CN210944887U - Protein separator - Google Patents

Abstract

The utility model discloses a protein separator relates to water treatment facilities technical field, has solved protein separator water inlet and delivery port and has been arranged in the same reaction cavity on same straight line water route, reduces the technical problem of the separation effect of bubble and water. Its technical essential includes the main part box, be equipped with the ejector in the directional main part box on a lateral wall of main part box, the ejector is connected with inlet tube and intake pipe, still be equipped with the wet return that is linked together in the main part box, the top intercommunication of main part box sets up bubble separator, the top surface of main part box is fixed with the division board, the long avris and the laminating of main part box lateral wall of division board, and leave the clearance between the bottom of main part box top surface and the bottom surface of main part box are kept away from to the division board, ejector and bubble separator set up in division board one side, the wet return sets up in the opposite side of division board, the utility model has the advantages of promote bubble and separation of water effect in the separator.

Description

Protein separator

Technical Field

The utility model relates to a water treatment facilities technical field, more specifically say, it relates to a protein separator.

Background

Chinese patent No. CN207259193U discloses a protein separator, which comprises a reaction chamber, a bubble collecting chamber is arranged in the reaction chamber, a bubble generating water pump is arranged in the bubble collecting chamber, the water inlet end of the bubble generating water pump is communicated with a water inlet pipe, the upper end of the water inlet pipe is a water inlet, a U-shaped air inlet nozzle is communicated below the water inlet at the upper part of the water inlet pipe, two air inlet nozzles of the U-shaped air inlet nozzle are respectively an ozone air inlet nozzle and an air inlet nozzle, the reaction chamber is communicated with a water outlet pipe, a water outlet and an evacuation port are respectively arranged at the outlet at the upper end of the water outlet pipe, a collecting cup is arranged at the top of the reaction chamber, a drain outlet is arranged below the collecting cup, a guide plate is arranged above the bubble collecting chamber, and a plurality of guide holes.

Similar to the protein separator in the prior art, water containing a large amount of micro bubbles moving at high speed is introduced through a water inlet, the water, ozone and air are fully mixed through the rotation of a foaming water pump, the water bubbles are broken continuously, the surface area of the water bubbles is increased, the bubbles can adsorb organic substances and impurities in the water due to the surface tension of the bubbles, the water with a large amount of bubbles is sprayed to a bubble collecting chamber through the water pump, and finally the bubbles adsorbed with a large amount of organic substances and impurities are flushed to the water surface and exploded to release the organic substances and impurities, stay in a collecting cup and can be periodically removed manually.

The above prior art solutions have the following drawbacks: the water inlet and the water outlet of the existing protein separator are positioned on the same straight water path in the vertical direction, and the water inlet and the water outlet are positioned in the same reaction chamber, so that the separation effect of bubbles and water is reduced.

SUMMERY OF THE UTILITY MODEL

To the technical problem at present, an object of the utility model is to provide a protein separator, it has the advantage that promotes bubble and separation of water effect in the separator.

In order to achieve the above purpose, the utility model provides a following technical scheme: the utility model provides a protein separator, includes the main part box, be equipped with the ejector in the directional main part box on a main part box lateral wall, the ejector is connected with inlet tube and intake pipe, still be equipped with the wet return that is linked together in the main part box, the top intercommunication of main part box sets up bubble separator, its characterized in that: the top surface of main part box is fixed with the division board, the long avris of division board and the laminating of main part box side wall mutually, and leaves the clearance between the base that main part box top surface was kept away from to the division board and the bottom surface of main part box, ejector and bubble separator set up in division board one side, the wet return sets up in the opposite side of division board.

Through adopting above-mentioned technical scheme, the water of treating is carried to the ejector in by the inlet tube to jet out from the ejector under the atmospheric pressure effect that provides in the intake pipe and hit on the division board, rivers and division board striking formation bubble are in order to adsorb the organic substance in aqueous. The water flow after the impact falls to the space at one side of the separation plate close to the ejector under the action of gravity and collides with the water in the box body again to generate more bubbles so as to improve the adsorption effect. Because the setting of division board makes the space in the main part box form the structure of similar U-shaped pipe, when guaranteeing that cleaner water flows out from the wet return under the effect of waiting the liquid level, separate the effect of bubble and return water separation with the separation of water inlet route and return water route through the division board to promote the bubble.

