CN113383744B - Oxygen increasing pump using turbine to close water - Google Patents

Abstract

The invention discloses a water-closing type oxygenation pump utilizing a turbine, which comprises a base and a supporting plate, wherein an air entraining component and a water core walking component are arranged on the table top of the supporting plate, the air entraining component comprises a base frame, an oxygenation component is arranged on the upper table top of the base, a guide pipe is arranged on the left side of the oxygenation component, the upper part of the outer wall of the guide pipe is fixedly connected with the supporting plate, and an exhaust pipe is fixedly connected to the top end of the guide pipe. This utilize turbine to close water formula oxygenation pump, gas enters into the inner chamber that the air guide docks the pipe through the pipe, and the turbine passageway through turbine air guide seat inner chamber is discharged, and the combustion gas contacts the blade on the impeller, will drive the impeller and rotate in the inner chamber of turbine air guide seat, the impeller is at rotatory back simultaneously, its top central point is fixed with the spliced pole, thereby realized driving the slotted hole that the external arc sealing member of connecting cylinder seted up from oxygenation bubble section of thick bamboo and broken away from, realize discharging gas into in the liquid, realize the oxygenation.

Description

Oxygen increasing pump using turbine to close water

Technical Field

The invention relates to the field of oxygen increasing machines, in particular to a turbine water-closing type oxygen increasing pump.

Background

An aerator is a machine that is often used in fishery aquaculture. The main function of the device is to increase the oxygen content in water to ensure that the fish in the water can not lack oxygen, and simultaneously can inhibit the growth of anaerobic bacteria in the water, thereby preventing the deterioration of pond water from threatening the living environment of the fish. Generally, an aerator pumps air into water by an air pump provided by the aerator so as to achieve the purpose of increasing the oxygen content in the water.

When carrying out the oxygenation to the pond among the prior art, what adopt is that the oxygen-increasing machine carries out the oxygenation, and current oxygen-increasing machine just carries out leading-in gas in to liquid through trachea cooperation epitheca and electro-magnet, but when stopping the air guide, can appear liquid and can the electro-magnet position against the current, lead to equipment to damage, and secondly the position of oxygenation is only a point, can't carry out regularity oxygenation to a plurality of points.

Disclosure of Invention

The present invention is directed to a closed-water type oxygen increasing pump using a turbine to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme:

a water-closing type oxygenation pump utilizing a turbine comprises a base and a supporting plate, wherein an air entraining component and a water upper center walking component are arranged on a table top of the supporting plate, the air entraining component comprises a base frame, an oxygenation component is arranged on an upper table top of the base, a guide pipe is arranged on the left side of the oxygenation component, the upper part of the outer wall of the guide pipe is fixedly connected with the supporting plate, an exhaust pipe is fixedly connected with the top end of the guide pipe, a cavity cylinder is installed at one end of the exhaust pipe, an air guide rotary cylinder is fixedly communicated with the outer wall of the cavity cylinder, an air inlet cover is installed at the air inlet end of the air guide rotary cylinder, a driven shaft rod is installed in the inner cavity of the air guide rotary cylinder, a driven runner is installed at one end of the driven shaft rod, a belt is installed on the outer wall of the driven runner, a driving gear disc is connected with one end of the belt in a transmission manner, and a motor body is installed at the power input end of the driving gear disc, the locating plate is installed to the support end of base frame, the subassembly is walked to heart on water includes the plate wheel and floats the seat, the gear pivot is installed at the inside casing position of plate wheel, the pivot is installed at the center part of gear pivot, and the one end of pivot installs the gear pivot, install the chain on the outer wall of gear pivot, the motor is installed to the other end of chain, and is two sets of the upper surface overlap joint of floating seat has braced frame, the motor is installed on braced frame's support frame, braced frame's last frame leans on the preceding position to install electric energy savings device, contact block is installed to one side of electric energy savings device.

As a still further scheme of the invention: the upper surface right side of backup pad has seted up the transverse groove, the mouth that charges is installed on the notch left side of transverse groove, the right side of transverse groove is the slope form.

As a still further scheme of the invention: the lower surface welding of backup pad has the support column, and is two sets of lean on the lower part welding to have the welding board between the support column, the one end welding of welding board has the connecting piece, the bottom welding of support column has the welding seat, the bottom welding of welding seat has the air guide to the pipe, the air guide is to the one end and the pipe fixed connection of pipe.

