US3044406A

US3044406A - Electromotor-driven centrifugal pump

Info

Publication number: US3044406A
Application number: US33967A
Authority: US
Inventors: Kristenson Nils Henry Borje
Original assignee: SCANDINAVIAN AGENCIES CORP Ltd
Current assignee: SCANDINAVIAN AGENCIES CORP Ltd
Priority date: 1959-07-22
Filing date: 1960-06-06
Publication date: 1962-07-17
Anticipated expiration: 1979-07-17

Description

July 17, 1962 N. H. B. KRISTENSON 3,044,406

ELECTROMOTOR-DRIVEN CENTRIFUGAL PUMP Filed June 6, 1960 Fi .1 22 G g (F r1 r1 r1 *1 L United States Patent ELECTROMOTOR-DRIVEN CENTRIFUGAL PUMP Nils Henry Biirje Kristenson, Stockholm, Sweden, as-

signor to Scandinavian Agencies Corp. Ltd., Tangier,

Morocco Filed June 6, 1960, Ser. No. 33,967 Claims priority, application Sweden July 22, 1959 4 Claims. (Cl. 103-87) The invention relates to elcctromotor-dr-iven centrifugal pumps, particularly bilge pumps, of the kind in which the drive motor is cooled by the liquid being pumped, said liquid being allowed to pass through a duct system in heat-transferring relation to the motor and comprising, most commonly, one single cooling duct which is annular in cross section and is confined between the motor and an outer casing surrounding the latter.

If for some reason or other the pumping unit of such electromotor-driven centrifugal pumps should cease to force liquid through the cooling duct system, due, for instance, to the pump having drained oil the body of water in which it is immersed, this will interrupt the cooling of the motor. Even though the latter will now be idling, thus reducing the development of heat therein, nevertheless the remaining generation of heat due to the idlestate losses in the motor, consisting essentially of the core losses of the motor, will be of a magnitudesuch that breakdown of the motor due to overheating would take place if it were allowed to go on running without being cooled. In addition, even in its idling state the frictional losses in motor and pump may be considerable because extraneous objects will frequently be wedged between the impeller and pump casing thus giving rise to a very great frictional resistance.

Various measures have been proposed with a view to prevent the drive motor from attaining excessive temperatures on failure of the liquid cooling. Thus it has been proposed to make provision for automatically switching off the current supply to the drive motor whenever its temperature exceeds a predetermined value. However, such safety arrangements are inherently complicated and expensive and are liable to failure as a result of the rough handling to which bilge pumps and similar pumps are often subjected in service.

In accordance with this invention the problem of preventing excessive heating of the drive motor on failure of the liquid cooling has been solved in a different and simpler way. According to the invention the cooling duct system is provided with one or more passageways leading directly into the ambient atmosphere and controlled by valves adapted to remain closed as long as liquid is being pumped through the cooling duct system and to open automatically Whenever the liquid flow ceases. After the valve or valves are opened, the centrifugal pump will force a flow of air through the cooling duct system and directly back to the ambient atmosphere through the opened passageways, and this airflow, owing to the comparatively low resistance to flow, will be sufficiently forceful to be capable of dissipating the heat generated due to the idlestate losses and thus to prevent the motor from reaching an impermissibly high temperature.

The valves controlling the outlet passageways to the ambient atmosphere may be in the form of spring-loaded valves which are maintained in their closed position by the liquid pressure against their spring load as long as liquid is flowing through the cooling duct system, and are automatically urged to their open position by their springs as soon as the liquid flow ceases.

The invention is applicable with particular advantage to portable bilge pumps having vertical impeller shafts, although it is applicable also to other kinds of liquid 3,044,406 Patented July 17, 1962 pumps in which the liquid pumped is utilized as a coolant for the drive motor.

The invention will now be described more closely in conjunction with the accompanying drawing, in which:

FIG. 1 is a cross-sectional elevation of a portable bilge pump embodying the invention; and

FIG. 2 is a fragmentary view showing a modified form of the valve mechanism.

Referring to the drawing, numeral 10 designates the liquid-sealingly enclosed electromotor, being, as a rule, an alternating-current motor, and 11 denotes the extended motor shaft having the impeller 12 keyed thereto. The pump housing, which is composed of an upper cup-shaped member 13 lined with rubber or similar material and a lower cup-shaped member 14 also lined with rubber, is bolted to the stator casing of the drive motor. Designated by 15 is a cylindrical sheet-metal outer casing coaxially surrounding the enclosed drive motor 10 so as to form between the latter and the outer casing a cooling duct 16 which is annular in cross section. Opening into the bottom portion of this duct are the discharge passages 17 from the centrifugal pump, whereas the outlet hose 18 for carrying away the liquid being pumped is connected to the upper end portion of the cooling duct. A down- Ward extension of the outercasing 15 constitutes an annular strainer 19. An end plate 20 confining a suction chamber 21 between the strainer 19 and the intake opening of the pump, constitutes a foot for supporting the pump assembly with its shaft extending vertically on the bottom of the vessel containing the body of water to be drained. Numeral 22 designates the electric connecting cable of the drive motor, and numeral 23 denotes a carrying handle.