The utility model discloses further set up to: the connecting position of the partition plate and the top surface of the main box is positioned in the middle of the side edge of the top surface of the main box, and the surface of the partition plate is parallel to a pair of side wall surfaces of the main box.

Through adopting above-mentioned technical scheme, the division board sets up and makes the bubbling space and the return water space size of division board both sides the same in middle part position to guarantee the equilibrium between bubble efficiency and the return water efficiency, the division board of vertical setting has also played the effect of backward flow to the rivers of striking on the division board and the bubble of production.

The utility model discloses further set up to: the bottom surface that the return water pipe passed the main part box along vertical direction stretches into in the main part box, the mouth of pipe that the return water pipe is located the main part box closes on and towards the top surface of main part box.

Through adopting above-mentioned technical scheme, the wet return pipe stretches into in the main part box and makes the return water mouth position of division board return water one side higher, plays the effect of location return water, is favorable to promoting the purifying effect to aquatic organic matter.

The utility model discloses further set up to: and a water return regulating valve and a water inlet regulating valve are respectively arranged on the pipe body of the water return pipe outside the main body box and the pipe body of the water inlet pipe.

Through adopting above-mentioned technical scheme, return water governing valve and the efficiency that intake of inlet tube was used for controlling the wet return respectively with the setting of inlet valve, promote the user to the control degree of wet return and inlet tube, the person of facilitating the use changes the work effect of albumen separator according to different operating modes and needs.

The utility model discloses further set up to: the jet device is internally and fixedly provided with a splitter plate, and the splitter plate is provided with a plurality of splitter holes.

Through adopting above-mentioned technical scheme, the setting of reposition of redundant personnel piece in the ejector is used for dispersing one rivers in the inlet tube into stranded rivers, increases the area of contact of exhaling water and air and division board from the ejector for the bubble quantity that produces behind the water striking division board is more and denser, further promotes the bubble to organic substance's adsorption effect.

The utility model discloses further set up to: the pipe wall of the ejector at the water outlet is arranged in an upward inclined mode towards one side of the partition plate.

Through adopting above-mentioned technical scheme, the slope setting of ejector delivery port makes the water height of shooing higher, and is closer to bubble separator, and the bubble that produces after striking with the division board is shorter in the route of aquatic motion, is favorable to keeping of bubble and the adsorption effect to organic substance in the bubble.

The utility model discloses further set up to: the bubble separation device comprises a separation pipe, a separation cavity and a bubble outlet, wherein the separation pipe is positioned on the top surface of the main box and communicated with the top surface of the main box, the separation cavity is communicated with the separation pipe, the bubble outlet is positioned on one side wall of the separation cavity, which is far away from the separation pipe, and the opening position of the bubble outlet is higher than the position of the communication opening of the separation pipe and the separation cavity.

Through adopting above-mentioned technical scheme, because the return water mouth closes on main part box top surface, the main part box forms the liquid level effect such as approximate U-shaped pipe under the division board effect, and the division board closes on the bubble of ejector one side and floats on the surface of water that closes on the separator tube mouth of pipe department, and the bubble passes through the separator tube and gets into in the separation chamber when the bubble stack is more. When the inflow was great appear rivers together gush into in the separating tube, the rivers that get into in the separating tube are saved in the separation chamber, and the bubble is discharged in the play bubble mouth that has the difference in height with the separating tube mouth of pipe, through the difference in height setting of separation chamber and separation mouth and play bubble mouth, avoids appearing the emergence of a bubble mouth phenomenon of soaking.

The utility model discloses further set up to: the separating tube is detachably connected with the main body box, and the separating cavity is a cylindrical cavity.

Through adopting above-mentioned technical scheme, because the bubble separator is the structure of finally collecting organic substance and impurity, the detachable of separator tube and main part box is connected the setting and is convenient to whole bubble separator's clearance and maintenance action. Meanwhile, the separation cavity is a circular cavity without dead angles, so that the cleaning action of impurities adhered to the wall of the separation cavity is facilitated, and the cleaning effect of the separation cavity is ensured.

By adopting the technical scheme, the utility model discloses relative prior art compares, has following advantage:

1. through the arrangement of the partition plate, the ejectors and the water return pipe on the two sides of the partition plate, the effect of separating air bubbles from water in the separator is improved;

2. the adsorption effect of the bubbles on organic substances and impurities is improved through the inclined arrangement of the flow dividing plate and the water outlet in the ejector;

3. the bubble separating device can be conveniently cleaned through the detachable connection of the bubble separating device and the main body box.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a schematic view of the internal structure of the present embodiment;

fig. 3 is a schematic structural diagram of the ejector in this embodiment.

