CN204982826U - Ocean greasy dirt dry ice cleaning device - Google Patents
Ocean greasy dirt dry ice cleaning device Download PDFInfo
- Publication number
- CN204982826U CN204982826U CN201520579533.XU CN201520579533U CN204982826U CN 204982826 U CN204982826 U CN 204982826U CN 201520579533 U CN201520579533 U CN 201520579533U CN 204982826 U CN204982826 U CN 204982826U
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- CN
- China
- Prior art keywords
- dry ice
- conveying device
- conveyer belt
- oil
- water surface
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A20/00—Water conservation; Efficient water supply; Efficient water use
- Y02A20/20—Controlling water pollution; Waste water treatment
- Y02A20/204—Keeping clear the surface of open water from oil spills
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- Cleaning In General (AREA)
Abstract
The utility model provides an ocean greasy dirt dry ice cleaning device, including conveyor, dry ice device, heating device and controller, conveyor is including the surface of water float conveyor and non - surface of water conveyor, and the dry ice device is equipped with dry ice including the dry ice ball in the die cavity of dry ice ball, and the controller passes through the control line and is connected with conveyor, dry ice device and heating device, during the use, utilizing the dry ice device to make the dry ice ball, utilizing conveyor to send the dry ice ball to surface of water oil slick position, utilize dry ice ball condensation absorption oil slick, heating device is sent to the dry ice ball that utilizes conveyor will adsorb the oil slick, utilizes heating device to eliminate the absorbent oil slick of dry ice ball and collect in the sump oil tank to reach mesh energy -concerving and environment -protective, that ocean or rivers oil slick are cleared up in the circulation.
Description
Technical field
The utility model relates to a kind of cleaning oil pollution device, and particularly a kind of sea pollution by oil dry ice cleaning plant falls.
Background technology
At present, the cleaning of sea pollution by oil includes and utilizes oil suction fibre material to absorb greasy dirt, utilize oil suction fibre material to absorb greasy dirt to be unfavorable for recycling, a kind of that can recycle, become cleaning ocean or rivers greasy dirt without a kind of sea pollution by oil dry ice cleaning plant of oil suction fibre material needs.
Summary of the invention
The utility model object overcomes the deficiencies in the prior art, provides a kind of sea pollution by oil dry ice cleaning plant, utilizes a kind of sea pollution by oil dry ice cleaning plant to recycle, cleaning ocean or rivers greasy dirt.
Technical solution adopted in the utility model is: a kind of sea pollution by oil dry ice cleaning plant, include conveying device, dry ice device, heater and controller, conveying device includes water surface floating conveying device and non-water surface conveying device, dry ice device includes dry ice pellets, be provided with dry ice in the die cavity of dry ice pellets, controller is connected with conveying device, dry ice device and heater by control line.Heater includes heating cabinet, heater element and oil sump tank, and the 3rd conveyer belt of heating conveyor is through heating cabinet.
A kind of using method of sea pollution by oil dry ice cleaning plant is: be installed on hull by a kind of sea pollution by oil dry ice cleaning plant, water surface floating conveying device is flexibly connected, the ocean or rivers that utilize hull water surface floating conveying device to be forgotten about it to be polluted by oil slick with hull, utilize controller to control conveying device to run, controller controls dry ice device and dry ice pellets is put into water surface floating conveying device, dry ice pellets follows water surface floating conveying device in water surface movable, dry ice pellets contacts with the oil slick of the water surface, dry ice pellets is by the surface of oil slick condensation adsorption in dry ice pellets, condensation adsorption oil slick dry ice pellets is delivered to non-water surface conveying device by water surface floating conveying device, the dry ice pellets of the non-water surface conveying device oil slick by condensation adsorption delivers to heater, the oil slick of condensation adsorption in dry ice pellets surface dissolves and collects by heater, to reach the problem of cleaning ocean or rivers oil slick.
