CN103125432A - Underwater aeration oxygenation pump unit - Google Patents

Abstract

The invention discloses an underwater aeration oxygenation pump unit for aquaculture oxygenation. The underwater aeration oxygenation pump unit comprises at least two underwater aeration oxygenation pumps and a connecting frame, tail portions with water inlet of the underwater aeration oxygenation pumps are in a series connection through the connecting frame around a center point, directions of the water outlets of the underwater aeration oxygenation pumps outwards and radially radiate around the center point, a plurality of underwater aeration oxygenation pumps are centralized and connected together to spray water and air in deep water in a mixed radial mode, water flow sprayed under water helps a water layer to perform rotational motion, oxygen can be increased in deep water, simultaneously, the water layer flowing speed is increased, oxygenation effects in deep water are improved, oxygen bearing water can be further carried farther away, the oxygenation area is increased, the underwater aeration oxygenation pump unit is suitable for improved deep water breeding density, and installation project costs are low. Accordingly, the underwater aeration oxygenation pump unit has the advantages that the plurality of underwater aeration oxygenation pumps are installed together, the water layer flowing speed can be increased, the oxygenation effects in deep water can be improved, the breeding density is further increased, and installation project costs are further reduced.

Description

Underwater jet aeration oxygen increasing pump group

Technical field

The present invention relates to the underwater jet aeration oxygen increasing pump group that a kind of water cultivation oxygenation is used.

Background technology

in the water aquaculture, the oxygen increasing pump oxygenation instrument that is absolutely necessary can improve cultivation quality and cultivation density greatly, is also the important means that increases economic benefit, in prior art, oxygenation way normally adopts a kind of submersible pump that the water surface on lower floor's water pump is formed again and returns to the water surface after spray has sprayed aerial oxygen uptake, common oxygen increasing pump is this type basically, this oxygenation way is only water surface one deck, not enough to deep water culture oxygenation, cultivation density improves few, normally independent installation of oxygen increasing pump simultaneously, what cultured area was larger will install respectively many oxygen increasing pumps to satisfy the oxygenation density requirements, can not be connected to each other together and install, strengthen flowing velocity and the oxygenation effect of water layer and reduce the installing engineering cost with convenient, make that the installing engineering workload is large and cost is higher, simultaneously its structure do not allow yet they many connect, so need a kind of oxygen increasing pump that can oxygenation in deep water, when further enlarging cultivation density, many installations also can strengthen together flowing velocity and the oxygenation effect of water layer and reduce the installing engineering cost, the present technical issues that need to address.

Summary of the invention

The technical issues that need to address of the present invention are to provide and a kind ofly are installed together by many underwater jet aeration oxygen increasing pumps, can strengthen oxygenation effect in the flowing velocity of water layer and deep water, further enlarge cultivation density and reduce the underwater jet aeration oxygen increasing pump group of installing engineering cost.

In order to solve the problems of the technologies described above, the technical scheme of underwater jet aeration oxygen increasing pump group of the present invention is: comprise underwater jet aeration oxygen increasing pump and link, it is characterized in that: at least two of described underwater jet aeration oxygen increasing pumps, the afterbody of each underwater jet aeration oxygen increasing pump is connected in series together by link around a central point, and its delivery port direction is around this central point radial radiation outward.

as one of the preferred technical solution of the present invention be: described underwater jet aeration oxygen increasing pump comprises submersible motor and by the impeller of its driving, and the entry seat that is connected with submersible motor and outlet pipe and air intake duct, described entry seat comprises the bearing block end socket and the pump seat that is connected with outlet pipe as submersible motor output bearing block, and the dowel that they are connected, described pump seat has the adpting flange that an end and dowel be connected as a single entity and the pump line that extends out from its other end, described impeller is placed in the common pump housing that forms of endoporus of pump line, described dowel is uniform around the output shaft of submersible motor, its space, interval is for entering aquaporin, described outlet pipe comprises sparge pipe and the air inlet chamber and the connecting plate that connect the one end, be provided with air intake on described air inlet chamber, described air intake duct is connected in this air intake, described pump line extend in air inlet chamber and adpting flange is connected with connecting plate, gapped between the periphery wall of pump line and air inlet chamber internal perisporium, the annular air guide channel that formation communicates with air intake and sparge pipe inner chamber, be connected in addition on described connecting plate and submersible motor and entry seat are contained together Rose Box.

To one of the preferred technical solution of the present invention further preferably: described Rose Box comprises a base plate that is connected with the connecting plate of outlet pipe and the cover case with numerous filter openings, also comprise the submersible motor afterbody is fixed on rest pad on base plate, described cover case and bag are connected and fixed with base plate after holding to live submersible motor and entry seat.