In the figure: 1. a main body case; 11. a water return area; 12. a bubbling region; 2. an ejector; 21. a water inlet pipe; 22. An air inlet pipe; 23. a water inlet regulating valve; 24. a splitter plate; 25. a shunt hole; 3. a water return pipe; 31. a return water regulating valve; 4. a bubble separating device; 41. a separation tube; 42. a separation chamber; 43. a foam outlet; 5. a partition plate.

Detailed Description

A protein separator is further described with reference to fig. 1 to 3.

A protein separator, as shown in figures 1 and 2, comprises a main body box 1, wherein a jet device 2 pointing to the inside of the main body box 1 is arranged on one side wall of the main body box 1, and the jet device 2 is connected with a water inlet pipe 21 and an air inlet pipe 22. Be equipped with the wet return 3 that is linked together in the main part box 1, the top intercommunication of main part box 1 has bubble separator 4, the top surface of main part box 1 is fixed with the division board 5 that extends to in the box body, division board 5's long avris and the laminating of main part box 1 lateral wall mutually, and leave the clearance between division board 5 keeps away from the base of 1 top surface of main part box and the bottom surface of main part box 1, ejector 2 sets up in division board 5 one side with bubble separator 4, wet return 3 sets up in division board 5's opposite side.

As shown in fig. 1 and 2, the main body case 1 is rectangular, the partition plate 5 is rectangular, the short side of the partition plate is fixedly connected to the middle of the pair of long side edges of the top surface of the main body case 1, and the pair of long side wall surfaces of the partition plate 5 is fixedly connected to the side walls of the main body case 1, so that the partition plate 5 is positioned in the main body case 1 and perpendicular to the top surface of the main body case 1. The main body box 1 is divided into a water return area 11 and a foaming area 12 by a partition plate 5, and the water return area 11 and the foaming area 12 are communicated through a gap below the partition plate 5, so that an approximate U-shaped pipe structure is formed in the main body box 1. In this embodiment, the main body case 1 may be installed on the inner wall of the pool and the outer wall of the pool, or may be separated from the pool and connected to the water inlet pipe 21 and the water return pipe 3 through pipes.

As shown in fig. 2 and 3, in the present embodiment, the ejector 2 is mounted on the side wall surface of the bubble area 12 of the main body case 1 opposite to the partition plate 5, and the ejector 2 penetrates the side wall of the main body case 1 and is mounted on the side wall at a position near the bottom edge side of the partition plate 5. The ejector 2 is in a round pipe shape, one section of the ejector, which is far away from the partition plate 5, is connected with a water inlet pipe 21, and a water inlet regulating valve 23 is further arranged on the pipe wall of the water inlet pipe 21, which is positioned outside the main body box 1. The air inlet pipe 22 is vertically arranged in the main body box 1, one end of the air inlet pipe is fixedly communicated with the side wall of the joint of the water inlet pipe 21 close to the ejector 2, the other end of the air inlet pipe passes through and is fixed on the top surface of the main body box 1, and the port of the air inlet pipe 22 on the top surface of the main body box 1 is connected with an air source through a pipeline to supplement air into the ejector 2 during use. The inner pipe wall of the ejector 2 is also fixed with a splitter plate 24 perpendicular to the pipe wall, the splitter plate 24 is in a disc shape, and a plurality of splitter holes 25 are arranged on the plate surface of the splitter plate 24 at equal intervals in the circumferential direction. The pipe wall that the ejector 2 is located adjacent to outlet pipe mouth department in main part box 1 is upwards set up towards 5 inclines of division board one side for the direction that the water jetted out in the ejector 2 is the ascending direction of slope.

As shown in fig. 2, the water return pipe 3 is located at one side of the partition plate 5, and vertically extends into the main body box 1 through the bottom surface of the main body box 1, and the pipe orifice of the water return pipe 3 located in the main body box 1 is adjacent to and arranged toward the top surface of the main body box 1. A return water regulating valve 31 is arranged on the pipe body of the return water pipe 3 below the main body box 1. The bubble separating device 4 comprises a separating tube 41 which is positioned on the top surface of the main body box 1 and is communicated with the separating tube 41, a separating cavity 42 which is communicated with the separating tube 41, and a bubble outlet 43 which is positioned on one side wall of the separating cavity 42 far away from the separating tube 41. The separation tube 41 and the main body box 1 can be detachably connected by means of flanges and the like, and the communication port of the separation tube and the separation chamber 42 is positioned on one side of the wall of the separation chamber 42, which is close to the main body box 1. The separation cavity 42 is a cylindrical cavity, the bubble outlet 43 is located on the other side wall of the separation cavity 42 opposite to the side wall communicating with the separation tube 41, and the opening position of the bubble outlet 43 is higher than the position of the opening communicating with the separation cavity 42 and the separation tube 41.