The oil spill removal of hull Yu Haiyang or rivers is followed in order to implement a kind of sea pollution by oil dry ice cleaning plant, dry ice device, non-water surface conveying device and controller are installed on hull, dry ice device includes dry ice manufacturing installation and dry ice filling apparatus, and non-water surface conveying device includes and promotes conveying device and heating conveyor; Water surface floating conveying device is connected with lifting conveying device, and promote conveying device and be connected with heating conveyor, heater is installed on heating conveyor, and heating conveyor is connected with dry ice filling apparatus, and dry ice manufacturing installation is connected with dry ice filling apparatus.
When a kind of sea pollution by oil dry ice cleaning plant uses, dry ice pellets is after the dry ice filling apparatus of dry ice device loads dry ice, controller controls dry ice device and the dry ice pellets being provided with dry ice is delivered to water surface floating conveying device, dry ice pellets follows water surface floating conveying device in water surface movable, dry ice pellets contacts with the oil slick of the water surface, dry ice pellets is by the surface of oil slick condensation adsorption in dry ice pellets, the dry ice pellets of condensation adsorption oil slick is delivered to lifting conveying device by water surface floating conveying device, dry ice pellets is followed lifting conveying device and is left the water surface, promote conveying device dry ice pellets and deliver to heating conveyor, dry ice pellets is delivered to heater by heating conveyor, the oil slick of condensation adsorption in dry ice pellets surface dissolves and collects by heater, after the oil slick dissolving on dry ice pellets surface, dry ice pellets is delivered to dry ice filling apparatus and is reloaded dry ice by heating conveyor, the dry ice pellets reloading dry ice is delivered to water surface floating conveying device by dry ice device again, so constantly circulation, utilizes dry ice pellets condensation adsorption to clear up the oil slick of ocean or rivers.
The beneficial effects of the utility model are: a kind of sea pollution by oil dry ice cleaning plant, dry ice device is utilized to manufacture dry ice pellets, utilize conveying device that dry ice pellets is delivered to oil slick position, utilize dry ice pellets condensation adsorption oil slick, utilize conveying device that the dry ice pellets of adsorbing oil slick is delivered to heater, heater is utilized to be removed by the oil slick that dry ice pellets is adsorbed and be collected in oil sump tank, with the object reaching energy-conserving and environment-protective, ocean or rivers oil slick are cleared up in circulation.
Accompanying drawing explanation
Fig. 1 is a kind of sea pollution by oil dry ice cleaning plant structural representation;
Fig. 2 is dry ice pellets structural representation.
Detailed description of the invention
With specific embodiment, the utility model is further detailed with reference to the accompanying drawings below:
A kind of sea pollution by oil dry ice cleaning plant structural representation shown in Fig. 1 and the dry ice pellets structural representation shown in figure, a kind of sea pollution by oil dry ice cleaning plant, include conveying device 1, dry ice device 2, heater 3 and controller 4, conveying device 1 includes water surface floating conveying device 5 and non-water surface conveying device 6, dry ice device 2 includes dry ice pellets 7, be provided with dry ice 9 in the die cavity 8 of dry ice pellets 7, controller 4 is connected with conveying device 1, dry ice device 2 and heater 3 by control line; Dry ice device 2, non-water surface conveying device 6 and controller 4 are installed on hull 10, and dry ice device 2 includes dry ice manufacturing installation 12 and dry ice filling apparatus 13, and non-water surface conveying device 6 includes and promotes conveying device 14 and heating conveyor 15; Water surface floating conveying device 5 is connected with lifting conveying device 14, promote conveying device 14 to be connected with heating conveyor 15, heater 3 is installed on heating conveyor 15, and heating conveyor 15 is connected with dry ice filling apparatus 13, and dry ice manufacturing installation 12 is connected with dry ice filling apparatus 13.
A kind of using method of sea pollution by oil dry ice cleaning plant is: during use, a kind of sea pollution by oil dry ice cleaning plant is installed on hull 10, water surface floating conveying device 5 is connected, the ocean or rivers that utilize hull 10 water surface floating conveying device 5 to be forgotten about it to be polluted by oil slick 11 with hull 10, utilize controller 4 to control conveying device 1 to run, controller 4 controls dry ice device 2 and dry ice pellets 7 is put into water surface floating conveying device 5, dry ice pellets 7 follows water surface floating conveying device 5 in water surface movable, dry ice pellets 7 contacts with the oil slick 11 of the water surface, dry ice pellets 7 by oil slick 11 condensation adsorption in the surface of dry ice pellets 7, condensation adsorption oil slick 11 dry ice pellets 7 is delivered to non-water surface conveying device 6 by water surface floating conveying device 5, the dry ice pellets 7 of non-water surface conveying device 6 oil slick 11 by condensation adsorption delivers to heater 3, the oil slick 11 of condensation adsorption in dry ice pellets 7 surface dissolves and collects by heater 3, to reach the problem of cleaning ocean or rivers oil slick 11.
