CN201176978Y - Deep sea water pressure energy storage type hydraulic power source - Google Patents
Deep sea water pressure energy storage type hydraulic power source Download PDFInfo
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- CN201176978Y CN201176978Y CN 200820052879 CN200820052879U CN201176978Y CN 201176978 Y CN201176978 Y CN 201176978Y CN 200820052879 CN200820052879 CN 200820052879 CN 200820052879 U CN200820052879 U CN 200820052879U CN 201176978 Y CN201176978 Y CN 201176978Y
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Abstract
A deep sea water pressure energy storage type hydraulic power source comprises a pressure-bearing oil cylinder (14) and a non-pressure-bearing oil bin, wherein a hydraulic pipeline (40) connected with an oil return port of a hydraulic system (9) of a driving object is arranged at the bottom of the pressure-bearing oil cylinder (14), and a hydraulic pipeline (6) connected with a pressure oil port of the hydraulic system (9) of the driving object is arranged at the bottom of the non-pressure-bearing oil bin; a hydraulic pipeline (40) at the end of the pressure bearing oil cylinder is bridged on a hydraulic pipeline (6) at the end of the non-pressure bearing oil chamber through a branch oil path (41) which is sequentially connected with an oil pump (10) and a one-way valve (7) in series; the pressure-bearing oil cylinder (14) contains low-pressure hydraulic oil (32), and the non-pressure-bearing oil bin contains hydraulic oil (31) which keeps the same pressure with the external water. The utility model discloses utilize the pressure energy storage of deep sea water, can make hydraulic system on the deep sea electromechanical device obtain great powerful hydraulic power in the short time, specially adapted is in the deep sea operation, only less power supply source but need the hydraulic system of the great hydraulic power of short-time output, intermittent type nature work. Simple structure and reliable operation.
Description
Technical field
The utility model relates to a kind of hydraulic power supply that is used for various underwater sampling equipment, underwater towed-body equipment, underwater operation station, Underwater Engineering equipment, especially relates to a kind of hydraulic power supply that is applied to the deep-sea electromechanical equipment.
Background technique
All adopt hydraulic transmission on the electromechanical equipment of many deep-seas; its hydraulic system drive motor needs to support lash ship to power by umbilical cables from the sea mostly; but generally speaking; lash ship is by umbilical cables limited in one's ability to underwater installation power supply; special when underwater installation working water level dark (thousands of meters); ability by the umbilical cables power supply is more weak, generally has only hundreds of watts, and maximum is no more than several kilowatts.If the hydraulic system of this deep-sea electromechanical equipment adopts common hydraulic power supply design proposal, then its maximum hydraulic pressure output power can not surpass the maximum output power that umbilical cables can provide yet.
So that existing abyssal floor sediments sampling equipment---the working condition of deep-sea TV grab bucket is an example, during work, by long armouring communication cable and the winch equipment of thousands of rice it is transferred to the seabed from marine research ship earlier, by its deep-sea camera that carries made a video recording in the seabed again, operator search out the bottom sediment target that needs extracting on the ship by the real-time seabed image of uploading, start its hydraulic system then, grasp bottom sediment by the open-close type grab bucket that the hydraulic jack on the electromechanical equipment drives.The general deep-sea needed hydraulic power of TV grab bucket proper functioning is 3 ~ 5 kilowatts, and in most cases, the armouring communication cable that marine research ship is equipped with generally can only be made communication usefulness, and its electric power that can transmit has only several hectowatts to 1 kilowatt.
As mentioned above, grab bucket at the moment, abyssopelagic organism or the deposit sampler that grasp bottom sample in the moment of obtaining sample at the deep-sea TV, its hydraulic actuator must effectively move fast, often require the bigger hydraulic power of output of having the ability at short notice, and this power might surpass the maximum electric power that umbilical cables can provide.Under present technical specifications, run into this situation and can only transfer to adopt the underwater battery power supply technique, as the grab bucket of deep-sea TV, can only adopt airborne underwater battery power supply, utilize the armouring communication cable to carry out video communication, and the underwater battery reliability that can use at the deep-sea at present is not high, and charging and maintenance etc. have inconvenience.If reduce the system performance index requirement, must make the deep-sea electromechanical equipment can't reach desirable working state.
The model utility content
For solving above-mentioned technological deficiency; the utility model provides a kind of deep-sea electromechanical equipment water pressure energy storage type hydraulic power source; can't obtain at abyssal environment under the situation of high-power power supply; utilize the pressure energy-storage of deep sea water, so that the hydraulic system on the electromechanical equipment of deep-sea can obtain than large-power hydraulic power the short time.
