding mechanism, a hull 2, and a feeding device. The top of the stone chute 1 is provided with a receiving port 11, and the bottom of the stone chute 1 is provided with a discharge port 12. The guide mechanism is used for driving the stone sliding pipe 1 to move in the front-back direction and/or the left-right direction. The hull 2 is provided with a storage device for storing rock material and a lifting device 21 for driving the guide mechanism to move in the up-down direction. The feeding device comprises a rotary driving device 31 and a swing arm 32, the rotary driving device 31 is installed on the ship body 2 and used for driving the swing arm 32 to swing transversely above the guide mechanism, a discharging trolley 4 is arranged on the swing arm 32, the discharging trolley 4 can move along the swing arm 32 and is used for receiving stones of the storage device and then throwing the stones into the receiving port 11.

When the high-efficiency leveling device is used, the guide mechanism is lowered to an operation water area through the lifting device 21, the rock sliding pipe 1 is driven by the guide mechanism to move in the left-right direction and the front-back direction, and the foundation bed is polished and leveled, and the operation water area is shown in fig. 4. Referring to fig. 3, the swing arm 32 drives the discharging trolley 4 to swing above the guide mechanism so as to change along with the movement of the position of the rock chute 1, and the discharging trolley 4 receives the stones of the storage device and then puts the stones into the receiving port 11 of the rock chute 1 until the rock-throwing leveling work of the water area foundation bed is completed. Then, the guide mechanism is lifted upwards by the lifting mechanism, and the ship body 2 is moved until the next operation water area is entered, and the operation is circulated. This technical scheme's high-efficient leveling device realizes high-efficient, no dead angle feed through setting up swing arm 32, satisfies the feed demand, improves work efficiency, and can simplify equipment structure, reduces use cost.

The discharging trolley 4 can directly move to take materials; other moving trolleys can also be used for taking materials from the discharging trolley 4 to the space between the storing device and the material storage device in a reciprocating mode, and then the materials are put into the discharging trolley 4; the material taking function can be realized through the swing arm 32. Referring to fig. 1 and 3, in some embodiments, the swing arm 32 includes a conveying device, and the conveying device is used for receiving the stones of the storage device and conveying the stones to the discharging trolley 4, so that the conveying function of the conveying device is utilized to feed materials, and the feeding speed is increased. Wherein, the walking dolly can be from taking the walking function, also can slide under conveyor's guide effect.

The conveyor may employ a belt conveyor, a chain conveyor, a plate chain conveyor, or the like, and in some embodiments, the conveyor comprises a first belt conveyor.

Referring to fig. 1 and 3, in some embodiments, the storage device includes a transfer bin 51, a second belt conveyor 52, and a plurality of storage bins 53, the storage bins 53 are used for storing rock material, the storage bins 53 are provided with a first discharge port 531, and the transfer bin 51 is provided with a feed port 522 and a second discharge port 521. The second belt conveyor 52 is located below the first discharging port 531 and extends to the feeding port 522 to receive the stone material in the storage bin 53 and then convey the stone material to the transfer bin 51. By providing a plurality of storage bins 53, it is ensured that the supply of rock material is sufficient and the leveling work is smoothly performed. One end of the first belt conveyor is positioned below the second discharge port 521 to take the stone output from the transfer bin 51.

Referring to fig. 1 and 3, in some embodiments, the storage device includes a plurality of second belt conveyors 52 arranged side by side in the left-right direction, and a plurality of storage bins 53 arranged at intervals in the front-rear direction are disposed above each second belt conveyor 52. Through setting up a plurality of second belt conveyor 52 side by side, ensure that the building stones of storage silo 53 can supply to changeing the feed bin constantly to avoid the phenomenon of doing mistakes because of arbitrary second belt conveyor 52 goes wrong and leads to, improve work efficiency, guarantee the job schedule.

Referring to fig. 3, in some embodiments, the guide mechanism includes a first guide mechanism and a second guide mechanism, the first guide mechanism includes a first connecting frame 71 and a second connecting frame 72 that are disposed opposite to each other in the front-rear direction, and a third guide rail 73 and a fourth guide rail 74 that are disposed opposite to each other in the left-right direction, and the first connecting frame 71, the third guide rail 73, the second connecting frame 72, and the fourth guide rail 74 are sequentially connected to form the first guide mechanism. The second guide mechanism 8 is slidably mounted on the third guide rail 73 and the fourth guide rail 74 in the front-rear direction, and the second guide mechanism 8 of the traveling carriage 81 is provided on the second guide mechanism 8, so that the traveling carriage 81 can be driven to move in the front-rear direction. The ore slide pipe 1 is connected with the walking trolley 81, and the walking trolley 81 can drive the ore slide pipe 1 to move along the length direction of the second guide mechanism 8, namely along the left-right direction, so that the ore slide pipe 1 can move in the front-back direction and the left-right direction, and the requirement of laying stones is met. Referring to fig. 3, it can be understood that the number of the second guiding mechanisms 8 can be set according to actual requirements to meet the requirement of moving at a long distance. The number of the stone sliding pipes 1 and the number of the walking trolleys 81 correspond to the number of the second guide mechanisms 8.

