• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The present invention provides an alga collection boat. The alga collection boat transfers alga in a dewatering device to an anhydration cabin to help a boat body to realize smooth 5 drainage, so that the running resistance of the boat body is reduced, and an inflow volume is increased; therefore, more algae can be collected, and water in the alga is further reduced, the weight is reduced, and the collection volume and the collection efficiency are improved.
    公开号:NL2029712A
    申请号:NL2029712
    申请日:2021-11-11
    公开日:2022-01-13
    发明作者:Han Ji;Han Shuicheng
    申请人:Zhejiang Coolkind Intelligent Tech Co Ltd;
    IPC主号:
    专利说明:

    [01] [01] The present invention relates to the field of horizontal cleaning, and particularly relates to an alga collection boat.BACKGROUND ART
    [02] [02] With the development of the society, the eutrophication problem of inland lakes is very serious, in particular, in the following aspect: alga on the surface of water is increasing. Once climate warming breaks out, the alga will stink and harm aquatic animals. If the deteriorated water is not timely salvaged, it will seriously affect people's normal life. ZL201910805931.1 discloses a fully automatic blue algae collection and dehydration boat. The boat does have a better dehydration effect in actual use, but there are still the following technical problems: Since the algae are collected in an algae mud dehydration cabin, and the algae mud dehydration cabin further needs to be responsible for drainage, excessive algae mud located in the algae mud dehydration cabin will cause poor drainage and affect the collection efficiency.SUMMARY
    [03] [03] In one aspect, the present invention aims to provide an anhydration device of an alga collection boat to solve the technical problem in the existing art: Since the algae are all collected in an algae mud dehydration cabin, and the algae mud dehydration cabin further needs to be responsible for drainage, excessive algae mud located in the algae mud dehydration cabin will cause poor drainage and affect the collection efficiency.
    [04] [04] In order to achieve the above purpose, one aspect of the present invention provides an anhydration device of an alga collection boat, including conveying equipment and an anhydration cabin. The conveying equipment can convey alga floating on a water surface to the anhydration cabin, and water contained in the alga can be reduced in the anhydration cabin. The alga in a dewatering device is transferred to the anhydration cabin to help a boat body to realize smooth drainage, so that the running resistance of the boat body is reduced, and an inflow volume is increased; therefore, more algae can be collected, and the water in the alga is further reduced; the weight is reduced, and the collection volume and the collection efficiency are improved; the water inthe alga can be reduced in a manner of heating drying, vacuum drying, filtering drying with a filter net and other methods in the anhydration cabin.
    [05] [05] Further, the anhydration cabin includes a wastewater cavity, a filter net, and wastewater pumping equipment; the wastewater cavity is located at a bottom of the anhydration cabin; the wastewater pumping equipment is connected with the wastewater cavity; and the filter net cooperates with the conveying equipment to carry the alga conveyed to the anhydration cabin. The filter net is used to filter out the water in the alga, and the filtered water is drained through the wastewater pumping equipment. Compared with the heating drying, the vacuum drying and other methods, the anhydration method is lower in cost.
    [06] [06] Further, the anhydration device of the alga collection boat further includes squeezing equipment; the squeezing equipment cooperates with the conveying equipment and squeezes the alga conveyed by the conveying equipment. The squeezing equipment squeezes out the water in the alga to improve the anhydration efficiency.
    [07] [07] Further, the anhydration cabin further includes a dewatering cavity; an opening is formed in a top of the anhydration cabin; the filter net is circumferentially connected to a side wall of the anhydration cabin; the filter net divides the anhydration cabin into the dewatering cavity and the wastewater cavity; the dewatering cavity is located at an upper part of the anhydration cabin; and the wastewater cavity is located at a lower part of the anhydration cabin.
    [08] [08] Further, the filter net includes a bottom net and a side net; the side net extends upwards in a circumferential direction of the bottom net; and the side net is circumferentially connected to a side wall of the anhydration cabin, so that the dewatering cavity has a larger space and can accommodate more algae to increase the collection volume.
