CN209151990U - Aquaculture divides to automatic discharging intensive culture equipment - Google Patents
Aquaculture divides to automatic discharging intensive culture equipment Download PDFInfo
- Publication number
- CN209151990U CN209151990U CN201821452278.2U CN201821452278U CN209151990U CN 209151990 U CN209151990 U CN 209151990U CN 201821452278 U CN201821452278 U CN 201821452278U CN 209151990 U CN209151990 U CN 209151990U
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- Prior art keywords
- bridge
- output
- automatic
- intensive culture
- culture equipment
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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
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/80—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in fisheries management
- Y02A40/81—Aquaculture, e.g. of fish
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- Farming Of Fish And Shellfish (AREA)
Abstract
The utility model discloses aquacultures to divide to automatic discharging intensive culture equipment, its structure includes: device housing, mounting base, storage material bucket, automatic directional device, calutron, automatic directional device is located at the inner surface of device housing while being fixedly connected with device housing, the left side that mounting base is set to device housing upper surface is flexibly connected with device housing simultaneously, storage material bucket and automatic directional device are mutually perpendicular to penetrate through with automatic directional device simultaneously and connect, calutron is located at the perforation of both right side sides of automatic directional device and links together, when passing through charging to reach, shunting the structure inside output shelf makes feed point to output, enter different flat pads simultaneously, one is at the uniform velocity exported by special pipe, and another way enters the inside of dynamic pressurization device, feed is conveyed toward outer ring in a manner of ejection, so that feed scatter, To prevent water product from striving the purpose that food damages.
Description
Technical field
The utility model relates to aquaculture fields, set particularly with regard to a kind of aquaculture point to automatic discharging intensive culture
It is standby.
Background technique
Aquaculture is usually based on dry feed made of dregs of beans, and the feeding of present dry feed is usually with electric power gate
The folding of formula exports internal feed and the mode of this output is discharged in a manner of straight discharging substantially, and with such
Mode is easy to cause:
When carrying out aquaculture, the feed that the mode of blowdown exports is easily clumped together, and aquatic products are perceiving
The entrance of feed, can assemble and feed, so that aquatic products are hurt caused by aquatic products are fought for when being fed
Trace influences the cultivation quality of aquatic products, while the mode leaked, it is difficult to when effectively being separated feed and completing to export
The accurate control of amount, so that the intensive culture equipment to the feed exported automatically can be divided there is an urgent need to one kind.
Utility model content
In view of the deficiencies of the prior art, the utility model is achieved through the following technical solutions: aquaculture point to
Automatic discharging intensive culture equipment, structure include: device housing, mounting base, storage material bucket, automatic directional device, calutron, described
Automatic directional device is located at the inner surface of device housing while being fixedly connected with device housing, and the mounting base is set to device shell
The left side of body upper surface is flexibly connected with device housing simultaneously, the storage material bucket and automatic directional device be mutually perpendicular to simultaneously and oneself
Dynamic branching unit perforation connection, the calutron are located at the perforation of both right side sides of automatic directional device and link together, institute
The inside for stating calutron is equipped with for time interval and exports the module of electric signal.
As advanced optimizing for the utility model, the automatic directional device is equipped with the body of rod, baffle, twisting bar, crossbeam
Frame shunts output shelf, dynamic pressurization device, double end motor, propeller, installation cabin, and the cross beam frame is located at upper inside installation cabin
End is fixedly connected with installation cabin simultaneously, and the baffle is located at the inner side end of cross beam frame while being flexibly connected with cross beam frame, described
Twisting bar is mounted on the inner side end of baffle by way of hingedly connected, the body of rod be located at the end face outside of baffle and with
Baffle is fixedly welded, and the lower section for shunting output shelf and being set to baffle, the dynamic pressurization device is set to the lower section for shunting output shelf
And it is connected with output shelf perforation is shunted, the output shelf that shunts is set to the engagement connection of both left sides of double end motor, the spiral shell
Both right side sides that rotation paddle is located at double end motor are movably connected, and the outside of the propeller is equipped with defensive wire
Net, the propeller are the bar structure of double broad-leaved pieces.
