CN103070127A - Combined modular circulating water cultivating system - Google Patents

Combined modular circulating water cultivating system Download PDF

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Publication number
CN103070127A
CN103070127A CN2013100104190A CN201310010419A CN103070127A CN 103070127 A CN103070127 A CN 103070127A CN 2013100104190 A CN2013100104190 A CN 2013100104190A CN 201310010419 A CN201310010419 A CN 201310010419A CN 103070127 A CN103070127 A CN 103070127A
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China
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straight tube
straight
water
filter
inlet pipe
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CN2013100104190A
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Chinese (zh)
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CN103070127B (en
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颜阔秋
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金贝尔(福建)水环境工程有限公司
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Abstract

The invention discloses a combined modular circulating water cultivating system, which comprises a belt type mechanical filter, a protein separator, a dripping box, a bio-filter, an ultraviolet disinfector and a central electronic controller, wherein the protein separator is connected with the belt type mechanical filter; the dripping box is connected with the protein separator; the bio-filter is connected with the dripping box; the ultraviolet disinfector is connected with the bio-filter; the belt type mechanical filter is used for pumping water into the protein separator through a water pump; the dripping box is arranged above the bio-filter; the highest water level of the protein separator is higher than the highest water level of the dripping box; the highest water level of the bio-filter is higher than the highest water level of the ultraviolet disinfector; and both the ultraviolet disinfector and the water pump are connected with the central electronic controller. According to the combined modular circulating water cultivating system, the defects of high manufacturing cost, large occupied space, complex pipeline connection, difficulty in maintaining, high running cost, poor treatment effect and the like caused by the complex and single equipment system design of the conventional circulating water cultivating system are overcome completely; and the combined modular circulating water cultivating system is more convenient and practicable.

Description

A kind of combined modular circulating water culture system

Technical field

The present invention relates to aquaculture field, more particularly refer to a kind of combined modular circulating water culture system.

Background technology

Aquaculture is the activity in production of breeding under the manual control, cultivation and results aquatic animals and plants.Generally comprise the overall process of under the artificial feeding management, forming aquatic products from seed.Broadly also can comprise Enhancement of fishery resources.Aquaculture has the modes such as extensive cultivation, intensive culture and high density culture.Extensive cultivation is to throw in seed in medium and small natural water area, forms aquatic products by natural bait fully, breeds fish such as lake and reservoir and supports shellfish etc. with the shallow sea; Intensive culture is to form aquatic products with bait throwing in, fertilizing method in less water body, such as aqiuculrue, fish culture in net pen and enclosure culture, net enclosure culture etc.; High density culture adopts the methods such as flowing water, temperature control, oxygenation and the high-quality bait of throwing something and feeding, and carries out high-density breeding in little water body, thereby obtains high yield, such as Running Water Intensive Fish Farming, shrimp etc.

At present each device in used traditional circulating water culture system forms whose cultivating system of whole circulation by single device systems design, but the design of this triangular web cause cost high, take up room large, the pipeline connection is complicated, difficult in maintenance, operating cost is high, poor processing effect.

Summary of the invention

A kind of combined modular circulating water culture system provided by the invention, its purpose are to overcome that existing circulating water culture system cost is high, large, the pipeline of taking up room connect complicated, difficult in maintenance, operating cost is high, the shortcoming of poor processing effect.

For solving the problems of the technologies described above, the technical solution adopted in the present invention is as follows:

A kind of combined modular circulating water culture system, comprise belt machinery filter, the protein segregating unit that is connected with the mechanical filter of belt, the Drip device that is connected with protein segregating unit, the bacteria bed that is connected with Drip device, the ultraviolet sterilizer that is connected with bacteria bed, described belt machinery filter by water pump with in the water suction protein segregating unit, described Drip device is located at the bacteria bed top, the peak level of described protein segregating unit is higher than Drip device peak level, and the peak level of the peak level ultraviolet sterilizer of described bacteria bed is high; Also comprise a central electronic controller, described ultraviolet sterilizer and water pump all are connected with this central electronic controller.

