CN107188283B

CN107188283B - Fish pond disinfection equipment for fish genetic engineering

Info

Publication number: CN107188283B
Application number: CN201710519090.9A
Authority: CN
Inventors: 倪维维
Original assignee: Anhui Polytechnic University
Current assignee: Anhui Polytechnic University
Priority date: 2017-06-30
Filing date: 2017-06-30
Publication date: 2021-08-27
Anticipated expiration: 2037-06-30
Also published as: CN107188283A

Abstract

The invention belongs to the technical field of fish genetic engineering, and particularly relates to fishpond disinfection equipment for fish genetic engineering. The invention aims to provide a fish pond disinfection device for fish genetic engineering, which can disinfect in a specified range, disinfect uniformly, save disinfection materials and reduce disinfection cost. In order to solve the technical problem, the invention provides fish pond disinfection equipment for fish genetic engineering, which comprises a slide rail, a mounting seat, a roller, a guide rod, a top plate, a winch, a lifting rope, a guide sleeve, a left bearing seat, a right bearing seat, a first motor, a screw rod, a nut and the like; the slide rail sets up subaerial at the pond left and right sides, and the slide rail is pour subaerial through the mode that concrete was pour, and the slide rail top is equipped with the mount pad. The fishpond disinfection equipment for fish genetic engineering provided by the invention achieves the effects of disinfection in a specified range, uniform disinfection, disinfection material saving and disinfection cost reduction.

Description

Fish pond disinfection equipment for fish genetic engineering

Technical Field

The invention belongs to the technical field of fish genetic engineering, and particularly relates to fishpond disinfection equipment for fish genetic engineering.

Background

The gene engineering is also called gene splicing technology and DNA recombination technology, and is characterized by that it uses molecular genetics as theoretical basis, and uses the modern methods of molecular biology and microbiology as means, and makes the genes with different sources according to the predesigned blueprint to construct hybrid DNA molecule in vitro, then introduces it into living cell so as to change the original genetic characteristics of organism, obtain new variety and produce new product. The gene engineering technology provides a powerful means for the research of the structure and the function of the gene.

The fish genetic engineering comprises genetic engineering breeding of economic fish and developmental biology research by taking fish as a model system. The Chinese subject group has gained remarkable achievement and continues to work further since its creation.

After the fish gene engineering experiment, the fish with recombinant genes is generally put into a fish pond for breeding, the fish pond must be disinfected at variable times, and the current fish pond disinfection has the defects of incapability of disinfecting in a specified range, uneven disinfection, waste of disinfection materials and increase of disinfection cost, so that the development of fish pond disinfection equipment for fish gene engineering, which can disinfect in a specified range, disinfect uniformly, save the disinfection materials and reduce the disinfection cost, is urgently needed.

Disclosure of Invention

(1) Technical problem to be solved

The invention aims to overcome the defects that the disinfection in a specified range cannot be realized, the disinfection is not uniform, disinfection materials are wasted, and the disinfection cost is increased in the conventional fish pond disinfection, and the technical problem to be solved by the invention is to provide fish pond disinfection equipment for fish genetic engineering, which can realize the disinfection in the specified range, the uniform disinfection, the sterilization material saving and the disinfection cost reduction.