As advanced optimizing for the utility model, the shunting output shelf is equipped with arc panel, card movable plate, exports cabin, is different
Shape pipe, diffusion frame, the arc panel are located at both centers of output shelf and are fixedly connected, and the card movable plate is located at the left and right in output cabin
Come both ends and weld together with output cabin, both lower end surfaces that the special pipe is set to output cabin connect, the diffusion
Frame is mounted on the front end face of special pipe by welding, and the special pipe is the narrow cylindrical tube knot in the wide downside in upper end
Structure.
As advanced optimizing for the utility model, the dynamic pressurization device be equipped with twisting seat, cam, displacement bar, spring,
Bridge, transmitting road, feeding rack, rifling, diffusion circle are pushed, the diffusion circle is located at the activity of both left end faces in transmitting road even
It connects, both inner surfaces that the rifling is located at transmitting road are flexibly connected, and the twisting seat, which is gap-matched, is mounted on transmitting
The rear surface in road, the feeding rack are located at both internal end surfaces in transmitting road hingedly connected together, and the promotion bridge is embedding
Enter both the inside emitted to match, the spring, which is located at, pushes both left end faces of bridge to weld together, institute's rheme
It moves bar and is mutually perpendicular to together with the two hingedly connected simultaneously with bridge is pushed, the cam is located at both left end faces of displacement bar
Activity cooperation, the rifling are the concaveconvex structure of revolution.
As advanced optimizing for the utility model, the catch bar is provided with resilient cushion, bridge, concave block, aisle, work
Dynamic seat, the retractable seat weld together in both right end faces of bridge, and the resilient cushion is wrapped in the outboard end of bridge
Both faces are gap-matched, and the aisle is set to both uper side surfaces of bridge and is flexibly connected, and the concave block is located at bridge
Both left end faces be fixed together, the concave block is that centre concaves dynamic rectangular configuration.
As advanced optimizing for the utility model, the feeding rack is equipped with bull stick, inclined plate, fixture block, protective plate, resets bullet
Spring, both rear and front ends that the protective plate is set to inclined plate are fixedly connected, and it is fixed that the bull stick is set to both right side sides of inclined plate
Connection, both upside end faces that the reset spring is set to inclined plate are fixed together, and the fixture block is mutually perpendicular to inclined plate
The two welds together, and the protective plate is the rectangular panel body equipped with oblique female structure.
Beneficial effect
The utility model is applied to aquaculture point to automatic discharging intensive culture equipment, when carrying out aquatic products intensive culture work, thing
First equipment is powered, opens simultaneously storage material bucket, and under the adjusting of time module, the electric signal of transmission makes the line in outside
Energizing magnetic is enclosed, and the magnet of the body of rod is drawn, while baffle is opened by twisting bar, and feed enters output length
Inside, the potential energy impact of feed tenesmus so that feed is fallen a little on card movable plate and arc panel, while with card movable plate and
Arc panel point is exported to flowing, by arc panel by the output smooth with special pipe, and meanwhile double end electrical power, the body of rod
Rotation, so that the screw rod of lower section rotates, the ripples that the water flow inside rearing pool generates, so that feed follows displacement to export, so
The inside for entering transmitting road exported afterwards by card movable plate, while when entering the inside in transmitting road, stopped by inclined plate, needs lower section
The neutral gear that generates when stretching backward of bridge, the inside that feed can be made to have space to enter to emit, inside transmitting road
After feed, reset spring pull-up inclined plate then carries out transmitting work, by the sShape features of cam, so that displacement bar pulls
Spring, when then cam rotates, bridge Rapid reset after convex portion disappears for the support of displacement bar, to hit feed spray
Out, the feed output of outer layers is completed, so that it is injured to prevent aquatic products from striving food.
The utility model, which mainly passes through, shunts matching for output shelf and dynamic pressurization device, when passing through charging, shunts output
Structure inside frame makes feed point to output, while entering different flat pads, and one is at the uniform velocity exported by special pipe, and
Another way enters the inside of dynamic pressurization device, conveys feed toward outer ring in a manner of ejection, so that feed scatter, to prevent
Sealing product is striven food and is damaged.