Described belt machinery filter comprises housing, be located in the housing a fixing hang plate, be located at hang plate up and down the two ends turning cylinder, be sheathed on the outer filter cloth of hang plate and turning cylinder and drive the motor that turning cylinder rotates; This motor is connected with described central electronic controller; Described enclosure interior is provided with one for the standing groove that holds filtrate near the position at hang plate top; Described lower housing portion is provided with a delivery port, and this delivery port is connected with described water pump by pipeline.

The bottom of described belt machinery filtering casing body connects an outlet pipe, and this outlet pipe connects water pump, and this water pump connects a water inlet pipe, and this water inlet pipe is connected with described standing groove, and the delivery port of this water inlet pipe is aimed at the below of filter cloth; Water pump on the described belt machinery filter is connected with described central electronic controller.

The first straight long cylinder that two ends were communicated with respectively about described protein segregating unit comprised, the second straight length cylinder, the described water pump that is connected with belt machinery filter connects a pipeline, this device for cleaning pipeline is crossed the cross adapter and is connected respectively the first water inlet pipe, the second water inlet pipe, the 3rd water inlet pipe, the first water inlet pipe is connected with the bottom of the first straight long cylinder, the second water inlet pipe is connected with the bottom of the second straight long cylinder, the 3rd water inlet pipe is connected with the top of the first straight long cylinder, the second straight long cylinder respectively by the adapter of T font, and described the 3rd water inlet pipe is provided with by-pass valve control; The described first straight length cylinder passes through pipeline communication with the top of the second straight long cylinder, and this pipeline middle part connects a top-down drainpipe; The described first straight long cylinder, the second straight long cylinder are connected with Drip device top by tube connector respectively.

Described Drip device comprises housing, be located at the filter of housing internal upper part and be located at two tilt filtration plates of bottom in the housing, and this two tilt filtrations plate and housing bottom form a triangle; Described housing sidewall is provided with opening, and this opening is connected with a blower fan, and this blower fan is connected with described central electronic controller; All the other position filled biomass fillers of described enclosure interior; Described housing bottom is provided with a delivery port.

Described bacteria bed comprises two row's straight tubes, every row is respectively equipped with five straight tubes, the first straight tube, the second straight tube, the 3rd straight tube, the 4th straight tube, the 5th straight tube, the 6th straight tube, the 7th straight tube, the 8th straight tube, the 9th straight tube, the tenth straight tube, described the first straight tube, the second straight tube, the 3rd straight tube, the 4th straight tube, the 5th straight tube are communicated with respectively, mutually isolated between described the first straight tube, the second straight tube, the 3rd straight tube, the 4th straight tube and the 7th straight tube, the 8th straight tube, the 9th straight tube, the tenth straight tube, described the 5th straight tube and the 6th straight tube are interconnected; Be respectively equipped with lattice plate in the drainage in described each straight tube from top to bottom, the bottom is provided with dividing plate, and dividing plate is provided with ventilation hole, described straight tube outside with dividing plate and bottom between corresponding position be provided with air inlet; Described the first straight tube top is provided with water inlet, and described the tenth straight tube sidewall is provided with delivery port.

By the above-mentioned description of this invention as can be known, be compared with existing technology, the invention has the advantages that:

1, this combined modular circulating water culture system adopts the integrated combination conceptual design, with necessary mechanical filter machine, protein segregating unit, Drip device in the circulating water cultivation water treatment, carry out modular combination with a complete set of water technologies such as bacteria bed, ultraviolet sterilizers and become a monomer system, solved thoroughly that the cost that the single equipment system of traditional circulating water culture system complexity causes is high, large, the pipeline of taking up room connects complicated, difficult in maintenance, the shortcomings such as operating cost is high, poor processing effect.

2, this combined modular circulating water culture system is according to the design of water level height, need not the waterpower requirement, the permission current change, a water pump is finished the current running of all devices, thoroughly change the multistage highly energy-consuming design of drawing water of traditional circulation, greatly reduce the investment of unit and the operating cost of circulating water equipment.

3, the mobile modularized assembly of this combined modular circulating water culture system standard, install, dismantle very easy, do not change in the situation of the original cultivating system of client, only need just can finish in several hours the installation of complete circulation, traditional circulation then needs the time of several weeks even some months just can finish, and this combined modular circulating water culture system is simpler, practical.