When a kind of sea pollution by oil dry ice cleaning plant uses, dry ice pellets 7 is after the dry ice filling apparatus 13 of dry ice device 2 loads dry ice 9, controller 4 controls dry ice device 2 and the dry ice pellets 7 being provided with dry ice 9 is delivered to water surface floating conveying device 5, dry ice pellets 7 follows water surface floating conveying device 5 in water surface movable, dry ice pellets 7 contacts with the oil slick 11 of the water surface, dry ice pellets 7 by oil slick 11 condensation adsorption in the surface of dry ice pellets 7, condensation adsorption oil slick 11 dry ice pellets 7 is delivered to by water surface floating conveying device 5 and is promoted conveying device 14, dry ice pellets 7 is followed lifting conveying device 14 and is left the water surface, promote conveying device 14 dry ice pellets 7 and deliver to heating conveyor 15, dry ice pellets 7 is delivered to heater 3 by heating conveyor 15, the oil slick 11 of condensation adsorption in dry ice pellets 7 surface dissolves and collects by heater 3, after oil slick 11 dissolving on dry ice pellets 7 surface, dry ice pellets 7 is delivered to dry ice filling apparatus 13 and is reloaded dry ice 9 by heating conveyor 15, the dry ice pellets 7 reloading dry ice 9 is delivered to water surface floating conveying device 5 by dry ice device 2 again, so constantly circulation, utilizes dry ice pellets 7 condensation adsorption to clear up the oil slick 11 of ocean or rivers.
A when sea pollution by oil dry ice cleaning plant uses, after dry ice pellets 7 loads dry ice 9, enter the position of the oil slick 11 of the water surface, the dry ice 9 in dry ice pellets 7 absorbs the heat of oil slick 11, makes oil slick 11 solidify the surface being adsorbed in dry ice pellets 7; Meanwhile, the interior dry ice 9 of dry ice pellets 7 also distils as carbon dioxide is discharged to outside dry ice pellets 7, and the dry ice pellets 7 of condensation adsorption oil slick 11 is sent to heater 3, and the oil slick 11 of condensation adsorption in dry ice pellets 7 surface absorbs the heat that heater 3 distributes and dissolve; After the oil slick 11 on dry ice pellets 7 surface is dissolved, again load new dry ice 9 to dry ice pellets 7, so constantly circulation.
Cool to implement dry ice pellets 7, heat and circulation conveying, water surface floating conveying device 5 includes buoyancy aid 16 and floating conveyer belt 17, float conveyer belt 17 be installed on buoyancy aid 16; The conveyer belt 17 that floats includes the first conveyer belt 18, first support 19, first motor 20, first driving wheel 21 and the first follower 22; The zone face of the first conveyer belt 18 is positioned at the position of oil slick 11, and the dry ice pellets 7 being positioned at the zone face of the first conveyer belt 18 contacts with oil slick 11; Buoyancy aid 16 and hull 10 floating connection; Promote conveying device 14 and include the second conveyer belt 23, second support 24, second motor 25, second driving wheel 26 and the second follower 27; Second support 24 is connected with hull 10, and the input port of the second conveyer belt 23 is connected with the first conveyer belt 18 delivery outlet; Heating conveyor 15 includes the 3rd conveyer belt 28, the 3rd support 29, the 3rd motor 30, the 3rd driving wheel 31 and the 3rd follower 32; 3rd support 29 is connected with hull 10, and the input port of the 3rd conveyer belt 28 is connected with the second conveyer belt 23 delivery outlet, and the delivery outlet of the 3rd conveyer belt 28 is connected with dry ice filling apparatus 13; 3rd conveyer belt 28 is through heater 3, and heating conveyor 15 is closed with heater 3 and is connected.