As a still further scheme of the invention: the one end of connecting piece is connected with turbine air guide seat through the backup pad, the one end fixedly connected with of air guide butt joint pipe admits air the butt joint seat disk seat, the outer wall lower surface welding of air guide butt joint pipe has a supporting bench, the upper surface of air guide butt joint pipe has the slant bottom plate by the welding of preceding position, the other end of slant bottom plate is fixed on the outer wall of turbine air guide seat.

As a still further scheme of the invention: the oxygenation subassembly includes turbine air guide seat, sealed dish and oxygenation bubble section of thick bamboo, the inner chamber wall of turbine air guide seat leans on the lower part position to install built-in circular trompil dish seat, the inner chamber bottom of turbine air guide seat has been seted up to the perforation, and to installing the butt joint seat on the perforation wall, sealed dish is fixed between turbine air guide seat and oxygenation bubble section of thick bamboo.

As a still further scheme of the invention: the turbine air guide seat is characterized in that an impeller is installed in an inner cavity of the turbine air guide seat, a connecting plate is installed between an upper table surface of the impeller and the upper surface of the built-in circular perforated disc seat, a spring is welded on one side of the connecting plate, a welding piece is welded on the other end of the spring, and the welding piece is fixed on the upper surface of the built-in circular perforated disc seat.

As a still further scheme of the invention: the oxygen increasing bubble cylinder is characterized in that a sealing cover is installed at the top end of the oxygen increasing bubble cylinder, a connecting cylinder is installed in an inner cavity of the oxygen increasing bubble cylinder, a connecting column is installed at the center of the connecting cylinder, a connecting disc is arranged at the bottom end of the connecting column, a through hole is formed in the outer wall of the oxygen increasing bubble cylinder, an arc-shaped sealing element is fixedly connected to the outer wall of the connecting cylinder, and the arc-shaped length of the arc-shaped sealing element is greater than the arc-shaped length of the through hole of the oxygen increasing bubble cylinder.

As a still further scheme of the invention: the bottom of turbine air guide seat is installed and is put sealed mount pad at the bottom, the planet wheel top cap is installed to the bottom of putting sealed mount pad at the bottom, the planet wheel top cap includes planet wheel lower mould and connection pad, the center of planet wheel lower mould is treated the installation site and is installed the bearing ring body, the pivot is installed at the inner circle position of bearing ring body, and the welding of the top of pivot has lower trompil mount pad.

As a still further scheme of the invention: the upper portion of the lower opening mounting seat is provided with an upper opening mounting seat, a gear assembly and three meshing tooth columns are mounted between the upper opening mounting seat and the lower opening mounting seat, and the three meshing tooth columns are located among the three groups of gear assemblies and are in meshed transmission with each other.

As a still further scheme of the invention: the blades on the upper surface of the impeller and the air outlet of the turbine air guide seat are positioned on the same turbine surface.

Compared with the prior art, the invention has the beneficial effects that:

the invention controls the motor body on the air-entraining component to operate, so as to drive the driving gear disc connected with the driving end of the motor body to rotate, simultaneously, the driving gear disc drives the driven shaft to rotate through the belt, and the impeller shaft rod in the inner cavity of the air-guiding rotary cylinder is driven to rotate, when the impeller shaft rod rotates, the air inlet hood is inevitably led into the air-guiding rotary cylinder, and is swept into the air outlet pipe by the impeller through the inner cavity of the air-guiding rotary cylinder, and is connected with the air cavity cylinder at one end of the air outlet pipe, and is discharged into the inner cavity of the guide pipe through the air outlet pipe, the air enters the inner cavity of the air-guiding butt joint pipe through the guide pipe and is discharged through the turbine channel in the inner cavity of the turbine air-guiding seat, and the discharged air contacts with the blades on the impeller, so as to drive the impeller to rotate in the inner cavity of the turbine air-guiding seat, and simultaneously, the center part of the top end of the impeller is fixed with the connecting column after rotating, thereby realized driving the external arc sealing member of connecting cylinder and broken away from the slotted hole of seting up on the oxygenation bubble section of thick bamboo, realized discharging gas into liquid, realized oxygenation.

According to the invention, after the gas is closed, the blades on the impeller cannot be blown by the gas to rotate, and the connecting plate connected to the outer wall of the impeller is pulled by the spring and resets the blades on the impeller to the turbine exhaust port of the turbine air guide seat.

