DE202009011088U1 - Oxygen-feed-water pump - Google Patents

Abstract

Oxygen supply water pump, wherein
a conveyor element is driven by a motor via a rotor,
the conveying element drives water in such a way that it rotates around a rotating shaft and discharges the water in the radial direction,
the water is drawn from an inlet mechanism into the conveyor element and
the inlet mechanism is provided with a Venturi tube structure in which an air inlet is provided radially at a water inlet of the inlet mechanism, so that when the conveyor element draws water from the inlet mechanism, the air is also drawn into the inlet mechanism, and therefore the water is first the air is mixed and then the air mixed with water is expelled by the action of the conveying element via an outlet mechanism,
characterized in that the inlet mechanism and a rotor chamber are interconnected and the water flow and the air flow introduced into the inlet mechanism pass through the rotor chamber and the conveyor element and then drain via the outlet mechanism.

Description

Field of the invention

The present application relates to an oxygen feed water pump, which is used to pump air in water, such as in an aquarium, a garden pond and the like. In particular, the present invention relates Utility model application a water pump that is able to Water from a water inlet and air from an air inlet too pull, to mix the air and the water, which mixed with air To eject water and a number of fine bubbles to create. The bubbles rise through the effect of buoyancy and eventually exit the water surface out and burst. While the rising of the bubbles the oxygen is fed into the water, and it is formed decorative effect.

Background of the invention

you usually bubbles in water, such as in an aquarium, a garden pond and the like, to increase the oxygen content in the water and a decorative effect to achieve.

Traditional is an air pump outside of one Aquariums or a pond. The air is from the air pump pumped and over a ventilation pipe fed into the aquarium or pond. In the air outlet opening are Air distribution means such as a gas distribution frit, a wood compressed air aerator Air distribution rod and the like, for distributing and reducing the bubbles for the purpose of raising the oxygen content and the number of bubbles provided. This device is very complex, makes a lot of noise and has a limited lifespan. In addition, the air distribution openings in the gas distribution frit, the wood compressed air aerator and the air distribution rod often clogged.

Furthermore you can use a water pump to pump air into water, this means, a venturi tube can be attached to a water inlet or a water outlet The water pump can be provided to supply air together with the to pump the pumped water and to produce at the water outlet a stream of water and bubbles. In the case that a conventional Water pump with an oxygen feed device with a Venturi tube is provided, the number of bubbles produced is low, the volume of the bubbles is big and the from the bubbles captured area is small, and therefore can not be an ideal effect be achieved.

It also gives an oxygen feed water pump, in which oxygen is fed by pumping air. The oxygen feed water pump conducts water from the upper axial end part and air from the lower one axial end part and pushes water and bubbles from the conveyor element in the radial direction. The oxygen feed water pump of this Art can produce a good oxygen feed effect. The air inlet chamber however, at the lower axial end part it insulates the lower part of the runner from the outside, so that the water in the runner chamber not together with the outside water circulated can be, and therefore lubrication and heat radiation of the runner not good and it can easily overheat and wear come.

Brief description of the invention

aim This application is to eliminate at least one of the aforementioned deficiencies and an oxygen feed water pump available too Adjust the oxygen by pumping air and the recirculated water feeds. The oxygen feed water pump according to the present Utility model application may have a number of fine bubbles in generate water and an excellent oxygen feed effect and decorative bubbles cause. Another advantage is that the water flow and the airflow that is introduced, heat radiation and lubrication of the runner can effect.

The The aim of the present utility model application is by the following solution reached.

