CN110558282A

CN110558282A - Self-vibrating net frog culturing platform

Info

Publication number: CN110558282A
Application number: CN201910966228.9A
Authority: CN
Inventors: 陈伟
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-10-12
Filing date: 2019-10-12
Publication date: 2019-12-13
Anticipated expiration: 2039-10-12
Also published as: CN110558282B

Abstract

The invention discloses a self-vibrating net frog culturing platform, which comprises a floating platform, a vibrating net, a feed hopper and an inclined platform, wherein the vibrating net is horizontally arranged right above the floating platform, the edge of the vibrating net is fixed and tightened, the inclined platform is arranged at the edge of the floating platform, a vibrating spring is hung on the lower surface of the vibrating net, and a vibrating ball is hung at the lower end of the vibrating spring; a feed hopper is fixedly arranged right above the middle part of the vibrating screen through a support, supporting legs of the support are arranged at the edge of the floating platform, a discharge port of the feed hopper is provided with a piston baffle, the sum of the tension of the vibrating screen and the gravity of the pull rope and the piston baffle is balanced with the tension of the pressure spring, and the piston baffle just blocks the discharge port; when the vibrating screen vibrates, the piston baffle is unbalanced in stress, and the discharge hole is exposed when the piston baffle moves upwards under the action of the tension of the pressure spring. According to the frog-raising platform, the feed bucket automatically feeds according to the jumping of the frog, the jumping of the frog drives the vibration of the vibration net, so that the bait bounces on the vibration net, like live bait, the bait is beneficial to feeding of the frog, the residue of the bait is reduced, and the elasticity of the vibration net is adjustable.

Description

Self-vibrating net frog culturing platform

Technical Field

The invention belongs to the technical field of animal breeding, and particularly relates to a self-vibrating net frog breeding platform.

background

The giant spiny frogs are difficult to breed in a large scale without eating dead bait, and the prior art usually adopts a water surface direct feeding method or a screen window feeding platform method. However, both methods have great defects, wherein the water surface direct feeding method mainly depends on the frog moving in water to drive water waves to vibrate so as to activate the bait, and then the frog feeds the bait as the live bait. The disadvantages are that: the bait waste is too large, the residual bait is more, and the bait is easily polluted by water, so that the frogs are sick. The screen window feeding method has the following disadvantages: when the individual of frog is small, the frog can not generate vibration to activate bait, and most froglets can not eat food and are hungry to die. When the individual of the frog is large, the plane of the screen window can be stepped by the frog to collapse, and the bait is rolled to the sunken position to form dead bait, so that the frog does not eat the bait, and the feed frog is wasted, and the yield of the feed frog is also low.

Disclosure of Invention

in order to solve the technical problems, the invention aims to provide a self-vibrating net frog culturing platform.

The purpose of the invention is realized as follows:

The utility model provides a self-vibrating net frog culturing platform which the key lies in: the vibrating screen is horizontally arranged right above the floating platform, the edge of the vibrating screen is fixed and tightened, the inclined platform is arranged at the edge of the floating platform, vibrating springs are hung on the lower surface of the vibrating screen and distributed in a rectangular array, and vibrating balls are hung at the lower ends of the vibrating springs; the feed hopper is fixedly arranged right above the middle part of the vibrating screen through a support, support legs of the support are arranged at the edge of the floating platform, a discharge port of the feed hopper is provided with a piston baffle, the piston baffle is hung with the top of the feed hopper through a pressure spring, the top of the feed hopper is provided with a sleeve pipe right facing the discharge port, the lower end of the sleeve pipe extends to the upper part of the discharge port and a discharge gap is reserved, and the pressure spring is arranged in the sleeve pipe; the lower surface of the piston baffle is connected with the middle part of the vibrating screen through a pull rope, the sum of the tension of the vibrating screen and the gravity of the pull rope and the piston baffle is balanced with the tension of the pressure spring, and the piston baffle just blocks the discharge hole; when the vibrating screen vibrates, the piston baffle is unbalanced in stress, and the discharge hole is exposed when the piston baffle moves upwards under the action of the tension of the pressure spring.

By adopting the structure, the floating platform floats on the surface of the pool, the frogs can jump on the vibrating screen along the inclined platform, when the frogs jump on the vibrating screen, the vibrating screen vibrates and transmits irregular vibration to the vibrating spring, and the vibrating spring and the vibrating ball can expand the vibration amplitude, so that the vibrating screen generates more obvious vibration, and the feeding of the frogs is prevented from being influenced because the vibrating screen is not obvious when the frogs are small or the frogs are few; when the middle part of the vibrating screen vibrates upwards, the pulling force of the pulling rope is weakened, the piston baffle is pulled up by the pressure spring to expose the discharge hole, the bait directly falls onto the vibrating screen from the processing hole, and when the middle part of the vibrating screen moves downwards or does not move, the piston baffle blocks the discharge hole; when the vibrating net vibrates, the baits on the vibrating net can be activated, so that the dead baits are changed into live baits, the frogs move all the time, and the feed intake of the frogs can be effectively improved.