According to the invention, the disk wheel runs to the position of the supporting plate, the inclined plate arranged on the surface of the supporting plate is opened into the notch of the transverse groove, when the disk wheel contacts the inclined plate, the disk wheel can act and the roller effect can run on the transverse groove, the electric energy storage device arranged at the front end of the supporting frame is matched with the contact block to run in the left side of the notch of the transverse groove, so that the electricity storage in the air entraining component is realized, the structure is more optimized, and the design is more reasonable.

Drawings

FIG. 1 is a schematic view of a turbine water-shut type oxygen pump;

FIG. 2 is a view showing the installation of the parts on the supporting plate in the water-shut type oxygenation pump using the turbine;

FIG. 3 is an exploded view of a turbine air guide seat and a guide tube in the oxygen increasing pump using turbine water-closing mode;

FIG. 4 is a view showing the installation of a turbine air guide seat and an impeller in a turbine water-shut type oxygenation pump;

FIG. 5 is a view showing the internal structure of a connecting cylinder and a turbine air guide seat in the oxygen pump using turbine water-shut;

FIG. 6 is a sectional view of a turbine air guide seat in the oxygen increasing pump using the turbine water-closing type;

FIG. 7 is a top view of an oxygen increasing bubble column in a closed water type oxygen increasing pump using a turbine;

FIG. 8 is a structural view of a planetary gear in the oxygen pump using the turbine water-closing type;

fig. 9 is an exploded view of a planetary gear in the oxygen pump using the turbine water-closing type.

