CN103125433B - Energy-saving freshwater protein separator - Google Patents

Abstract

The invention discloses an energy-saving freshwater protein separator which comprises a casing. A foam forming area, a reaction chamber and a water storage area are sequentially arranged on the inner side of the casing from top to bottom, a cone-shaped foam collecting device is arranged in the foam forming area, a floating bubble cutting material is filled in the reaction chamber, and the upper end and the lower end of the reaction chamber are respectively communicated with the foam forming area and the water storage area. A water supply device, an ozone generation device and a foam collecting barrel are arranged on the outer side of the casing, the water supply device is connected with a water supply pipe, the water supply pipe penetrates through the casing to be connected to the water storage area, the cone-shaped foam collecting device is connected with a collection pipe, the collection pipe penetrates through the casing to be connected to the foam collecting barrel, and the ozone generation device is connected with a gas transmission pipe which extends in the casing to be connected with the water supply pipe. The energy-saving freshwater protein separator can cut large bubbles into small bubbles easily and enables organic matters to be separated in real time.

Description

Energy saving fresh water Protein Skimmer

Technical field

The present invention relates to a kind of Protein Skimmer, particularly relate to a kind of energy saving fresh water Protein Skimmer.

Background technology

In freshwater fish culturing, because mechanical filter is not thorough, the residual bait of part, ight soil are soluble in water, form protein, carbohydrate, lipid colloid, consume water body dissolved oxygen, decompose further and produce the toxic compounds such as ammonia nitrogen, nitrite, must be removed rapidly.The bubble formed due to fresh water is comparatively large, and is easier to break, therefore is not easy organic matter to be carried out collection separation.

Summary of the invention

The object of this invention is to provide one and easily air pocket is cut into micro-bubble, and the energy saving fresh water Protein Skimmer that organic matter can be separated in real time.

For achieving the above object, the invention provides a kind of energy saving fresh water Protein Skimmer, comprise shell, the inner side of described shell is from top to bottom provided with formation foam regions successively, reative cell and storage zones, taper foam gathering unit is provided with in described formation foam regions, buoyancy bubble cutting material is filled with in described reative cell, the two ends up and down of described reative cell are communicated with described formation foam regions and described storage zones respectively, the outside of described shell is provided with water supply installation, ozone generating-device and foam collecting vessel, described water supply installation is connected with water supply line, shell place above described water supply line autoreaction room penetrates and is connected to described storage zones through after reative cell upper and lower side successively, described taper foam gathering unit is connected with collection conduit, described collection conduit is connected to described foam collecting vessel through described shell, described ozone generating-device is connected with gas pipeline, described gas pipeline to stretch in described shell and is connected on the water supply line that is positioned at above reative cell.

Preferably, the two ends up and down of described reative cell are equipped with the barrier orifice plate being communicated with described formation foam regions and described storage zones respectively, and described water supply line is stretched through upper and lower two barrier orifice plates successively.

Preferably, annular diversion trench is formed between the outer wall of described reative cell and described shell, the upper end of described annular diversion trench is communicated with the barrier orifice plate of described reative cell upper end, the lower end of described annular diversion trench is provided with sealing plate, between the barrier orifice plate that described sealing plate is connected to described reative cell lower end and the inwall of described shell.

Preferably, described shell is provided with the delivery port being communicated to described annular diversion trench, and described shell is also provided with the discharge outlet being communicated to described storage zones, and described discharge outlet is positioned at the below of described delivery port.

Preferably, be provided with the inclined floor towards the low oblique extension of described discharge outlet bottom described storage zones, the minimum point of described inclined floor is lower than described discharge outlet.

Preferably, described buoyancy bubble cutting material is PP pipe.

Preferably, described water supply line is connected with a Backwash pipeline, and described Backwash pipeline stretches in described reative cell through described shell.

Preferably, described water supply installation is also connected with a recovery channel, and described recovery channel is connected to described storage zones.

Preferably, described ozone generating-device is also connected with a residual ozone recovery channel, and described residual ozone recovery channel stretches in described formation foam regions through described shell.

Preferably, also comprise defoaming device, described defoaming device stretches in described formation foam regions through described shell.

Compared with prior art, energy saving fresh water Protein Skimmer of the present invention, by the setting of described buoyancy bubble cutting material, makes the air pocket of fresh water be cut into micro-bubble, extends bubble and water time of contact, increase organic absorption, and separating effect is better.

By following description also by reference to the accompanying drawings, the present invention will become more clear, and these accompanying drawings are for explaining embodiments of the invention.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of energy saving fresh water Protein Skimmer of the present invention.

Fig. 2 is the using state figure of energy saving fresh water Protein Skimmer of the present invention.

Fig. 3 is energy saving fresh water Protein Skimmer of the present invention recoil cleaning state diagram.

Embodiment

With reference now to accompanying drawing, describe embodiments of the invention, part numbers similar in accompanying drawing represents similar parts.

