CN203602084U - Deep-sea mining annular pipe segmented lifting and conveying device - Google Patents

Abstract

Provided is a deep-sea mining annular pipe segmented lifting and conveying device. A main supporting pipe is formed by more than one section of supporting pipes fixed through flanges, an electric hydraulic pump station, a buoyancy air bin, a relay pump and a hopper are mounted in the main supporting pipe, electric and control cables are mounted in cable troughs outside the supporting pipes, and the upper end and the lower end of the main supporting pipe are connected with a lifting device and traction steel wires of a mining vessel. Conveying pipes are annular pipelines, the front conveying pipe and the rear conveying pipe which are disconnected in a front and rear mode surround the supporting pipes, the rear conveying pipe and the front conveying pipe of the uppermost supporting pipe and the rear conveying pipe and the front conveying pipe of the lower most supporting pipe are connected with an ore sand output pump and a flexible conveying pipe, the upper end of the rear conveying pipe connected with the supporting pipes in sequence is connected with the upper end of the front conveying pipe of the front section, the lower end of the rear conveying pipe is matched with the hopper, and the inlet and the outlet of the relay pump are connected with the hopper and the rear conveying pipe. Mineral substance free-fall gravity effects cannot occur in segmented lifting and conveying, the lifting distance is further, the hydraulic pump station reduces weight of devices underwater and provides power for the relay pump and an all-direction propeller, the supporting pipes are prevented from distortion, the relay pump rotates reversely to dredge if blocking occurs, and the deep-sea mining annular pipe segmented lifting and conveying device is suitable for conveying of large granular mineral substances.

Description

The segmentation of deep-sea mining circulating line promotes feedway

Technical field

The utility model relates to the lifting feedway that a kind of deep-sea mining is used, particularly deep water mineral matter is transported to the deep-sea mining circulating line segmentation of using on water surface mining dredger and promotes a feedway, can be widely used in the exploitation transportation art of deep water manganese nodule, mud ore deposit and polymetallic ore.

Background technology

The mode that at present known employing pipeline is carried, that the mineral matter that deep water nodules collector device is collected passes through its transmission pump, delivery hose, ore storage bin, rigidity ore-raising pipe, be transported to the mining dredger of the water surface, rigidity ore-raising pipe is carried vertically upward, therefore cannot upwards grow apart from vertical transport, and mineral matter proportion is larger than water, each material proportion is also different under water, when mineral matter is carried vertically upward at pipeline hydraulic, the heavier matter underwater of proportion can be because of the effect of free-falling body, after reaching a certain height, the heavier material of its proportion cannot upwards be carried, cause mineral matter to sink to the bottom phenomenon in rigidity ore-raising pipe, thereby obstruction delivery duct, therefore its transport efficiency is low, poor practicability, deep-sea mining at present promotes conveying technology and is still an international technology difficult problem, become the technical bottleneck of deep water mining.

Summary of the invention

Technical problem to be solved in the utility model is: provide a kind of deep-sea mining circulating line segmentation to promote feedway, reach the object that deep-sea mineral matter is transported to water surface mining dredger, its device is easy to install, efficiently solve the technical bottleneck of deep-sea mining, and it is high, practical to promote transport efficiency.

The technical scheme in the invention for solving the above technical problem is: the segmentation of deep-sea mining circulating line promotes feedway, comprise mining dredger, total support tube, delivery pipe, nodules collector device, the entirety that described total support tube is fixed into through attaching parts by one section of above support tube, plural buoyancy air tank is installed in described support tube, with the buoyancy air tank that the first electric hydraulic station is installed, relay pump and hopper are also installed in described support tube, described support tube outside connects into entirety with cable duct, electric power is installed in cable duct, control cables, described total support tube upper end is fixed on the hoisting device of mining dredger, lower end is connected with the haulage cable on nodules collector device, described delivery pipe is that circulating line is by front, before rear disconnection, rear delivery pipe forms, along support tube outside by helix around being fixed on support tube and being applied to design height, the upper end of the front delivery pipe on the preceding paragraph support tube is connected with ore in sand form output pump on mining dredger, the lower end of the front delivery pipe on next section of support tube is connected with the soft delivery pipe on nodules collector device, the upper end of the rear delivery pipe on the each section of support tube connecting is successively connected with the lower end of the front delivery pipe on the last period support tube, the upper end of front delivery pipe coordinates with the hopper on each section of support tube, relay pump on described relay pump enters, outlet two ends coordinate with hopper respectively and rear delivery pipe lower end is connected.