The water sucked in through strainer 19 is forced by the impeller 12 upward through the annular duct 16 and out through the hose 18. On its passage through duct 16, the water being pumped cools the electric motor 10 I whereby the latter is prevented from attaining an impermissibly high temperature.

In order to ensure continued cooling of the motor 10 in the case of failure of the water flow through the cooling duct 16, there is provided in the wall of the cooling duct, according to the invention, at least one outlet passageway 24 adapted, during pumping, to remain closed by a valve. As shown in the drawing, the valve comprises a poppet head 25 secured, as usual, to a valve stem 26 which is guided for endwise movement and urged by a spring 27 towards the position shown corresponding to the open state of the valve. The spring 27 at its outer end abuts a cover 28 having a downwardly facing outlet 29. Upon starting the pump, the water being pumped will initially be forced out through the

open passageway

24, 29, but the pressure of the liquid being pumped will immediately cause closing of the valve 25 while compressing the spring 27 so that thereafter the whole amount of water being pumped will be discharged through the hose 18. The water thus flowing through the annular duct 16 causes effective cooling of the drive motor 10. If later on the liquid flow will cease due, for example, to the pump having drained off the water in which it is immersed, then the valve 25 is automatically returned by the spring 27 into its open position, after which a flow of air will be forced by the impeller 12 through the cooling duct 16 and the

open passageway

24, 29 directly to the ambient atmosphere. The resistance to flow of the cooling duct 16 is now so low that the airflow will be sufiiciently forceful to be able to cause eifective cooling of the now idling drive motor 10 and of the remainder of the pump assembly.

It is suitable, in order to cause the cooling air to sweep the electric motor 10 as thoroughly as possible all round, to provide at least two valve-controlled outlet passageways uniformly spaced about the circumference. In this way it will be ensured also that at least one air outlet will provide an unobstructed passage to the atmosphere in case the pump assembly should happen to fall over in such a way that the other outlet is obstructed by the bottom of the sump or the like to be drained.

The valve-controlled air outlet passageways need not necessarily be provided in direct connection with the cooling duct, as shown in FIG. 1, it being possible instead to provide the same in the wall of the hose conduit 18 at a locality not too distant from the connection of the hose to the cooling duct system. A suitable construction is shown in FIG. 2. Herein numeral 30 designates a tubular housing integrally formed with hose connecting nipples and assumed to be inserted in the hose 18 rather close to its connection to the pump assembly. Formed in the walls of the tubular housing are two diametrically opposite openings 31. controlled by individual springloaded poppet valves 25'. The outer end of each air outlet passageway is closed by a cup-shaped member 32 provided circumferentially with a large number of apertures 33. Whenever the pump is idling and thus not discharging any liquid through the hose, the valves 25 occupy their open position as shown in the drawing. Then the impeller 12 will pump air through the cooling duct 16 and the inlet portion of the hose and through the passageways 31 directly to the ambient atmosphere while cooling the drive motor. If the pump should again begin to discharge liquid, the valves 25 will be closed automatically by the action of the liquid pressure, after which the cooling of the motor will take place in the normal way utilizing the liquid being pumped as a coolant.

Obviously, the invention is applicable not only to watercooled drain or bilge pumps having vertical impeller shafts, but also to other kinds of electromtor-driven liquid pumps in which the liquid displaced is utilized as a coolant for the pump assembly.

What is claimed is:

l. A pump unit comprising, in combination, a bentrifugal pump, an electric driving motor for said pump, a cooling duct system in heat exchange relationship with said electric motor, said cooling duct system having an inlet and an outlet, theinlet of said cooling duct system being connected to the delivering end of said centrifugal pump and the outlet thereof being connectible to a dis charge conduit, one or more passageways leading to the ambient atmosphere provided adjacent the outlet end of said cooling duct system, a valve located in each passageway, each valve having means to maintain its assooiated passageway closed as long as liquid is being pumped through the cooling duct and to open the passageway automatically whenever the liquid flow ceases.

2. A pump assembly according to claim 1 characterized in that the respective valves are arranged to be acted on by springs which urge the valves towards their open position but allow the valves to be closed under the action of the liquid pressure upon liquid being pumped through the cooling duct system.

3. A pump assembly according to claim 1 in which the cooling duct system comprises an annularly crosssectioned cooling duct surrounding the motor and formed between the motor and an outer casing surrounding the same, characterized in that the valve controlled outlet passageways are provided in the wall of the outer casing, suitably at the end thereof remote from the inlet to the cooling duct.

4. A pump assembly according to claim 1, characterized in that the valve controlled outlet passageways are provided in the wall of the discharge conduit leading from the pump, or cooling duct, and at a slight distance from the connection of the hose to the cooling duct.

References Cited in the file of this patent UNITED STATES PATENTS 1,625,892 Hollander Apr. 26, 1927 2,325,930 'Avigdor Aug. 3, 1943 2,924,179 Isaksson Feb. 9, 1960