Please refer to Fig. 1-3, described energy saving fresh water Protein Skimmer comprises shell 1, and the inner side of described shell 1 is from top to bottom provided with successively and forms foam regions 2, reative cell 3 and storage zones 4.Taper foam gathering unit 5 is provided with in described formation foam regions 2.Be filled with buoyancy bubble cutting material 6 in described reative cell 3, the two ends up and down of described reative cell 3 are communicated with described formation foam regions 2 and described storage zones 4 respectively.The outside of described shell 1 is provided with water supply installation 7, ozone generating-device 8 and foam collecting vessel 9.Described water supply installation 7 is made up of motor and water pump, and for water supply of drawing water, described water supply installation 7 is connected with water supply line 10, and described water supply line 10 is connected to described storage zones 4 through described shell 1.Described water supply line 7 is connected with a Backwash pipeline 11, and described Backwash pipeline 11 stretches in described reative cell 3 through described shell 1.Described water supply installation 7 is also connected with a recovery channel 12, and described recovery channel 12 is connected to described storage zones 4.Described ozone generating-device 8 is connected with gas pipeline 13, and described gas pipeline 13 stretches in described shell 1 and is connected to described water supply line 10.Described ozone generating-device 8 is also connected with a residual ozone recovery channel 14, and described residual ozone recovery channel 14 stretches in described formation foam regions 2 through described shell 1.Described foam collecting vessel 9 is connected with collection conduit 15, and described collection conduit 15 is connected to described taper foam gathering unit 5 through described shell 1.Also be provided with defoaming device 16 in described formation foam regions 2, described defoaming device 16 is positioned at the top of described taper foam gathering unit 5, the outside of described shell 1 and described defoaming device 16 stretches through out.

Specifically, the two ends up and down of described reative cell 3 are equipped with the barrier orifice plate 17 being communicated with described formation foam regions 2 and described storage zones 4 respectively, and described water supply line 10 is connected to described reservoir chamber 4 after being stretched through upper and lower two barrier orifice plates 17 successively.Be formed with annular diversion trench 18 between the outer wall of described reative cell 3 and described shell 1, the upper end of described annular diversion trench 18 is communicated with the barrier orifice plate 17 of described reative cell 3 upper end.The lower end of described annular diversion trench 18 is provided with sealing plate 19, between the barrier orifice plate 17 that described sealing plate 19 is connected to described reative cell 3 lower end and the inwall of described shell 1.Described shell 1 is provided with the delivery port 20 being communicated to described annular diversion trench 18, and described shell 1 is also provided with the discharge outlet 21 being communicated to described storage zones 4, and described discharge outlet 21 is positioned at the below of described delivery port 20.Be provided with the inclined floor 22 towards the low oblique extension of described discharge outlet 21 bottom described storage zones 4, the minimum point of described inclined floor 22 is lower than described discharge outlet 21.Described buoyancy bubble cutting material 6 is PP pipe, can carry out cutting make macrofoam become micro-bubble to the macrofoam of fresh water, and certain described buoyancy bubble cutting material 6 also can be the material with cutting performance of other buoyancy.

During segregating protein from fresh water work, start described water supply installation 7 and described ozone generating-device 8 simultaneously and close described Backwash pipeline 11 and described recovery channel 12, by described water supply installation 7, fresh water is carried by described water supply line 10, carry in fresh water process at described water supply line 10, forming negative pressure in described water supply line 10 makes the ozone produced in described ozone generating-device 8 in the ejector 23 that described gas pipeline 13 is transported in described water supply line 10, ozone is made to be transported in described storage zones 4 (as shown by the arrows in figure 2 direction) through described water supply line 10 together with fresh water, after fresh water enters in described storage zones 4, when water level raises gradually, fresh water first enters in described reative cell 3 through the barrier orifice plate 17 of described reative cell 3 lower end, again through the barrier orifice plate 17 of described reative cell 3 upper end, then in overflow to described annular diversion trench 18, flowed out in (as shown by the arrows in figure 2 direction) by described delivery port 20 again.Simultaneously, the air pocket that fresh water produces also first enters in described reative cell 3 through the gap of described buoyancy bubble cutting material 6 through the barrier orifice plate 17 of described reative cell 3 lower end, and cut into micro-bubble by described buoyancy bubble cutting material 6, minute bubbles continue upward through the barrier orifice plate 17 (as shown by the arrows in figure 2 direction) of described reative cell 3 upper end again, and continue to move up and pile up at described formation foam regions 2 place, described foam collecting vessel 9 is delivered to by described collection conduit 15 again after overflowing in described taper foam gathering unit 5, now, part bubble is eliminated by described defoaming device 16 when the foam at described taper foam gathering unit 5 place is too much, prevent bubble from blocking up, bubble can be entered in described collection conduit 15 from described taper foam gathering unit 5 smoothly.And simultaneously, residual ozone gas is also moved upward to described formation foam regions 2, and after being recycled to described gas pipeline 13 by described residual ozone recovery channel 14, be transported in described water supply line 10, so that recycling, thus avoid the wasting of resources, and can ensure that working environment is pollution-free, free from extraneous odour.Water in described storage zones 4 can be discharged from described discharge outlet 21, and the setting due to described inclined floor 22 can avoid rotten the becoming of the inner cavity water accumulation of described storage zones 4 to pollute dirt, thus avoids growing bacterial growth virus, can occur by effectively pre-disease prevention.Water in described storage zones 4 also can reuse for backwash, thus has saved water resource.