    [09] [09] Further, the conveying equipment includes a caterpillar band, a scraper blade, a conveying plate, an axle and a driver; the scraper blade cooperates with the conveying plate; and the driver drives the axle to enable the caterpillar band to anticlockwise rotate to convey the alga floating on the water surface to the anhydration cabin through the scraper blade along the conveying plate.
    [10] [10] Further, the conveying equipment includes a mesh caterpillar band, an axle and a driver; and the driver drives the axle to enable the mesh caterpillar band to clockwise rotate to convey the alga floating on the water surface to the anhydration cabin through the mesh caterpillar band.
    [11] [11] Further, the conveying equipment is a lead conveyor.
    [12] [12] Further, the wastewater pumping equipment is connected to a bottom of the wastewater cavity through a discharge and suction pipe.
    [13] [13] Further, the squeezing equipment is a plate-and-frame filter press, a belt filter press or a stacking machine.
    [14] [14] One aspect of the present invention provides an alga collection boat, including a flocculating agent spraying device, a flocculating device, a flocculating cabin and the above-mentioned anhydration device; a front end of the alga collection boat is provided with an opening; the flocculating agent spraying device, the flocculating device, the dewatering device and the anhydration device are arranged in sequence in a water feed direction; and the conveying equipment can convey the alga floating on the water surface of the dewatering device to the anhydration cabin. A flocculating agent is thrown into the alga water through the flocculating agent spraying device; the alga water and the flocculating agent are mixed and flow into the flocculating device; the flocculating device fully mixes the alga water and the flocculating agent to break the wall of the alga to discharge water and be effectively flocculated, so that the wall-broken alga floats from the water surface of the dewatering device; the water entering from the opening and the water discharged by wall breaking of the alga are discharged by the dewatering device; the wall-broken alga 1s conveyed to the anhydration cabin by the conveying equipment; and the water in the alga is further reduced by heating drying, vacuum drying, filter drying with the filter net and other methods.
    [15] [15] Further, the flocculating device includes a water guide plate and an overflow plate; the water guide plate and the overflow plate are arranged in sequence in the water feed direction; an upper end of the water guide plate is higher than the water surface, and a lower end is provided with an opening; and the overflow plate extends upwards from the bottom of the boat body, and an upper end of the overflow plate is provided with an opening. The alga water flows in from the opening in the lower end of the water guide plate and flows out from the opening in the upper end of the overflow plate to realize mixing in a manner of rolling over up and down, so that the alga water and the flocculating agent are mixed more fully and react more fully.
    [16] [16] Further, a garbage filter grating is further included, which is arranged between the water guide plate and the opening. The garbage filter grating can prevent other large- sized garbage except the alga from entering the boat body to aftect the normal operation of the boat body.
    [17] [17] Further, mounting pieces and an adjustment door are further included; both sides of the opening are respectively provided with the mounting pieces; the adjustment door is arranged behind the mounting pieces in the water feed direction and is rotatably connected with the bottom of the boat body; and the flocculating agent spraying device is arranged at the top end of the adjustment door. The water feed volume can be adjusted by controlling the adjustment door to be closed, so as to balance the water feed volume and the water discharge volume of the boat body as much as possible, so that a water flow is unobstructed, and the resistance during sailing is reduced; furthermore, an alga layer can be controlled to just cross the adjustment door, and most pure water is blocked; and the mounting piece can be integrated with the boat body, or can be a component having a sealing function.