The utility model mainly passes through feeding rack, shunting output shelf matches, and passes through the spring itself inside feeding rack
Based on elastic potential energy will shunt output shelf output feed carry out detent, so as to emit once after, when needed
Circulate operation again is needed, so as to the more accurate control for forage volume.
Detailed description of the invention
Upon reading the detailed description of non-limiting embodiments with reference to the following drawings, other spies of the utility model
Sign, objects and advantages will become more apparent upon:
Fig. 1 is structural schematic diagram of the utility model aquaculture point to automatic discharging intensive culture equipment.
Fig. 2 is diagrammatic cross-section of the utility model aquaculture point to automatic discharging intensive culture equipment.
Fig. 3 is structural scheme of mechanism of the utility model aquaculture point to automatic discharging intensive culture equipment.
Fig. 4 divides the structural schematic diagram to the shunting output shelf of automatic discharging intensive culture equipment for the utility model aquaculture.
Fig. 5 divides the reset displacement structure to the dynamic pressurization device of automatic discharging intensive culture equipment for the utility model aquaculture
Schematic diagram.
Fig. 6 is the structural schematic diagram that pushes bridge of the utility model aquaculture point to automatic discharging intensive culture equipment.
Fig. 7 divides the structural schematic diagram to the feeding rack of automatic discharging intensive culture equipment for the utility model aquaculture.
In figure: device housing -1, mounting base -2, storage material bucket -3, automatic directional device -4, calutron -5, the body of rod -41,
Baffle -42, cross beam frame -44, shunts output shelf -45, dynamic pressurization device -46, double end motor -47, propeller-at twisting bar -43
48, cabin -49, arc panel -451, card movable plate -452, output cabin -453, special pipe -454, diffusion frame -456, twisting seat-are installed
461, cam -462, displacement bar -463, spring -464, push bridge -465, transmitting road -466, feeding rack -467, rifling -468,
Diffusion circle -469, resilient cushion -4651, bridge -4652, concave block -4653, aisle -4654, sliding seat -4655, bull stick -
4671, inclined plate -4672, fixture block -4673, protective plate -4674, reset spring -4675.
Specific embodiment
To be easy to understand the technical means, creative features, achievement of purpose, and effectiveness of the utility model, below
In conjunction with specific embodiment and Detailed description of the invention, the preferred embodiment of the utility model is further described.
Embodiment
Fig. 1 and Fig. 2 are please referred to, the utility model provides aquaculture point to automatic discharging intensive culture equipment, and structure includes:
Connection device shell 1, mounting base 2, storage material bucket 3, automatic directional device 4, calutron 5, the automatic directional device 4 are located at device
The inner surface of shell 1 is fixedly connected with device housing 1 simultaneously, and the left side that the mounting base 2 is set to 1 upper surface of device housing is same
When be flexibly connected with device housing 1, the storage material bucket 3 is mutually perpendicular to pass through with automatic directional device 4 simultaneously with automatic directional device 4
Lead to and connect, the calutron 5 is located at the perforation of both right side sides of automatic directional device 4 and links together, the calutron 5
Inside be equipped with for time interval and export the module of electric signal.
Referring to Fig. 3, the utility model provides aquaculture point to automatic discharging intensive culture equipment, structure includes: described
Automatic directional device 4 is equipped with the body of rod 41, baffle 42, twisting bar 43, cross beam frame 44, shunts output shelf 45, is dynamic pressurization device 46, double
Head motor 47, propeller 48, installation cabin 49, it is solid with installation cabin 49 simultaneously that the cross beam frame 44 is located at the upper end inside installation cabin 49
Fixed connection, the baffle 42 are located at the inner side end of cross beam frame 44 while being flexibly connected with cross beam frame 44, and the twisting bar 43 is logical
The mode for crossing hingedly connected is mounted on the inner side end of baffle 42, the body of rod 41 be located at the end face outside of baffle 42 and with gear
Plate 42 is fixedly welded, and the lower section for shunting output shelf 45 and being set to baffle 42, the dynamic pressurization device 46, which is set to, shunts output shelf
45 lower section and with shunt output shelf 45 perforation connect, it is described shunt output shelf 45 be set to double end motor 47 both left sides nibble
Connection is closed, both right side sides that the propeller 48 is located at double end motor 47 are movably connected, outside the propeller 48
Side is equipped with defensive wire mesh, and the propeller 48 is the bar structure of double broad-leaved pieces, and the right side of the body of rod 41 is equipped with
Magnet.
