CN112400766A

CN112400766A - Shrimp larvae throwing device with low damage rate and implementation method thereof

Info

Publication number: CN112400766A
Application number: CN202011337728.5A
Authority: CN
Inventors: 曹文柱; 曹义好; 曹红艳; 张旭; 曹红武
Original assignee: Ma'anshan Lvfeng Seed Industry Co ltd
Current assignee: Maanshan Nongchuang Seed Industry Co.,Ltd.
Priority date: 2020-11-25
Filing date: 2020-11-25
Publication date: 2021-02-26
Anticipated expiration: 2040-11-25
Also published as: CN112400766B

Abstract

The invention discloses a shrimp larvae releasing device with low damage rate and an implementation method thereof, belonging to the technical field of shrimp larvae releasing, and comprising a conveying wheel mechanism, a conveying motor, a shrimp larvae caching mechanism, a main support mechanism, an auxiliary support mechanism and a water tank, wherein the lower end of the conveying wheel mechanism is provided with the main support mechanism and the auxiliary support mechanism, the upper end of the conveying wheel mechanism is provided with the conveying motor, the conveying wheel mechanism is connected with the shrimp larvae caching mechanism, the water tank is arranged below the left end of the conveying wheel mechanism, the conveying wheel mechanism comprises an upper wheel body assembly, a middle wheel body assembly and a lower wheel body assembly, and at least one middle wheel body assembly is arranged between the upper wheel body assembly and the lower wheel body assembly. Both ends of the device are arranged below the water surface, the buffer tank can store water, the shrimp seeds are not separated from water in the whole throwing process, and the water provides lubrication and buffer for the shrimp seeds; the conveying motor is adopted to drive the shrimp larvae caching mechanism to rotate, and the shrimp larvae are conveyed statically, so that the shrimp larvae are not impacted and have small damage rate.

Description

Shrimp larvae throwing device with low damage rate and implementation method thereof

Technical Field

The invention relates to the technical field of shrimp larvae putting, in particular to a shrimp larvae putting device with low damage rate and an implementation method thereof.

Background

The improper stocking method is a key factor influencing the pond growing rate, nylon bags are adopted for oxygen flushing and automobile transportation in the long-distance transportation of the shrimp seedlings, and the water environment in the nylon bags changes along with the gradual extension of the time after sealing. After the shrimp seeds arrive at the destination, when the water environment of the culture pond is greatly different from the water quality of water for transporting the shrimp seeds, the survival rate of the shrimp seeds in the pond is reduced and even the shrimp seeds die in large quantities due to sudden change of the water environment if the shrimp seeds are not cultured properly, and the individual shrimp seeds are small, so that the damage rate of the shrimp seeds is high due to impact of water flow and impact and friction of the shrimp seeds and the side wall of equipment when the shrimp seeds are thrown in the pond.

Patent No. CN202010563760.9 discloses an adjustable speed-variable fry feeding device and a feeding method. What mainly used at present is that the board is thrown in the slope, pours the fry into and throws the board on and make the fry slide in the water prevent the loss, but such mode forms very easily and piles up, can't realize piling up and put in, can't guarantee that the fish is in the water state always when putting in simultaneously. The composition comprises: the fish storage tank can store fish and can change the fish storage speed, the fish distributor can distribute and distribute the fish, and the fish unloading tank and the water pumping device can be conveyed into water, wherein the fish storage tank, the fish distributor and the fish unloading tank are fixed on the base, and the water pumping device sprays water to the fish storage tank and the fish distributor. The invention is applied to fry throwing.

Patent No. CN201820565408.7 discloses a can prevent input device of fry damage, including input the cell body, put in the mouth, the one end of putting in the high-order top surface of cell body is equipped with the slope panel, the slope lower extreme of slope panel is fixed on the low level top surface, the below of low level top surface is equipped with puts in the mouth, and the interval of low level top surface and input cell body constitution is for putting in the discharge end of mouth, is equipped with the push-pull valve on the low level top surface, the inside bottom surface of input cell body is equipped with unloads the fish board, the outside top surface of casing still is equipped with the controller. The telescopic shaft of the oil cylinder drives the adjusting rod through the bearing piece, so that the front end of the fish unloading plate is movably inclined and turned up through the first transverse shaft, the gate valve arranged on the low-position top surface is started, fish fries are discharged from the low-position top surface and the discharge end formed by the throwing groove body in a downstream mode, local damage caused by vertical throwing of the fish fries is avoided, the survival rate is increased, and the phenomenon that the survival rate of the fish in the fish pond is reduced and even the fish is killed in large scale due to sudden change of water environment is effectively prevented.