For achieving the above object, the technical solution adopted in the utility model is: it comprises pressure-bearing oil cylinder and non-pressure-bearing bunker, the hydraulic tubing that connects with the hydraulic system return opening of driven object is arranged at pressure-bearing oil cylinder bottom, and the hydraulic tubing that connects with the hydraulic system pressure hydraulic fluid port of driven object is arranged at non-pressure-bearing bunker bottom; Be connected across on the hydraulic tubing of non-pressure-bearing bunker end by branch's oil circuit that is serially connected with oil pump and one-way valve successively on the hydraulic tubing of pressure-bearing oil cylinder end; The pressure-bearing oil cylinder has the hydraulic oil of low pressure, in the non-pressure-bearing bunker hydraulic oil that is consistent with extraneous water pressure is arranged.
The working principle of the utility model device is:
When certain depth is descended in the deep-sea of the utility model and driving thereof electromechanical equipment arrival sea, because the propagation of pressure effect of outside seawater, the hydraulic oil of non-pressure-bearing bunker inside will have and water base pressure that equates of external sea; And the pressure-bearing oil cylinder is inner owing to be not communicated with outside seawater, hydraulic oil wherein will have the low pressure that equates with vacuum or gas pressure in its cavity, to there be pressure difference between the hydraulic oil of non-pressure-bearing bunker inside and the hydraulic oil of pressure-bearing oil cylinder inside, and the depth of water is dark more, this pressure difference is big more, after the depth of water reaches certain depth, this pressure difference can drive the hydraulic system proper functioning.If hydraulic tubing and hydraulic system are by high-power standard design, then when the hydraulic oil flow in the non-pressure-bearing bunker is in the pressure-bearing oil cylinder, hydraulic system can be exported big hydraulic power within a certain period of time, length during this period of time depends on the oil tankage of non-pressure-bearing bunker and pressure-bearing oil cylinder and the performance number of output, and exportable maximum hydraulic pressure power only depends on the design power standard of system and pipeline.
When the driven by motor oil pump is worked, if hydraulic system is not worked or the power consumpiton during its work during less than the output power of oil pump, hydraulic oil in the pressure-bearing oil cylinder will be sent in the non-pressure-bearing bunker by all or part of, enter the hydraulic oil of non-pressure-bearing bunker owing to have and water base high pressure that equates of external sea, thereby have hydraulic energy.Be equivalent to energy reserve from pressure-bearing oil cylinder (low pressure) to the process of non-pressure-bearing bunker (high pressure) pumps hydraulic oil, use when needing high-power output in short-term for hydraulic system.When hydraulic system only need be worked with less power, can directly drive hydraulic work system by motor and oil pump again.
When the utility model hydraulic power supply has solved under abyssal environment no high-power power supply; make the hydraulic system short time on the electromechanical equipment of deep-sea obtain to have improved utilization efficiency and this technical barrier of reliability of equipment to a great extent than large-power hydraulic power.System architecture is simple, and reliable operation realizes easily.Can be applicable to various underwater sampling equipment, underwater towed-body equipment, underwater operation station, Underwater Engineering equipment etc., be specially adapted at deep ocean work, have only the smaller power power supply but the deep-sea electromechanical equipment hydraulic system of the big hydraulic power of output in short-term, intermittent work.
Description of drawings
Fig. 1, the utility model embodiment 1 (adopting non-pressure-bearing oil cylinder) structural representation;
Fig. 2, the utility model embodiment 2 (adopting the soft rubber oil sac) structural representation;
Fig. 3, employing deep-sea of the present utility model TV grab bucket schematic representation.
Embodiment
The utility model is described in further detail to engage drawings and Examples below.
Embodiment 1:
With reference to Fig. 1, present embodiment comprises pressure-bearing oil cylinder 14 and non-pressure-bearing oil cylinder 1, pressure-bearing oil cylinder 14 has the hydraulic oil 32 of low pressure, piston 2 by band seal ring 16 in the non-pressure-bearing oil cylinder 1 is divided into hydraulic fluid chamber and seawater chamber, wherein the seawater chamber is provided with opening, outside seawater can be introduced in the seawater chamber, and seawater pressure be passed to hydraulic oil 31 in the hydraulic fluid chamber, make it and the ambient pressure basically identical by piston 2.If desired for the hydraulic oil in the hydraulic fluid chamber 31 provides certain precompression, then spring 13 can be set in the seawater chamber.
