CN217694942U - High density is washing unit for pond protein foam of raising fish - Google Patents

Abstract

The utility model provides a high density is washing unit for fishpond protein foam. The floating device comprises two floating plates, wherein the lower parts of the two floating plates are fixedly connected with a tether, and one opposite sides of the two floating plates are fixedly connected with a blocking plate. The utility model provides a pair of high density is flushing device for pond protein foam, to this device design turn over board and a plurality of swash plate, this design adopts the foam filth to flow downwards along the swash plate, the board is turned over in the rotation, make two top of turning over the board press close to, turn over the mutual block connection of buckle on the board fixedly with two, such design can collect the discharge to the foam filth, can also make the foam filth flow become more smooth and easy, the board that turns over of block when the device is closed simultaneously has also reduced area, and still the design has rabbling mechanism, this design adopts the rotation of starter motor rotation control bull stick to drive the stirring leaf rotatory simultaneously, such design can reduce the condition that the jam appears in the foam filth discharge port, thereby the work efficiency of device has been improved.

Description

High density is washing unit for pond protein foam of raising fish

Technical Field

The utility model relates to a fishery breeding technology field especially relates to a high density is washing unit for pond protein foam.

Background

Pond fish culture is a technology and management work for producing and breeding fish by using a pond. The main breeding technology for pond fish culture comprises mixed culture and dense culture, alternate catching and alternate placing, daily management and comprehensive management, and the production process of pond fish culture is divided into three stages of fry breeding, fry and fingerling breeding and edible fish culture mainly by using an artificial method.

In the production process of pond fish culture, along with the extension of culture time, a large amount of foam sewage is always floated on the surface of a culture water body, the foam sewage can be accumulated and not scattered, the water body is sticky, the water surface permeability is poor, dissolved oxygen is reduced, and the content increase of toxic substances such as ammonia nitrogen, nitrite and the like is intensified, so that the foam sewage needs to be timely treated.

The scouring device for foam on the existing market exists in the working process, the foam dirt is easy to diffuse in the process of discharging the foam dirt by the traditional technology, so that the foam dirt is inconvenient to collect and discharge, the device can increase the area of the water occupying surface after the device is closed, the foam dirt with large volume is difficult to discharge by the traditional technology, the condition of blockage of the foam dirt discharging port is caused, and the working efficiency of the device is reduced.

Therefore, it is necessary to provide a high-density scouring device for protein foam in fishponds to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high density is washing unit for pond protein foam of raising fish has solved traditional technique and has diffused easily at the in-process foam filth of discharge foam filth to inconvenient collecting the discharge to the foam filth, the device probably increases the area of the surface of water after the device is closed simultaneously, and traditional technique is difficult to discharge the foam filth of bulky, thereby makes the condition that the jam appears in the foam filth discharge port, has reduced device work efficiency's problem.

For solving the technical problem, the utility model provides a pair of high density is washing unit for pond protein foam, including two showy boards, two the equal fixedly connected with tether in below of showy board, two the relative one side fixedly connected with interception board of showy board, the outer wall fixedly connected with blow off pipe of interception board, and the quantity of blow off pipe is two, the outer wall of interception board just is located the relative one side fixedly connected with water pump box of two blow off pipes, the internally mounted of water pump box has the immersible pump, and the quantity of immersible pump is two, there is the filter, two top of interception board through screw fixed mounting the filter, two the relative one side of showy board just is located the top fixedly connected with connecting plate of filter, two rabbling mechanism is all installed to the top of showy board, rabbling mechanism is including the stirring frame, the outer wall fixedly connected with locating plate of stirring frame, the inside threaded connection of locating plate has the bolt, the inside rotation of locating plate is connected with turns over the board, the outer fixed surface of turning over the board is connected with a plurality of swash plates, the top outer wall of turning over the board all rotates and is connected with the buckle, two the upper end seal of board has the sucking disc, the top of immersible pump is connected with the standpipe.

Preferably, the ports of the two submersible pumps are hermetically mounted with the interior of the interception plate, and the two sewage discharge pipes form a single circulation structure through the two submersible pumps and the interception plate.

Preferably, the front ends of the two bolts penetrate through the positioning plate and extend to the outer wall of the turning plate, and the inclined plates are distributed at equal intervals relative to the outer wall of the turning plate.

Preferably, the motor is fixedly mounted inside the right side of the stirring frame through screws, a rotating rod is connected to an output shaft key groove of the motor, and a plurality of stirring blades are fixedly connected to the outer wall of the rotating rod.

Preferably, the left end of the rotating rod is connected with the inner wall of the left side of the stirring frame through a bearing, and a plurality of stirring blades form a rotating structure with the rotating rod through a motor.

Preferably, the left side mirror image of standpipe distributes and has locating plate, bolt, turns over board, swash plate and buckle.