Absorption oil slick 11 is solidified in order to implement to utilize dry ice pellets 7 to circulate, when water surface floating conveying device 5 uses, controller 4 controls the first motor 20 and drives the first driving wheel 21 to move in the direction of the clock, first driving wheel 21 drives the first conveyer belt 18 to move in the direction of the clock by the first follower 22, the dry ice pellets 7 entering the first conveyer belt 18 by dry ice device 2 is followed the first conveyer belt 18 and is moved from left to right, dry ice pellets 7 contacts in the zone face of the first conveyer belt 18 with oil slick 11, the oil slick 11 of contact is solidified the surface being adsorbed in dry ice pellets 7 by dry ice pellets 7 in the process of the first conveyer belt 18 movement from left to right, solidify the dry ice pellets 7 absorbing oil slick 11 and delivered to lifting conveying device 14 by the first conveyer belt 18, when lifting conveying device 14 uses, controller 4 controls the second motor 25 and drives the second driving wheel 26 to move in the direction of the clock, second driving wheel 26 drives the second conveyer belt 23 to move in the direction of the clock by the second follower 27, the dry ice pellets 7 entering the second conveyer belt 23 by the first conveyer belt 18 is followed the second conveyer belt 23 and is moved from bottom to top, delivers to heating conveyor 15 by solidifying the dry ice pellets 7 of having adsorbed oil slick 11, when heating conveyor 15 uses, controller 4 controls the 3rd motor 30 and drives the 3rd driving wheel 31 by counterclockwise rotating, 3rd driving wheel 31 drives the 3rd conveyer belt 28 by counterclockwise rotating by the 3rd follower 32, the dry ice pellets 7 entering the 3rd conveyer belt 28 by the second conveyer belt 23 is followed the 3rd conveyer belt 28 and is moved from right to left, sends solidifying the dry ice pellets 7 of having adsorbed oil slick 11 into heater 3.
Heat to utilize heater 3 and collect oil slick 11, heater 3 includes heating cabinet 33, heater element 34 and oil sump tank 35, and the 3rd conveyer belt 28 of heating conveyor 15 passes the first input port 36 and the first delivery outlet 37 of heating cabinet 33; First input port 36 of the 3rd conveyer belt 28 and heating cabinet 33 and the first delivery outlet 37 are closed and are connected, and heater element 34 is positioned at the top of the 3rd conveyer belt 28, and oil sump tank 35 is positioned at the below of the 3rd conveyer belt 28; When heater 3 uses, 3rd conveyer belt 28 drive is solidified the dry ice pellets 7 of having adsorbed oil slick 11 and is entered in heating cabinet 33 by the first input port 36 of heating cabinet 33, controller 4 controls heater element 34 pairs of dry ice pellets 7 and heats, solidify after the oil slick 11 being adsorbed in dry ice pellets 7 surface absorbs heat and dissolve, flow to the oil sump tank 35 of below by the 3rd conveyer belt 28; After the oil slick 11 on dry ice pellets 7 surface dissolves and flows away, the 3rd conveyer belt 28 drives dry ice pellets 7 to output to dry ice device 2 by the first delivery outlet 37 of heating cabinet 33.
Be connected with water surface floating conveying device 5 is closed to implement dry ice device 2, dry ice device 2 includes dry ice pellets output device 38, and dry ice pellets output device 38 includes rotating blanking valve; Dry ice filling apparatus 13 is connected with dry ice pellets output device 38, and dry ice pellets output device 38 is connected with water surface floating conveying device 5.
Store the function of cold to implement dry ice pellets 7, dry ice pellets 7 is made up of hollow spheroid 39, and spheroid 39 is provided with mouth 40 on the rocks, and mouth 40 on the rocks is provided with spherical cap 41, and spherical cap 41 is closed with mouth 40 on the rocks and is connected, and is provided with dry ice 9 in the die cavity of spheroid 39.