However, the fry feeding device is not suitable for young shrimp fries, the influence of water flow on the shrimp fries is large, when the water flow impacts, the tail parts and the head parts of the shrimps are easily broken or damaged due to reverse water flow, and the shrimp fries are suddenly fed into the environment with different water quality after long-distance transportation, so that the fry feeding device is difficult to adapt, and the survival rate after feeding is reduced.

Disclosure of Invention

The invention aims to provide a shrimp larvae throwing device with low damage rate and an implementation method thereof, wherein two ends of the device are arranged below the water surface, a buffer tank can store water, the shrimp larvae are not separated from water in the whole throwing process, and the water provides lubrication and buffer for the shrimp larvae throwing; the shrimp larvae buffer mechanism is driven to rotate by the conveying motor, and the shrimp larvae are conveyed statically without impact and with small damage rate, so that the problems in the background technology are solved.

In order to achieve the purpose, the invention provides the following technical scheme: a shrimp larvae releasing device with low damage rate comprises a conveying wheel mechanism, a conveying motor, a shrimp larvae caching mechanism, a main support mechanism, an auxiliary support mechanism and a water tank, wherein the main support mechanism and the auxiliary support mechanism are arranged at the lower end of the conveying wheel mechanism, the conveying motor is arranged at the upper end of the conveying wheel mechanism, the shrimp larvae caching mechanism is connected onto the conveying wheel mechanism, and the water tank is arranged below the left end of the conveying wheel mechanism;

the conveying wheel mechanism comprises an upper wheel body assembly, a middle wheel body assembly and a lower wheel body assembly, at least one middle wheel body assembly is arranged between the upper wheel body assembly and the lower wheel body assembly, the upper wheel body assembly, the middle wheel body assembly and the lower wheel body assembly are consistent in structure, the lower wheel body assembly comprises a gear and a middle shaft, the two ends of the middle shaft are fixedly connected with the gear, and the middle shaft of the upper wheel body assembly is connected with a conveying motor;

the two ends of the upper wheel body assembly and the middle wheel body assembly are both rotatably connected with a main support mechanism through bearings, the two ends of the lower wheel body assembly are provided with side plates, the middle shaft is rotatably connected with the side plates through bearings, and the side plates are rotatably connected with an auxiliary support mechanism through bearings; the auxiliary support mechanism comprises a rocker and a rotating motor, one end of the rocker is fixedly connected with the rotating motor, and the other end of the rocker is fixedly connected with a side plate;

shrimp larvae buffer memory mechanism includes PVC rubber bottom plate, bracing piece, PVC rubber soft board and buffer memory groove, PVC rubber bottom plate has been cup jointed to the axis outside of conveying wheel mechanism, the butt fusion has the bracing piece on the surface of PVC rubber bottom plate, the upper end fixedly connected with PVC rubber soft board of bracing piece, the middle part of PVC rubber soft board forms the buffer memory groove.

Further, the main support mechanism comprises an upper support and a lower support, bolt holes are formed in the lower end of the upper support and the upper end of the lower support, and the upper support and the lower support are connected through bolts in a locking mode.

Furthermore, the gear of the upper wheel body assembly is connected with the gear of the middle wheel body assembly through a chain, and the gear of the middle wheel body assembly is connected with the gear of the lower wheel body assembly through a chain.

Further, the lower wheel body assembly is arranged below the water surface.

Furthermore, the buffer groove is a V-shaped groove with two closed ends and an outward opening.

Further, the conveying motor and the rotating motor are both waterproof motors.

Further, the rotating motor is fixedly mounted on the lower bracket through a bolt.

According to another aspect of the invention, an implementation method of a shrimp larvae putting device with low damage rate is disclosed, which comprises the following steps:

s101: the mounting device fixes the main support mechanism on the bank side, and adjusts the height of the main support mechanism according to the gradient of the bank side;

s102: the rotary motor drives the rocker to rotate clockwise to enable the lower wheel body assembly to be immersed in water in the pond;

s103: injecting water into the tank, driving the shrimp larvae caching mechanism to rotate anticlockwise by the conveying motor, injecting the water in the pond into the water tank, and placing the shrimp larvae in the water tank;

s104: and putting the shrimp seeds, driving the shrimp seed caching mechanism to rotate clockwise by the conveying motor, taking water and the shrimp seeds from the water tank by the caching groove in the rotation process, and putting the shrimp seeds into the pond through conveying.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the shrimp larvae releasing device with the low damage rate and the implementation method thereof, the arc-shaped buffer tank is made of the flexible PVC rubber material, so that collision damage of the side wall of equipment to the shrimp larvae in the releasing process can be reduced.

