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CN-224205964-U - Automatic basket lifting device for aquaculture

CN224205964UCN 224205964 UCN224205964 UCN 224205964UCN-224205964-U

Abstract

The utility model relates to the technical field of aquaculture, in particular to an automatic basket lifting device for aquaculture, which comprises a basket lifting frame, a winding wheel, a winding and unwinding rolling force mechanism and a binding belt, wherein the winding wheel is connected to the basket lifting frame in a rotating manner in the up-down direction, the winding and unwinding rolling force mechanism is used for driving the winding wheel to rotate, the binding belt is wound on the winding wheel and is used for being connected with a feeding basket, the winding and unwinding rolling force mechanism is arranged on the basket lifting frame, and the output end of the winding and unwinding rolling force mechanism is connected with the winding wheel in a driving manner.

Inventors

  • LIN HONGHAO
  • WU ZHONGBIN
  • LIN CHONGWEI
  • DENG WENZHONG

Assignees

  • 广东公道人农业技术服务有限公司

Dates

Publication Date
20260508
Application Date
20250606

Claims (10)

  1. 1. The automatic basket lifting device for aquaculture is characterized by comprising a basket lifting frame (1), a winding wheel (2) rotatably connected to the basket lifting frame (1) along the up-down direction, a winding and unwinding rolling force mechanism (3) for driving the winding wheel (2) to rotate, and a binding belt (4) wound on the winding wheel (2), wherein the binding belt (4) is used for being connected with a feeding basket, the winding and unwinding rolling force mechanism (3) is arranged on the basket lifting frame (1), and the output end of the winding and unwinding rolling force mechanism (3) is in driving connection with the winding wheel (2).
  2. 2. An automatic basket apparatus for aquaculture according to claim 1 further comprising a basket position detecting assembly (5) for detecting the height position of the basket.
  3. 3. An automatic basket device for aquaculture according to claim 2, characterized in that the basket position detecting assembly (5) comprises a basket sensing magnet (51) arranged on the strap (4), a basket hall sensor (52) cooperating with the basket sensing magnet (51).
  4. 4. An automatic basket device for aquaculture according to claim 1, further comprising power means (6) for powering the retracting and extending rolling force mechanism (3).
  5. 5. An automatic basket apparatus for aquaculture according to claim 4, wherein the power supply means (6) comprises a movable electric output unit (61) and a fixed electric input unit (62), the movable electric output unit (61) comprises a moving base (611) slidably connected in the horizontal direction above the winding and unwinding force mechanism (3), a traveling power mechanism (612) for driving the moving base (611) to slide, a moving power supply (613) provided on the moving base (611), at least two output-end spring electrodes (614) provided on the moving base (611), the fixed electric input unit (62) comprises at least two input-end pipe electrodes (621) provided on the winding and unwinding force mechanism (3) for cooperating with the output-end spring electrodes (614), each output-end spring electrode (614) is electrically connected with the moving power supply (613) respectively, each input-end pipe electrode (621) is electrically connected with the winding and unwinding force mechanism (3) respectively, and each output-end spring electrode (614) is electrically connected with the input-end pipe electrode (614) correspondingly and electrically connected with the input-end spring electrode (621) when the output-end spring electrode (614) moves above the input-end pipe electrode (621).
  6. 6. The automatic basket device for aquaculture according to claim 5, wherein the mobile power supply (613) is a rechargeable battery module.
  7. 7. An automatic basket device for aquaculture according to claim 6 further comprising an automatic charging device (7) for automatically charging the rechargeable battery module.
  8. 8. An automatic basket device for aquaculture according to claim 7, characterized in that the automatic charging device (7) comprises at least two charging output electrodes (71) respectively connected with the mains electricity, at least two charging input electrodes (72) arranged on the mobile seat (611) respectively connected with the rechargeable battery module, each charging input electrode (72) being respectively in contact with and electrically conductive with the corresponding charging output electrode (71) when the charging input electrode (72) moves in front of the charging output electrode (71).
  9. 9. The automatic basket device for aquaculture according to claim 8, wherein the automatic charging device (7) further comprises an electrode mounting frame (73), an adaptive swing rod (74) arranged on the electrode mounting frame (73) in a swinging manner along the front-back direction, a first compression spring (75) and a second compression spring (76), the charging output end electrode (71) is arranged on the adaptive swing rod (74) in a swinging manner along the front-back direction, the first compression spring (75) is clamped between the adaptive swing rod (74) and the electrode mounting frame (73), and the second compression spring (76) is clamped between the charging output end electrode (71) and the adaptive swing rod (74).
  10. 10. An automatic basket device for aquaculture according to claim 1 further comprising camera recognition means (8).

