DE2051036A1 - Liquid pumps, in particular heating oil pumps - Google Patents

Description

The invention relates to a liquid pump, in particular Heating oil pump, with an upstream suction chamber and an eccentrically arranged suction opening in the pump housing.

In many pumping systems it cannot be avoided that the liquid contains air. This air has a tendency to become in the Collect suction space. If the air cushion becomes too large, the pump no longer delivers liquid, but air. Particularly serious it is when there is so much air in the start-up moment Suction chamber is located so that the suction opening is no longer covered by liquid, because then there is no oil in the start-up period is promoted and thus the achievement of the full delivery pressure is called into question.

A further complication is that liquid pumps are mounted in a wide variety of installation positions. Has the Pump an eccentrically arranged suction opening, which is a relatively short and therefore low-resistance suction channel allows ^ then there is the possibility that the suction opening is at the top of a pump with a horizontal shaft. This means, that the suction opening is completely above the oil level even with a small amount of air in the suction chamber. It is therefore known, the suction opening in the middle or at least

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to be relocated in the central area of the pump, regardless of the installation position, at the start-up the suction opening with liquid is covered.

It is also known to continuously convey part of the air together with the liquid from the pump during operation. For this purpose, the suction opening is preceded by a plate with openings or channels, some of which are in the liquid space and another part opens into the airspace. However, these measures increase the suction resistance.

The invention is based on the object of specifying a liquid pump of the type described at the outset which allows to use an eccentric suction opening, but nevertheless the full delivery pressure in any installation position with a short start-up time to reach, and let the suction opening open directly into the suction chamber, but still a perfect discharge of air during normal pumping operation.

According to the invention, this object is achieved in that in the suction chamber there is a rotating fluid which is located there Circulating element is provided which rotates with the pump drive.

The liquid set in rotation forms a liquid ring, inside of which there is air. As a rule, an annular intermediate area with an air-liquid mixture is also formed. If the radius of the air space or the transition area exceeds the eccentricity of the suction opening, the pump sucks off some air in addition to the liquid. The installation position does not matter. Because even when the eccentric intake opening during startup instantaneous at all should not be covered by liquid, Umwälzorgans forms after a few revolutions _f of such a liquid distribution from that the pump can draw liquid.

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In a preferred embodiment, the circulating element is through formed the pump housing. This results in a very simple construction. In addition, the suction opening moves on a circular path. Even if it lies in the air space when the pump starts up, it is immersed in liquid after just a brief turn of the housing on and the pump can start pumping.

It is also useful if the inlet opening into the suction chamber has a smaller radial distance than the suction opening. With this structure, the liquid is already on the way from the inlet opening to the suction opening by the centrifugal force driven. The pump therefore has a greater suction lift.

Furthermore, the pump housing can improve the rotation Profiling be provided. For example, screws that are otherwise countersunk, with their heads in the Protrude suction space.

It is beneficial if the suction space is known per se Way extends over the circumference of the pump housing. Then the circumferential surface of the pump housing also contributes to the rotary drive the liquid.

In a further embodiment, the rotor of the electric drive motor can Part of the pump housing and this be mounted on a stationary, a gear of the pump retaining axis. This leads to a very simple structure of the pump.

In particular, the suction chamber can be provided on the front side by two walls, in which the axis is held, and be limited on the circumference by a wall running in the air gap of the motor. In this way the result is a very large circulating element, which sets the liquid in rapid rotation. Also are the rotating parts of the motor is cooled by liquid.

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205 WM

Furthermore, the 'pressure line can be passed through the' axis to the outside. A packing box between motor and pump can be used here, if omitted.

The invention is explained in more detail below with the aid of an exemplary embodiment shown partially schematically in the drawing explained. Show it:

1 shows an axial section through a liquid pump according to the invention and

FIG. 2 shows a cross section along the line A-A in FIG. 1.

The liquid pump has a drive motor with stator 1 and rotor 2. The latter is part of the pump housing 3 because a Rotor body 4, a ring 5 and a face plate 6 are united with one another by screws .7. The ring 5 has an eccentric Opening in which a toothed ring 8 rotates. This forms together with a gear 9 pump chambers 10, which are periodically zoom in and out. The gear 9 is rotatably held with the help of a pin 11 on an axis 12, which in two End walls 13 and 14 is attached. The end walls are through a peripheral wall 15 connected to one another, which extends through the air gap of the motor. Otherwise the pump is through two housing parts T6 and 17 enclosed.

The walls 13, 14 and 15 delimit a suction space 18, this has an inlet opening 19. The liquid contained in the suction space washes around the entire pump housing 3 "e-iiisohließliah 'ües rotor 2. On the end plate 6 there is an eccentric A &sam' göff "- now 20 provided, which was at the level of the tooth chamber 10". An outlet channel 21 in the base plate 6 leads via edifce 22 to an axial bore 2.3 in outer adh-se _"f2;., can be taken off i £ be-r älre tlüssigkeit ear 'Rdi-ims öfifriung 20 i'st size-r -a-ls-free · .ääius -R ₂ fefr!

When the pump is started, the housing rotates in the suction chamber 18. The oil contained therein is caused by centrifugal force pressed outwards, the entire surface of the pump housing 3 including the profiling by the screw heads 7 is effective. The air contained in the suction chamber enters the interior of the liquid ring. Once the parting surface between air and liquid exceeds the circuit 24, a part of the air is through the suction opening 20 together with the Liquid drained away. Since in practice there is no clear interface between the liquid and the air, but rather there is a transition area in which there is an air-liquid mixture is located, there is an even more even discharge of the air.

Assuming that the suction port 20 is at the moment of start-up is at the top and the suction chamber 18 contains so much air that the dividing line 25 has been set, then the suction opening 20 occurs after a very short rotation of the pump housing 3 below the liquid level and the pump begins to pump fluid.

But even in the case where the suction port 20 is fixed would remain and only the liquid would be set in rotation, the indicated liquid ring would arise after a few revolutions, which ensures a supply of the suction opening 20 with liquid.

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Claims (8)

PATENT CLAIMS Liquid pump, in particular heating oil pump, with an upstream Suction chamber and an eccentrically arranged suction opening in the pump housing, characterized in that in the Suction chamber (18) is provided with a circulating element (3) which sets the liquid there in rotation and which is connected to the pump drive (2) revolves. 2. Pump according to claim 1, characterized in that the circulating element is formed by the pump housing (3). 3. Pump according to claim 1 or 2, characterized in that the inlet opening (19) into the suction chamber has a smaller radial one Has a distance than the suction opening (20). 4. Pump according to claim 2 or 3, characterized in that the pump housing (3) with the rotation-improving profiles (7) is provided. 5. Pump according to one of claims 2 to 4, characterized in that P that the suction chamber (18) in a known manner on the Extends circumference of the pump housing (3). 6. Pump according to one of claims 2 to 5, characterized in that that the rotor (2) of the electric drive motor is part of the pump housing (3) and this on a stationary, a gear (9) the pump retaining axis (12) is mounted. 7. Pump according to claim 6, characterized in that the suction chamber (18) on the front side by two walls (13, 14) in which the axis (12) is held, and on the circumference by one in the air gap of the motor extending wall (15) is limited. 8. Pump according to claim 6 or 7, characterized in that the Pressure line (23) is passed through the axis (12) to the outside. 309817/0587 Blank page