In the figure: the device comprises a base 1, a guide pipe 2, an oxygenation component 3, a support plate 4, a support column 5, an upper water center walking component 6, an air entraining component 7, a base frame 8, a cavity plate 9, a belt 10, an air inlet cover 11, an air guide rotary cylinder 12, a floating seat 13, a plate wheel 14, a chain 15, a gear rotating shaft 16, a support frame 17, a motor 18, an electric energy storage device 19, a contact block 20, a transverse groove 21, an exhaust pipe 22, a positioning plate 23, a motor body 24, a driving gear plate 25, a sealing plate 26, a built-in circular perforated plate seat 27, a butt joint seat 28, a connecting piece 29, a welding plate 30, an air guide butt joint pipe 31, a welding seat 32, an inclined bottom plate 33, a support table 34, an air inlet butt joint seat valve seat 35, a turbine air guide seat 36, an impeller 37, a connecting cylinder 38, an oxygen increasing bubble cylinder 39, a sealing cover 40, a bottom sealing installation seat 41, a planet wheel top cover 42, a planet wheel lower die plate 43, an arc-shaped sealing piece 44, a connecting column 45, a water center walking component, a water circulating device, a circulating water circulating device, a circulating water circulating devices, a circulating device, a circulating devices and a circulating devices, a circulating device, a circulating devices, a circulating, Spring 46, welding sheet 47, connecting plate 48, three-phase meshing tooth column 49, lower opening installation seat 50, bearing ring body 51, gear assembly 52, upper opening installation seat 53 and connecting plate 54.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 9, in the embodiment of the present invention, a water-shut type oxygenation pump using a turbine includes a base 1 and a support plate 4, an air-entraining component 7 and a water center-walking component 6 are disposed on a table top of the support plate 4, the air-entraining component 7 includes a base frame 8, an oxygenation component 3 is disposed on an upper table top of the base 1, a conduit 2 is disposed on a left side of the oxygenation component 3, an upper portion of an outer wall of the conduit 2 is fixedly connected to the support plate 4, an exhaust pipe 22 is fixedly connected to a top end of the conduit 2, a cavity cylinder is mounted at one end of the exhaust pipe 22, an air guide rotary cylinder 12 is fixedly communicated to an outer wall of the cavity cylinder, an air inlet cover 11 is mounted at an air inlet end of the air guide rotary cylinder 12, a driven shaft rod is mounted in an inner cavity of the air guide rotary cylinder 12, a driven runner is mounted at one end of the driven shaft rod, a belt 10 is mounted on an outer wall of the driven runner, one end of the belt 10 is drivingly connected to a driving gear disc 25, a motor body 24 is installed at the power input end of a driving gear disc 25, a positioning plate 23 is installed at the supporting end of a base frame 8, an upper center walking assembly 6 comprises a disc wheel 14 and floating seats 13, a gear rotating shaft 16 is installed at the inner frame part of the disc wheel 14, a rotating shaft is installed at the center part of the gear rotating shaft 16, a gear rotating shaft 16 is installed at one end of the rotating shaft, a chain 15 is installed on the outer wall of the gear rotating shaft 16, a motor 18 is installed at the other end of the chain 15, supporting frames 17 are lapped on the upper surfaces of two groups of floating seats 13, the motor 18 is installed on a supporting frame of the supporting frame 17, an electric energy storage device 19 is installed at the front part of the upper frame of the supporting frame 17, a contact block 20 is installed at one side of the electric energy storage device 19, a transverse groove 21 is formed in the right side of the upper surface of the supporting plate 4, a charging port is installed on the left side of a notch of the transverse groove 21, the right side of the transverse groove 21 is in an inclined shape, supporting columns 5 are welded on the lower surface of the supporting plate 4, a welding plate 30 is welded at a lower part between two groups of supporting columns 5, a connecting piece 29 is welded at one end of the welding plate 30, a welding seat 32 is welded at the bottom end of each supporting column 5, an air guide butt joint pipe 31 is welded at the bottom end of each welding seat 32, one end of each air guide butt joint pipe 31 is fixedly connected with a guide pipe 2, one end of each connecting piece 29 is connected with a turbine air guide seat 36 through a supporting plate, one end of each air guide butt joint pipe 31 is fixedly connected with an air inlet butt joint seat valve seat 35, a supporting table 34 is welded at the lower surface of the outer wall of each air guide butt joint pipe 31, an inclined bottom plate 33 is welded at a front part of the upper surface of each air guide butt joint pipe 31, the other end of each inclined bottom plate 33 is fixed on the outer wall of each turbine air guide seat 36, each oxygen increasing component 3 comprises a turbine air guide seat 36, a sealing plate 26 and an oxygen increasing bubble cylinder 39, a built-in-round perforated plate seat 27 is installed at a lower part of the inner cavity wall of each turbine air guide seat 36, the butt joint seat 28 is arranged on the wall of the butt joint hole, the sealing disc 26 is fixed between the turbine air guide seat 36 and the oxygen increasing bubble cylinder 39, the impeller 37 is arranged in the inner cavity of the turbine air guide seat 36, the connecting plate 48 is arranged between the upper table surface of the impeller 37 and the upper surface of the built-in circular perforated disc seat 27, the spring 46 is welded on one side of the connecting plate 48, the welding sheet 47 is welded on the other end of the spring 46, the welding sheet 47 is fixed on the upper surface of the built-in circular perforated disc seat 27, the sealing cover 40 is arranged at the top end of the oxygen increasing bubble cylinder 39, the connecting cylinder 38 is arranged in the inner cavity of the oxygen increasing bubble cylinder 39, the connecting column 45 is arranged at the central part of the connecting cylinder 38, the connecting disc 54 is arranged at the bottom end of the connecting column 45, the butt joint hole is arranged on the outer wall of the oxygen increasing bubble cylinder 39, the arc-shaped sealing element 44 is fixedly connected on the outer wall of the connecting cylinder 38, the arc-shaped sealing element 44 is longer than the arc-shaped length of the hole of the oxygen increasing bubble cylinder 39, the bottom sealing installation seat 41 is installed at the bottom end of the turbine air guide seat 36, the planet wheel top cover 42 is installed at the bottom end of the bottom sealing installation seat 41, the planet wheel top cover 42 comprises a planet wheel lower die 43 and a connection disk 54, a bearing ring body 51 is installed at the center of the planet wheel lower die 43 to be installed, a rotating shaft is installed at the inner ring part of the bearing ring body 51, a lower opening installation seat 50 is welded at the top end of the rotating shaft, an upper opening installation seat 53 is arranged above the lower opening installation seat 50, a gear assembly 52 and three meshing tooth posts 49 are installed between the upper opening installation seat 53 and the lower opening installation seat 50, the three meshing tooth posts 49 are located among the three gear assemblies 52 and are in meshed transmission, and the upper surface blades of the impeller 37 and the air outlet of the turbine air guide seat 36 are located on the same wheel surface.