(2) Technical scheme

In order to solve the technical problem, the invention provides fish pond disinfection equipment for fish genetic engineering, which comprises a slide rail, a mounting seat, rollers, a guide rod, a top plate, a winch, a lifting rope, a guide sleeve, a left bearing seat, a right bearing seat, a first motor, a screw rod, a nut, a hopper, an electric control valve, a lifting rod, a water shield, a rotating shaft, a large belt pulley, a blade, a second motor, a small belt pulley and a flat belt, wherein the slide rail is arranged on the ground on the left side and the right side of a fish pond, the slide rail is poured on the ground in a concrete pouring mode, the mounting seat is arranged above the slide rail, the rollers are symmetrically arranged on the front side and the rear side of the bottom of the mounting seat, the rollers are connected with the mounting seat in a bolt connection mode, the rollers are in sliding fit with the slide rail, the guide rod is connected in the middle of the top of the mounting seat in a welding connection mode, the top plates are connected between the guide rods on the two sides in a welding connection mode, the middle part of the top plate is provided with a first through hole, a winch is arranged on the top plate above the first through hole and connected with the top plate in a bolt connection mode, a lifting rope is wound on the winch, guide rods on the left side and the right side are respectively provided with a guide sleeve, the guide sleeves are in sliding fit with the guide rods, a cross rod is connected between the two guide sleeves in a welding connection mode, the left side and the right side of the bottom of the cross rod are respectively and vertically connected with a hanging rod, the hanging rods are connected with the cross rod in a welding connection mode, bearing seats are symmetrically arranged on the left side and the right side of the bottom of the cross rod between the two hanging rods and connected with the cross rod in a welding connection mode, a first motor is arranged on the right side of the bearing seat on the right side and connected with the cross rod in a bolt connection mode, a lead screw is arranged between the two bearing seats, an output shaft of the first motor is connected with the right end of the lead screw through a coupler, and a nut is arranged on the lead screw between the two bearing seats, the nut and lead screw cooperation, the nut bottom is connected with the hopper through welded connection's mode, the hopper top sets up for uncovered formula, the discharge gate department of hopper bottom is equipped with automatically controlled valve, the jib lower extreme is connected with the water cover through welded connection's mode, it has the feed opening to open in the middle of the water cover top, water cover bottom sets up for uncovered formula, the middle part is equipped with many pivots in the water cover, every pivot is all along the axial extension that is on a parallel with the water cover, the front side of every pivot all stretches out the water cover outside and is connected with big belt pulley, spline connection's mode and big belt pulley connection are passed through in the pivot, be located the pivot of water cover inside part and be equipped with the blade along the even interval of circumference of pivot, every blade all passes through welded connection's mode and pivot fixed connection, the second motor is installed to the top front side of water cover, the output shaft of second motor passes through shaft coupling and little belt pulley fixed connection, little belt respectively with every big belt pulley between be connected with the flat belt.

Preferably, still including the rubber slab, water cover bottom is connected with the rubber slab all around, and the rubber slab passes through the mode of screw connection and water cover fixed connection.

Preferably, the hoisting machine further comprises a travel switch, the travel switch is horizontally arranged on the mounting seat positioned on the inner side of the guide rod and connected with the mounting seat in a screw connection mode, and the travel switch is connected with the hoisting machine in an electric connection mode.

Preferably, the blade further comprises second through holes, the second through holes are uniformly and alternately formed in the blade, and the second through holes are circular.

Preferably, the lifting rope is a steel wire rope.

Preferably, the first motor and the second motor are both servo motors.

The working principle is as follows: when the fishpond needs to be disinfected, the quicklime is poured into the hopper from the top of the hopper. Promote the mount pad back-and-forth movement, the gyro wheel rolls around on the slide rail, so can remove the front and back position of water cover, when the water cover moved the pond position that needs the disinfection, start the hoist engine reversal and put the lifting rope to grow, the horizontal pole moves down after the lifting rope is put to grow, water cover and sliding sleeve move down thereupon, treat that the water cover contacts bottom the pond, the hoist engine is closed in the time. And then the first motor is started to rotate forwards or reversely to drive the screw rod to rotate forwards or reversely, the screw rod can drive the nut to move leftwards or rightwards by rotating forwards or reversely, and the hopper can move along with the screw rod. The electric control valve can be opened in the moving process of the hopper, and the quicklime in the hopper falls down from the discharge port of the hopper and then falls onto the water surface in the water cover through the discharge port. And then the second motor is started, the second motor rotates to drive the small belt pulley to rotate, the small belt pulley rotates to drive the large belt pulley to rotate through the flat belt, and the rotating shaft and the blades rotate along with the small belt pulley. The blade rotates and stirs the water in the water cover, so that the quick lime and the water are quickly mixed, the quick lime is distributed more uniformly, and the disinfection efficiency is improved. After the disinfection, the hoisting machine is started to rotate forwardly to wind the lifting rope, the cross rod moves upwards after the lifting rope is wound, the water cover moves upwards along with the water cover, when the water cover is higher than the water surface of the fishpond, the hoisting machine is closed, the mounting seat is moved again to move other positions for disinfection, so that a certain region of the fishpond can be appointed for disinfection, the disinfection quality is improved, and the material waste is avoided.