Compared with the prior art, the utility model provides a pair of high density is washing unit for fishpond protein foam has following beneficial effect:

to this device design turn over board and a plurality of swash plate, traditional design is compared to such design, this design adopts the foam filth to flow down along the swash plate, end discharge foam filth process back and rotate two and turn over the board, make two tops of turning over the board press close to, turn over the mutual block connection of buckle on the board with two again and fix, discharge can be collected to the foam filth to such design, can also make the foam filth flow and become more smooth and easy, the board that turns over of block has also reduced the area of the surface of water when the device is closed simultaneously, and still the design has rabbling mechanism, traditional design is compared to such design, this design adopts the rotation of starter motor rotation control bull stick to drive the stirring leaf rotatory simultaneously, the condition that blocks up can appear in such design can reduce the foam filth discharge port, thereby the work efficiency of device has been improved.

Drawings

FIG. 1 is a schematic structural view of a preferred embodiment of a high-density protein foam scouring device for fishponds provided by the present invention;

FIG. 2 is a front view of the flap shown in FIG. 1;

fig. 3 is a schematic sectional structural view of the stirring mechanism shown in fig. 1.

Reference numbers in the figures: 1. a floating plate; 2. a tether; 3. a interception plate; 4. a blow-off pipe; 5. a water pump tank; 6. a submersible pump; 7. a filter plate; 8. a connecting plate; 9. a stirring mechanism; 91. a stirring frame; 92. a motor; 93. a rotating rod; 94. stirring blades; 10. positioning a plate; 11. a bolt; 12. turning over a plate; 13. a sloping plate; 14. buckling; 15. a vertical tube; 16. and (4) sucking discs.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Referring to fig. 1 to 3, fig. 1 is a schematic structural diagram of a preferred embodiment of a high-density flushing device for protein foam in fishponds according to the present invention; FIG. 2 is a front view of the flap shown in FIG. 1; fig. 3 is a schematic sectional structure view of the stirring mechanism shown in fig. 1. The utility model provides a high density is scouring device for pond protein foam, including two showy boards 1, the equal fixedly connected with tether 2 in below of two showy boards 1, the relative one side fixedly connected with interception board 3 of two showy boards 1, the outer wall fixedly connected with blow off pipe 4 of interception board 3, and the quantity of blow off pipe 4 is two, interception board 3's outer wall and the relative one side fixedly connected with water pump box 5 that is located two blow off pipe 4, the internally mounted of water pump box 5 has immersible pump 6, and immersible pump 6's quantity is two, interception board 3's top has filter 7 through screw fixed mounting, two relative one side of showy board 1 and the top fixedly connected with connecting plate 8 that is located filter 7, rabbling mechanism 9 is all installed to two showy board 1's top, rabbling mechanism 9 is including stirring frame 91, the outer wall fixedly connected with locating plate 10 of stirring frame 91, the inside threaded connection of locating plate 10 has bolt 11, the internal rotation of locating plate 10 is connected with turns over board 12, the outer fixed surface of turning over board 12 is connected with a plurality of swash plate 13, the equal rotation of top outer wall of turning over board 12 is connected with buckle 14, the upper end sealing installation has immersible pump 15, the standpipe 15 that has the immersible pump 15.

The ports of the two submersible pumps 6 are hermetically arranged with the interior of the interception plate 3, and the two sewage discharge pipes 4 form a single circulation structure through the two submersible pumps 6 and the interception plate 3, so that the structure is simple and convenient to use.

The front end of two bolts 11 all runs through in the inside of locating plate 10 and extends to the outer wall that turns over board 12, and a plurality of swash plates 13 all distribute about the outer wall equidistance that turns over board 12, and such design can be collected the foam filth and discharge, can also make the foam filth outflow become more smooth and easy.

The motor 92 is fixedly installed in the right side of the stirring frame 91 through screws, the rotating rod 93 is connected to an output shaft key groove of the motor 92, and the stirring blades 94 are fixedly connected to the outer wall of the rotating rod 93.

The left end of the rotating rod 93 is connected with the inner wall of the left side of the stirring frame 91 through a bearing, and the stirring blades 94 form a rotating structure with the rotating rod 93 through the motor 92, so that the working efficiency of the device is improved.

The left side mirror image of standpipe 15 distributes and has locating plate 10, bolt 11, flap 12, swash plate 13 and buckle 14, and such design can be with two flap 12 block when the device closes to the area of surface of water has been reduced.

The utility model provides a pair of high density is washing unit for fishpond protein foam's theory of operation as follows:

the first step is as follows: firstly, the whole device needs to be placed on the water surface by a worker, then the tethers 2 on the two floating plates 1 are tied to the fixable objects, then the turnover plate 12 needs to be turned over and opened by the worker in sequence, the turnover plate 12 is adjusted to a proper angle, then the bolt 11 is rotated in sequence to fix the turnover plate 12, finally the worker needs to start the two submersible pumps 6, and the submersible pumps 6 begin to generate suction on the water surface.