2. According to the shrimp larvae throwing device with the low damage rate and the implementation method thereof, two ends of the device are arranged below the water surface, the buffer tank can store water, the shrimp larvae are not separated from water in the whole throwing process, and the water provides lubricating and buffering effects for the shrimp larvae throwing.

3. According to the shrimp larvae throwing device with the low damage rate and the implementation method thereof, pond water and shrimp larvae are mixed before the shrimp larvae are thrown, the shrimp larvae adapt to the pond water quality in advance, and the survival rate is improved.

4. According to the shrimp larvae releasing device with low damage rate and the implementation method thereof, the conveying motor is adopted to drive the shrimp larvae caching mechanism to rotate, the shrimp larvae are conveyed statically, the shrimp larvae are not impacted, and the damage rate is low.

Drawings

Fig. 1 is an overall structure diagram of a shrimp larvae feeding device with a low damage rate according to the present invention;

FIG. 2 is a connection diagram of a conveying wheel mechanism of the shrimp larvae dropping device with low damage rate;

FIG. 3 is a structural view of a conveying wheel mechanism of the shrimp larvae feeding device with low damage rate;

fig. 4 is a structural diagram of an auxiliary support mechanism of the shrimp larvae dropping device with low damage rate;

fig. 5 is a structural diagram of an upper wheel body assembly of the shrimp larvae dropping device with low damage rate;

fig. 6 is a structural diagram of a shrimp larvae cache mechanism of the shrimp larvae feeding device with low damage rate of the invention;

fig. 7 is a flowchart of an implementation method of the shrimp larvae feeding device with low damage rate.

In the figure: 1. a conveying wheel mechanism; 11. an upper wheel body assembly; 12. a middle wheel body assembly; 13. a lower wheel body assembly; 131. a gear; 132. a middle shaft; 133. a side plate; 14. a chain; 2. a conveying motor; 3. a shrimp larvae caching mechanism; 31. a PVC rubber soleplate; 32. a support bar; 33. PVC rubber soft board; 34. a cache slot; 4. a main support mechanism; 41. an upper bracket; 42. a lower bracket; 43. bolt holes; 5. a sub-mount mechanism; 51. a rocker; 52. a rotating electric machine; 6. a water tank.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 2, a shrimp larvae that damage rate is low puts in device, including conveying wheel mechanism 1, conveying motor 2, shrimp larvae buffer gear 3, main support mechanism 4, vice support mechanism 5 and water tank 6, the lower extreme of conveying wheel mechanism 1 is provided with main support mechanism 4 and vice support mechanism 5, and conveying wheel mechanism 1's upper end installs conveying motor 2, it is rotatory to adopt conveying motor 2 to drive shrimp larvae buffer gear 3, static transport, the shrimp larvae do not have the impact, the damage rate is little, be connected with shrimp larvae buffer gear 3 on the conveying wheel mechanism 1, the left end below of conveying wheel mechanism 1 is provided with water tank 6.

Referring to fig. 3 to 5, the conveying wheel mechanism 1 includes an upper wheel assembly 11, a middle wheel assembly 12 and a lower wheel assembly 13, at least one middle wheel assembly 12 is disposed between the upper wheel assembly 11 and the lower wheel assembly 13, a gear 131 of the upper wheel assembly 11 is connected to a gear 131 of the middle wheel assembly 12 through a chain 14, the gear 131 of the middle wheel assembly 12 is connected to the gear 131 of the lower wheel assembly 13 through the chain 14, the upper wheel assembly 11, the middle wheel assembly 12 and the lower wheel assembly 13 have the same structure, the lower wheel assembly 13 is located below the water surface, the lower wheel assembly 13 includes the gear 131 and a middle shaft 132, the two ends of the middle shaft 132 are fixedly connected to the gears 131, and the middle shaft 132 of the upper wheel assembly 11 is connected to the conveying motor 2.