Compared with prior art, the utility model has the advantage of: because the delivery pipe adopting is circulating line, and upwards promote twist structure for conveying, can there is not the gravitational effect of mineral matter at pipeline internal cause free-falling body, make mineral matter promote fed distance and reach farther, buoyancy air tank with electric hydraulic station and the buoyancy air tank with electric hydraulic station not are all installed in every section of support tube, not only reduce the weight of whole device, simultaneously electric hydraulic station provides power for relay pump and omnirange screw propeller, underwater electric machine turns round under dry environment, use safety and reliability.

Delivery pipe on each section of support tube all disconnects and is divided into two sections of front and back, if blockage phenomenon in the delivery pipe in that section of support tube outside, as long as by the relay pump reversion in that section, tamper is sprayed from the inflow point of relay pump downwards, and discharge from overflow weir, mud hole respectively, can get rid of rapidly the plugging fault in delivery pipe, greatly improve transport efficiency.

The electric hydraulic station of installing in aeroseal cabin on nodules collector device, not only reduces the weight of device, is also the suction ore deposit pump on nodules collector device and the eight pawl drive wheels use that is used as power.

For the injury in outer year that prevents that complicated seabed ocean current, air-flow from causing support tube, make support tube be distorted distortion situation, in support tube, be also provided with omnirange screw propeller, under super condition with deep feeling, screw propeller can 360 degree full circle swingings, introduces deep water by pod apertures, form and seabed ocean current opposite effect power is offset external force, thoroughly avoid the torsional deflection of support tube, made the support tube energy moment in normal operating condition.

Four-wheel eight pawl drive wheels are installed on nodules collector device, can drive as required nodules collector device to walk to different directions, not only the nodules collector device efficient operation that makes again reasonable in design.

Form the connection between the delivery pipe of each section of support tube flange of total support tube, all adopt flexible pipe joint to connect, can compensate flexiblely, it is firm to connect, and uses safer, reliable.The mineral matter of the suitable especially conveying bulky grain shape of this device.

Accompanying drawing explanation

Fig. 1, structural representation of the present utility model.

Fig. 2, every section of support tube, delivery pipe contour structures schematic diagram.

Fig. 3, every section of support tube, delivery pipe inner structure schematic diagram.

The specific embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is further described.

Total support tube 2 length are according to designing requirement, and site operation situation needs, at a distance of 100～1000 meters long be one section of support tube, total support tube is by two sections of above multistage support tubes 21, the entirety being fixedly connected into through attaching parts support tube flange 22, as shown in Figure 1 and Figure 2.

Buoyancy air tank 20,20 ' formed by the inwall of upper and lower semi-round cover plate 31 and baffle plate 32 and part support tube 21, only length is different, and buoyancy air tank 20 ' length is greater than buoyancy air tank 20, can reduce the weight of whole device, increase buoyancy, as shown in Figure 3.

Forming in every section of support tube 21 of total support tube, be provided with plural buoyancy air tank 20 ', and buoyancy air tank 20, the first electric hydraulic pumps that the first electric hydraulic pump 28 is installed provide power for relay pump 24 and omnirange screw propeller 33.