Pressure-bearing oil cylinder 14 inside are divided into hydraulic fluid chamber and cavity by the piston 12 of band seal ring 17, and low-pressure gas 15 or mounting spring 13 are arranged in its cavity.If can stablize vertical placement during this pressure-bearing oil cylinder work, then the piston 12 of its inner band seal ring 17 can not be provided with yet, be regardless of hydraulic fluid chamber and cavity this moment, but oil cylinder 14 bottoms and the access port of the hydraulic tubing 40 that is communicated with are lower than the height of interior hydraulic oil 32 pastas of oil cylinder all the time must guarantee work the time.
The bottom of non-pressure-bearing oil cylinder 1 connects with pressure hydraulic fluid port (P mouth) as the hydraulic system 9 of driven object by hydraulic tubing 6, the bottom of pressure-bearing oil cylinder 14 connects by hydraulic tubing 40 and hydraulic system 9 interior return openings (T mouth), hydraulic tubing 40 is again by branch's oil circuit 41 cross-over connection hydraulic tubings 6, this branch's oil circuit 41 is being connected in series oil pump 10 and one-way valve 7 successively, and oil pump 10 is driven by motor 11.
All can be provided with, also can select the less oil cylinder of one volume in above-mentioned two oil cylinders oil amount detector 4 is set, determining the oil reserve in the hydraulic fluid chamber, and then the start-stop time of definite motor 11, oil pump 10 combinations.
Above-mentioned motor 11 is the motor of the smaller power that can use, the high-pressure low-flow hydraulic-pressure pump of oil pump 10 for using under abyssal environment under abyssal environment.The hydraulic system 9 of deep-sea electromechanical equipment is the driven object of the utility model hydraulic power supply, and its all joints and interface need internal and external two way sealed.
Embodiment 2
With reference to Fig. 2, present embodiment is non-pressure-bearing oil cylinder 1 usefulness soft rubber oil sac 18 replacements with embodiment 1.
Non-pressure-bearing oil cylinder 1 or soft rubber oil sac 18 can use in a plurality of parallel connections, and the pressure-bearing oil cylinder also can a plurality of in parallel uses.All joints in the utility model device and interface need internal and external two way sealed, and Sealings such as two way sealed circle can be set in all joints.
On the hydraulic tubing 6 that the bottom of non-pressure-bearing oil cylinder 1 or soft rubber oil sac 18 connects a stop valve 5 can be installed; when the deep-sea of the utility model and driving thereof electromechanical equipment in the land test run or the time than the dark test run of shallow water; the pressure of hydraulic oil 31 is not enough in non-pressure-bearing oil cylinder or the soft rubber oil sac; at this moment can close stop valve 5; utilize dynamo oil pump package directly to drive the hydraulic jack work of working equipment; though the very little hydraulic jack movement speed of hydraulic driving power is slower, but still can execution.
A bypass one-way valve 8 in parallel with oil pump 10 also is set on branch's oil circuit 41; if low-pressure gas 15 is arranged in the cavity of pressure-bearing oil cylinder 14 or has laid spring 13; then when the deep-sea electromechanical equipment of the utility model and driving from the deep-sea from bottom to up the return course; because the pressure of hydraulic oil 31 is returned to atmospheric pressure gradually in non-pressure-bearing oil cylinder 1 or the soft rubber oil sac 18; and the pressure that pressure-bearing oil cylinder 14 cavity inner springs 13 or gas 15 provide is greater than a barometric pressure when above; hydraulic oil 32 in the pressure-bearing oil cylinder 14 can return non-pressure-bearing oil cylinder 1 or soft rubber oil sac 18 by one-way valve 8 automatically, and does not need starting electrical machinery oil pump 10 to pump.
Application example:
With reference to Fig. 3, deep-sea TV grab bucket can be obtained about one kilowatt of electric power from belted type cable at most, wherein a part needs to use for shooting and control system, the power that can distribute to the hydraulic system motor is less than 700 watts, therefore, for deep-sea TV grab bucket hydraulic system is equipped with 500 watts of motors, transfer to the process of seabed and searching extracting target in the grab bucket of deep-sea TV, starting electrical machinery 11, drive high-pressure low-flow oil pump 10 by motor 11 hydraulic oil in the pressure-bearing oil cylinder 14 32 is all pumped to soft rubber oil sac 18, when stop motor 11 according to oil level amount detector 4 signal deciding.Usually, when the depth of water 〉=200 meter, the hydraulic oil 31 in the soft rubber oil sac 18 has just possessed bigger pressure, thereby has stored certain hydraulic energy.When TV grab bucket in deep-sea finds the extracting target to grasp, push electromagnetic hydraulic pressure selector valve 20 to left side position by control signal, hydraulic oil 31 in the soft rubber oil sac 18 reduces to convenient pressure after solenoid directional control valve 20 flows into the rodless cavity of two hydraulic jacks 21 through reduction valve 19, promote skip body 22 and close up, grasp object; Hydraulic oil in the rod chamber of two hydraulic jacks 21 passes through solenoid directional control valve 20 to 14 oil returns of pressure-bearing oil cylinder.If find successfully not grasp object, then can operate hydraulicdirectional control valve 20 bucket body 22 is opened again, the process need repetition of grasping usually for several times could success.Open again at bucket body 22 and to seek in the process that grasps object, the hydraulic oil 32 that again can starting electrical machinery 11 will get back in the pressure-bearing oil cylinder 14 is pumped the rubber oil sac 18 that eases back again, and the storing solution pressure energy is so that carry out grasping movement next time.