Referring to Fig. 4, the utility model provides aquaculture point to automatic discharging intensive culture equipment, structure includes: described
It shunts output shelf 45 and is equipped with arc panel 451, card movable plate 452, output cabin 453, special pipe 454, diffusion frame 456, the arc panel
451 be located at output shelf 453 center both is fixedly connected, the card movable plate 452 be located at output cabin 453 left and right come both ends and
Weld together with output cabin 453, both lower end surfaces that the special pipe 454 is set to output cabin 453 connect, the diffusion frame
456 are mounted on the front end face of special pipe 454 by welding, and the special pipe 454 is the narrow cylinder in the wide downside in upper end
Pipe structure, the output cabin 453 are smooth cylindrical structure.
Referring to Fig. 5, the utility model provides aquaculture point to automatic discharging intensive culture equipment, structure includes: described
Dynamic pressurization device 46 be equipped with twisting seat 461, cam 462, displacement bar 463, spring 464, push bridge 465, transmitting road 466, into
Expect frame 467, rifling 468, diffusion circle 469, both left end faces that the diffusion circle 469 is located at transmitting road 466 are flexibly connected, institute
It states rifling 468 and is located at the flexible connection of both inner surfaces in transmitting road 466, the twisting seat 461, which is gap-matched, to be mounted on
Emit the rear surface in road 466, the feeding rack 467 is located at both internal end surfaces in transmitting road 466 hingedly connected together, institute
It states and both the inside in the insertion transmitting of bridge 465 road 466 is pushed to match, the spring 464 is located at the left side for pushing bridge 465
Both end faces weld together, and the displacement bar 463 is mutually perpendicular to together with the two hingedly connected simultaneously with bridge 465 is pushed,
The cam 462 is located at the activity cooperation of both left end faces of displacement bar 463, and the rifling 468 is the concaveconvex structure of revolution.
Referring to Fig. 6, the utility model provides aquaculture point to automatic discharging intensive culture equipment, structure includes: described
Bridge 465 is pushed to be equipped with resilient cushion 4651, bridge 4652, concave block 4653, aisle 4654, sliding seat 4655, the sliding seat
4655 both the right end faces for being located at bridge 4652 weld together, and the resilient cushion 4651 is wrapped in the outboard end of bridge 4652
Both faces are gap-matched, and the aisle 4654 is set to both uper side surfaces of bridge 4652 and is flexibly connected, the concave block
4653 both the left end faces for being located at bridge 4652 are fixed together, and the concave block 4653 is the intermediate dynamic square that concaves
Shape structure.
Referring to Fig. 7, the utility model provides aquaculture point to automatic discharging intensive culture equipment, structure includes: described
Feeding rack 467 is equipped with bull stick 4671, inclined plate 4672, fixture block 4673, protective plate 4674, reset spring 4675, the protective plate
4674 both the rear and front ends for being set to inclined plate 4672 are fixedly connected, and it is solid that the bull stick 4671 is set to both right side sides of inclined plate 4672
Fixed connection, both upside end faces that the reset spring 4675 is set to inclined plate 4672 are fixed together, the fixture block 4673
It is mutually perpendicular to the two with inclined plate 4672 to weld together, the protective plate 4674 is the rectangular panel body equipped with oblique female structure.