To one of the preferred technical solution of the present invention further preferably: described sparge pipe is a kind of fallopian tube that increases gradually along the Way out caliber.

To one of the preferred technical solution of the present invention further preferably: comprise that also one is socketed in the submersible motor shaft and is fixed on conical flow guiding cover on the bearing block end socket, this conical flow guiding cover be in dowel around the water inlet space in, the vertex of a cone points to impeller, guiding water inlet direction.

To the optimal technical scheme of the invention described above further preferably: described underwater jet aeration oxygen increasing pump has two, described link comprises a terminal pad and the feet that is fixed on this terminal pad, and the afterbody that described terminal pad has two underwater jet aeration oxygen increasing pumps water inlet connects into angle 180 degree docking modes.

To the optimal technical scheme of the invention described above further preferably: described underwater jet aeration oxygen increasing pump has three at least, described link comprises a polygon connecting frame and the feet that is fixed on this polygon connecting frame, the afterbody that each underwater jet aeration oxygen increasing pump has water inlet is connected on the polygon connecting frame around this polygon connecting frame central point, and its delivery port direction is around this central point radial radiation outward.

the invention has the beneficial effects as follows: realize that in the air-breathing mode of jet gas-liquid mixed sprays the underwater jet aeration oxygen increasing pump of oxygenation under water and utilize link to link together around a center central combination because the present invention adopts by many, many underwater jet aeration oxygen increasing pumps mix water and air emanant being injected in deep water together, the current that spray under water can help water layer to rotatablely move, make when deep water can both oxygenation, oxygenation effect in the flowing velocity of increasing water layer and deep water, further will there be oxygenated water to take the farther place to, enlarge oxygenation area, and the raising of suitable deep water culture density, the installing engineering cost is also lower, so having by many underwater jet aeration oxygen increasing pumps, the present invention is installed together, can strengthen oxygenation effect in the flowing velocity of water layer and deep water, further enlarge the beneficial effect of cultivation density and minimizing installing engineering cost.

Description of drawings

Below in conjunction with accompanying drawing, underwater jet aeration oxygen increasing pump group of the present invention is described in more detail.

Fig. 1 is the front view of underwater jet aeration oxygen increasing pump group the first form of the present invention.

Fig. 2 is that the A-A of Fig. 1 is to cutaway view.

Fig. 3 is the vertical view of link in Fig. 1 underwater jet aeration oxygen increasing pump group.

Fig. 4 is the stereogram of link in Fig. 1 underwater jet aeration oxygen increasing pump group.

Fig. 5 is the stereogram of Fig. 1 underwater jet aeration oxygen increasing pump group.

Fig. 6 is the front view of underwater jet aeration oxygen increasing pump group the second form of the present invention.

Fig. 7 is that the B-B of Fig. 6 is to cutaway view.

Fig. 8 is the stereogram of link in Fig. 6 underwater jet aeration oxygen increasing pump group.

Fig. 9 is the vertical view of link in Fig. 6 underwater jet aeration oxygen increasing pump group.

Figure 10 is the stereogram of Fig. 6 underwater jet aeration oxygen increasing pump group.

Figure 11 is the front view of the third form of underwater jet aeration oxygen increasing pump group of the present invention.

Figure 12 is the vertical view of Figure 11.

Figure 13 is the vertical view of link in Figure 11 underwater jet aeration oxygen increasing pump group.

Figure 14 is the stereogram of link in Figure 11 underwater jet aeration oxygen increasing pump group.

Figure 15 is the stereogram of Figure 11 underwater jet aeration oxygen increasing pump group.

Figure 16 is the cutaway view of underwater jet aeration oxygen increasing pump in the present invention.

Figure 17 is the left view of Figure 16.

Figure 18 is the right view of Figure 16.

Figure 19 is that the C-C of Figure 16 is to cutaway view.

Figure 20 is the stereogram of underwater jet aeration oxygen increasing pump in the present invention.

Figure 21 is the explosive view of underwater jet aeration oxygen increasing pump in the present invention.

Figure 22 is the stereogram of entry seat in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 23 is the other direction stereogram of entry seat in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 24 is the stereogram of impeller in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 25 is the other direction stereogram of impeller in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 26 covers the stereogram of case in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 27 covers the other direction stereogram of case in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 28 is the stereogram of outlet pipe in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 29 is the other direction stereogram of outlet pipe in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 30 is the top direction stereogram of base plate in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 31 is the following direction stereogram of base plate in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 32 is the stereogram of conical flow guiding cover in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 33 is the other direction stereogram of conical flow guiding cover in the underwater jet aeration oxygen increasing pump in the present invention.