In support tube 21 above or below buoyancy air tank 20, omnirange screw propeller 33 and relay pump 24 are installed, on support tube 21 peripheral walls corresponding with omnirange screw propeller 33, have pod apertures 34, omnirange screw propeller 33 can rotate by 360 degree in support tube, be convenient to deep water into and out of not sprung up by seabed ocean current, thoroughly avoided the torsional deflection of external force to support tube.

The open circles cone of hopper 40 for communicating up and down, welds or is fixed on fastener on the inwall of support tube 21.

Delivery pipe is circulating line, hopper on every section of support tube and relay pump 24 places, delivery pipe is broken into the two parts that connect, and is broken into identical forward and backward two sections of shape, size, i.e. forward and backward delivery pipe 23,23 ' interval, parallel being fixed on each section of support tube 21.

The upper end of front delivery pipe 23 is stretched in hopper 40 upper inlets, on hopper 40, on the support tube tube wall of lower edge, there is overflow weir 38, mud hole 36, 40 times outlets of hopper are stretched in relay pump import 29, successively connect each section of support tube on rear delivery pipe 23 ' upper end be connected with the lower end of the front delivery pipe 23 on leading portion support tube, the upper end of front delivery pipe coordinates with the hopper 40 on each section of support tube, through relay pump outlet 30 with after delivery pipe 23 ' lower end be connected, if in the preceding paragraph support tube rear delivery pipe 23 ' its upper end is connected with the placer output pump 12 on mining dredger 11, as shown in Figure 1.

Cable duct 26 is fixed on each section of support tube 21 by horizontal cable bearer 27, cable duct one side opening, and electric power, control cables line 35 embed in cable duct successively, and connect binding post and tie up by designing requirement and fix, and can from cable duct, not deviate from.

The forward and backward delivery pipe 23,23 that is wound around on each section of support tube ' connection, or forward and backward delivery pipe connection separately, all adopts flexible pipe joint 25 to connect, can compensate flexible easy to connect, use safer, reliable, as shown in Figure 2.

The nodules collector device 41 of installing on skid plate 49 is slide-type nodules collector device voluntarily, soft delivery pipe 46 is installed on nodules collector device 41, inhales ore deposit pump 47, inhales pipe 48, and the second electric hydraulic station 44 is installed in the aeroseal cabin 43 on it.

When use, mining dredger 11 arrives behind predetermined design position, utilize GPS by forward and backward omnirange screw propeller 16 make mining dredger can 360 degree rotation, mining dredger 11 is carried out to accurately location is mobile, and the factor such as, ocean current distinguished and admirable according to ocean is adjusted on the spot.

While starting working, first start from bottom to top each pumps such as inhaling ore deposit pump 47, relay pump 24, ore in sand form output pump 12, thereby by the mineral matter on sea bottom surface 51 from inhale pipe 48 through inhale ore deposit pump 47, soft delivery pipe 46, forward and backward delivery pipe 23,23 ', flexible pipe joint 25, relay pump 24 and ore in sand form output pump 12, mineral matter is transported on mining dredger 11, reaches the object of deep water mining.

Eight pawl drive wheels 42 are housed on nodules collector device 41 as required, can drive it is advanced to different directions, improve transport efficiency.

If while there is precipitation obstruction in the inherent course of conveying of the delivery pipe in that section of support tube 21 outsides, at this moment the relay pump in that section of support tube 24 is reversed, tamper in delivery pipe is sprayed from the inflow point of relay pump downwards, and from the overflow weir 38 of upper and lower end, mud hole 36 toward the outer discharge of support tube 21 deep-sea, can get rid of rapidly the plugging fault in delivery pipe, then successively upwards normally transfer out, finally be connected with the ore in sand form output pump 12 on mining dredger 11, complete and promote conveying task, convenient to use.