In some embodiments, first link frame 71, second link frame 72, third rail 73, and fourth rail 74 are each provided with telescoping legs 91. First guiding mechanism all is equipped with measuring frame 92 in handing-over department of first link 71 and third guide rail 73, handing-over department of first link 71 and fourth guide rail 74, handing-over department of second link 72 and third guide rail 73, handing-over department of second link 72 and fourth guide rail 74, conveniently measures the water level height in each position to finely tune guiding mechanism's height through scalable landing leg 91, improve guiding mechanism's stationarity, and then improve the flattening effect.

Referring to fig. 2, in some embodiments, the lifting device 21 includes an electric hoist, and the guide mechanism is connected to the electric hoist through a hoisting cross beam 93. Specifically, after the guide mechanism is connected with the hoisting beam 93 through the steel wire rope, the steel wire rope of the lifting device 21 is connected with the hoisting beam 93 to lift the guide mechanism, so that the stability is improved.

The rotation driving device 31 may be driven by hydraulic pressure, pneumatic pressure, electric device, or the like. In some embodiments, the rotary drive 31 comprises a motor.

In some embodiments, the hull 2 is provided with a GPS positioning device to facilitate positioning of the work area.

In the description herein, references to the description of the term "example," "an embodiment," or "some embodiments," etc., mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The invention is not limited to the above embodiments, and those skilled in the art can make equivalent modifications or substitutions without departing from the spirit of the invention, and such equivalent modifications or substitutions are included in the scope defined by the claims of the present application.

Claims (10)

1. An efficient screeding device, comprising:

the top of the stone slipping pipe is provided with a material receiving port, and the bottom of the stone slipping pipe is provided with a material discharging port;

the guide mechanism is used for driving the stone sliding pipe to move along the front-back direction and/or the left-right direction;

the ship body is provided with a material storage device and a lifting device, the material storage device is used for storing stone materials, and the lifting device is used for driving the guide mechanism to move along the up-down direction;

the feeding device comprises a rotary driving device and a swing arm, wherein the rotary driving device is installed on the ship body and used for driving the swing arm to swing transversely above the guide mechanism, the swing arm is provided with a discharging trolley, the discharging trolley can move along the swing arm and is used for receiving stones of the storage device and then putting the stones into the material receiving port.

2. The efficient screeding device of claim 1, wherein: the swing arm comprises a conveying device, and the conveying device is used for receiving stones of the material storage device and then conveying the stones to the discharging trolley.

3. The efficient screeding device of claim 2, wherein: the conveyor includes a first belt conveyor.

4. A high efficiency screed according to claim 3 wherein: storage device is including transporting storehouse, second belt conveyor and a plurality of storage silo, the storage silo is used for storing the building stones, the storage silo is equipped with first discharge gate, it is equipped with feed inlet and second discharge gate to transport the storehouse, second belt conveyor is located the below of first discharge gate, and extend to the feed inlet, first belt conveyor's one end is located the below of second discharge gate.

5. The efficient screeding device of claim 4, wherein: the storage device comprises a plurality of second belt conveying devices distributed side by side along the left-right direction, and a plurality of storage bins distributed at intervals along the front-back direction are arranged above the second belt conveying devices.

6. The efficient screeding device of claim 1, wherein: guiding mechanism includes first guiding mechanism and second guiding mechanism, first guiding mechanism includes along relative first link and the second link that sets up of fore-and-aft direction, along relative third guide rail and the fourth guide rail that sets up of left right direction, first link, third guide rail, second link and fourth guide rail connect gradually and form first guiding mechanism, second guiding mechanism along fore-and-aft direction slidable install in third guide rail and fourth guide rail, be equipped with the walking dolly on the second guiding mechanism, the swift current stone pipe with the walking dolly is connected.

7. The efficient screeding device of claim 6, wherein: first link, second link, third guide rail and fourth guide rail all are equipped with scalable landing leg, first guiding mechanism in the handing-over department of first link and third guide rail, the handing-over department of first link and fourth guide rail, the handing-over department of second link and third guide rail the handing-over department of second link and fourth guide rail all is equipped with the measuring frame.

8. The efficient screeding device of claim 1, wherein: the lifting device comprises an electric hoist, and the guide mechanism is connected with the electric hoist through a hoisting cross beam.

9. The efficient screeding device of claim 1, wherein: the rotary drive device includes a motor.

10. The efficient screeding device of claim 1, wherein: and a GPS positioning device is arranged on the ship body.

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