Figure 34 is the stereogram of rest pad in the underwater jet aeration oxygen increasing pump in the present invention.

Embodiment

Shown in Fig. 1～15, the embodiment of underwater jet aeration oxygen increasing pump group of the present invention is: comprise underwater jet aeration oxygen increasing pump 1 and link 2,1 at least two of described underwater jet aeration oxygen increasing pump, the afterbody of each underwater jet aeration oxygen increasing pump 1 is connected in series together by link 2 around a central point, and its delivery port direction is around this central point radial radiation outward.

shown in Figure 16～34, as one of the preferred embodiment of the present invention be: described underwater jet aeration oxygen increasing pump 1 comprises submersible motor 3 and by the impeller 4 of its driving, and the entry seat 5 that is connected with submersible motor 3 and outlet pipe 6 and air intake duct 7, described entry seat 5 comprises the bearing block end socket 8 and the pump seat 9 that is connected with outlet pipe 6 as submersible motor 3 output bearing blocks, and the dowel 10 that they are connected, described pump seat 9 has the adpting flange 11 that an end and dowel 10 be connected as a single entity and the pump line 12 that extends out from its other end, described impeller 4 is placed in the common pump housing that forms of endoporus of pump line 12, described dowel 10 is uniform around the output shaft of submersible motor 3, its space, interval is for entering aquaporin, described outlet pipe 6 comprises sparge pipe 13 and the air inlet chamber 14 and the connecting plate 15 that connect the one end, be provided with air intake 16 on described air inlet chamber 14, described air intake duct 7 is connected in this air intake 16, described pump line 12 extend in air inlet chamber 14 and adpting flange 11 is connected with connecting plate 15, gapped between the periphery wall of pump line 12 and air inlet chamber 14 internal perisporiums, form the annular air guide channel 17 that communicates with air intake 16 and sparge pipe 12 inner chambers, the Rose Box 18 that is connected in addition on described connecting plate 15 and submersible motor 3 and entry seat 5 are contained together.

Shown in Figure 16,21 and 26～27, to one of the preferred embodiment of the present invention further preferably: described Rose Box 18 comprises a base plate 19 that is connected with the connecting plate 15 of outlet pipe 6 and the cover case 20 with numerous filter openings, also comprise submersible motor 3 afterbodys are fixed on rest pad 21 on base plate 19, after described cover case 20 contains to live submersible motor 3 and entry seat 5 and base plate 19 be connected and fixed.

Shown in Figure 28～29, to one of the preferred embodiment of the present invention further preferably: described sparge pipe 13 is a kind of fallopian tubes that increase gradually along the Way out caliber.

Shown in Figure 32～33, to one of the preferred embodiment of the present invention further preferably: comprise that also one is socketed in submersible motor 3 shafts and is fixed on conical flow guiding cover 22 on bearing block end socket 8, this conical flow guiding cover 22 be in dowel 10 around the water inlet space in, the vertex of a cone points to impeller 4, guiding water inlet direction.

Shown in Figure 11～15, to the preferred embodiment of the invention described above further preferably: described underwater jet aeration oxygen increasing pump 1 has two, described link 2 comprises a terminal pad 23 and the feet 24 that is fixed on this terminal pad, and described terminal pad 23 connects into the afterbody of two underwater jet aeration oxygen increasing pumps 1 with angle 180 degree docking modes.

Shown in Fig. 1～10, to the preferred embodiment of the invention described above further preferably: described underwater jet aeration oxygen increasing pump 1 has three at least, described link 2 comprises a polygon connecting frame 25 and the feet 24 that is fixed on this polygon connecting frame, the afterbody of each underwater jet aeration oxygen increasing pump 1 is connected on polygon connecting frame 25 around these polygon connecting frame 25 central points, and its delivery port direction is around this central point radial radiation outward.