Description

Automatic basket lifting device for aquaculture Technical field: the utility model relates to the technical field of aquaculture, in particular to an automatic basket lifting device for aquaculture. The background technology is as follows: Along with population growth and living standard improvement, the demands of people for seafood such as fish and shrimp are also increasing, so that the demands of people for fish and shrimp can be solved, the development burden of ocean resources can be reduced, the water ecological environment can be better protected, and more aquaculture of fish and shrimp is started at present. Because the feeding of fishes and shrimps is correspondingly changed due to factors such as different growth stages and seasonal variation, and if the feeding of fishes and shrimps is too full or insufficient, the health and growth of fishes and shrimps are adversely affected, most of the current methods are to lift the feeding basket and observe the residual condition of the feed in the feeding basket, so that the next feeding amount of the feed is correspondingly adjusted, the feeding is better realized, the situation of overfeeding or underfeeding of fishes and shrimps is prevented, and most of the current methods are to lift the feeding basket in water in a manual mode so as to observe, so that the operation is more troublesome, more manpower is required, and some feeding baskets are positioned at the middle position of the culture pond or at the position with larger water depth and are inconvenient to lift. The utility model comprises the following steps: The utility model aims to provide an automatic basket lifting device for aquaculture, which can replace a manual mode to automatically lift and replace a feeding basket and reduce the workload of operators. In order to achieve the aim, the automatic basket lifting device for aquaculture comprises a basket lifting frame, a winding belt wheel connected to the basket lifting frame in a rotating mode in the up-down direction, a winding and unwinding rolling force mechanism for driving the winding belt wheel to rotate, and a binding belt wound on the winding belt wheel, wherein the binding belt is used for being connected with a material throwing basket, the winding and unwinding rolling force mechanism is arranged on the basket lifting frame, and the output end of the winding and unwinding rolling force mechanism is connected with the winding belt wheel in a driving mode. In a further improvement of the scheme, the utility model further comprises a basket position detection assembly for detecting the height position of the basket. The further improvement to above-mentioned scheme does, throw basket position detection subassembly including setting up in the tie throw basket induction magnet, with throw basket induction magnet matched with throw basket hall sensor. In a further improvement of the above scheme, the utility model further comprises a power supply device for supplying power to the winding and unwinding rolling force mechanism. The power supply device comprises a movable electric output assembly and a fixed electric input assembly, wherein the movable electric output assembly comprises a movable seat, a traveling power mechanism, a movable power supply and at least two output end spring electrodes, the movable seat is connected above a winding and unwinding rolling force mechanism in a sliding mode along the horizontal direction, the traveling power mechanism is used for driving the movable seat to slide, the movable power supply is arranged on the movable seat, the at least two output end spring electrodes are arranged on the movable seat, the fixed electric input assembly comprises at least two input end pipe electrodes, the at least two input end pipe electrodes are arranged on the winding and unwinding rolling force mechanism and are used for being matched with the output end spring electrodes, each output end spring electrode is electrically connected with the movable power supply, each input end pipe electrode is electrically connected with the winding and unwinding rolling force mechanism, and when the output end spring electrode moves to the upper side of the input end pipe electrode, each output end spring electrode is in contact with and is electrically conducted with the corresponding input end pipe electrode. The scheme is further improved in that the mobile power supply is a rechargeable battery module. The utility model further comprises an automatic charging device for automatically charging the rechargeable battery module. The automatic charging device comprises at least two charging output end electrodes respectively connected with the mains supply and at least two charging input end electrodes arranged on the movable seat and respectively electrically connected with the rechargeable battery module, wherein when the charging input end electrodes move to the front of the charging output end electrodes, each charging