    [18] [18] Further, an alga digging device or a baffle plate is further included; the alga digging device or the baffle plate is detachably connected with the mounting piece; the alga digging device includes a rotating shaft, a digging plate and a motor; the digging plate is arranged on the rotating shaft; the motor drives the rotating shaft to rotate; two triangular baffle plates are provided; and one edge of each of the two baffle plates is detachably connected with each mounting piece. The alga digging device and the baffle plates are respectively applicable to different scenes and are mounted according to a need. When there is relatively thin alga, it is relatively difficult to control the alga layer to just cross the adjustment door and block most pure water outside the adjustment door. The boat body can be provided with the baffle plates which reduce the area of the opening, so that the alga layer is gathered at the narrowed inlet in a splayed manner; the alga layer is relatively thick, and the adjustment door adjusts the alga layer more easily to cross the adjustment door and blocks most pure water outside; and when the alga is gathered, the boat body can be provided with the alga digging device to improve the salvaging efficiency.
    [19] [19] Further, the dewatering device includes a dewatering cabin, pumping equipment and a filter net; a top of the dewatering cabin is provided with an opening; a side plate of the dewatering cabin located in front of the water feed direction is the overflow plate; the filter net is circumferentially connected to a side wall of the dewatering cabin; and the pumping equipment communicates with a bottom of the dewatering cabin. The dewatering device has a function of discharging the water entering the boat body to the outside of the boat, so that the sailing resistance of the boat body is lower, and the inflow volume of the alga is increased, thus increasing the collection volume. The filter net collects the alga pumped and discharged with the discharged water flow and tiny garbage to avoid them from being discharged to the outside of the boat body with the pumping equipment.
    [20] [20] Further, two tractors, two fences, a propeller, an energy supply device and an irrigation device are further included; one end of each of the fences is connected to two sides of the front end of the boat body, and the other end is connected to each tractor; the propeller is arranged at the rear end of the boat body; the energy supply device enables the propeller and other equipment on the boat to operate, and the irrigation device is arranged at the bottom end of the dewatering cabin.BRIEFT DESCRIPTION OF THE DRAWINGS
    [21] [21] The specification drawings constituting one part of the present application are used to provide a further understanding of the present invention. Illustrative embodiments and descriptions thereof of the present invention are used to explain the present invention, and do not constitute an improper limitation to the present invention.
    [22] [22] FIG. 1 is a top view of an alga collection boat;
    [23] [23] FIG. 2 is a front view of the alga collection boat;
    [24] [24] FIG. 3 is an operational schematic diagram of the alga collection boat;
    [25] [25] FIG. 4is aleft view of the alga collection boat (provided with baffle plates); and
    [26] [26] FIG. 5 is a left view of the alga collection boat (provided with an alga digging device).
    [27] [27] Inthe drawings, the following reference signs are included: 1: flocculating agent spraying device; 2: flocculating device, 21: water guide plate; 22: overflow plate; 3: dewatering device; 31: dewatering cabin; 32: pumping equipment; 33: filter net; 4: anhydration device; 41: conveying equipment; 411: caterpillar band; 412: scraper blade; 413: conveying plate; 414: axle; 42: anhydration cabin; 421: wastewater cabin; 422: filter net; 4221: bottom net; 4222: side net; 423: wastewater pumping equipment; 424: discharge and suction pipe; 425: dewatering cavity; 43: squeezing equipment, 5: opening; 6: garbage filter grating; 7: tractor; 8: fence; 9: propeller; 10: energy supply device; 11: irrigation device; 12: adjustment door; 13: baffle plate; 14: alga digging device; 141: rotating shaft; 142: digging plate; 143: motor; 15: mounting piece.DETAILED DESCRIPTION OF THE EMBODIMENTS
    [28] [28] It should be noted that the embodiments of the present application and features in the embodiments may be combined with each other without conflicts. The present invention will be described in detail below with reference to the accompanying drawings and in combination with embodiments.