When carrying out aquatic products intensive culture work, in advance equipment is powered, opens simultaneously storage material bucket 3, and in time module
Adjusting under, the electric signal of transmission makes the coil energizing magnetic in outside, and the magnet of the body of rod 41 is drawn, and is kept off simultaneously
Plate 42 is opened by twisting bar 43, and feed enters the inside of output long 453, the potential energy impact of feed tenesmus, so that feed
It falls a little on card movable plate 452 and arc panel 451, while being exported with card movable plate 452 and dividing to flowing for arc panel 451,
By arc panel 451 by the output smooth with special pipe 454, while double end motor 47 is powered, body of rod rotation, so that lower section
Screw rod 48 rotate, the ripples that the water flow inside rearing pool generates, so that feed follows displacement to export, then by card movable plate
The inside for entering transmitting road 466 of 452 outputs, while when entering the inside in transmitting road 466, stopped by inclined plate 4672, needs
The neutral gear that the bridge 4652 of lower section generates when stretching backward, can make feed have space to enter to emit 466 inside,
Emit full of after feed inside road 466,4675 pull-up inclined plate 4672 of reset spring then carries out transmitting work, passes through cam 462
SShape features so that displacement bar 463 pull spring 464, then cam 462 rotate when, convex portion is for displacement bar 463
4652 Rapid reset of bridge after support disappears completes the feed output of outer layers, to prevent aquatic products to hit feed ejection
It is injured that product strive food.
The utility model solves the problems, such as it is that the feed that the mode of blowdown exports is easily collected on when carrying out aquaculture
Together, and aquatic products can be assembled and feed in the entrance for perceiving feed, so that aquatic products are fought for when being fed
Caused by aquatic products there is scar, the mode for influencing the cultivation quality of aquatic products, while leaking, it is difficult to carry out feed effective
Separation and amount when completing output accurate control, so that there is an urgent need to one kind can divide intensive culture to the feed exported automatically
Equipment, the utility model, which mainly passes through, shunts matching for output shelf 45 and dynamic pressurization device 46, thus reach when passing through charging,
Shunting the structure inside output shelf makes feed point to output, while entering different flat pads, and one even by special pipe
Speed output, and another way enters the inside of dynamic pressurization device, conveys feed toward outer ring in a manner of ejection, so that feed point
It scatters, to prevent water product from striving the purpose that food damages.
Basic principles, main features, and advantages of the present invention, current row has been shown and described above
The technical staff of industry is described in above embodiments and description it should be appreciated that the present utility model is not limited to the above embodiments
Only illustrate the principles of the present invention, can not only under the premise of not departing from the spirit of the present invention or essential characteristic
The utility model is realized in other specific forms, will also have various changes and improvements, these changes and improvements both fall within requirement
The scope of the utility model of protection, therefore the utility model requires protection scope is by appended claims and its equivalent circle
It is fixed, rather than above description limits.
In addition, it should be understood that although this specification is described in terms of embodiments, but not each embodiment is only wrapped
Containing an independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should
It considers the specification as a whole, the technical solutions in the various embodiments may also be suitably combined, forms those skilled in the art
The other embodiments being understood that.
Claims (6)
1. aquaculture point is to automatic discharging intensive culture equipment, structure includes: device housing (1), mounting base (2), storage material bucket
(3), automatic directional device (4), calutron (5), the automatic directional device (4) are located at the inner surface of device housing (1)
It is fixedly connected simultaneously with device housing (1), the mounting base (2) is set to the left side of device housing (1) upper surface while and device
Shell (1) is flexibly connected, it is characterised in that:
The storage material bucket (3) and automatic directional device (4) are mutually perpendicular to penetrate through with automatic directional device (4) simultaneously and connect, described
Calutron (5) is located at the perforation of both right side sides of automatic directional device (4) and links together.
2. aquaculture according to claim 1 divides to automatic discharging intensive culture equipment, it is characterised in that: the automatic directional
Device (4) is equipped with the body of rod (41), baffle (42), twisting bar (43), cross beam frame (44), shunts output shelf (45), dynamic pressurization device
(46), double end motor (47), propeller (48), installation cabin (49), the cross beam frame (44) are located at the upper of installation cabin (49) inside
End is fixedly connected with installation cabin (49) simultaneously, and the baffle (42) is located at the inner side end of cross beam frame (44) while and cross beam frame
(44) it is flexibly connected, the twisting bar (43) is mounted on the inner side end of baffle (42), the bar by way of hingedly connected
Body (41) is located at the end face outside of baffle (42) and is fixedly welded with baffle (42), and the shunting output shelf (45) is set to baffle
(42) lower section, the dynamic pressurization device (46) are set to the lower section for shunting output shelf (45) and penetrate through with output shelf (45) are shunted
Connection, described shunt output shelf (45) are set to the engagement connection of both left sides of double end motor (47), and the propeller (48) is located at
Both right side sides of double end motor (47) are movably connected.