4, all devices of this combined modular circulating water culture system all adopts combination of monomers medelling design, can select according to the size of breeding water body the quantity independent assortment of equipment, and scale of investment is changeable, reduces the blind investment risk.

5, the water technology technique of this combined modular circulating water culture system multiple tracks, the effluent quality indices all is better than natural waters water quality, and day rate of water make-up less than need not to change water in 3%, one year substantially.

Description of drawings

Fig. 1 is structural representation of the present invention;

Fig. 2 is that the belt machinery filter after the removal subelement splits structural representation;

Fig. 3 is the protein segregating unit structural representation;

Fig. 4 is the structural representation of C direction in Fig. 3;

Fig. 5 is the vertical view of Drip device;

Fig. 6 is the cutaway view of A-A direction in Fig. 5;

Fig. 7 is the cutaway view of B-B direction in Fig. 6;

Fig. 8 is the structural representation of bacteria bed;

Fig. 9 is the structural representation of D direction in Fig. 8;

Figure 10 is the structural representation of E direction in Fig. 8.

Embodiment

The specific embodiment of the present invention is described with reference to the accompanying drawings.

With reference to figure 1, a kind of combined modular circulating water culture system, comprise belt machinery filter 1, the protein segregating unit 2 that is connected with belt machinery filter 1, the Drip device 3 that is connected with protein segregating unit 2, the bacteria bed 4 that is connected with Drip device 3, the ultraviolet sterilizer 5 that is connected with bacteria bed 4, belt machinery filter 1 passes through water pump 6 with in the water suction protein segregating unit 2, Drip device 3 is located at the top of bacteria bed 4, the peak level of protein segregating unit 2 is higher than the peak level of Drip device 3, and the peak level of bacteria bed 4 is higher than the peak level of ultraviolet sterilizer 5; Also comprise a central electronic controller 7, ultraviolet sterilizer 5 and water pump 6 all are connected with this central electronic controller 7.

With reference to figure 1, Fig. 2, belt machinery filter 1 comprises housing 11, be located in the housing 11 a fixing hang plate 12, be located at hang plate two ends turning cylinder 13,14 12 about, be sheathed on hang plate 12 and turning cylinder 13,14 outer filter cloth (not shown)s and drive the motors 15 of turning cylinder 13,14 rotations; This motor 15 is connected with central electronic controller 7; Housing 11 interior positions near hang plate 12 tops are provided with one for the standing groove 19 that holds filtrate, the bottom of belt machinery filtering casing body 11 connects an outlet pipe 16, this outlet pipe 16 connects water pump 17, this water pump 17 connects a water inlet pipe 18, this water inlet pipe 18 is connected with standing groove 19 bottoms, and the delivery port of this water inlet pipe 18 is aimed at the below of filter cloth; Water pump 17 is connected with central electronic controller 7, and housing 11 bottoms are provided with a delivery port 10, and this delivery port 10 is connected with water pump 6 by pipeline.

With reference to figure 1, Fig. 3, Fig. 4, the first straight long cylinder 21 that two ends were communicated with respectively about protein segregating unit 2 comprised, the second straight long cylinder 22, water pump 6 connects a pipeline 23, this pipeline 23 connects respectively the first water inlet pipe 25 by cross adapter 24, the second water inlet pipe 26, the 3rd water inlet pipe 27, the first water inlet pipe 25 is connected with the bottom of the first straight long cylinder 21, the second water inlet pipe 26 is connected with the bottom of the second straight long cylinder 22, the 3rd water inlet pipe 27 is directly grown cylinder 21 with first respectively by the adapter of T font 28, the top of the second straight long cylinder 22 connects, and the 3rd water inlet pipe 27 is provided with by-pass valve control 29; The first straight long cylinder 21 is communicated with by pipeline 20 with the top of the second straight long cylinder 22, and these pipeline 20 middle parts connect a top-down drainpipe 200; First straight long cylinder the 21, second straight long cylinder 22 is connected with the top of Drip device 3 by tube connector 210,220 respectively.