Preferably, the edge of the vibrating screen is fixedly wound on a tightening adjusting roller, and the tightening adjusting roller is fixedly arranged on the edge of the floating platform. By adopting the structure, the elastic strength of the vibrating screen is adjusted by tightening the adjusting roller so as to adapt to the cultivation of different frogs in different periods and different sizes.

Preferably, the upper surface of the floating platform is provided with guide holes corresponding to the respective vibration balls, and the vibration balls vibrate up and down in the guide holes. By adopting the structure, the vibration ball is prevented from transversely swinging, so that the floating platform shakes left and right to destroy the balance of the floating platform.

Preferably, the bottom of each row of the guide holes is communicated with a sewage draining channel which is obliquely arranged downwards, and a sewage outlet of the sewage draining channel is plugged by a sealing plug. Adopt above-mentioned structure, prevent that long-term the use, tiny bait falls into the guiding hole and blocks up, leads to the vibration ball to lose the vibration effect. Meanwhile, sundries in the guide holes are convenient to clean.

Furthermore, the installation part of the ramp is hinged with the floating platform, the ramp is a buoyancy ramp, and the buoyancy pushes the ramp to rotate around the hinged part. The frog on the floating platform can be more, less and the floating platform can float up and down, so that the sloping platform can be kept level with the pool surface by adopting the structure, and the frog can be convenient to land all the time.

Preferably, the top of the inclined plane of the ramp is hinged with one side of a connecting plate, and the other side of the connecting plate is lapped on the edge of the vibrating screen. By adopting the structure, the frog is prevented from being clamped by the gap between the inclined platform and the vibrating net.

Preferably, a sunshade net is arranged right above the vibrating net, and four corners of the sunshade net are supported and fixed through the support. By adopting the structure, the sunshade net can shade hard light.

Preferably, a counterweight seat is fixedly arranged in the middle of the bottom surface of the floating platform. By adopting the structure, the sinking and floating depth of the floating platform can be adjusted, and the gravity center of the floating platform can be kept simultaneously, so that the floating platform is more stable in the pool body.

Has the advantages that:

1. After the feed is manually fed into the feed hopper once, the feed can be not fed for a long time, the feed hopper can automatically feed according to the jumping of frogs, the feed can be fed with frogs, the feed can not be fed without frogs, and the waste of bait is reduced.

2. The frog jumps and drives the vibration of the vibrating screen, and the vibration amplitude is expanded by the vibrating ball and the vibrating spring, so that the bait bounces on the vibrating screen, and as a live bait, the bait is beneficial to feeding of the frog, and the residue of the bait is reduced.

3. The elastic strength of the vibrating net can be adjusted according to frogs in different periods, and the vibrating net is prevented from being trampled by the frogs or becoming loose after long-term use, so that the elasticity is prevented from being influenced.

drawings

FIG. 1 is a schematic structural view of the present invention;

Description of reference numerals:

The device comprises a floating platform 1, a vibrating screen 2, a feed hopper 3, a film groove 3a, an inclined platform 4, a vibrating spring 5, a vibrating ball 6, a support 7, a piston baffle 8, a pressure spring 9, a pull rope 10, a tensioning adjusting roller 11, a guide hole 12, a sewage discharge channel 13, a sealing plug 14, a connecting plate 15, a sunshade screen 16 and a counterweight seat 17.

Detailed Description

The invention is further illustrated by the following examples and figures.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "top", "bottom", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience and simplicity of description, and does not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Examples

As shown in fig. 1: the utility model provides a self-vibrating net breeds frog platform comprises floating platform 1, vibrating screen 2, fodder fill 3 and sloping platform 4, 2 levels of vibrating screen are located directly over the floating platform 1, the fixed winding in edge of vibrating screen 2 is on tightening adjusting roll 11, and this tightening adjusting roll 11 is fixed to be located the edge of floating platform 1. A sunshade net 16 is arranged right above the vibrating net 2, and four corners of the sunshade net 16 are supported and fixed through the support 7. And a counterweight seat 17 is fixedly arranged in the middle of the bottom surface of the floating platform 1.

The ramp 4 is arranged at the edge of the floating platform 1, the installation part of the ramp 4 is hinged with the floating platform 1, the ramp 4 is a buoyancy ramp, and the buoyancy pushes the ramp 4 to rotate around the hinged part. The top of the inclined plane of the inclined platform 4 is hinged with one side of a connecting plate 15, and the other side of the connecting plate 15 is lapped on the edge of the vibrating screen 2.