Because still including the rubber slab, the water cover bottom is connected with the rubber slab all around, and the rubber slab passes through mode and water cover fixed connection of screw connection, and when the contact of water cover bottom and pond bottom surface, because the rubber slab has stronger toughness and elasticity, so can make the contact of water cover and pond bottom surface inseparabler, improved the sealed effect of water cover, make the inside water of water cover and the outside water of water cover better isolation, improve the disinfection quality in pond indirectly.

Because still including travel switch, be located the inboard mount pad of guide arm on horizontal installation travel switch, travel switch passes through the mode of screw connection and is connected with the mount pad, travel switch is connected with the hoist engine through the mode of electricity connection, when the sliding sleeve moves down and touches travel switch, the hoist engine stops, avoids the overlength that the lifting rope was put, leads to the winding thing of lifting rope to take place.

Because the blade is also provided with the second through holes, the second through holes are uniformly arranged on the blade at intervals, the second through holes are circular, and the second through holes can reduce the resistance of water when the blade rotates, thereby effectively reducing the energy consumption of the second motor and achieving the effect of energy conservation.

Because the lifting rope is a steel wire rope, and the steel wire rope is made of a plurality of thin steel wires, even if the steel wire rope is broken due to long service life, the whole steel wire rope cannot be broken suddenly, and the process is favorable for finding problems early and replacing the steel wire rope early. Secondly, the rope has the advantages of firmness and toughness, has longer service life than common ropes, and is lighter in weight and convenient to use.

Because first motor and second motor are servo motor, servo motor has the low, the noise is low, stable and anti overload capacity's advantage of generating heat.

(3) Advantageous effects

The fishpond disinfection equipment for fish genetic engineering provided by the invention achieves the effects of disinfection in a specified range, uniform disinfection, disinfection material saving and disinfection cost reduction.

Drawings

Fig. 1 is a first front view structure diagram of the present invention.

Fig. 2 is a right-side view structural schematic diagram of the slide rail and the mounting seat of the invention.

Fig. 3 is a schematic perspective view of a first water cover according to the present invention.

Fig. 4 is a front view of the water cover of the present invention.

Fig. 5 is a schematic perspective view of a first embodiment of the shaft and blade of the present invention.

Fig. 6 is a schematic perspective view of a second water shield according to the present invention.

Fig. 7 is a second front view structure diagram of the present invention.

Fig. 8 is a schematic perspective view of a second embodiment of the shaft and blade of the present invention.