With reference to figure 1, Fig. 5, Fig. 6, Fig. 7, Drip device 3 comprises housing 31, be located at the filter 32 of housing 31 internal upper parts and be located at the two tilt filtration plates 33,34 of housing 31 interior bottoms, and this two tilt filtrations plate 33,34 and housing bottom form a triangle; Housing 31 sidewalls are provided with opening 35, and this opening 35 is connected with a blower fan 36, and this blower fan 36 is connected with central electronic controller 7; Housing 31 inner all the other position filled biomass fillers; Housing 31 bottoms are provided with a delivery port 37.

With reference to figure 1, Fig. 8, Fig. 9, Figure 10, bacteria bed 4 comprises two row's straight tubes, every row is respectively equipped with five straight tubes, the first straight tube 411, the second straight tube 412, the 3rd straight tube 413, the 4th straight tube 414, the 5th straight tube 415, the 6th straight tube 421, the 7th straight tube 422, the 8th straight tube 423, the 9th straight tube 424, the tenth straight tube 425, the first straight tube 411, the second straight tube 412, the 3rd straight tube 413, the 4th straight tube 414, the 5th straight tube 415 is communicated with respectively, the first straight tube 411, the second straight tube 412, the 3rd straight tube 413, the 4th straight tube 414 and the 7th straight tube 422, the 8th straight tube 423, the 9th straight tube 424,425 of the tenth straight tubes are mutually isolated, the 5th straight tube 415, the 6th straight tube 421 is interconnected; Be respectively equipped with lattice plate 43 in the drainage in each straight tube from top to bottom, the bottom is provided with dividing plate 44, and dividing plate 44 is provided with ventilation hole 45, and the straight tube outside is provided with air inlet 46 corresponding to the position between dividing plate 44 and bottom; This air inlet 46 is used for passing into oxygen, be connected with aerator, the first straight tube 411 tops are provided with water inlet 47, this water inlet 47 is corresponding with delivery port 37 on the above-mentioned Drip device 3, the tenth straight tube 425 sidewalls are provided with delivery port 49, this delivery port 49 is connected with ultraviolet sterilizer 5, and ultraviolet sterilizer 5 is provided with delivery port 51.

A kind of course of work of combined modular circulating water culture system is as follows: referring to figs. 1 to Figure 10, water is in belt machinery filter 1, come to enter the bottom of housing 11 through filter cloth, along with turning cylinder 13,14 rotation, filtrate on the filter cloth enters standing groove 19, when the filtrate on filter cloth surface too much, cause water to enter or less when entering housing 11 bottom, central electronic controller 7 control water pumps 17, the water of housing 11 bottoms is extracted out, water inlet pipe 18 enters by standing groove 19 bottoms, and filter cloth cleaned, along with turning cylinder 13,14 rotation, filtrate on the filter cloth directly is cleaned and enters in the standing groove 19, so water just can enter housing 11 bottoms by filter cloth preferably, the water of housing 11 bottoms is through delivery port 10, and pass through water pump 6 with in the water suction protein segregating unit 2, water is from the first straight long cylinder 21, rise gradually in the second straight long cylinder 22 bottoms, the foam volt is followed liter waterborne at water surface in uphill process, final foam is discharged from drainpipe 200, in this first straight long 21 simultaneously, the second straight long cylinder 22 is respectively by tube connector 210,220, water enters in the Drip device 3 from the bottom, because the peak level of Drip device 3 is lower than the peak level of protein segregating unit 2, so water can directly enter in the Drip device 3; The water that enters in the Drip device 3 passes through filter 32, tilt filtration plate 33,34 and biologic packing material, in this simultaneously under the effect of blower fan 36, wind enters from opening 35, utilize the air water colliding technique to remove carbonic acid gas, nitrogen, the pernicious gases such as sulphide, stablized the pH value in the water body, water in the Drip device 3 finally flows out from delivery port 37, enter in the bacteria bed 4 by water inlet 47, and with this by the first straight tube 411, the second straight tube 412, the 3rd straight tube 413, the 4th straight tube 414, the 5th straight tube 415, the 6th straight tube 421, the 7th straight tube 422, the 8th straight tube 423, the 9th straight tube 424, the tenth straight tube 425, in drainage under the effect of lattice plate 43, can better remove impurity, while is under the effect of the aerator at air inlet 46 places, can pass into oxygen and optimize better water quality, final water flows out from delivery port 49, and enter and carry out disinfection by ultraviolet light in the ultraviolet sterilizer 5, finally to discharge from the delivery port 51 of ultraviolet sterilizer 5, the water of discharge can be directly used in cultivation.

