CN206734573U - Jack up ore dressing platform - Google Patents
Jack up ore dressing platform Download PDFInfo
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- CN206734573U CN206734573U CN201720515960.0U CN201720515960U CN206734573U CN 206734573 U CN206734573 U CN 206734573U CN 201720515960 U CN201720515960 U CN 201720515960U CN 206734573 U CN206734573 U CN 206734573U
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- ore
- cabin
- bow
- dressing
- spiral chute
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Abstract
Jack up ore dressing platform includes:Bow, midships section, stern, elevating mechanism and ore-dressing plant, bow, midships section and stern are sequentially connected from right to left, and elevating mechanism is connected with bow and stern respectively, and ore-dressing plant is above bow and midships section.Wherein, ore-dressing plant includes:Rotary screen, divide ore chimney, spiral chute and ore deposit pond;Elevating mechanism includes:Spud leg, one-level hydraulic bolt device, 2-level hydraulic bolt device, fluctuating orbit, pin hole, hoistable platform and shoe.The utility model devises a kind of liftable ore dressing stage apparatus, with selected on traditional ship after transport to the mode on bank again and compare, stabilised platform structure prevents the interference that wave floats;Inside sets ore-dressing plant certainly, more efficient quick;Coordinate lowering or hoisting gear simultaneously, coordinate ore dressing to realize high-efficient automatic ore dressing.
Description
Technical field
It the utility model is related to a kind of split platform device, and in particular to jack up ore dressing platform.
Background technology
Traditional ore dressing mode is after using Options of Ship Navigation to sea, carries out mining processes on sea, then transports again
Handled to bank.This mode can be influenceed by wave, and the efficiency and matter of mining can be largely effected in the case of floating
Amount;Need to return to bank after reaching a certain amount of simultaneously and handled, it is very long with the time of processing back and forth.
In order to solve the above problems, we are made that a series of improvement.
Utility model content
The purpose of this utility model is, there is provided jack up ore dressing platform, it is above-mentioned scarce present in prior art to overcome
Point and deficiency.
Jack up ore dressing platform, it is characterised in that including:Bow, midships section, stern, elevating mechanism and ore-dressing plant, it is described
Bow, midships section and stern are sequentially connected from right to left, and the elevating mechanism is connected with bow and stern respectively, the ore-dressing plant
Above bow and midships section;
Wherein, the ore-dressing plant includes:Rotary screen, divide ore chimney, spiral chute and ore deposit pond, the rotary screen, which is located at, divides ore deposit
Cylinder top, it is described to divide ore chimney above the spiral chute, the spiral chute above ore deposit pond, the ore deposit pond located at bow and
Above midships section;
The elevating mechanism includes:Spud leg, one-level hydraulic bolt device, 2-level hydraulic bolt device, fluctuating orbit, latch
Hole, hoistable platform and shoe, the spud leg surrounding are respectively equipped with fluctuating orbit, and the fluctuating orbit is provided with pin hole, described
One-level hydraulic bolt device, 2-level hydraulic bolt device are symmetrically set on fluctuating orbit, the one-level hydraulic bolt device, two level
Hydraulic bolt device bottom is fixed on above hoistable platform, and the spud leg is connected by hoistable platform with bow and stern, described
Shoe is connected with spud leg bottom.
Further, the ore deposit pond is sequentially provided with tailing pit, roughing chats pond, hair concentrate pool and selected chats from left to right
Pond.
Further, the spiral chute is sequentially provided with roughing spiral chute, selected spiral chute and scans spiral shell from left to right
Chute is revolved, the roughing spiral chute is by dividing ore chimney to be connected with rotary screen, and the selected spiral chute is by delivery pump and slightly
Ore deposit pond is chosen to connect, the spiral chute of scanning is connected by delivery pump with selected chats pond.
Further, the midships section includes:Cabin, seawater precipitation cabin, cabin, diesel oil tank, empty cabin and middle part ballast tank are buffered,
The buffering cabin is located at midships section inner upper, and the seawater precipitation cabin, cabin, diesel oil tank are sequentially arranged under buffering cabin from left to right
Side, located at diesel oil tank, both sides, the middle part ballast tank pass through conveying located at cabin lower section, the buffering cabin up and down in the empty cabin
Pump is connected with rotary screen.
