CN213388018U - Compression bin of protein separator - Google Patents

Abstract

The utility model discloses a compression bin of a protein separator, which comprises a bottom cylinder and an aeration mechanism; a bottom cylinder: the top end of the bottom cylinder is provided with a first punching screen plate, the inner wall of the bottom cylinder is sequentially provided with a second punching screen plate and a third punching screen plate from top to bottom, the mesh positions of the first punching screen plate, the second punching screen plate and the third punching screen plate are the same, a water purifying chamber is formed between the second punching screen plate and the third punching screen plate, and the side surface of the water purifying chamber is communicated with a water outlet pipe; an aeration mechanism: contain aeration pipe, shunt tubes, intake pipe and reposition of redundant personnel box, the bottom at the third otter board that punches a hole is fixed to the reposition of redundant personnel box, and the even intercommunication in its side has the shunt tubes, the one end intercommunication of aeration pipe is in the side of shunt tubes, and its other end runs through the third otter board that punches a hole, and this compression storehouse can carry out the water conservancy diversion to the bubble, and the bubble is difficult for taking place the breakage on the way that rises, and the bubble can be regular rise, helps promoting protein separator's throughput.

Description

Compression bin of protein separator

Technical Field

The utility model relates to an auxiliary assembly technical field of protein separator specifically is a protein separator's compression storehouse.

Background

The protein separator is also called as foam separator, it utilizes the principle that the surface of air bubble in water can adsorb various granular dirt and soluble organic matters mixed in water, and adopts oxygen charging equipment or vortex pump to produce lots of air bubbles, and can utilize the protein separator to purify seawater, and these air bubbles are all concentrated on the water surface to form foam, and the foam is collected in the container on the water surface, and can be changed into tawny liquid to be discharged, and the protein separator can effectively remove organic matter granules, protein and harmful metal ions, etc. in water, and its water quality purification effect is good, and in the existent design, it is general method to directly inject seawater into reaction chamber of protein separator by means of water pump of protein separator, and said design can make the air bubbles be formed into random movement in the reaction chamber, and the fine air bubbles in the reaction chamber can be accumulated into large air bubbles in the course of rising process, when big bubble broke, cause the bubble surface unstable, patent application number 201220639966.6's patent has proposed protein separator's compression storehouse, through setting up the sieve, make the motion of bubble rule, protein separator's throughput has been improved, but it is in the use, because the water hole distribution problem of crossing of sieve, can influence the rise of bubble, the bubble is at the in-process that rises, most bubble is difficult to pass from crossing the water hole, but the collision takes place the breakage on the sieve, lead to protein separator's bubble utilization ratio to reduce, throughput worsens.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a protein separator's compression storehouse, this compression storehouse can carry out the water conservancy diversion to the bubble, and the bubble is difficult for taking place the breakage on the way that rises, and the bubble can be regular rise, helps promoting protein separator's throughput, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a compression bin of a protein separator comprises a bottom cylinder and an aeration mechanism;

a bottom cylinder: the top end of the bottom cylinder is provided with a first punching screen plate, the inner wall of the bottom cylinder is sequentially provided with a second punching screen plate and a third punching screen plate from top to bottom, the mesh positions of the first punching screen plate, the second punching screen plate and the third punching screen plate are the same, a water purifying chamber is formed between the second punching screen plate and the third punching screen plate, and the side surface of the water purifying chamber is communicated with a water outlet pipe;

an aeration mechanism: the aeration pipe is communicated with one end of the flow dividing pipe, the other end of the aeration pipe penetrates through the third punching screen plate, the air inlet pipe is communicated with the side surface of the bottom barrel, an air outlet of the air inlet pipe is communicated with the flow dividing box, and an air inlet of the air inlet pipe is communicated with external oxygenation equipment;

wherein: the water purifier further comprises a guide cylinder, the guide cylinder penetrates through meshes of the first punching screen plate and the second punching screen plate, the bottom end of the guide cylinder is installed at the top end of the third punching screen plate, a drain hole is formed in the side face of the guide cylinder, the drain hole is located in the water purifying chamber, and the aeration pipe is located inside the guide cylinder.