Claims (9)

1. a deep-sea mining circulating line segmentation promotes feedway, comprise mining dredger (11), total support tube (2), delivery pipe, nodules collector device (41), it is characterized in that the entirety that described total support tube (2) is fixed into through attaching parts by one section of above support tube (21), plural buoyancy air tank (20 ') is installed in described support tube (21), with the buoyancy air tank (20) that the first electric hydraulic station (28) is installed, relay pump (24) and hopper (40) are also installed in described support tube (21), described support tube outside connects into entirety with cable duct (26), cable duct is provided with electric power in (26), control cables (35), described total support tube (2) upper end is fixed on the hoisting device (15) of mining dredger (11), lower end is connected with the haulage cable (45) on nodules collector device (41), described delivery pipe is that circulating line is by front, before rear disconnection, rear delivery pipe (23, 23 ') form, go up and be applied to design height by helix around being fixed on support tube (21) along support tube outside, front delivery pipe (23) upper end on the preceding paragraph support tube is connected with ore in sand form output pump (12) on mining dredger, the lower end of the front delivery pipe (23) on next section of support tube is connected with the soft delivery pipe (46) on nodules collector device (41), the upper end of the rear delivery pipe (23 ') on the each section of support tube (21) connecting is successively connected with the lower end of the front delivery pipe (23) on support tube the last period (21), the upper end of front delivery pipe coordinates with the hopper (40) on each section of support tube, relay pump on described relay pump enters, outlet (29, 30) two ends are connected with hopper (40) cooperation and rear delivery pipe (23 ') lower end respectively.

2. deep-sea mining circulating line segmentation according to claim 1 promotes feedway, it is characterized in that described buoyancy air tank (20), (20 ') are made up of the inwall of the semi-round cover plate of upper and lower end (31) and baffle plate (32) and part support tube (21), only length is different, plural buoyancy air tank (20 ') being installed in every section of support tube (21) inner chamber of 100～1000 meters, and the buoyancy air tank (20) of the first electric hydraulic station (28) is installed.

3. deep-sea mining circulating line segmentation according to claim 1 promotes feedway, it is characterized in that described cable duct (26) is fixed on each section of support tube (21) by horizontal cable bearer (27).

4. deep-sea mining circulating line segmentation according to claim 1 promotes feedway, it is characterized in that described delivery pipe is by shape, big or small identical on each support tube, the forward and backward delivery pipe (23,23 ') disconnecting forms, each section of delivery pipe passes through support tube flange (22) therebetween and locates, with flexible pipe joint (25) connection.

5. deep-sea mining circulating line segmentation according to claim 1 promotes feedway, it is characterized in that described support tube inner chamber buoyancy air tank (20) on or below omnirange screw propeller (33) and relay pump (24) are installed, on support tube (21) peripheral wall corresponding with omnirange screw propeller (33), also have pod apertures (34).

6. deep-sea mining circulating line segmentation according to claim 1 promotes feedway, it is characterized in that the forward and backward place of described mining dredger (11) is provided with omnirange screw propeller (16).

7. deep-sea mining circulating line segmentation according to claim 1 promotes feedway, it is characterized in that the entirety that described total support tube (2) is fixed into through attaching parts support tube flange (22) by each section of support tube (21).

8. deep-sea mining circulating line segmentation according to claim 1 promotes feedway, it is characterized in that the cone that described hopper (40) is the upper and lower opening that communicates, and welds or is fixed on fastener on the inwall of support tube (21).

9. deep-sea mining circulating line segmentation according to claim 4 promotes feedway, it is characterized in that described delivery pipe is circulating line, before, rear delivery pipe (23, 23 ') interval, parallel ring is around laying and be fixed on each section of support tube (21), hopper (40) and relay pump (24) on every section of support tube are located, delivery pipe is broken into the two parts that connect, the upper end of front delivery pipe (23) is stretched in hopper (40) upper inlet, on hopper (40), on the support tube tube wall of lower edge, there is overflow weir (38), mud hole (36), the lower outlet of hopper (40) is stretched in relay pump import (29), through relay pump outlet (30) with after the lower end of delivery pipe (23 ') be connected.

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