    [29] [29] As shown in FIG. 1 and FIG. 2, the present invention provides an alga collection boat, including a flocculating agent spraying device 1, a flocculating device 2, a dewatering device 3 and an anhydration device 4. A front end of the alga collection boat is provided with an opening 5; the flocculating agent spraying device 1, the flocculating device 2, the dewatering device 3 and the anhydration device 4 are arranged in sequence na water feed direction; the anhydration device 4 includes conveying equipment 41 and an anhydration boat 42; and the conveying equipment 41 can convey alga floating on a water surface of the dewatering device 3 to the anhydration cabin 42. A flocculating agent is thrown into the alga water through the flocculating agent spraying device 1; the alga water and the flocculating agent are mixed and flow into the flocculating device 2; the flocculating device 2 fully mixes the alga water and the flocculating agent to break the wall of the alga to discharge water and be effectively flocculated, so that the wall- broken alga floats from the water surface of the dewatering device 3; the water entering trom the opening 5 and the water discharged by wall breaking of the alga are discharged by the dewatering device 3; the wall-broken alga is conveyed to the anhydration cabin 42 by the conveying equipment 41; and the water in the alga is further reduced by heating drying, vacuum drying, filter drying with a filter net and other methods.
    [30] [30] In the present embodiment, the alga in a dewatering device 3 is transferred to the anhydration cabin 42 to help a boat body to realize smooth drainage, so that the running resistance of the boat body is reduced, and an inflow volume is increased, therefore, more algae can be collected, and the water in the alga is further reduced; the weight is reduced, and the collection volume and the collection efficiency are improved; the water in the alga can be reduced in a manner of heating drying, vacuum drying, filtering drying with the filter net and other methods in the anhydration cabin 42.
    [31] [31] Further as shown in FIG. 1 and FIG. 2, the anhydration cabin 42 includes a wastewater cavity 421, a filter net 422, and wastewater pumping equipment 423; the wastewater cavity 421 is located at a bottom of the anhydration cabin 42; the wastewater pumping equipment 423 is connected with bottom of the wastewater cavity 421 through a discharge and suction pipe 424; and the filter net 422 cooperates with the conveying equipment 41 to carry the alga conveyed to the anhydration cabin 42. The anhydration cabin 42 further includes a dewatering cavity 425; an opening is formed in a top of the anhydration cabin 42; the filter net 422 is circumferentially connected to a side wall of the anhydration cabin 42; the filter net 422 divides the anhydration cabin 42 into the dewatering cavity 425 and the wastewater cavity 421; the dewatering cavity 425 is located at an upper part of the anhydration cabin 42; and the wastewater cavity 421 is located at a lower part of the anhydration cabin 42. The filter net 422 includes a bottom net 4221 and a side net 4222; the side net 4222 extends upwards in a circumferential direction of the bottom net 4221; and the side net 4222 is circumferentially connected to a side wall of the anhydration cabin 42. By this setting method, the dewatering cavity 425 has a larger space and can accommodate more algae to increase the collection volume.
    [32] [32] Inthe present implementation, the filter net 422 is used to filter out the water in the alga, and the filtered water is drained through the wastewater pumping equipment
    [33] [33] Further, as shown in FIG. 1 and FIG. 2, optionally, the conveying equipment 41 includes a caterpillar band 411, a scraper blade 412, a conveying plate 413, an axle 414 and a driver; the driver drives the axle 414 to enable the caterpillar band 411 to anticlockwise rotate to convey the alga floating on a water surface of the dewatering device to the anhydration cabin 42 through the scraper blade 412 along the conveying plate 413. Optionally, the conveying equipment 41 includes a mesh caterpillar band 411, an axle 414 and a driver; and the driver drives the axle 414 to enable the mesh caterpillar band 411 to clockwise rotate to convey the alga floating on the water surface of the dewatering device to the anhydration cabin 42 through the mesh caterpillar band 411. Optionally, the conveying equipment 41 is a lead conveyor.
    [34] [34] Further, as shown in FIG. 1 and FIG. 2, the anhydration device 4 further includes squeezing equipment 43; the squeezing equipment 43 cooperates with the conveying equipment 41 to squeeze the alga conveyed by the conveying equipment 41. Optionally, the squeezing equipment 43 is a plate-and-frame filter press, a belt filter press or a stacking machine.
    [35] [35] In the present embodiment, the squeezing equipment squeezes out the water in the alga to improve the anhydration efficiency.