There is provided an oxygen feed water pump in which a conveyor element is driven by a motor via a rotor. The impeller drives water to rotate about a revolving shaft and expels the water in the radial direction. At the same time, the water is drawn by an inlet mechanism into the conveying element. The inlet mechanism is provided with a venturi tube structure. In particular, an air inlet is provided radially at a water inlet of the inlet mechanism so that the air is drawn into the inlet mechanism while the conveyor draws water from the inlet mechanism. The water is mixed with the air, and then the water mixed with the air is discharged through an outlet mechanism by the action of the impeller. The oxygen supply water pump according to the present utility model application is characterized in that the inlet mechanism and a rotor chamber are connected to each other, and the water flow and the air flow flowing in be introduced into the inlet mechanism, before passing the rotor chamber and the conveying element and then flow through the outlet mechanism.

at Such an oxygen feed water pump may be the mixture from water and air through the action of the conveying element a water flow produce. This water flow turns around the rotating shaft and ascend and lead a number of fine bubbles With. The bubbles can while of upgrading by itself and spread over a larger area to capture. The bubbles rise through the effect of buoyancy and eventually exit the water surface out and burst. While the rising of the bubbles will over the interface between the bubbles and the oxygen fed into the water. Since that Volume of bubbles is small and the number of bubbles is great, comes it provides an excellent oxygen supply and vesicle effect.

Yet more important is that in that the inlet mechanism and the rotor chamber connected to each other, the components that make up the rotor chamber, the runner, the conveying element and the orbiting wave, by taking advantage of the circumstance, that the water flow and the air flow into the inlet mechanism arrive, cooled and can be lubricated, so that the temperature of the components and the friction between the Components can be reduced and improves the life and reliability of the product can be.

Yet it is more advantageous that it according to the present Utility model application a water-air mixing space between the impeller and the runner chamber for preparing a buffer and storage space for the mixture of the water and the air gives.

Yet more advantageous is that according to the present Utility model application a lighting lamp for emitting Light up is provided to illuminate the bubbles and a better to achieve decorative effect.

Brief description of the drawings

These and / or other aspects and benefits of Utility model application from the description below of the preferred embodiments in conjunction with the attached drawings emerge from this description and better understood. Here are:

1 a schematic construction exploded view of an embodiment of the present utility model application;

2 a perspective view showing the appearance of the oxygen feed water pump in 1 shows; and

3 a schematic sectional view of the oxygen feed water pump in 1 ,

Detailed description of the preferred embodiments

below become the preferred embodiments described in detail in the present application, and examples of this be in the attached Drawings shown, with similar reference symbols consistently similar Designate elements.

As in 3 is shown, the present oxygen supply water pump comprises: a motor 1 , a conveyor element 2 , an inlet mechanism 3 , a venturi tube 4 , a mixed room 5 , a guide 6 , which is double as an outlet mechanism, and a light emitting diode 7 ,

As in 1 shown is the engine 1 in a housing 11 the water pump mounted. The motor 1 has a runner 12 and a stand 13 , The runner 12 is by means of a wave 14 in a runner's chamber 15 assembled. The upper end and the lower end of the shaft 14 be from the bottom of the runner chamber 15 of the housing 11 or the top of the guide 6 held. The conveying element 2 is like that with the top of the runner 12 connected that the runner 12 and the conveying element 2 around the shaft 14 can turn. In addition, the wall isolates the runner chamber 15 around the runner 12 the stand 13 against the interior of the runner chamber 15 and the runner 12 ,

The inlet mechanism 3 is in the case 11 intended. The inlet mechanism 3 has a water inlet 31 for introducing water from an opening in the bottom of the housing 11 on. The inlet mechanism 3 is adjacent to the runner chamber 15 arranged, and the inlet mechanism 3 and the runner chamber 15 are through an opening or a slot 32 connected with each other. In addition, the inlet mechanism 3 with an air inlet 33 Mistake. The air intake 33 is on the side wall of the water inlet 31 so provided that a venturi tube 4 arises.

The mixing room 5 is a flat cylinder with an open end. A through hole 51 is in a closed end of the mixing room 5 formed opposite the open end at the center thereof. The wave 14 and the runner 12 can through the through hole 51 pass. The open end of the mixing room 5 is with the inlet mechanism 3 and the runner chamber 15 connected and is closed by them. At the same time, the gap between the runner 12 and the through hole 51 used as a channel for the mixture of water and air.