In order to recycle dry ice pellets 7, recover the function of dry ice pellets 7 condensation adsorption oil slick 11, after dry ice pellets 7 after molten oil is delivered to dry ice device 2 by the 3rd conveyer belt 28, open the spherical cap 41 of dry ice pellets 7, dry ice 9 is loaded after in spheroid 39, after covering back the spherical cap 41 of dry ice pellets 7, dry ice pellets 7 is sent to dry ice pellets output device 38, and dry ice pellets 7 is delivered to water surface floating conveying device 5 by dry ice pellets output device 38.
In order to control cold with the loss of heat, water surface floating conveying device 5 is provided with water surface heat shield 42, and promote conveying device 14 and be provided with lifting heat shield 43, heating conveyor 15 is provided with molten oily heat shield 44, and heater 3 is provided with insulation layer.
In order to implement water surface floating conveying device 5 in the performance of water surface floating, dry ice pellets output device 38 is provided with the first telescoping tube 45, the delivery outlet of dry ice pellets output device 38 is connected with the first telescoping tube 45, and the first telescoping tube 45 is connected with the input port of water surface floating conveying device 5; Promote conveying device 14 and be provided with the second telescoping tube 46, the input port promoting conveying device 14 is connected with the second telescoping tube 46, and the second telescoping tube 46 is connected with the delivery outlet of water surface floating conveying device 5.
The first conveyer belt 18 can be entered in order to make oil slick 11 to contact with dry ice pellets 7, buoyancy aid 16 is provided with blotter cover 47, Open Side Down for blotter cover 47, blotter cover 47 is provided with Oil Guide passage 48, the position height of Oil Guide passage 48 is identical with the position height of oil slick 11, the conveyer belt 17 that floats is positioned at blotter cover 47, and the first conveyer belt 18 is provided with mesh, or the first conveyer belt 18 is made up of guipure.
When the conveyer belt 17 that floats uses, the conveyer belt 17 that floats follows hull 10 at contaminated ocean or rivers water surface movable, slick 11 constantly enters in blotter cover 47 by the Oil Guide passage 48 of buoyancy aid 16, the oil slick 11 constantly entered enters on the zone face of the first conveyer belt 18 by the mesh of the first conveyer belt 18, the dry ice pellets 7 of the first conveyer belt 18 zone face being followed the first conveyer belt 18 movement contacts with oil slick 11, dry ice pellets 7 by oil slick 11 condensation adsorption on its sphere; When buoyancy aid 16 moves, position height and oil slick 11 position height of buoyancy aid 16 Oil Guide passage 48 remain on equal state, and during to ensure that buoyancy aid 16 moves, oil slick 11 can enter in blotter cover 47 in Oil Guide passage 47.
When distilling as carbon dioxide to make dry ice 9, carbon dioxide can be discharged outside spheroid 39, avoids water to enter in spheroid 39 simultaneously, and spherical cap 41 is provided with one way valve 49, and the conducting direction of one way valve 49 is by pointing to outside spheroid 39 in spheroid 39, not conducting in the other direction.In order to improve the security performance of dry ice pellets 7, after loading dry ice 9 particle of spheroid 39, leaving in spheroid 39 die cavity and having living space; The volume of dry ice 9 particle accounts for less than 60% of spheroid 39 die cavity volume.
When dry ice pellets 7 uses, open the spherical cap 41 on spheroid 39, join in the die cavity of spheroid 39 by dry ice 9 particle through mouth 40 on the rocks, dry ice 9 particle joins after in spheroid 39 die cavity through mouth 40 on the rocks, again spherical cap 41 is covered back mouth 40 on the rocks, keep the temperature of dry ice 9 simultaneously in its scope of freezing; When dry ice pellets 7 uses, when dry ice pellets 7 contacts with oil slick 11, oil slick 11 transfers heat to dry ice 9 in dry ice pellets 7 through spheroid 39, and after dry ice 9 absorbs heat, distillation is carbon dioxide, and carbon dioxide is discharged to outside spheroid 39 through one way valve 49 by spheroid 39 is interior.