    [36] [36] Further, as shown in FIG. 1 and FIG. 2, the flocculating device 2 includes a water guide plate 21 and an overflow plate 22; the water guide plate 21 and the overflow plate 22 are arranged in sequence in the water feed direction; an upper end of the water guide plate 21 is higher than the water surface, and a lower end is provided with an opening; and the overflow plate 22 extends upwards from the bottom of the boat body, and an upper end of the overflow plate is provided with an opening. The alga collection boat further includes mounting pieces 15 and an adjustment door 12; both sides of the opening 5 are respectively provided with the mounting pieces 15; the adjustment door 12 is arranged behind the mounting pieces 15 in the water feed direction and is rotatably connected with the bottom of the boat body; and the flocculating agent spraying device 1 is arranged at the top end of the adjustment door 12. The mounting piece 15 can be integrated with the boat body, or can be a component having a sealing function. The mounting piece 15 is usually a sealing baftle plate on which several screw holes are formed, so that it has an effect of sealing the adjustment door 12 and an effect of serving as a mounting accessory. The water feed volume can be adjusted by controlling the adjustment door 12 to be closed, so as to balance the water feed volume and the water discharge volume of the boat body as much as possible, so that a water flow is unobstructed, and the resistance during sailing is reduced; furthermore, an alga layer can be controlled to just cross the adjustment door, and most pure water is blocked.
    [37] [37] Further, as shown in FIG. 4 and FIG. 5, the mounting piece 15 is selectively provided with an alga digging device 14 or a baffle plate 13; and the alga digging device 14 or the baffle plate 13 is detachably connected with the mounting piece, and is usually connected with a screw hole on the sealing baffle plate through a bolt; the alga digging device 14 includes a rotating shaft 141, a digging plate 142, and a motor 143; several digging plates 142 are arranged on the rotating shaft 141; the motor 143 drives the rotating shaft 141 to rotate; two triangular baffle plates 13 are provided; and one edge of each of the two baffle plates 13 is detachably connected with the mounting piece 15.
    [38] [38] The alga digging device 14 and the baffle plates 13 are respectively applicable to different scenes and are mounted according to a need. When there is relatively thin alga, it 1s relatively difficult to control the alga layer to just cross the adjustment door 12 and block most pure water outside the adjustment door 12. The boat body can be provided with the baffle plates 13. The baffle plates 13 reduce the area of the opening 5, so that the alga layer is gathered at the narrowed inlet in a splayed manner; the alga layer is relatively thick, and the adjustment door 12 adjusts the alga layer more easily to cross the adjustment door 12 and blocks most pure water outside the adjustment door 12; and when the alga is gathered, the boat body can be provided with the alga digging device 14 to improve the salvaging efficiency.
    [39] [39] Inthe present embodiment, the alga water flows in from the opening in the lower end of the water guide plate 21 and flows out from the opening in the upper end of the overflow plate 22 to realize mixing in a manner of rolling over up and down, so that the alga water and the flocculating agent are mixed more fully and react more fully.
    [40] [40] Further, as shown in FIG. 1 and FIG. 2, the alga collection boat further includes a garbage filter grating 6 arranged between the water guide plate 21 and the opening 5 and capable of preventing other large-sized garbage except alga from entering the boat body to affect normal operation of the boat body.
    [41] [41] Further, as shown in FIG. 1 and FIG. 2, the dewatering device includes a dewatering cabin 31, pumping equipment 32 and a filter net 33; a top of the dewatering cabin 31 is provided with an opening; a side plate of the dewatering cabin located in front of the water feed direction is the overflow plate 22; the filter net 33 is circumferentially connected to a side wall of the dewatering cabin 31; and the pumping equipment 32 communicates with a bottom of the dewatering cabin 31.