Further, the bow includes:Rudder oar cabin, stem ballast tank, full-rotating rudder paddle and deadwood, the rudder oar cabin are set
In bow inner right side, the stem ballast tank is on the left of rudder oar cabin, and the full-rotating rudder paddle is inside rudder oar cabin, institute
Deadwood is stated below rudder oar cabin and stem ballast tank.
Further, the stern is sequentially provided with afterbody ballast tank, main deck, poop deck, accomodation deck from bottom to up
A, accomodation deck B, captain deck, manipulation deck and compass deck.
The beneficial effects of the utility model:
The utility model devises a kind of liftable ore dressing stage apparatus, and transports to bank again after being selected on traditional ship
Mode compare, stabilised platform structure prevent wave float interference;Inside sets ore-dressing plant certainly, more efficient quick;Together
Shi Peihe lowering or hoisting gears, ore dressing is coordinated to realize high-efficient automatic ore dressing.
Brief description of the drawings
Fig. 1 is structure chart of the present utility model.
Fig. 2 is the structure chart of elevating mechanism.
Reference:
Bow 100, rudder oar cabin 110, stem ballast tank 120, full-rotating rudder paddle 130 and deadwood 140.
Midships section 200, buffering cabin 210, seawater precipitation cabin 220, cabin 230, diesel oil tank 240, empty cabin 250 and middle part ballast water
Cabin 260.
Stern 300, afterbody ballast tank 310, main deck 320, poop deck 330, accomodation deck A340, accomodation deck
B350, captain deck 360, manipulate deck 370 and compass deck 380.
Elevating mechanism 400, spud leg 410, one-level hydraulic bolt device 420,2-level hydraulic bolt device 430, fluctuating orbit
440th, pin hole 450, hoistable platform 460 and shoe 470.
Ore-dressing plant 500, rotary screen 510, divide ore chimney 520, spiral chute 530, roughing spiral chute 531, selected spiral
Chute 532 and scan spiral chute 533.
Ore deposit pond 540, tailing pit 541, roughing chats pond 542, hair concentrate pool 543 and selected chats pond 544.
Embodiment
Below in conjunction with specific embodiment, make progressive explanation to the utility model.It should be understood that following examples are merely to illustrate
The utility model is not for restriction the scope of the utility model.
Embodiment 1
Fig. 1 is structure chart of the present utility model.Fig. 2 is the structure chart of elevating mechanism.
As shown in figure 1, jack up ore dressing platform includes:Bow 100, midships section 200, stern 300, elevating mechanism 400 and choosing
Ore deposit device 500, bow 100, midships section 200 and stern 300 are sequentially connected from right to left, elevating mechanism 400 respectively with bow 100 and
Stern 300 connects, and ore-dressing plant 500 is located at bow 100 and the top of midships section 200.
Wherein, ore-dressing plant 500 includes:Rotary screen 510, divide ore chimney 520, spiral chute 530 and ore deposit pond 540, rotary screen
510 located at the top of ore chimney 520 is divided, and dividing ore chimney 520, spiral chute 530 is located at the top of ore deposit pond 540 located at the top of spiral chute 530,
Ore deposit pond 540 is located at bow 100 and the top of midships section 200.
As shown in Fig. 2 elevating mechanism 400 includes:Spud leg 410, one-level hydraulic bolt device 420,2-level hydraulic latch dress
430, fluctuating orbit 440, pin hole 450, hoistable platform 460 and shoe 470 are put, the surrounding of spud leg 410 is respectively equipped with fluctuating orbit
440, fluctuating orbit 440 is provided with pin hole 450, and one-level hydraulic bolt device 420,2-level hydraulic bolt device 430 are symmetrically set
In on fluctuating orbit 440, one-level hydraulic bolt device 420, the bottom of 2-level hydraulic bolt device 430 are fixed on hoistable platform 460
Top, spud leg 410 are connected by hoistable platform 460 with bow 100 and stern 300, and shoe 470 is connected with the bottom of spud leg 410.