The hydraulic system of the deep-sea TV grab bucket of the utility model and its driving keeps coordinate design, driving bucket bodies 22 at hydraulic jack 21 closes up and opens in the process, can allow hydraulic oil 31 stored hydraulic energies discharge in a short period of time in the soft rubber oil sac 18, thereby obtain very big hydraulic power output at short notice, finish extracting or open action; On the other hand, it is longer relatively with the process of stores hydraulic pressure energy to pump hydraulic oil 32 by starting electrical machinery 11, and required power is also very little, can solve by the power supply of armouring communication cable fully.
Claims (10)
1, a kind of deep sea water pressure energy storage type hydraulic power source, it is characterized in that: it comprises pressure-bearing oil cylinder (14) and non-pressure-bearing bunker, the hydraulic tubing (40) that connects with the return opening of the hydraulic system (9) of driven object is arranged at pressure-bearing oil cylinder (14) bottom, and the hydraulic tubing (6) that connects with the pressure hydraulic fluid port of the hydraulic system (9) of driven object is arranged bottom the non-pressure-bearing bunker; The hydraulic tubing (40) of pressure-bearing oil cylinder end is gone up and is connected across on the hydraulic tubing (6) of non-pressure-bearing bunker end by branch's oil circuit (41) that is serially connected with oil pump (10) and one-way valve (7) successively; Pressure-bearing oil cylinder (14) has the hydraulic oil (32) of low pressure, and the hydraulic oil (31) that is consistent with extraneous water pressure is arranged in the non-pressure-bearing bunker.
2, deep sea water pressure energy storage type hydraulic power source according to claim 1, it is characterized in that: described non-pressure-bearing bunker is a non-pressure-bearing oil cylinder (1), its inside is divided into hydraulic fluid chamber and the seawater chamber that is in communication with the outside by the piston (2) of band seal ring (16), described hydraulic fluid chamber connects with miscellaneous part by hydraulic tubing (6), and described seawater is provided with spring in the chamber.
3, deep sea water pressure energy storage type hydraulic power source according to claim 1 is characterized in that: described non-pressure-bearing bunker is the soft rubber oil sac (18) that has hydraulic oil.
4, according to claim 1 or 2 or 3 described deep sea water pressure energy storage type hydraulic power sources, it is characterized in that: the inner piston (12) by band seal ring (17) of described pressure-bearing oil cylinder (14) is divided into hydraulic fluid chamber and cavity, and wherein hydraulic fluid chamber connects with miscellaneous part by hydraulic tubing (40).
5, deep sea water pressure energy storage type hydraulic power source according to claim 4 is characterized in that: be vacuum or the gas that has lower pressure in the cavity of described pressure-bearing oil cylinder (14), or spring (13) is set.
6, deep sea water pressure energy storage type hydraulic power source according to claim 2 is characterized in that: in the less oil cylinder of capacity oil amount detector (4) is installed at least in described pressure-bearing oil cylinder (14) and non-pressure-bearing oil cylinder (1).
7, deep sea water pressure energy storage type hydraulic power source according to claim 1 is characterized in that: be communicated with on the hydraulic tubing (6) of described non-pressure-bearing bunker bottom stop valve (5) is installed.
8, according to claim 2 or 3 described deep sea water pressure energy storage type hydraulic power sources, it is characterized in that: be communicated with described non-pressure-bearing oil cylinder (1) or soft rubber oil sac (18) bottom hydraulic tubing (6) on stop valve (5) is installed.
9, according to claim 1 or 2 or 3 described deep sea water pressure energy storage type hydraulic power sources, it is characterized in that: on described branch oil circuit (41), have one-way valve (8) in parallel with oil pump (10).
10, according to claim 1 or 2 or 3 described deep sea water pressure energy storage type hydraulic power sources, it is characterized in that: its all joints and interface are equipped with internal and external two way sealed device.