    [42] [42] Further, as shown in FIG. 1, FIG. 2, and FIG. 3, two tractors 7, two fences 8, a propeller 9, an energy supply device 10 and an irrigation device 11 are further included, one end of each of the fences 8 is connected to two sides of the front end of the boat body, and the other end is connected to each tractor 7; the propeller 9 is arranged at the rear end of the boat body; the energy supply device 10 enables the propeller 9 and other equipment on the boat to operate; and the irrigation device 11 is arranged at the bottom end of the dewatering cabin 31.
    [43] [43] Description of a work flow:
    [44] [44] Operation steps corresponding to the above invention are as follows: preparations are made before operation according to an actual situation on the site. Each of the two tractors 7 drags one fence 8 to spread the fence in a splayed manner. At the same time, the irrigation device 11 on the alga collection boat is switched on; water enters the dewatering bin 31; and the entire alga collection boat sinks to a designed water level. That is, the bottom end of the opening 5 is lower than the outer water surface by a distance that is equal to a depth of an underwater part of the fence 8. The irrigation device 11 is switched off; the adjustment door 12 is opened; the pumping equipment 32 is switched on; and the flocculating agent spraying device 1 is switched on. As the tractors 7 move forwards, the alga water in the front is blocked in the fences 8; the alga floating on the water surface and a small amount of water constantly cross the adjustment door 12 in a natural state with the water flow and flow into the boat body via the opening 5; and most pure water has been blocked by the adjustment door 12 outside the boat. Meanwhile, the alga that has crossed the adjustment door 12 has been preliminarily flocculated by the flocculating agent. Under the drainage effect of the pumping equipment 32, the alga in the flocculating process flows in from the opening in the lower end of the water guide plate 21 and flows out from the opening in the upper end of the overflow plate 22 to realize mixing in a manner of rolling over up and down for further flocculation. The alga flows into the dewatering cabin 31 and stays; the conveying equipment 41 conveys the alga floating in the dewatering cabin 31 to the anhydration cabin 42, so that the alga in the anhydration cabin 42 is filtered to be dried through the filter net 33; the filtered water flows into the wastewater cavity 421 and is pumped out through the wastewater pumping equipment 423.
    [45] [45] The above descriptions are merely preferred embodiments of the present invention and are not intended to limit the present invention. For those skilled in the art,
    the present invention may have various modifications and changes.
    Any modifications, equivalent replacements, improvements, and the like that are made without departing from the spirt and principle of the present invention shall all fall within the protection scope of the present invention.
    权利要求:
    Claims (17)
    [1]
    An algae-collecting boat anhydrator apparatus, characterized by comprising transporting equipment and an anhydration cabin, the transporting equipment capable of transporting algae floating on a water surface to the anhydration cabin and wherein the water contained in the algae can be reduced in the anhydrator cabin.
    [2]
    The anhydration device of the algae collecting boat according to claim 1, characterized in that the anhydration cabin comprises a waste water cavity, a filter net and waste water pumping equipment, the waste water cavity being located on a bottom side of the anhydration cabin; wherein the wastewater pumping equipment is connected to the wastewater cavity, and wherein the filter net cooperates with the conveying equipment to carry the algae transported to the anhydration cabin.
    [3]
    The anhydrator of the algae collecting boat according to claim 2, characterized by further comprising squeezing equipment, the squeezing equipment cooperating with the conveying equipment and squeezing the algae transported by the conveying equipment.
    [4]
    The anhydrator of the algae collecting boat according to claim 2, characterized in that the anhydrator further comprises a dewatering cavity; wherein an opening is formed in a top of the anhydrator; the filter net is connected peripherally to a side wall of the anhydrator booth; the filter net divides the anhydrator booth into the dewatering cavity and the waste water cavity; wherein the dewatering cavity is located on an upper part of the anhydration cabin; and wherein the waste water cavity is located on a lower part of the anhydration booth.
    [5]
    An anhydrator of the algae collecting boat according to claim 4, characterized in that the filter net comprises a bottom net and a side net; the side net extending upstream in a circumferential direction of the bottom net; and wherein the side net is connected circumferentially to a side wall of the anhydration booth.