Just in case one way valve 49 is blocked, carbon dioxide can not be discharged, in order to avoid dry ice pellets 7 is exploded, spheroid 39 is provided with safety valve 50, and the safe pressure that safety valve 50 sets is greater than atmospheric pressure, the withstand voltage safe pressure being greater than safety valve 50 and setting of spheroid 39; When dry ice 9 distils as carbon dioxide after absorbing heat, its rapid spatial expansion, when one way valve 49 blocks, the pressure carbon dioxide of spheroid 39 exceedes the safe pressure of safety valve 50 setting, safety valve 50 is opened automatically, and carbon dioxide is discharged by safety valve 50, avoids dry ice pellets 7 to explode.
When one way valve 49 and safety valve 50 all block, in order to avoid dry ice pellets 7 is exploded, spheroid 39 is by silica gel, or rubber, or plastics are formed; In order to avoid the whole blast of spheroid 39, spheroid 39 is provided with Explosion-proof cap 51, Explosion-proof cap 51 is formed with the material of spheroid 39 by one, the periphery of Explosion-proof cap 51 is provided with safety groove ring 52, safety groove ring 52 is connected with spheroid 39, the thickness of Thickness Ratio spheroid 39 non-security groove ring 52 position of safety groove ring 52 position is thin, and the pressure that Explosion-proof cap 51 is split up is less than the withstand voltage of spheroid 39; When one way valve 49 and safety valve 50 all block, after dry ice 9 absorbs heat, distillation is carbon dioxide, the pressure in spheroid 39 is made to increase rapidly, when the pressure in spheroid 39 is greater than the pressure that Explosion-proof cap 51 can bear, Explosion-proof cap 51 is risen and is heaved, the safety groove ring 52 of the periphery of Explosion-proof cap 51 is risen fracture, and carbon dioxide is discharged by breach, avoids spheroid 39 to explode.
In order to dry ice pellets 7 can sink in oil slick 11, the proportion of dry ice pellets 7 is greater than the proportion of oil slick 11.In order to utilize spheroid 39 to adsorb more oil slick 11, the surface of spheroid 39 is provided with oil suction groove 53, and oil suction groove 53 is covered with the surface of spheroid 39; The shape of oil suction groove 53 includes circle or polygon, and polygon includes honeycombed; When spheroid 39 contacts with oil slick 11, oil slick 11 is absorbed the heat of oil slick 11 by spheroid 39, makes oil slick 11 condensation adsorption on the oil suction groove 53 of spheroid 39; After the oil suction groove 53 condensation adsorption oil slick 11 of spheroid 39, spheroid 39 is sent to heater 3 and is dissolved by the oil slick 11 of condensation adsorption in oil suction groove 53; Spheroid 39 is by the temperature that heats for being greater than 0 ° of C, and the temperature range that heater 3 controls is: 20 ° to 55 ° C.
Conveniently spherical cap 41 installation and extract, also ensure its security performance simultaneously, spherical cap 41 comprises upper cover plate 54, joint pin 55 and lower platform body 56, and upper cover plate 54 is connected with joint pin 55 and lower platform body 56, and joint pin 55 is between upper cover plate 54 and lower platform body 56; The external diameter of joint pin 55 is less than the external diameter of upper cover plate 54, and the external diameter of joint pin 55 is less than the upper base diameter of lower platform body 56 and lower diameter, and the external diameter of joint pin 55 is greater than the diameter of mouth 40 on the rocks; Spherical cap 41 grafting is installed on mouth 40 on the rocks, and upper cover plate 54 is positioned at the outside of spheroid 39, and lower platform body 56 is positioned at the inside of spheroid 39, and mouth 40 on the rocks is clamped between upper cover plate 55 and lower platform body 56.
When spherical cap 41 loads mouth 40 on the rocks, stage body 55 is under the effect of external force, and overcome the material tension of spheroid 39 mouth on the rocks 40 position through mouth 40 on the rocks, joint pin 55 and mouth 40 on the rocks closely cooperate, and utilizes the material tension clamping joint pin 55 of mouth 40 on the rocks; When lid 41 extracts mouth 40 on the rocks, stage body 55, under the effect of external force, overcomes the material tension of spheroid 39 mouth on the rocks 40 position through mouth 40 on the rocks, makes joint pin 55 leave the position of mouth 40 on the rocks.