By the setting of described buoyancy bubble cutting material 6, make the air pocket of fresh water when described buoyancy bubble cutting material 6 and the relative motion of buoyancy bubble cutting material 6, thus air pocket can be cut into micro-bubble, be stacked into described formation foam regions 2 smoothly, and the water after foam fraction factor flows from described annular diversion trench 18 to described delivery port 20, thus can hydraulic detention time be extended, separating effect is better.

During anti-cleaning, open described Backwash pipeline 11 and described recovery channel 12, and open described water supply installation 7, water in described storage zones 4 is extracted out by described recovery channel 12 by described water supply installation 7, and deliver to described Backwash pipeline 11, described reative cell 3 is delivered to by described Backwash pipeline 11, the water clockwise flow that described Backwash pipeline 11 transfers out, thus the anti-cleaning that can realize described buoyancy bubble cutting material 6, spot on described buoyancy bubble cutting material 6 is sticked to remove, sewage after anti-cleaning can be discharged from described discharge outlet 21.

More than in conjunction with most preferred embodiment, invention has been described, but the present invention is not limited to the embodiment of above announcement, and should contain various carry out according to essence of the present invention amendment, equivalent combinations.

Claims (10)

1. an energy saving fresh water Protein Skimmer, comprise shell, it is characterized in that: the inner side of described shell is from top to bottom provided with formation foam regions successively, reative cell and storage zones, taper foam gathering unit is provided with in described formation foam regions, buoyancy bubble cutting material is filled with in described reative cell, the two ends up and down of described reative cell are communicated with described formation foam regions and described storage zones respectively, the outside of described shell is provided with water supply installation, ozone generating-device and foam collecting vessel, described water supply installation is connected with water supply line, shell place above described water supply line autoreaction room penetrates and is connected to described storage zones through after reative cell upper and lower side successively, described taper foam gathering unit is connected with collection conduit, described collection conduit is connected to described foam collecting vessel through described shell, described ozone generating-device is connected with gas pipeline, described gas pipeline to stretch in described shell and is connected on the water supply line that is positioned at above reative cell.

2. energy saving fresh water Protein Skimmer as claimed in claim 1, it is characterized in that: the two ends up and down of described reative cell are equipped with the barrier orifice plate being communicated with described formation foam regions and described storage zones respectively, described water supply line is stretched through upper and lower two barrier orifice plates successively.

3. energy saving fresh water Protein Skimmer as claimed in claim 2, it is characterized in that: between the outer wall of described reative cell and described shell, be formed with annular diversion trench, the upper end of described annular diversion trench is communicated with the barrier orifice plate of described reative cell upper end, the lower end of described annular diversion trench is provided with sealing plate, between the barrier orifice plate that described sealing plate is connected to described reative cell lower end and the inwall of described shell.

4. energy saving fresh water Protein Skimmer as claimed in claim 3, it is characterized in that: described shell is provided with the delivery port being communicated to described annular diversion trench, described shell is also provided with the discharge outlet being communicated to described storage zones, and described discharge outlet is positioned at the below of described delivery port.

5. energy saving fresh water Protein Skimmer as claimed in claim 4, it is characterized in that: be provided with the inclined floor towards the low oblique extension of described discharge outlet bottom described storage zones, the minimum point of described inclined floor is lower than described discharge outlet.

6. energy saving fresh water Protein Skimmer as claimed in claim 1, is characterized in that: described buoyancy bubble cutting material is PP pipe.

7. energy saving fresh water Protein Skimmer as claimed in claim 1, is characterized in that: described water supply line is connected with a Backwash pipeline, and described Backwash pipeline stretches in described reative cell through described shell.

8. energy saving fresh water Protein Skimmer as claimed in claim 1, it is characterized in that: described water supply installation is also connected with a recovery channel, described recovery channel is connected to described storage zones.

9. energy saving fresh water Protein Skimmer as claimed in claim 1, is characterized in that: described ozone generating-device is also connected with a residual ozone recovery channel, and described residual ozone recovery channel stretches in described formation foam regions through described shell.

10. energy saving fresh water Protein Skimmer as claimed in claim 1, is characterized in that: also comprise defoaming device, and described defoaming device stretches in described formation foam regions through described shell.