The labels in the figures are: 1-ground, 2-fishpond, 3-slide rail, 4-mounting seat, 5-roller, 6-guide rod, 7-top plate, 8-first through hole, 9-winch, 10-lifting rope, 11-guide sleeve, 12-cross rod, 13-right bearing seat, 14-first motor, 15-screw rod, 16-nut, 17-hopper, 18-electric control valve, 19-suspension rod, 20-water cover, 21-discharge port, 22-rotating shaft, 23-big belt pulley, 24-blade, 25-second motor, 26-small belt pulley, 27-flat belt, 28-rubber plate, 29-travel switch and 30-second through hole.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A fish pond disinfection device for fish genetic engineering is shown in figures 1-8 and comprises a slide rail 3, a mounting seat 4, a roller 5, a guide rod 6, a top plate 7, a winch 9, a lifting rope 10, a guide sleeve 11, a left bearing seat, a right bearing seat, a first motor 14, a lead screw 15, a nut 16, a hopper 17, an electric control valve 18, a suspender 19, a water shield 20, a rotating shaft 22, a large belt pulley 23, a blade 24, a second motor 25, a small belt pulley 26 and a flat belt 27, wherein the slide rail 3 is arranged on the ground 1 at the left side and the right side of a fish pond 2, the slide rail 3 is poured on the ground 1 in a concrete pouring mode, the mounting seat 4 is arranged above the slide rail 3, the roller 5 is symmetrically arranged at the front side and the rear side of the bottom of the mounting seat 4, the roller 5 is connected with the mounting seat 4 in a bolt connection mode, the roller 5 is in sliding fit with the slide rail 3, the guide rod 6 is connected in a welding connection mode in the middle of the top of the mounting seat 4, the top of the guide rods 6 at two sides is connected with a top plate 7 in a welding connection mode, the middle of the top plate 7 is provided with a first through hole 8, the top plate 7 above the first through hole 8 is provided with a winch 9, the winch 9 is connected with the top plate 7 in a bolt connection mode, a lifting rope 10 is wound on the winch 9, guide sleeves 11 are arranged on the guide rods 6 at the left side and the right side respectively, the guide sleeves 11 are in sliding fit with the guide rods 6, a cross rod 12 is connected between the two guide sleeves 11 in a welding connection mode, the left side and the right side of the bottom of the cross rod 12 are vertically connected with a hanging rod 19, the hanging rod 19 is connected with the cross rod 12 in a welding connection mode, bearing seats are symmetrically arranged at the bottom of the cross rod 12 between the two hanging rods 19, the bearing seats are connected with the cross rod 12 in a welding connection mode, the right side of the bearing seat at the right side is provided with a first motor 14, and the first motor 14 is connected with the cross rod 12 in a bolt connection mode, a screw rod 15 is arranged between the two bearing seats, an output shaft of a first motor 14 is connected with the right end of the screw rod 15 through a coupling, a nut 16 is arranged on the screw rod 15 between the two bearing seats, the nut 16 is matched with the screw rod 15, the bottom of the nut 16 is connected with a hopper 17 in a welding connection mode, the top of the hopper 17 is in an open type arrangement, an electric control valve 18 is arranged at a discharge port at the bottom of the hopper 17, the lower end of a suspender 19 is connected with a water cover 20 in a welding connection mode, a discharge port 21 is arranged in the middle of the top of the water cover 20, the bottom of the water cover 20 is in an open type arrangement, a plurality of rotating shafts 22 are arranged in the middle of the water cover 20, each rotating shaft 22 extends along the axial direction parallel to the water cover 20, the front side of each rotating shaft 22 extends out of the water cover 20 and is connected with a big belt pulley 23, the rotating shafts 22 are connected with the big belt pulley 23 in a spline connection mode, blades 24 are arranged on the rotating shaft 22 in the inner part of the water cover 20 at even intervals along the circumferential direction of the rotating shafts 22, every blade 24 all passes through welded connection's mode and pivot 22 fixed connection, and the second motor 25 is installed to the top front side of water cover 20, and the output shaft of second motor 25 passes through shaft coupling and belt lace 26 fixed connection, and the belt lace is connected with flat belt 27 respectively with between every big belt pulley 23.

The water cover is characterized by further comprising a rubber plate 28, the rubber plate 28 is connected to the periphery of the bottom of the water cover 20, and the rubber plate 28 is fixedly connected with the water cover 20 in a screw connection mode.

The travel switch device further comprises a travel switch 29, the travel switch 29 is horizontally arranged on the mounting seat 4 positioned on the inner side of the guide rod 6, the travel switch 29 is connected with the mounting seat 4 in a screw connection mode, and the travel switch 29 is connected with the winch 9 in an electric connection mode.

The blade 24 is provided with second through holes 30 at regular intervals, and the second through holes 30 are circular.

The lifting rope 10 is a steel wire rope.

The first motor 14 and the second motor 25 are both servo motors.