Claims (8)
1. a sea pollution by oil dry ice cleaning plant, during use, a kind of sea pollution by oil dry ice cleaning plant is installed on hull (10), it is characterized in that: described a kind of sea pollution by oil dry ice cleaning plant, include conveying device (1), dry ice device (2), heater (3) and controller (4), conveying device (1) includes water surface floating conveying device (5) and non-water surface conveying device (6), dry ice device (2) includes dry ice pellets (7), is provided with dry ice (9) in the die cavity (8) of dry ice pellets (7).
2. a kind of sea pollution by oil dry ice cleaning plant according to claim 1, it is characterized in that: described dry ice device (2) includes dry ice manufacturing installation (12) and dry ice filling apparatus (13), non-water surface conveying device (6) includes and promotes conveying device (14) and heating conveyor (15); Water surface floating conveying device (5) is connected with lifting conveying device (14), promote conveying device (14) to be connected with heating conveyor (15), heater (3) is installed on heating conveyor (15), heating conveyor (15) is connected with dry ice filling apparatus (13), and dry ice manufacturing installation (12) is connected with dry ice filling apparatus (13).
3. a kind of sea pollution by oil dry ice cleaning plant according to claim 1, is characterized in that: described water surface floating conveying device (5) includes buoyancy aid (16) and floating conveyer belt (17), and the conveyer belt (17) that floats is installed on buoyancy aid (16); The conveyer belt (17) that floats includes the first conveyer belt (18), the first support (19), the first motor (20), the first driving wheel (21) and the first follower (22); The zone face of the first conveyer belt (18) is positioned at the position of oil slick (11), buoyancy aid (16) and hull (10) floating connection.
4. a kind of sea pollution by oil dry ice cleaning plant according to claim 2, is characterized in that: described lifting conveying device (14) includes the second conveyer belt (23), the second support (24), the second motor (25), the second driving wheel (26) and the second follower (27); Second support (24) is connected with hull (10), and the second conveyer belt (23) is connected with the first conveyer belt (18).
5. a kind of sea pollution by oil dry ice cleaning plant according to claim 2, is characterized in that: described heating conveyor (15) includes the 3rd conveyer belt (28), the 3rd support (29), the 3rd motor (30), the 3rd driving wheel (31) and the 3rd follower (32); 3rd support (29) is connected with hull (10), 3rd conveyer belt (28) is connected with the second conveyer belt (23), the delivery outlet of the 3rd conveyer belt (28) is connected with dry ice filling apparatus (13), and heating conveyor (15) is closed with heater (3) and is connected.
6. a kind of sea pollution by oil dry ice cleaning plant according to claim 2, it is characterized in that: described heater (3) includes heating cabinet (33), heater element (34) and oil sump tank (35), the 3rd conveyer belt (28) of heating conveyor (15) is through heating cabinet (33).
7. a kind of sea pollution by oil dry ice cleaning plant according to claim 2, it is characterized in that: described dry ice device (2) includes dry ice pellets output device (38), dry ice filling apparatus (13) is connected with dry ice pellets output device (38), and dry ice pellets output device (38) is connected with water surface floating conveying device (5).
8. a kind of sea pollution by oil dry ice cleaning plant according to claim 2, it is characterized in that: described water surface floating conveying device (5) is provided with water surface heat shield (42), promote conveying device (14) and be provided with lifting heat shield (43), heating conveyor (15) is provided with molten oily heat shield (44).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520579533.XU CN204982826U (en) | 2015-07-31 | 2015-07-31 | Ocean greasy dirt dry ice cleaning device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201520579533.XU CN204982826U (en) | 2015-07-31 | 2015-07-31 | Ocean greasy dirt dry ice cleaning device |
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CN204982826U true CN204982826U (en) | 2016-01-20 |
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CN201520579533.XU Expired - Fee Related CN204982826U (en) | 2015-07-31 | 2015-07-31 | Ocean greasy dirt dry ice cleaning device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109467162A (en) * | 2018-12-27 | 2019-03-15 | 宁波大红鹰学院 | River floating oil separation device |
-
2015
- 2015-07-31 CN CN201520579533.XU patent/CN204982826U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109467162A (en) * | 2018-12-27 | 2019-03-15 | 宁波大红鹰学院 | River floating oil separation device |
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Granted publication date: 20160120 Termination date: 20160731 |