3. aquaculture according to claim 2 divides to automatic discharging intensive culture equipment, it is characterised in that: the shunting output
Frame (45) is equipped with arc panel (451), card movable plate (452), output cabin (453), special pipe (454), diffusion frame (456), the arc
Shape plate (451) is located at both centers of output shelf (45) and is fixedly connected, and the card movable plate (452) is located at a left side for output cabin (453)
The right side is come both ends and is welded together with output cabin (453), and the special pipe (454) is set to the lower end surface two of output cabin (453)
Person connects, and diffusion frame (456) is mounted on the front end face of special pipe (454) by welding.
4. aquaculture according to claim 2 divides to automatic discharging intensive culture equipment, it is characterised in that: the dynamic pressurization
Device (46) is equipped with twisting seat (461), cam (462), displacement bar (463), spring (464), pushes bridge (465), transmitting road
(466), feeding rack (467), rifling (468), diffusion circle (469), the diffusion circle (469) are located at the left side of transmitting road (466)
Both end faces are flexibly connected, and the rifling (468) is located at both inner surfaces of transmitting road (466) and is flexibly connected, the twisting
Seat (461) is gap-matched the rear surface for being mounted on transmitting road (466), and the feeding rack (467) is located at transmitting road (466)
Both internal end surfaces hingedly connected together, both described inside for pushing bridge (465) insertion transmitting road (466) matches
Close, the spring (464) be located at push bridge (465) both left end faces weld together, the displacement bar (463) with push away
Lever frame (465) be mutually perpendicular to and meanwhile both hingedly connected together, the cam (462) is located at the left side of displacement bar (463)
The activity cooperation of both end faces.
5. aquaculture according to claim 4 divides to automatic discharging intensive culture equipment, it is characterised in that: the promotion bridge
(465) resilient cushion (4651), bridge (4652), concave block (4653), aisle (4654), sliding seat (4655), the work are equipped with
Both right end faces that dynamic seat (4655) are located at bridge (4652) weld together, and the resilient cushion (4651) is wrapped in bridge
(4652) both end face outsides are gap-matched, and it is living that the aisle (4654) is set to both uper side surfaces of bridge (4652)
Dynamic connection, both left end faces that the concave block (4653) is located at bridge (4652) are fixed together.
6. aquaculture according to claim 4 divides to automatic discharging intensive culture equipment, it is characterised in that: the feeding rack
(467) it is equipped with bull stick (4671), inclined plate (4672), fixture block (4673), protective plate (4674), reset spring (4675), it is described anti-
Both rear and front ends that backplate (4674) is set to inclined plate (4672) are fixedly connected, and the bull stick (4671) is set to inclined plate (4672)
Both right side sides are fixedly connected, and both upside end faces that the reset spring (4675) is set to inclined plate (4672) are fixedly connected on one
It rises, the fixture block (4673) is mutually perpendicular to the two with inclined plate (4672) and welds together.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821452278.2U CN209151990U (en) | 2018-09-05 | 2018-09-05 | Aquaculture divides to automatic discharging intensive culture equipment |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201821452278.2U CN209151990U (en) | 2018-09-05 | 2018-09-05 | Aquaculture divides to automatic discharging intensive culture equipment |
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Publication Number | Publication Date |
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CN209151990U true CN209151990U (en) | 2019-07-26 |
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ID=67330633
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CN201821452278.2U Expired - Fee Related CN209151990U (en) | 2018-09-05 | 2018-09-05 | Aquaculture divides to automatic discharging intensive culture equipment |
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CN (1) | CN209151990U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111789077A (en) * | 2020-06-20 | 2020-10-20 | 安徽蓝田农业集团有限公司 | Feed supply device for turtle breeding |
-
2018
- 2018-09-05 CN CN201821452278.2U patent/CN209151990U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN111789077A (en) * | 2020-06-20 | 2020-10-20 | 安徽蓝田农业集团有限公司 | Feed supply device for turtle breeding |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190726 Termination date: 20200905 |
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CF01 | Termination of patent right due to non-payment of annual fee |