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CN 200820052879 CN201176978Y (en) | 2008-04-16 | 2008-04-16 | Deep sea water pressure energy storage type hydraulic power source |
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CN 200820052879 CN201176978Y (en) | 2008-04-16 | 2008-04-16 | Deep sea water pressure energy storage type hydraulic power source |
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Cited By (11)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102062126A (en) * | 2010-12-14 | 2011-05-18 | 朱米君 | Pneumatic power device |
CN103343755A (en) * | 2013-07-30 | 2013-10-09 | 北京先驱高技术开发公司 | Multi-path loop output hydraulic system controlled by one-way switch of deep sea single hydraulic source |
CN103921918A (en) * | 2014-04-22 | 2014-07-16 | 中国船舶重工集团公司第七○二研究所 | Escape cabin ejecting and pushing device |
CN105723101A (en) * | 2013-10-07 | 2016-06-29 | 机械电子装置林茨中心有限公司 | Hydraulic drive and method for discreetly changing the positional output of said drive |
CN105980712A (en) * | 2014-02-04 | 2016-09-28 | 意大利德纳股份有限公司 | Accumulator racks |
CN108248762A (en) * | 2018-01-17 | 2018-07-06 | 天津大学 | Deep-sea self-sustaining section intelligence buoyage |
US10215276B2 (en) | 2014-02-04 | 2019-02-26 | Dana Italia Spa | Series parallel hydraulic hybrid architecture |
US10215199B2 (en) | 2014-02-04 | 2019-02-26 | Dana Italia Spa | Travel and work functions integrated into a hydraulic hybrid system |
US10214102B2 (en) | 2014-10-02 | 2019-02-26 | Dana Italia Spa | Dual drive hybrid driveline |
US10220697B2 (en) | 2014-02-04 | 2019-03-05 | Dana Italia Spa | Powerboost hub |
CN114060340A (en) * | 2021-11-22 | 2022-02-18 | 浙江东溟科技有限公司 | Deep sea powerless control system |
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2008
- 2008-04-16 CN CN 200820052879 patent/CN201176978Y/en not_active Expired - Fee Related
Cited By (16)
Publication number | Priority date | Publication date | Assignee | Title |
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CN102062126B (en) * | 2010-12-14 | 2013-02-13 | 朱米君 | Pneumatic power device |
CN102062126A (en) * | 2010-12-14 | 2011-05-18 | 朱米君 | Pneumatic power device |
CN103343755A (en) * | 2013-07-30 | 2013-10-09 | 北京先驱高技术开发公司 | Multi-path loop output hydraulic system controlled by one-way switch of deep sea single hydraulic source |
CN103343755B (en) * | 2013-07-30 | 2015-11-18 | 北京先驱高技术开发公司 | The single hydraulic power one-way switch in deep-sea controls multichannel circulation output hydraulic pressure system successively |
CN105723101B (en) * | 2013-10-07 | 2018-01-12 | 机械电子装置林茨中心有限公司 | The method of the position output of hydraulic unit driver and discontinuously change hydraulic unit driver |
CN105723101A (en) * | 2013-10-07 | 2016-06-29 | 机械电子装置林茨中心有限公司 | Hydraulic drive and method for discreetly changing the positional output of said drive |
US10220697B2 (en) | 2014-02-04 | 2019-03-05 | Dana Italia Spa | Powerboost hub |
CN105980712A (en) * | 2014-02-04 | 2016-09-28 | 意大利德纳股份有限公司 | Accumulator racks |
US10215276B2 (en) | 2014-02-04 | 2019-02-26 | Dana Italia Spa | Series parallel hydraulic hybrid architecture |
US10215199B2 (en) | 2014-02-04 | 2019-02-26 | Dana Italia Spa | Travel and work functions integrated into a hydraulic hybrid system |
US10247205B2 (en) | 2014-02-04 | 2019-04-02 | Dana Italia Spa | Accumulator racks |
CN103921918A (en) * | 2014-04-22 | 2014-07-16 | 中国船舶重工集团公司第七○二研究所 | Escape cabin ejecting and pushing device |
US10214102B2 (en) | 2014-10-02 | 2019-02-26 | Dana Italia Spa | Dual drive hybrid driveline |
CN108248762A (en) * | 2018-01-17 | 2018-07-06 | 天津大学 | Deep-sea self-sustaining section intelligence buoyage |
CN114060340A (en) * | 2021-11-22 | 2022-02-18 | 浙江东溟科技有限公司 | Deep sea powerless control system |
CN114060340B (en) * | 2021-11-22 | 2024-01-12 | 浙江东溟科技有限公司 | Deep sea unpowered control system |
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Granted publication date: 20090107 Termination date: 20110416 |