Further, still include the filter screen, the filter screen is installed on the drainage hole inner wall of draft tube side, sets up the filter screen and can filters the water after purifying, improves protein separator's water treatment capacity.

Further, still include mounting flange, mounting flange is equipped with two sets ofly, and installs respectively in the side department of end section of thick bamboo, and the mounting flange on top is connected with the reaction storehouse of outside protein separator, and the mounting flange of bottom is fixed on the mounting outside, sets up mounting flange, conveniently installs the compression storehouse.

Furthermore, the end part of the aeration pipe extends to a position between the first punching screen plate and the second punching screen plate, and the aeration pipe extends to a position between the first punching screen plate and the second punching screen plate, so that bubbles can be prevented from being discharged from the water discharge hole.

Furthermore, threaded connection between the bottom of draft tube and the third perforated screen plate facilitates cleaning and replacement of the draft tube.

Compared with the prior art, the beneficial effects of the utility model are that: the compression bin of the protein separator has the following advantages:

this protein separator's compression storehouse adopts unique aeration mechanism, can carry the gas of input to each draft tube in, carry out abundant mixture with the rivers that descend, adsorb the impurity of aquatic, help improving protein separator's treatment effeciency and treatment effect, the water through the draft tube simultaneously when flowing, through the filter effect of filter screen, can filter the impurity of aquatic, improves the cleanliness factor of quality of water.

Drawings

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

fig. 2 is the schematic diagram of the semi-section structure of the utility model.

In the figure: 1 bottom cylinder, 2 fixed flange, 3 draft tube, 4 aeration mechanism, 41 aeration pipe, 42 shunt tubes, 43 air inlet pipe, 44 shunt box, 5 first punching screen, 6 second punching screen, 7 third punching screen, 8 outlet pipe, 9 clean water room, 10 filter screen.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-2, the present invention provides a technical solution: a compression bin of a protein separator comprises a bottom cylinder 1 and an aeration mechanism 4;

a bottom cylinder 1: the top end is provided with a first punching screen plate 5, the inner wall of the bottom barrel 1 is sequentially provided with a second punching screen plate 6 and a third punching screen plate 7 from top to bottom, the mesh positions on the first punching screen plate 5, the second punching screen plate 6 and the third punching screen plate 7 are the same, a water purifying chamber 9 is formed between the second punching screen plate 6 and the third punching screen plate 7, the first punching screen plate 5, the second punching screen plate 6 and the third punching screen plate 7 are all used for installing a guide cylinder 3, the side surface of the water purifying chamber 9 is communicated with a water outlet pipe 8, the water outlet pipe 8 is used for discharging purified water source, the device also comprises fixing flanges 2, the fixing flanges 2 are provided with two groups and are respectively installed at the side surfaces of the bottom barrel 1, the fixing flange 2 at the top end is connected with a reaction bin of an external protein separator, the fixing flange 2 at the bottom end is fixed on an external fixing piece, the fixing flange 2 is convenient for connecting, the device is connected to the bottom end of the reaction bin, so that the mixing efficiency of bubbles and water can be improved;

an aeration mechanism 4: the aeration pipe comprises an aeration pipe 41, shunt pipes 42, an air inlet pipe 43 and a shunt box 44, wherein the shunt box 44 is fixed at the bottom end of a third punching screen plate 7, the side surface of the third punching screen plate is uniformly communicated with the shunt pipes 42, one end of the aeration pipe 41 is communicated with the side surface of the shunt pipe 42, the other end of the aeration pipe penetrates through the third punching screen plate 7, the end part of the aeration pipe 41 extends to a position between a first punching screen plate 5 and a second punching screen plate 6, the air inlet pipe 43 is communicated with the side surface of a bottom barrel 1, an air outlet of the air inlet pipe is communicated with the shunt box 44, an air inlet of the air inlet pipe is communicated with external oxygenation equipment, when the aeration pipe works, the external oxygenation equipment sends air into the shunt box 44 from the air inlet pipe 43, then the air is shunted;