The conveying element 2 is at the top of the runner 2 installed and above the mixing room 5 positioned. When the conveyor element 2 turns, the water is rotated about a rotating axis and ejected, and in this way creates a region with a lower pressure in the central region of the conveying element 2 above and below the conveyor element 2 , Therefore, water gets out of the inlet mechanism 3 over the chamber of the inlet mechanism 3 , the runner chamber 15 and the mixing room 5 added. When the water in the inlet mechanism 3 to the conveyor element 3 is drawn, the outside water from the water inlet 31 from being introduced, and at the same time, the air in the venturi tube 4 also in the inlet mechanism 3 initiated.

As in 1 and 2 shown is the leadership 6 a mechanism with a peripheral side, an open bottom and a closed top. The peripheral side of the leadership 6 is provided with openings. The lower periphery of the guide 6 is connected to the wall of the mixing chamber and is closed by this. In the lead 6 a cavity is formed. The cavity extends from the open bottom upwards and serves as a storage chamber for the conveying element 2 , The openings in the peripheral side of the guide 6 can serve as outlet openings for air and water. Therefore, the guide functions not only as an outlet mechanism but also as a flow guide. Preferably, the peripheral side is provided with a surface that is upwardly and outwardly inclined or curved. More preferably, the peripheral side may be provided with a plurality of spoon-like concave parts extending outward from the peripheral side. The concave portions are located outside and below the water and air outlet ports to provide another guide for guiding the water flow and air flow upward. At the same time, the concave parts can also be used as mounting plates for mounting a plurality of light-emitting diodes 7 serve.

In addition, the inner peripheral wall of the mixing chamber 5 above the neck at the opening of the housing 11 be attached so that a space for mixing and storing water and air between the mixing room 5 and the runner chamber 15 can be provided. In this way, a stable outlet of water and bubbles can be ensured, and the bubbles are small and abundant.

above Although a preferred embodiment the present. Application has been presented and described but it should not be considered as an embodiment which limits the scope of the present application. each Modification or equivalent embodiment, not from the principles and the basic idea of the present application differs within the scope of the present application.

Claims (5)

Oxygen supply water pump, wherein a conveying element is driven by a motor via a rotor, the conveying element drives water so that it rotates around a rotating shaft and ejects the water in the radial direction, the water is drawn from an inlet mechanism in the conveying element and the Inlet mechanism is provided with a Venturi tube structure in which an air inlet is provided radially to a water inlet of the inlet mechanism, so that when the conveyor element pulls water from the inlet mechanism, the air is also drawn into the inlet mechanism and therefore the water only with the Air is mixed and then the water mixed with water is ejected by the action of the conveying element via an outlet mechanism, characterized in that the inlet mechanism and a rotor chamber are interconnected and the water flow and the air flow, which are introduced into the inlet mechanism, the run and pass through the conveying element and then drain via the outlet mechanism. Oxygen supply water pump according to claim 1, which further comprises a mixing space between the conveying element and the runner chamber is arranged, wherein the mixing room the shape of a flat Cylinder with an open end and a closed end, the open end is connected to the inlet mechanism and the rotor chamber and is closed by them, the closed end in his Center with a through hole for passing through the rotating shaft and the runner is provided the gap between the rotor and the through hole a channel for the mixture of water and air forms and the mixing room one Space between the conveyor element, the runner chamber and the inlet mechanism for mixing and storing water and Represents air. Oxygen feed water pump after Claim 1 or 2, characterized in that the outlet mechanism is a guide, which is designed with a peripheral side, an open bottom and a closed top, the peripheral side of the guide is provided with openings, the lower periphery of the guide with the wall of the A cavity is formed in the guide from the open bottom upwards and serves as a storage space for the conveying element and the openings in the peripheral side of the guide can serve as the outlet openings for air and water. Oxygen supply water pump according to claim 3, characterized in that the peripheral side with a area is provided which is upwardly and outwardly inclined or curved, and the peripheral side with a variety of spoon-like concave parts may be provided from the peripheral side outward run and get outside and below the outlet openings for water and air are located. Oxygen supply water pump according to claim 4, characterized in that the concave parts with light-emitting diodes are provided as a light source for illuminating the bubbles.