The working principle is as follows: when it is desired to disinfect the fish pond 2, quicklime is poured into the hopper 17 from the top of the hopper 17. The mounting seat 4 is pushed to move back and forth, the roller 5 rolls back and forth on the sliding rail 3, the front position and the rear position of the water shield 20 can be moved, when the water shield 20 moves to the position of the fishpond 2 to be disinfected, the winch 9 is started to rotate reversely to lengthen the lifting rope 10, the cross rod 12 moves downwards after the lifting rope 10 is lengthened, the water shield 20 and the sliding sleeve move downwards along with the water shield, and when the water shield 20 is in contact with the bottom of the fishpond 2, the winch 9 is closed. Then the first motor 14 is started to rotate forwards or reversely to rotate the screw rod 15 forwards or reversely, the screw rod 15 rotates forwards or reversely to drive the nut 16 to move leftwards or rightwards, and the hopper 17 moves along with the nut. The electronic control valve 18 can be opened in the moving process of the hopper 17, and the quicklime in the hopper 17 falls down from the discharge port of the hopper 17 and then falls onto the water surface in the water cover 20 through the discharge port 21. Then, the second motor 25 is started, the second motor 25 rotates to drive the small belt pulley 26 to rotate, the small belt pulley 26 rotates to drive the large belt pulley 23 to rotate through the flat belt 27, and the rotating shaft 22 and the blades 24 rotate along with the large belt pulley 23. The blades 24 rotate to stir water in the water cover 20, so that quick lime and the water are quickly mixed, the quick lime is distributed more uniformly, and the disinfection efficiency is improved. After disinfection, the winch 9 is started to rotate positively to wind the lifting rope 10, the cross rod 12 moves upwards after the lifting rope 10 is wound, the water cover 20 moves upwards along with the water cover, when the water cover 20 is higher than the water surface of the fishpond 2, the winch 9 is closed, the mounting seat 4 is moved again to move other positions for disinfection, so that a certain area of the fishpond 2 can be appointed for disinfection, the disinfection quality is improved, and material waste is avoided.

Because the fish pond water shield comprises the rubber plate 28, the rubber plate 28 is connected to the periphery of the bottom of the water shield 20, and the rubber plate 28 is fixedly connected with the water shield 20 in a screw connection mode, when the bottom of the water shield 20 is in contact with the bottom surface of the fish pond 2, the water shield 20 can be in contact with the bottom surface of the fish pond 2 more tightly because the rubber plate 28 has stronger toughness and elasticity, so that the sealing effect of the water shield 20 is improved, water inside the water shield 20 and water outside the water shield 20 are better isolated, and the disinfection quality of the fish pond 2 is indirectly improved.

Because the lifting rope winding device further comprises a travel switch 29, the travel switch 29 is horizontally arranged on the mounting seat 4 positioned on the inner side of the guide rod 6, the travel switch 29 is connected with the mounting seat 4 in a screw connection mode, the travel switch 29 is connected with the winch 9 in an electric connection mode, when the sliding sleeve moves downwards and touches the travel switch 29, the winch 9 stops, and the phenomenon that the lifting rope 10 is wound due to overlong length of the lifting rope 10 is avoided.

Because the blade 24 is provided with the second through holes 30 at regular intervals, the second through holes 30 are circular, the second through holes 30 can reduce the resistance of water when the blade 24 rotates, the energy consumption of the second motor 25 is effectively reduced, and the energy-saving effect is achieved.

Because the lifting rope 10 is a steel wire rope, and the steel wire rope is made of a plurality of thin steel wires, even if the steel wire rope is broken due to long service life, the whole steel wire rope cannot be broken suddenly, and the process is favorable for finding problems early and replacing the steel wire rope early. Secondly, the rope has the advantages of firmness and toughness, has longer service life than common ropes, and is lighter in weight and convenient to use.

Because the first motor 14 and the second motor 25 are both servo motors, the servo motors have the advantages of low heat generation, low noise, stability and strong overload resistance.