wherein: still include draft tube 3, draft tube 3's effect is, form the bubble and water reaction space of a small region, improve the mixing efficiency of bubble and water, increase protein separator's bubble utilization ratio, draft tube 3 runs through the mesh on first otter board 5 and the second otter board 6 that punches a hole, install the top at third otter board 7 that punches a hole in its bottom, threaded connection between draft tube 3's bottom and the third otter board 7 that punches a hole, make things convenient for the installation of draft tube 3, the wash port has been seted up to its side, the wash port is located water purification room 9, aeration pipe 41 is located the inside of draft tube 3, still include filter screen 10, filter screen 10 installs on the drainage hole inner wall of draft tube 3 side, filter screen 10 can filter the impurity of aquatic, improve protein separator's water treatment capacity.

When in use: install bottom cylinder 1 in protein separator's reaction storehouse bottom, intake pipe 43 and outside oxygenating equipment intercommunication simultaneously, gaseous inflow send into the reposition of redundant personnel box 44 from intake pipe 43 in, then the reposition of redundant personnel gets into each shunt tubes 42, and then flow into draft tube 3 in each aeration pipe 41, mix with water, the impurity of aquatic is taken away to the bubble, the water source then flows into draft tube 3 from the reaction storehouse in, mixes with the bubble, then from outlet pipe 8 department discharge.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. A compression bin for a protein separator, comprising: comprises a bottom cylinder (1) and an aeration mechanism (4);

bottom tube (1): a first punching screen plate (5) is installed at the top end, a second punching screen plate (6) and a third punching screen plate (7) are sequentially installed on the inner wall of the bottom barrel (1) from top to bottom, mesh positions on the first punching screen plate (5), the second punching screen plate (6) and the third punching screen plate (7) are the same, a water purifying chamber (9) is formed between the second punching screen plate (6) and the third punching screen plate (7), and a water outlet pipe (8) is communicated with the side surface of the water purifying chamber (9);

aeration means (4): the oxygen aeration device comprises an aeration pipe (41), a shunt pipe (42), an air inlet pipe (43) and a shunt box (44), wherein the shunt box (44) is fixed at the bottom end of a third punching screen plate (7), the side surface of the shunt pipe (42) is uniformly communicated with the shunt pipe (42), one end of the aeration pipe (41) is communicated with the side surface of the shunt pipe (42), the other end of the aeration pipe penetrates through the third punching screen plate (7), the air inlet pipe (43) is communicated with the side surface of a bottom barrel (1), an air outlet of the air inlet pipe is communicated with the shunt box (44), and an air inlet of the air inlet;

wherein: the water purifying device is characterized by further comprising a guide cylinder (3), wherein the guide cylinder (3) penetrates through meshes of the first punching screen plate (5) and the second punching screen plate (6), the bottom end of the guide cylinder is installed at the top end of the third punching screen plate (7), a drain hole is formed in the side face of the guide cylinder, the drain hole is located in the water purifying chamber (9), and the aeration pipe (41) is located inside the guide cylinder (3).

2. The compression cartridge of a protein separator as defined in claim 1, wherein: the water-saving device is characterized by further comprising a filter screen (10), wherein the filter screen (10) is installed on the inner wall of the drainage hole in the side face of the guide cylinder (3).

3. The compression cartridge of a protein separator as defined in claim 1, wherein: still include mounting flange (2), mounting flange (2) are equipped with two sets ofly, and install respectively in the side department of end section of thick bamboo (1), and mounting flange (2) on top are connected with the reaction storehouse of outside protein separator, and mounting flange (2) of bottom are fixed on the mounting of outside.

4. The compression cartridge of a protein separator as defined in claim 1, wherein: the end part of the aeration pipe (41) extends to the position between the first punching screen plate (5) and the second punching screen plate (6).

5. The compression cartridge of a protein separator as defined in claim 1, wherein: the bottom end of the guide cylinder (3) is in threaded connection with the third punching screen plate (7).

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