The working principle of the invention is as follows: when the aerator is used, the support plate 4 is built on the water surface, the base frame 8 is arranged on the upper surface of the support plate 4 and used for fixing the air-entraining component 7, and the aeration component 3 is placed in water;

specifically, the method comprises the following steps: the motor 18 is controlled to operate, the chain 15 connected with the driving shaft is controlled to drive the gear rotating shaft 16 to rotate, and after the gear rotating shaft 16 rotates, the gear rotating shaft 16 in the inner frame of the disc wheel 14 is inevitably driven to rotate, so that the disc wheel 14 can run on the water surface;

the disk wheel 14 runs to the position of the support plate 4 and is opened into the notch of the transverse groove 21 through the inclined plate arranged on the surface of the support plate 4, when the disk wheel 14 contacts the inclined plate, the disk wheel 14 can act on the transverse groove 21 to run with the roller effect, and the electric energy storage device 19 arranged at the front end of the frame of the support frame 17 is matched with the contact block 20 to store electricity in the notch of the transverse groove 21, so that electricity is stored in the air entraining component 7;

controlling a motor body 24 on the air entraining assembly 7 to operate, driving a driving gear disc 25 connected with a driving end of the motor body 24 to rotate, simultaneously driving a driven shaft to rotate through a belt 10 by the driving gear disc 25, and realizing the purpose of driving an impeller shaft in an inner cavity of an air guide rotary cylinder 12 to rotate, after the impeller shaft rotates, inevitably leading the air inlet cover 11 to guide the air into the air guide rotary cylinder 12, sweeping the air into one end of an exhaust pipe 22 through an inner cavity of the air guide rotary cylinder 12 by an impeller to be connected with a hollow cylinder, and discharging the air into the inner cavity of the guide pipe 2 through the exhaust pipe 22;

the gas enters the inner cavity of the gas guide butt joint pipe 31 through the guide pipe 2 and is discharged through a turbine channel in the inner cavity of the turbine gas guide seat 36, the discharged gas contacts with blades on the impeller 37, the impeller 37 is driven to rotate in the inner cavity of the turbine gas guide seat 36, and meanwhile, after the impeller 37 rotates, the central part of the top end of the impeller 37 is fixed with the connecting column 45, so that the arc-shaped sealing element 44 externally arranged on the connecting cylinder 38 is driven to be separated from a slotted hole formed in the oxygen increasing bubble cylinder 39, the gas is discharged into the liquid, and oxygen increasing is realized;

when the gas is closed, the blades on the impeller 37 cannot be blown by the gas to rotate, and the connecting plate 48 connected to the outer wall of the impeller 37 is pulled by the spring 46 and resets the blades on the impeller 37 to the turbine exhaust port of the turbine air guide seat 36;

the planet wheel top cover 42 is arranged for enhancing the rotation of the impeller 37 in the inner cavity of the turbine air guide seat 36;

specifically, the method comprises the following steps: the three-phase meshing tooth column 49 is matched with the three-group gear assembly 52 for transmission, so that the connecting disc 54 is additionally rotated, and the impeller 37 is enhanced to rotate.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (3)

1. The utility model provides an utilize turbine to close water formula oxygenation pump, includes base (1) and backup pad (4), its characterized in that:

an air-entraining component (7) and an upper water center walking component (6) are arranged on the table top of the supporting plate (4);

the air entraining component (7) comprises a base frame (8), an oxygen enriching component (3) is arranged on the upper table top of the base (1), a guide pipe (2) is arranged on the left side of the oxygen enriching component (3), the upper part of the outer wall of the guide pipe (2) is fixedly connected with a support plate (4), an exhaust pipe (22) is fixedly connected with the top end of the guide pipe (2), a cavity cylinder is installed at one end of the exhaust pipe (22), an air guide rotating cylinder (12) is fixedly communicated with the outer wall of the cavity cylinder, an air inlet cover (11) is installed at the air inlet end of the air guide rotating cylinder (12), a driven shaft lever is installed in the inner cavity of the air guide rotating cylinder (12), a driven runner is installed at one end of the driven shaft lever, a belt (10) is installed on the outer wall of the driven runner, a driving gear disc (25) is connected with one end of the belt (10) in a transmission manner, a motor body (24) is installed at the power input end of the driving gear disc (25), a positioning plate (23) is arranged at the supporting end of the base frame (8);