    -14-
    [6]
    The algae collecting boat anhydrator according to claim 1, characterized in that the conveying equipment comprises a crawler belt, a scraper blade, a conveying plate, a spindle and an actuator; wherein the scraper blade cooperates with the transport plate; and wherein the actuator drives the spindle to engage the track to rotate counterclockwise to convey the algae floating on the water surface to the anhydrator booth through the scraper blade along the conveying plate.
    [7]
    The algae collecting boat anhydrator according to claim 1, characterized in that the conveying equipment comprises a mesh crawler, a spindle and an actuator, and wherein the actuator drives the spindle to engage the mesh crawler to rotate clockwise about the algae floating on the water surface to the anhydrator cabin through the mesh caterpillar.
    [8]
    The algae collecting boat anhydrator according to claim 1, characterized in that the conveying equipment is a lead conveyer.
    [9]
    An anhydrator of the algae collecting boat according to claim 2, characterized in that the waste water pumping equipment is connected to a bottom of the waste water cavity by a discharge and suction pipe.
    [10]
    The algae collecting boat anhydrator according to claim 3, characterized in that the squeezing equipment is a plate-and-frame filter press, a belt filter press or a stacking machine.
    [11]
    An algae collecting boat, characterized by comprising a flocculant spraying device, a flocculating device, a dewatering device and an anhydrator according to claims 1 to 10, wherein a front end of the algae collecting boat is provided with an opening; wherein the flocculant spraying device, the flocculating device, the dewatering device and the anhydration device are arranged in series in a water supply direction; and wherein the conveying equipment can convey the algae floating on the water surface of the dewatering device to the anhydrator.
    - 15 -
    [12]
    An algae collecting boat according to claim 11, characterized in that the flocculating device comprises a water guide plate and a flood plate; wherein the water guide plate and the flood plate are arranged in series in the water supply direction, an upper end of the water guide plate being higher than the water surface and a lower end having an opening; and wherein the flood plate extends upwardly from the bottom of the boat body and wherein an upper end of the flood plate is provided with an opening.
    [13]
    An algae collecting boat according to claim 12, characterized by further comprising a dirt filter grid arranged between the water guide plate and the opening.
    [14]
    An algae collecting boat according to claim 12, characterized by further comprising mountings and an adapter door, wherein both sides of the opening are respectively provided with the mountings; wherein the adjustment door is arranged behind the mountings in the water supply direction and is rotatably connected to the bottom of the boat body; and wherein the flocculant spraying device is disposed on the upper end of the adjustment door.
    [15]
    An algae collecting boat according to claim 13, characterized by further comprising an algae digging device or a shield plate, the algae digging device or the shield plate being removably connected to the mounting piece; wherein the algae excavating device comprises a rotating shaft, an excavating plate and a motor; the digging plate being arranged on the rotating shaft; the motor driving the rotating shaft to rotate; wherein two triangular shield plates are provided; and wherein one edge of each of the two shield plates is removably connected to each mounting piece.
    [16]
    An algae collecting boat according to claim 14 or 15, characterized in that the dewatering device comprises a dewatering cabin, pumping equipment and a filter net; wherein a top of the dewatering booth is provided with an opening; where a side plate of the dewatering cabin which is placed opposite the water supply direction
    -16 - 1s, the flood plate is; the filter net being connected peripherally to a side wall of the dewatering booth; and wherein the pumping equipment communicates with a bottom of the dewatering booth.
    [17]
    An algae collection boat according to claim 16, characterized by further comprising two tractors, two fences, a propeller, an energy supply device and an irrigation device, one end of each of the fences being connected to two sides of the forward end of the said vessel. boat body and the other end being connected to each tractor; the propeller being arranged on a rear end of the boat body; wherein the power supply device turns on the propeller to operate; and wherein the irrigation device is arranged on the lower end of the dewatering booth.
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    引用文献:
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    法律状态:
    优先权:
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