The above examples are merely representative of preferred embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, various changes, modifications and substitutions can be made without departing from the spirit of the present invention, and these are all within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A fishpond disinfection device for fish genetic engineering is characterized by comprising slide rails (3), mounting seats (4), idler wheels (5), guide rods (6), a top plate (7), a winch (9), lifting ropes (10), guide sleeves (11), a left bearing seat, a right bearing seat (13), a first motor (14), a lead screw (15), a nut (16), a hopper (17), an electric control valve (18), a suspender (19), a water shield (20), a rotating shaft (22), a large belt pulley (23), blades (24), a second motor (25), a small belt pulley (26) and a flat belt (27), wherein the slide rails (3) are arranged on the ground (1) on the left side and the right side of a fishpond (2), the slide rails (3) are poured on the ground (1) in a concrete pouring mode, the mounting seats (4) are arranged above the slide rails (3), the idler wheels (5) are symmetrically arranged on the front side and the rear side of the bottom of the mounting seats (4), the roller (5) is connected with the mounting seat (4) in a bolt connection mode, the roller (5) is in sliding fit with the sliding rail (3), the middle of the top of the mounting seat (4) is connected with a guide rod (6) in a welding connection mode, the tops of the guide rods (6) on two sides are connected with a top plate (7) in a welding connection mode, a first through hole (8) is formed in the middle of the top plate (7), a winch (9) is installed on the top plate (7) above the first through hole (8), the winch (9) is connected with the top plate (7) in a bolt connection mode, a lifting rope (10) is wound on the winch (9), guide rods (6) on the left side and the right side are respectively provided with a guide sleeve (11), the guide sleeves (11) are in sliding fit with the guide rods (6), a cross rod (12) is connected between the two guide sleeves (11) in a welding connection mode, and suspenders (19) are vertically connected on the left side and the right side of the bottom of the cross rod (12), the hanging rods (19) are connected with the cross rod (12) in a welding connection mode, bearing seats are symmetrically arranged at the bottom of the cross rod (12) between the two hanging rods (19) in the left-right direction, the bearing seats are connected with the cross rod (12) in a welding connection mode, a first motor (14) is arranged on the right side of the bearing seat on the right side, the first motor (14) is connected with the cross rod (12) in a bolt connection mode, a screw rod (15) is installed between the two bearing seats, an output shaft of the first motor (14) is connected with the right end of the screw rod (15) through a coupler, a nut (16) is arranged on the screw rod (15) between the two bearing seats, the nut (16) is matched with the screw rod (15), the bottom of the nut (16) is connected with a hopper (17) in a welding connection mode, the top of the hopper (17) is in an open type, an electric control valve (18) is arranged at a discharge port at the bottom of the hopper (17), the lower end of the hanging rod (19) is connected with a water cover (20) in a welding connection mode, a feed opening (21) is formed in the middle of the top of the water cover (20), the bottom of the water cover (20) is arranged in an open mode, a plurality of rotating shafts (22) are arranged in the middle of the inner portion of the water cover (20), each rotating shaft (22) extends in the axial direction parallel to the water cover (20), the front side of each rotating shaft (22) extends out of the outer side of the water cover (20) and is connected with a large belt pulley (23), the rotating shafts (22) are connected with the large belt pulleys (23) in a spline connection mode, blades (24) are uniformly arranged on the rotating shafts (22) on the inner portion of the water cover (20) at intervals along the circumferential direction of the rotating shafts (22), each blade (24) is fixedly connected with the rotating shafts (22) in a welding connection mode, a second motor (25) is installed on the front side of the top of the water cover (20), an output shaft of the second motor (25) is fixedly connected with a small belt pulley (26) through a coupler, and a flat belt (27) is connected between each small belt and each large belt pulley (23); the water cover is characterized by further comprising a rubber plate (28), the rubber plate (28) is connected to the periphery of the bottom of the water cover (20), and the rubber plate (28) is fixedly connected with the water cover (20) in a screw connection mode; the blade is characterized by further comprising second through holes (30), the blades (24) are uniformly provided with the second through holes (30) at intervals, and the second through holes (30) are circular.

2. The fish pond disinfection equipment for fish genetic engineering according to claim 1, further comprising a travel switch (29), wherein the travel switch (29) is horizontally installed on the installation seat (4) positioned on the inner side of the guide rod (6), the travel switch (29) is connected with the installation seat (4) in a screw connection mode, and the travel switch (29) is connected with the winch (9) in an electric connection mode.

3. The fish pond disinfection apparatus for fish genetic engineering according to claim 1, wherein the lifting rope (10) is a steel wire rope.

4. The fish pond disinfection apparatus for fish genetic engineering according to claim 1, wherein the first motor (14) and the second motor (25) are both servo motors.