The two ends of the upper wheel body assembly 11 and the middle wheel body assembly 12 are both rotatably connected with a main support mechanism 4 through bearings, the main support mechanism 4 comprises an upper support 41 and a lower support 42, bolt holes 43 are respectively formed in the lower end of the upper support 41 and the upper end of the lower support 42, the upper support 41 and the lower support 42 are connected through bolts in a locking mode, the two ends of the lower wheel body assembly 13 are provided with side plates 133, the middle shaft 132 is rotatably connected with the side plates 133 through bearings, and the side plates 133 are rotatably connected with the auxiliary support mechanism 5 through bearings; the auxiliary support mechanism 5 comprises a rocker 51 and a rotating motor 52, the rotating motor 52 is fixedly mounted on the lower support 42 through bolts, the conveying motor 2 and the rotating motor 52 are both waterproof motors, one end of the rocker 51 is fixedly connected with the rotating motor 52, and the other end of the rocker 51 is fixedly connected with the side plate 133.

Referring to fig. 6, shrimp larvae cache mechanism 3 includes PVC rubber bottom plate 31, bracing piece 32, PVC rubber soft board 33 and buffer memory groove 34, PVC rubber bottom plate 31 has been cup jointed to the axis 132 outside of conveying wheel mechanism 1, the butt fusion has bracing piece 32 on PVC rubber bottom plate 31's the surface, the upper end fixedly connected with PVC rubber soft board 33 of bracing piece 32, adopt flexible PVC rubber materials to make curved buffer memory groove 34, can reduce the collision damage of input in-process equipment lateral wall to the shrimp larvae, buffer memory groove 34 is formed at the middle part of PVC rubber soft board 33, buffer memory groove 34 is the both ends seal and the opening V-arrangement groove outwards.

Referring to fig. 7, in order to better show the implementation process of the shrimp larvae dropping device with low damage rate, the embodiment now provides an implementation method of the shrimp larvae dropping device with low damage rate, which includes the following steps:

s101: the mounting device fixes the main support mechanism 4 on the bank side, and adjusts the height of the main support mechanism 4 according to the gradient of the bank side; when the height of the main support mechanism 4 is adjusted, the bolts connected between the upper support 41 and the lower support 42 are firstly detached, the upper support 41 is lifted upwards, the bolt holes 43 on the upper support 41 are aligned with the bolt holes 43 on the lower support 42, and then the bolts are locked, so that the height of the main support mechanism 4 is adjusted;

s102: the wheel body is adjusted, the rotating motor 52 drives the rocker 51 to rotate clockwise, the lower wheel body assembly 13 is immersed in water in the pond, pond water and shrimp seeds are mixed before the shrimp seeds are thrown in, the shrimp seeds adapt to the water quality of the pond in advance, and the survival rate is improved; the left end of the upper wheel body assembly 11 is immersed in water in the water tank 6, the two ends of the device are arranged below the water surface, the buffer tank 34 can store water, the shrimp seeds in the whole throwing process are not separated from water, and the water provides lubrication and buffer effects for the shrimp seeds; the heights of the upper wheel body assembly 11, the middle wheel body assembly 12 and the lower wheel body assembly 13 can be adjusted through the main bracket mechanism 4; thus, the slope between the upper wheel assembly 11 and the middle wheel assembly 12, and the slope between the middle wheel assembly 12 and the lower wheel assembly 13 are adjustable;

s103: injecting water into the tank, driving the shrimp larvae caching mechanism 3 to rotate anticlockwise by the conveying motor 2, injecting the water in the pond into the water tank 6, and placing the shrimp larvae in the water tank 6;

s104: and (3) putting the shrimp seeds, driving the shrimp seed caching mechanism 3 to rotate clockwise by the conveying motor 2, taking water and the shrimp seeds from the water tank 6 by the caching groove 34 in the rotation process, and putting the shrimp seeds into the pond through conveying.

In summary, the following steps: according to the shrimp larvae releasing device with low damage rate and the implementation method thereof, the arc-shaped buffer groove 34 is made of the flexible PVC rubber material, so that collision damage of the side wall of equipment to the shrimp larvae in the releasing process can be reduced; both ends of the device are arranged below the water surface, the buffer tank 34 can store water, the shrimp seeds are not separated from water in the whole throwing process, and the water provides lubrication and buffer effects for the shrimp seeds; before the shrimp seeds are put in, pond water and the shrimp seeds are mixed, so that the shrimp seeds adapt to the pond water quality in advance, and the survival rate is improved; the conveying motor 2 is adopted to drive the shrimp larvae caching mechanism 3 to rotate, and the shrimp larvae are conveyed statically, so that the shrimp larvae have no impact and small damage rate.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims

1. The shrimp larvae releasing device with the low damage rate is characterized by comprising a conveying wheel mechanism (1), a conveying motor (2), a shrimp larvae caching mechanism (3), a main support mechanism (4), an auxiliary support mechanism (5) and a water tank (6), wherein the main support mechanism (4) and the auxiliary support mechanism (5) are arranged at the lower end of the conveying wheel mechanism (1), the conveying motor (2) is installed at the upper end of the conveying wheel mechanism (1), the shrimp larvae caching mechanism (3) is connected to the conveying wheel mechanism (1), and the water tank (6) is arranged below the left end of the conveying wheel mechanism (1);

the conveying wheel mechanism (1) comprises an upper wheel body assembly (11), a middle wheel body assembly (12) and a lower wheel body assembly (13), at least one middle wheel body assembly (12) is arranged between the upper wheel body assembly (11) and the lower wheel body assembly (13), the upper wheel body assembly (11), the middle wheel body assembly (12) and the lower wheel body assembly (13) are consistent in structure, the lower wheel body assembly (13) comprises a gear (131) and a middle shaft (132), the two ends of the middle shaft (132) are fixedly connected with the gear (131), and the middle shaft (132) of the upper wheel body assembly (11) is connected with a conveying motor (2);

the two ends of the upper wheel body assembly (11) and the middle wheel body assembly (12) are both rotatably connected with a main support mechanism (4) through bearings, the two ends of the lower wheel body assembly (13) are provided with side plates (133), the middle shaft (132) is rotatably connected with the side plates (133) through bearings, and the side plates (133) are rotatably connected with an auxiliary support mechanism (5) through bearings; the auxiliary support mechanism (5) comprises a rocker (51) and a rotating motor (52), one end of the rocker (51) is fixedly connected with the rotating motor (52), and the other end of the rocker is fixedly connected with a side plate (133);

shrimp larvae buffer memory mechanism (3) are including PVC rubber bottom plate (31), bracing piece (32), PVC rubber soft board (33) and buffer memory groove (34), PVC rubber bottom plate (31) have been cup jointed to axis (132) outside of conveying wheel mechanism (1), the butt fusion has bracing piece (32) on the surface of PVC rubber bottom plate (31), the upper end fixedly connected with PVC rubber soft board (33) of bracing piece (32), buffer memory groove (34) is formed at the middle part of PVC rubber soft board (33).

2. The shrimp larvae putting device with low damage rate as claimed in claim 1, wherein the main support mechanism (4) comprises an upper support (41) and a lower support (42), bolt holes (43) are respectively formed at the lower end of the upper support (41) and the upper end of the lower support (42), and the upper support (41) and the lower support (42) are connected through bolt locking.

3. The shrimp larvae putting apparatus with low damage rate as claimed in claim 1, wherein the gear (131) of the upper wheel assembly (11) and the gear (131) of the middle wheel assembly (12) are connected by a chain (14), and the gear (131) of the middle wheel assembly (12) and the gear (131) of the lower wheel assembly (13) are connected by a chain (14).

4. A shrimp larvae dropping device with low injury rate as claimed in claim 1 wherein said lower wheel assembly (13) is under the water surface.

5. The shrimp larvae putting apparatus with low damage ratio as claimed in claim 1 wherein the buffer storage groove (34) is a V-shaped groove with closed ends and outward opening.

6. The shrimp larvae putting apparatus with low damage rate as claimed in claim 1, wherein the conveying motor (2) and the rotating motor (52) are waterproof motors.

7. The shrimp larvae dropping device with low damage rate as claimed in claim 1, wherein the rotating motor (52) is fixedly installed on the lower frame (42) by bolts.

8. A method for implementing a shrimp larvae putting apparatus with low damage rate as claimed in any one of claims 1 to 7, comprising the steps of:

s101: the mounting device fixes the main support mechanism (4) at the bank side, and adjusts the height of the main support mechanism (4) according to the gradient of the bank side;

s102: the wheel body is adjusted, and the rotating motor (52) drives the rocker (51) to rotate clockwise, so that the lower wheel body assembly (13) is immersed in the water in the pond;

s103: injecting water into the tank, driving the shrimp larvae caching mechanism (3) to rotate anticlockwise by the conveying motor (2), injecting the water in the pond into the water tank (6), and placing the shrimp larvae in the water tank (6);

s104: and (3) putting the shrimp seeds, driving the shrimp seed caching mechanism (3) to rotate clockwise by the conveying motor (2), taking water and the shrimp seeds from the water tank (6) by the caching groove (34) in the rotation process, and putting the shrimp seeds into the pond through conveying.