The lower surface of the vibrating screen 2 is hung with vibrating springs 5, the vibrating springs 5 are distributed in a rectangular array, and the lower ends of the vibrating springs 5 are hung with vibrating balls 6; the feed hopper 3 is fixedly arranged right above the middle part of the vibrating screen 2 through a support 7, supporting legs of the support 7 are arranged at the edge of the floating platform 1, a discharge port of the feed hopper 3 is provided with a piston baffle 8, the piston baffle 8 is hung with the top of the feed hopper 3 through a pressure spring 9, the top of the feed hopper 3 is provided with a sleeve 3a right opposite to the discharge port, the lower end of the sleeve 3a extends to the upper part of the discharge port and a discharge gap is reserved, and the pressure spring is arranged in the sleeve 3 a; the lower surface of the piston baffle plate 8 is connected with the middle part of the vibrating screen 2 through a pull rope 10, the sum of the pulling force of the vibrating screen 2 and the gravity of the pull rope 10 and the piston baffle plate 8 is balanced with the pulling force of the pressure spring 9, and the piston baffle plate 8 just blocks the discharge hole; when the vibrating screen 2 vibrates, the piston baffle 8 is unbalanced in stress, and the discharge hole is exposed when the piston baffle moves upwards under the action of the tension of the pressure spring 9.

The upper surface of the floating platform 1 is provided with guide holes 12 corresponding to the vibration balls 6, and the vibration balls 6 vibrate up and down in the guide holes 12. The bottom of each row of the guide holes 12 is communicated with a sewage discharge channel 13 which is obliquely arranged downwards, and a sewage outlet of the sewage discharge channel 13 is plugged by a sealing plug 14.

Finally, it should be noted that the above-mentioned description is only a preferred embodiment of the present invention, and those skilled in the art can make various similar representations without departing from the spirit and scope of the present invention.

Claims

1. The utility model provides a self-vibrating net frog culturing platform which characterized in that: the feed hopper comprises a floating platform (1), a vibrating screen (2), a feed hopper (3) and an inclined platform (4), wherein the vibrating screen (2) is horizontally arranged right above the floating platform (1), the edge of the vibrating screen (2) is fixed and tightened, the inclined platform (4) is arranged at the edge of the floating platform (1), vibrating springs (5) are hung on the lower surface of the vibrating screen (2), the vibrating springs (5) are distributed in a rectangular array, and vibrating balls (6) are hung at the lower ends of the vibrating springs (5); the feed hopper (3) is fixedly arranged right above the middle part of the vibrating screen (2) through a support (7), supporting legs of the support (7) are arranged at the edge of the floating platform (1), a piston baffle (8) is arranged at a discharge hole of the feed hopper (3), the piston baffle (8) is hung and connected with the top of the feed hopper (3) through a pressure spring (9), a sleeve (3a) is arranged at the top of the feed hopper (3) and is over against the discharge hole, the lower end of the sleeve (3a) extends to the position above the discharge hole and a discharge gap is reserved, and the pressure spring is arranged in the sleeve (3 a); the lower surface of the piston baffle (8) is connected with the middle part of the vibrating screen (2) through a pull rope (10), the sum of the tension of the vibrating screen (2) and the gravity of the pull rope (10) and the piston baffle (8) is balanced with the tension of the pressure spring (9), and the piston baffle (8) just blocks the discharge hole; when the vibrating screen (2) vibrates, the piston baffle (8) is unbalanced in stress, and the discharge hole is exposed when the piston baffle moves upwards under the action of the tensile force of the pressure spring (9).

2. The self-vibrating net frog culturing platform according to claim 1, characterized in that: the edge of the vibrating screen (2) is fixedly wound on a tightening adjusting roller (11), and the tightening adjusting roller (11) is fixedly arranged on the edge of the floating platform (1).

3. The self-vibrating net frog culturing platform according to claim 1, characterized in that: the upper surface of the floating platform (1) is provided with guide holes (12) corresponding to the vibration balls (6), and the vibration balls (6) vibrate up and down in the guide holes (12).

4. The self-vibrating net frog culturing platform according to claim 3, characterized in that: the bottom of each row of guide holes (12) is communicated with a sewage discharge channel (13) which is obliquely arranged downwards, and a sewage outlet of the sewage discharge channel (13) is plugged by a sealing plug (14).

5. the self-vibrating net frog culturing platform according to claim 1, characterized in that: the installation part of the sloping platform (4) is hinged with the floating platform (1), the sloping platform (4) is a buoyancy sloping platform, and the buoyancy pushes the sloping platform (4) to rotate around the hinged part.

6. The self-vibrating net frog culturing platform according to claim 5, characterized in that: the top of the inclined plane of the inclined table (4) is hinged with one side of a connecting plate (15), and the other side of the connecting plate (15) is lapped on the edge of the vibrating screen (2).

7. The self-vibrating net frog culturing platform according to claim 1, characterized in that: a sunshade net (16) is arranged right above the vibrating net (2), and four corners of the sunshade net (16) are supported and fixed through the support (7).

8. The self-vibrating net frog culturing platform according to claim 1, characterized in that: and a counterweight seat (17) is fixedly arranged in the middle of the bottom surface of the floating platform (1).