the water center walking assembly (6) comprises a plate wheel (14) and a floating seat (13), a gear rotating shaft (16) is installed at the inner frame part of the plate wheel (14), a rotating shaft is installed at the center part of the gear rotating shaft (16), the gear rotating shaft (16) is installed at one end of the rotating shaft, a chain (15) is installed on the outer wall of the gear rotating shaft (16), a motor (18) is installed at the other end of the chain (15), two groups of supporting frames (17) are lapped on the upper surface of the floating seat (13), the motor (18) is installed on a supporting frame of the supporting frames (17), an electric energy storage device (19) is installed at the front part of the upper frame of the supporting frames (17), and a contact block (20) is installed at one side of the electric energy storage device (19),

a transverse groove (21) is formed in the right side of the upper surface of the supporting plate (4), a charging port is installed on the left side of a notch of the transverse groove (21), the right side of the transverse groove (21) is inclined,

the lower surface welding of backup pad (4) has support column (5), leans on the welding of lower part position to have welding plate (30) between two sets of support column (5), the one end welding of welding plate (30) has connecting piece (29), the bottom welding of support column (5) has welding seat (32), the bottom welding of welding seat (32) has the air guide to the pipe (31), the air guide is to the one end and the pipe (2) fixed connection of pipe (31),

one end of the connecting piece (29) is connected with a turbine air guide seat (36) through a supporting plate, one end of the air guide butt joint pipe (31) is fixedly connected with an air inlet butt joint seat valve seat (35), a supporting table (34) is welded on the lower surface of the outer wall of the air guide butt joint pipe (31), an inclined bottom plate (33) is welded on the front part of the upper surface of the air guide butt joint pipe (31), the other end of the inclined bottom plate (33) is fixed on the outer wall of the turbine air guide seat (36),

the oxygenation component (3) comprises a turbine air guide seat (36), a sealing disc (26) and an oxygenation bubble cylinder (39), a built-in circular perforated disc seat (27) is installed on the inner cavity wall of the turbine air guide seat (36) by the lower portion, the bottom end of the inner cavity of the turbine air guide seat (36) is provided with a butt joint seat (28) and the butt joint seat is installed on the wall of the through hole, the sealing disc (26) is fixed between the turbine air guide seat (36) and the oxygenation bubble cylinder (39),

a sealing cover (40) is installed at the top end of the oxygen increasing bubble cylinder (39), a connecting cylinder (38) is installed in an inner cavity of the oxygen increasing bubble cylinder (39), a connecting column (45) is installed at the center of the connecting cylinder (38), a connecting disc (54) is arranged at the bottom end of the connecting column (45), a pair of through holes are formed in the outer wall of the oxygen increasing bubble cylinder (39), an arc-shaped sealing element (44) is fixedly connected to the outer wall of the connecting cylinder (38), and the arc-shaped length of the arc-shaped sealing element (44) is greater than that of the through holes of the oxygen increasing bubble cylinder (39),

the bottom of the turbine air guide seat (36) is provided with a bottom sealing installation seat (41), the bottom of the bottom sealing installation seat (41) is provided with a planet wheel top cover (42), the planet wheel top cover (42) comprises a planet wheel lower die disc (43) and a connecting disc (54), the center of the planet wheel lower die disc (43) is provided with a bearing ring body (51) at the installation part, the inner ring part of the bearing ring body (51) is provided with a rotating shaft, and the top end of the rotating shaft is welded with a lower opening installation seat (50),

an upper opening mounting seat (53) is arranged above the lower opening mounting seat (50), a gear assembly (52) and three meshing tooth columns (49) are arranged between the upper opening mounting seat (53) and the lower opening mounting seat (50), and the three meshing tooth columns (49) are located in three groups of gear assemblies (52) and are in meshed transmission with each other.

2. The oxygen increasing pump using turbine water shut-off according to claim 1, wherein: install impeller (37) in the inner chamber of turbine air guide seat (36), install connecting plate (48) between impeller (37) upper table face and the upper surface of built-in circular trompil dish seat (27), spring (46) have been welded to one side of connecting plate (48), welding piece (47) have been welded to the other end of spring (46), welding piece (47) are fixed at the upper surface of built-in circular trompil dish seat (27).

3. The oxygen increasing pump using turbine water shut-off according to claim 2, wherein: the upper surface blades of the impeller (37) and the air outlet of the turbine air guide seat (36) are positioned on the same turbine surface.

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