Above-mentioned only is the specific embodiment of the present invention, but design concept of the present invention is not limited to this, allly utilizes this design that the present invention is carried out the change of unsubstantiality, all should belong to the behavior of invading protection domain of the present invention.

Claims (6)

1. combined modular circulating water culture system, it is characterized in that: comprise belt machinery filter, the protein segregating unit that is connected with the mechanical filter of belt, the Drip device that is connected with protein segregating unit, the bacteria bed that is connected with Drip device, the ultraviolet sterilizer that is connected with bacteria bed, described belt machinery filter by water pump with in the water suction protein segregating unit, described Drip device is located at the bacteria bed top, the peak level of described protein segregating unit is higher than Drip device peak level, and the peak level of the peak level ultraviolet sterilizer of described bacteria bed is high; Also comprise a central electronic controller, described ultraviolet sterilizer and water pump all are connected with this central electronic controller.
2. a kind of combined modular circulating water culture system according to claim 1 is characterized in that: described belt machinery filter comprises housing, be located in the housing a fixing hang plate, be located at hang plate up and down the two ends turning cylinder, be sheathed on the outer filter cloth of hang plate and turning cylinder and drive the motor that turning cylinder rotates; This motor is connected with described central electronic controller; Described enclosure interior is provided with one for the standing groove that holds filtrate near the position at hang plate top; Described lower housing portion is provided with a delivery port, and this delivery port is connected with described water pump by pipeline.
3. a kind of combined modular circulating water culture system according to claim 2, it is characterized in that: the bottom of described belt machinery filtering casing body connects an outlet pipe, this outlet pipe connects water pump, this water pump connects a water inlet pipe, this water inlet pipe is connected with described standing groove, and the delivery port of this water inlet pipe is aimed at the below of filter cloth; Water pump on the described belt machinery filter is connected with described central electronic controller.
4. a kind of combined modular circulating water culture system according to claim 1, it is characterized in that: the first straight long cylinder that two ends were communicated with respectively about described protein segregating unit comprised, the second straight long cylinder, the described water pump that is connected with belt machinery filter connects a pipeline, this device for cleaning pipeline is crossed the cross adapter and is connected respectively the first water inlet pipe, the second water inlet pipe, the 3rd water inlet pipe, the first water inlet pipe is connected with the bottom of the first straight long cylinder, the second water inlet pipe is connected with the bottom of the second straight long cylinder, the 3rd water inlet pipe is directly grown cylinder with first respectively by the adapter of T font, the top of the second straight long cylinder connects, and described the 3rd water inlet pipe is provided with by-pass valve control; The described first straight length cylinder passes through pipeline communication with the top of the second straight long cylinder, and this pipeline middle part connects a top-down drainpipe; The described first straight long cylinder, the second straight long cylinder are connected with Drip device top by tube connector respectively.
5. a kind of combined modular circulating water culture system according to claim 1, it is characterized in that: described Drip device comprises housing, be located at the filter of housing internal upper part and be located at two tilt filtration plates of bottom in the housing, and this two tilt filtrations plate and housing bottom form a triangle; Described housing sidewall is provided with opening, and this opening is connected with a blower fan, and this blower fan is connected with described central electronic controller; All the other position filled biomass fillers of described enclosure interior; Described housing bottom is provided with a delivery port.
6. a kind of combined modular circulating water culture system according to claim 1, it is characterized in that: described bacteria bed comprises two row's straight tubes, every row is respectively equipped with five straight tubes, the first straight tube, the second straight tube, the 3rd straight tube, the 4th straight tube, the 5th straight tube, the 6th straight tube, the 7th straight tube, the 8th straight tube, the 9th straight tube, the tenth straight tube, described the first straight tube, the second straight tube, the 3rd straight tube, the 4th straight tube, the 5th straight tube is communicated with respectively, described the first straight tube, the second straight tube, the 3rd straight tube, the 4th straight tube and the 7th straight tube, the 8th straight tube, the 9th straight tube, mutually isolated between the tenth straight tube, described the 5th straight tube and the 6th straight tube are interconnected; Be respectively equipped with lattice plate in the drainage in described each straight tube from top to bottom, the bottom is provided with dividing plate, and dividing plate is provided with ventilation hole, described straight tube outside with dividing plate and bottom between corresponding position be provided with air inlet; Described the first straight tube top is provided with water inlet, and described the tenth straight tube sidewall is provided with delivery port.
CN201310010419.0A 2013-01-11 2013-01-11 Combined modular circulating water cultivating system CN103070127B (en)