The second step is that: firstly, the worker needs to drive the two motors 92 in sequence, the motor 92 is started to rotate and control the rotating rod 93 to rotate and simultaneously drive the stirring blades 94 to rotate, at the moment, the foam sewage on the water surface flows downwards along the directions of the inclined plates 13 along with the suction force of the two submersible pumps 6, flows into the stirring frame 91, is stirred by the stirring blades 94 in a rotating mode, flows downwards through the filter plate 7, and finally enters the sewage discharge pipe 4 to flow out.

The third step: after the foam sewage on the water surface is completely discharged, the worker needs to rotate the two turning plates 12 to enable the tops of the two turning plates 12 to be close to each other, and then the worker is fixedly connected with the buckles 14 on the two turning plates 12 in a clamping mode.

Compared with the prior art, the utility model provides a pair of high density is washing unit for fishpond protein foam has following beneficial effect:

to this device design have turn over board 12 and a plurality of swash plate 13, traditional design is compared to such design, this design adopts the foam filth to flow downwards along swash plate 13, end discharge foam filth process after rotate two and turn over board 12, make the top of two turning over board 12 press close to, again with two buckle 14 mutual block connection on the board 12 fixed, such design can be collected the foam filth and discharge, can also make the foam filth flow and become more smooth and easy, the board 12 that turns over of block has also reduced the area of surface of water when the device is closed simultaneously, and still the design has rabbling mechanism 9, traditional design is compared to such design, this design adopts the rotatory stirring leaf 94 rotation of actuating motor 92 rotation control bull stick 93 of starter simultaneously, such design can reduce the condition that the jam appears in the foam filth discharge port, thereby the work efficiency of device has been improved.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a high density is washing unit for fishpond protein foam, includes two floating plate (1), its characterized in that: the lower parts of the two floating plates (1) are fixedly connected with tethers (2), the opposite sides of the two floating plates (1) are fixedly connected with intercepting plates (3), the outer walls of the intercepting plates (3) are fixedly connected with drain pipes (4), the number of the drain pipes (4) is two, the outer walls of the intercepting plates (3) are fixedly connected with a water pump box (5) on the opposite sides of the two drain pipes (4), the inside of the water pump box (5) is provided with a submersible pump (6), the number of the submersible pumps (6) is two, the upper parts of the intercepting plates (3) are fixedly provided with filter plates (7) through screws, the two opposite sides of the floating plates (1) are fixedly connected with connecting plates (8) on the upper parts of the filter plates (7), the two upper parts of the floating plates (1) are provided with stirring mechanisms (9), the stirring mechanisms (9) comprise stirring frames (91), the outer walls of the stirring frames (91) are fixedly connected with positioning plates (10), the inner threads of the positioning plates (10) are connected with inclined plate (11), the inner parts of the positioning plates (10) are fixedly connected with a plurality of turning plates (12), and the outer surfaces of the turning plates (12) are connected with buckles (12), and vertical pipes (15) are hermetically arranged at the upper ends of the two submersible pumps (6), and sucking discs (16) are fixedly connected to the tops of the vertical pipes (15).

2. The high-density protein foam scouring device for the fishpond according to claim 1, characterized in that the ports of the two submersible pumps (6) are hermetically mounted with the inside of the interception plate (3), and the two sewage pipes (4) form a single circulation structure through the two submersible pumps (6) and the interception plate (3).

3. The high-density protein foam scouring device for the fishponds according to claim 2, characterized in that the front ends of the two bolts (11) penetrate through the positioning plate (10) and extend to the outer wall of the turning plate (12), and the inclined plates (13) are distributed at equal intervals around the outer wall of the turning plate (12).

4. The high-density protein foam scouring device for the fishponds according to claim 3, wherein a motor (92) is fixedly installed inside the right side of the stirring frame (91) through screws, a rotating rod (93) is connected to a key groove of an output shaft of the motor (92), and a plurality of stirring blades (94) are fixedly connected to the outer wall of the rotating rod (93).

5. The high-density protein foam scouring device for the fishpond of claim 4, wherein the left end of the rotating rod (93) is connected with the left inner wall of the stirring frame (91) through a bearing, and a plurality of stirring blades (94) form a rotating structure with the rotating rod (93) through a motor (92).

6. The high-density protein foam scouring device for the fishponds according to claim 5, wherein a positioning plate (10), a bolt (11), a turning plate (12), an inclined plate (13) and a buckle (14) are distributed on the left side of the vertical pipe (15) in a mirror image manner.

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