Ore deposit pond 540 is sequentially provided with tailing pit 541, roughing chats pond 542, hair concentrate pool 543 and selected chats from left to right
Pond 544.
Spiral chute 530 is sequentially provided with roughing spiral chute 531, selected spiral chute 532 and scans spiral from left to right
Chute 533, for roughing spiral chute 531 by dividing ore chimney 520 to be connected with rotary screen 510, selected spiral chute 532 passes through delivery pump
It is connected with roughing chats pond 542, scans spiral chute 533 and be connected by delivery pump with selected chats pond 544.
Midships section 200 includes:Buffer cabin 210, seawater precipitation cabin 220, cabin 230, diesel oil tank 240, empty cabin 250 and middle part pressure
Carry water tank 260, buffering cabin 210 be located at the inner upper of midships section 200, seawater precipitate cabin 220, cabin 230, diesel oil tank 240 from a left side to
The right side is sequentially arranged in the lower section of buffering cabin 210, and located at diesel oil tank, about 240 both sides in empty cabin 250, and middle part ballast tank 260 is located at cabin
230 lower sections, buffering cabin 210 are connected by delivery pump with rotary screen 510.
Bow 100 includes:Rudder oar cabin 110, stem ballast tank 120, full-rotating rudder paddle 130 and deadwood 140, rudder oar cabin
110 are located at the inner right side of bow 100, and stem ballast tank 120 is located at rudder oar located at the left side of rudder oar cabin 110, full-rotating rudder paddle 130
Inside cabin 110, deadwood 140 is located at rudder oar cabin 110 and the lower section of stem ballast tank 120.
Stern 300 is sequentially provided with afterbody ballast tank 310, main deck 320, poop deck 330, accomodation deck from bottom to up
A340, accomodation deck B350, captain deck 360, manipulation deck 370 and compass deck 380.
Traditional ore dressing mode is after using Options of Ship Navigation to sea, carries out mining processes on sea, then transports again
Handled to bank.This mode can be influenceed by wave, and the efficiency and matter of mining can be largely effected in the case of floating
Amount;Need to return to bank after reaching a certain amount of simultaneously and handled, it is very long with the time of processing back and forth.
The utility model is then by devising a kind of offshore platform so that ore dressing work stable on platform can be entered
OK, platform can move up and down, and to aid in ore-dressing practice, its idiographic flow is as follows:
A large amount of ore silts are involved in ore-dressing plant 500 together by cyclone group first, then carried out for the first time
Screening, more than diameter 2.5mm ore is transferred to tailing pit 541, ore of the remaining diameter less than 2.5mm will enter buffering
Storehouse 210, with delivery pump by the ore in surge bunker 210 by rotary screen 510, the ore that will be greater than 2mm is restored to mine tailing again
Pond 541, for the ore less than 2mm then by dividing ore chimney 520 to enter roughing spiral chute 531, roughing spiral chute 531 will after screening
Underproof ore is diverted to tailing pit 541, and other are then transferred to roughing chats pond 542.Then, roughing chats pond 542 leads to again
Cross selected spiral chute 532 further to be screened, being then defeated by tailing pit 541 according to standard scores supplementary biography is used as waste material;Meet
It is required that be then transferred to mao concentrate pool 543, complete screening;And can also further select, selected chats pond 544 can be come and entered
The processing of one step, is then screened by scanning spiral chute 533 again, underproof to be transferred to tailing pit 541, remaining transmission
Recirculated to roughing chats pond 542.
Specific embodiment of the present utility model is illustrated above, but the utility model is not limited thereto, only
Objective of the present utility model is not departed from, the utility model there can also be various change.