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Publication number Priority date Publication date Assignee Title
CN103385217A (en) * 2013-05-18 2013-11-13 海南省水产研究所 Artificial propagation expanding device of alcyonacea
CN104430134A (en) * 2014-11-28 2015-03-25 金贝尔(福建)水环境工程有限公司 Efficient, energy-saving and land-saving factory circulating water high-density breeding system
WO2015089789A1 (en) * 2013-12-19 2015-06-25 深圳市兴日生实业有限公司 Expandable module-combined filter
CN106234290A (en) * 2016-07-26 2016-12-21 福建省闽东水产研究所 It is applicable to the circulating water culture system of Carnis Pseudosciaenae

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RO126457A2 (en) * 2009-11-23 2011-07-29 Institutul Naţional De Cercetare-Dezvoltare Pentru Maşini Şi Instalaţii Destinate Agriculturii Şi Industriei Alimentare Modular recirculating system for super-intensive fish breeding
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CN102742536A (en) * 2012-07-24 2012-10-24 中国科学院南海海洋研究所 Ecological seawater rare fish factorization circulating water aquaculture system
CN203136806U (en) * 2013-01-11 2013-08-21 金贝尔(福建)水环境工程有限公司 Combined modular recirculating aquaculture system

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US7682503B1 (en) * 2005-11-04 2010-03-23 Joe Norris Filtration and surge with no moving parts
CN2910324Y (en) * 2005-12-29 2007-06-13 许仁道 Micro solid/liquid separator
CN2884887Y (en) * 2006-03-24 2007-04-04 姜崇 Ecological breeding system with closed circulation
CN2930281Y (en) * 2006-04-30 2007-08-08 余炳炎 Built-in water quality treating device of aquarium
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Publication number Priority date Publication date Assignee Title
CN103385217A (en) * 2013-05-18 2013-11-13 海南省水产研究所 Artificial propagation expanding device of alcyonacea
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CN104430134A (en) * 2014-11-28 2015-03-25 金贝尔(福建)水环境工程有限公司 Efficient, energy-saving and land-saving factory circulating water high-density breeding system
CN104430134B (en) * 2014-11-28 2017-01-04 金贝尔(福建)水环境工程有限公司 A kind of energy-efficient industrial circulating water high-density cultivation system saved land
CN106234290A (en) * 2016-07-26 2016-12-21 福建省闽东水产研究所 It is applicable to the circulating water culture system of Carnis Pseudosciaenae

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Inventor after: Yan Kuoqiu

Inventor after: Xiang Kun

Inventor after: Tang Yushi

Inventor after: Wei Fuzeng

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Free format text: CORRECT: INVENTOR; FROM: YAN KUOQIU TO: YAN KUOQIU XIANG KUN TANG YUSHI WEI FUZENG

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PE01 Entry into force of the registration of the contract for pledge of patent right

Denomination of invention: Combined modular circulating water cultivating system

Effective date of registration: 20200107

Granted publication date: 20140723

Pledgee: Ningde branch of Bank of Xiamen Co., Ltd

Pledgor: Jinbeier (Fujian) Water Environment Engineering Co., Ltd.

Registration number: Y2020980000034