in use, with submerged of the present invention, be controlled at certain water depth position link is fixedly mounted, air intake duct 7 is drawn the water surface, starts all submersible motors 3, each water pump sparge pipe 13 outward radial radiation ejection water columns, under the drive of water speed, air inlet chamber 14 produces negative pressure, and the suction air enters in water and is mixed, air injects to water and produces a large amount of bubbles in water layer, thereby reaches the oxygenation purpose, many underwater jet aeration oxygen increasing pumps mix water and air emanant being injected in deep water together, the current that spray under water can help water layer to rotatablely move, make when deep water can both oxygenation, oxygenation effect in the flowing velocity of increasing water layer and deep water, further will there be oxygenated water to take the farther place to, enlarge oxygenation area, and the raising of suitable deep water culture density, the installing engineering cost is also lower, so having by many underwater jet aeration oxygen increasing pumps, the present invention is installed together, can strengthen oxygenation effect in the flowing velocity of water layer and deep water, further enlarge the beneficial effect of cultivation density and minimizing installing engineering cost.In the present invention, the underwater jet aeration oxygen increasing pump is except can level installing, can also install by certain angle of inclination, delivery port is tilted to or is tilted to, produce an effect is that steam rolls together in deep water like this, the degree of depth of water equally can improve oxygenation effect, as long as can make submerged of the present invention.

The above is the preferred embodiment of the present invention, does not consist of limiting the scope of the invention, so long as implement purpose of the present invention with essentially identical means, all should belong to protection scope of the present invention.

Claims (7)

1. underwater jet aeration oxygen increasing pump group, comprise underwater jet aeration oxygen increasing pump (1) and link (2), it is characterized in that: (1) at least two of described underwater jet aeration oxygen increasing pump, the afterbody of each underwater jet aeration oxygen increasing pump (1) is connected in series together by link (2) around a central point, and its delivery port direction is around this central point radial radiation outward.

2. underwater jet aeration oxygen increasing pump group according to claim 1, be characterised in that: described underwater jet aeration oxygen increasing pump (1) comprises submersible motor (3) and by the impeller of its driving (4), and the entry seat (5) that is connected with submersible motor (3) and outlet pipe (6) and air intake duct (7), described entry seat (5) comprises the bearing block end socket (8) and the pump seat (9) that is connected with outlet pipe (6) as submersible motor (3) output bearing block, and the dowel (10) that they are connected, described pump seat (9) has the adpting flange (11) that an end and dowel (10) be connected as a single entity and the pump line (12) that extends out from its other end, described impeller (4) is placed in the common pump housing that forms of endoporus of pump line (12), described dowel (10) is uniform around the output shaft of submersible motor (3), its space, interval is for entering aquaporin, described outlet pipe (6) comprises sparge pipe (13) and the air inlet chamber (14) and the connecting plate (15) that connect the one end, be provided with air intake (16) on described air inlet chamber (14), described air intake duct (7) is connected in this air intake (16), described pump line (12) extend in air inlet chamber (14) and adpting flange (11) is connected with connecting plate (15), gapped between the periphery wall of pump line (12) and air inlet chamber (14) internal perisporium, form the annular air guide channel (17) that communicates with air intake (16) and sparge pipe (12) inner chamber, be connected in addition described connecting plate (15) upper and submersible motor (3) and entry seat (5) are contained together Rose Box (18).

3. underwater jet aeration oxygen increasing pump group according to claim 2, it is characterized in that: described Rose Box (18) comprises a base plate (19) that is connected with the connecting plate (15) of outlet pipe (6) and the cover case (20) with numerous filter openings, also comprise submersible motor (3) afterbody is fixed on rest pad (21) on base plate (19), after described cover case (20) contains to live submersible motor (3) and entry seat (5) and base plate (19) be connected and fixed.

4. underwater jet aeration oxygen increasing pump group according to claim 2, it is characterized in that: described sparge pipe (13) is a kind of fallopian tube that increases gradually along the Way out caliber.

5. underwater jet aeration oxygen increasing pump group according to claim 2, it is characterized in that: comprise that also one is socketed in submersible motor (3) shaft and is fixed on conical flow guiding cover (22) on bearing block end socket (8), this conical flow guiding cover (22) be in dowel (10) around the water inlet space in, the vertex of a cone points to impeller (4), guiding water inlet direction.

6. according to claim 1～5 described underwater jet aeration oxygen increasing pump of any one groups, be characterised in that: described underwater jet aeration oxygen increasing pump (1) has two, described link (2) comprises a terminal pad (23) and is fixed on feet (24) on this terminal pad, and described terminal pad (23) connects into the afterbody of two underwater jet aeration oxygen increasing pumps (1) with angle 180 degree docking modes.

7. according to claim 1～5 described underwater jet aeration oxygen increasing pump of any one groups, be characterised in that: described underwater jet aeration oxygen increasing pump (1) has three at least, described link (2) comprises a polygon connecting frame (25) and is fixed on feet (24) on this polygon connecting frame, the afterbody of each underwater jet aeration oxygen increasing pump (1) is connected on polygon connecting frame (25) around this polygon connecting frame (25) central point, and its delivery port direction is around this central point radial radiation outward.

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