Claims (6)
1. jack up ore dressing platform, it is characterised in that including:Bow (100), midships section (200), stern (300), elevating mechanism
(400) and ore-dressing plant (500), the bow (100), midships section (200) and stern (300) are sequentially connected from right to left, described
Elevating mechanism (400) is connected with bow (100) and stern (300) respectively, the ore-dressing plant (500) located at bow (100) and
Above midships section (200);
Wherein, the ore-dressing plant (500) includes:Rotary screen (510), divide ore chimney (520), spiral chute (530) and ore deposit pond
(540), the rotary screen (510), which is located at, divides above ore chimney (520), described to divide ore chimney (520) on spiral chute (530)
Side, the spiral chute (530) is above ore deposit pond (540), and the ore deposit pond (540) is on bow (100) and midships section (200)
Side;
The elevating mechanism (400) includes:Spud leg (410), one-level hydraulic bolt device (420), 2-level hydraulic bolt device
(430), fluctuating orbit (440), pin hole (450), hoistable platform (460) and shoe (470), spud leg (410) surrounding point
Not She You fluctuating orbit (440), the fluctuating orbit (440) is provided with pin hole (450), the one-level hydraulic bolt device
(420), 2-level hydraulic bolt device (430) is symmetrically set on fluctuating orbit (440), the one-level hydraulic bolt device (420),
2-level hydraulic bolt device (430) bottom is fixed on above hoistable platform (460), and the spud leg (410) passes through hoistable platform
(460) it is connected with bow (100) and stern (300), the shoe (470) is connected with spud leg (410) bottom.
2. jack up ore dressing platform according to claim 1, it is characterised in that:The ore deposit pond (540) is from left to right successively
Provided with tailing pit (541), roughing chats pond (542), hair concentrate pool (543) and selected chats pond (544).
3. jack up ore dressing platform according to claim 1, it is characterised in that:The spiral chute (530) is from left to right
It is sequentially provided with roughing spiral chute (531), selected spiral chute (532) and scans spiral chute (533), the roughing spiral slips
For groove (531) by dividing ore chimney (520) to be connected with rotary screen (510), the selected spiral chute (532) passes through delivery pump and roughing
Chats pond (542) is connected, and the spiral chute (533) of scanning is connected by delivery pump with selected chats pond (544).
4. jack up ore dressing platform according to claim 1, it is characterised in that:The midships section (200) includes:Buffer cabin
(210), seawater precipitation cabin (220), cabin (230), diesel oil tank (240), empty cabin (250) and middle part ballast tank (260), it is described
Buffering cabin (210) be located at midships section (200) inner upper, the seawater precipitate cabin (220), cabin (230), diesel oil tank (240) from
Left-to-right is sequentially arranged in below buffering cabin (210), and the empty cabin (250) located at diesel oil tank (240), press up and down by both sides, the middle part
Water tank (260) is carried below cabin (230), buffering cabin (210) is connected by delivery pump with rotary screen (510).
5. jack up ore dressing platform according to claim 1, it is characterised in that:The bow (100) includes:Rudder oar cabin
(110), stem ballast tank (120), full-rotating rudder paddle (130) and deadwood (140), the rudder oar cabin (110) are located at bow
(100) inner right side, on the left of rudder oar cabin (110), the full-rotating rudder paddle (130) sets the stem ballast tank (120)
Internal in rudder oar cabin (110), the deadwood (140) is below rudder oar cabin (110) and stem ballast tank (120).
6. jack up ore dressing platform according to claim 1, it is characterised in that:The stern (300) is from bottom to up successively
Provided with afterbody ballast tank (310), main deck (320), poop deck (330), accomodation deck A (340), accomodation deck B
(350), captain deck (360), manipulation deck (370) and compass deck (380).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720515960.0U CN206734573U (en) | 2017-05-10 | 2017-05-10 | Jack up ore dressing platform |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201720515960.0U CN206734573U (en) | 2017-05-10 | 2017-05-10 | Jack up ore dressing platform |
Publications (1)
Publication Number | Publication Date |
---|---|
CN206734573U true CN206734573U (en) | 2017-12-12 |
Family
ID=60565130
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201720515960.0U Active CN206734573U (en) | 2017-05-10 | 2017-05-10 | Jack up ore dressing platform |
Country Status (1)
Country | Link |
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CN (1) | CN206734573U (en) |
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2017
- 2017-05-10 CN CN201720515960.0U patent/CN206734573U/en active Active
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