The working principle is as follows: the water to be treated is conveyed into the ejector 2 through the water inlet pipe 21, and is ejected from the ejector 2 under the action of air pressure provided in the air inlet pipe 22 to impact on the partition plate 5, and the water flow collides with the partition plate 5 to form bubbles so as to adsorb organic substances in the water. The water flow after the impact falls to the space at one side of the separation plate 5 close to the ejector 2 under the action of gravity, and collides with the water in the box body again to generate more bubbles so as to improve the adsorption effect. Because the setting of division board 5 makes the space in the main part box 1 form the structure of similar U-shaped pipe, along with the increase of ejector 2 injected water, the liquid level of division board 5 both sides risees gradually, and the bubble that has adsorbed organic matter and impurity is blockked by division board 5, and the water after the purification flows out from wet return 3 after the liquid level reaches certain height, and the bubble that has adsorbed organic matter and impurity passes through separation pipe 41 and gets into separation chamber 42 and pile up. Make the space in the main part box 1 form the structure of similar U-shaped pipe through setting up of division board 5, when guaranteeing that cleaner water flows out from wet return 3 under the effect of waiting the liquid level, separate intake path and return water path phase separation through division board 5 to promote the effect of bubble and return water separation.

It is above only the utility model discloses a preferred embodiment, the utility model discloses a scope of protection does not only confine above-mentioned embodiment, the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a protein separator, includes main part box (1), be equipped with ejector (2) in directional main part box (1) on main part box (1) a lateral wall, ejector (2) are connected with inlet tube (21) and intake pipe (22), still be equipped with wet return (3) that are linked together in main part box (1), the top intercommunication of main part box (1) sets up bubble separator (4), its characterized in that: the top surface of main part box (1) is fixed with division board (5), the long avris of division board (5) is laminated with main part box (1) lateral wall mutually, and leaves the clearance between division board (5) keep away from the base of main part box (1) top surface and the bottom surface of main part box (1), ejector (2) set up in division board (5) one side with bubble separator (4), wet return (3) set up in the opposite side of division board (5).

2. A protein separator as claimed in claim 1, wherein: the connecting position of the partition plate (5) and the top surface of the main body box (1) is positioned in the middle of the side edge of the top surface of the main body box (1), and the surface of the partition plate (5) is parallel to a pair of side wall surfaces of the main body box (1).

3. A protein separator as claimed in claim 2, wherein: the bottom surface that wet return (3) passed main part box (1) along vertical direction stretches into in main part box (1), wet return (3) are located the mouth of pipe in main part box (1) and are close to and towards the top surface of main part box (1).

4. A protein separator as claimed in claim 3, wherein: the water return pipe (3) is located on the pipe body outside the main body box (1) and the pipe body of the water inlet pipe (21) and is provided with a water return regulating valve (31) and a water inlet regulating valve (23) respectively.

5. A protein separator as claimed in claim 1, wherein: a splitter plate (24) is fixedly arranged in the ejector (2), and a plurality of splitter holes (25) are formed in the splitter plate (24).

6. A protein separator as claimed in claim 5, wherein: the pipe wall of the ejector (2) at the water outlet is arranged in an upward inclined mode towards one side of the partition plate (5).

7. A protein separator as claimed in claim 1, wherein: the bubble separating device (4) comprises a separating pipe (41) which is positioned on the top surface of the main body box (1) and communicated with the top surface of the main body box, a separating cavity (42) communicated with the separating pipe (41) and a bubble outlet (43) which is positioned on the side wall of the separating cavity (42) far away from the separating pipe (41), wherein the opening position of the bubble outlet (43) is higher than the position of the communicating opening of the separating pipe (41) and the separating cavity (42).

8. A protein separator as claimed in claim 7, wherein: the separation tube (41) is detachably connected with the main body box (1), and the separation cavity (42) is a cylindrical cavity.

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