CN101960147B

CN101960147B - Floatable pump unit

Info

Publication number: CN101960147B
Application number: CN2009801080706A
Authority: CN
Inventors: 米歇尔·莱昂纳多; 里卡多·达尔·坎托; 苏珊·维亚特·伯格
Original assignee: Grundfos Management AS
Current assignee: Grundfos Management AS
Priority date: 2008-03-07
Filing date: 2009-02-21
Publication date: 2013-03-06
Anticipated expiration: 2029-02-21
Also published as: CN101960147A; EP2098732A1; WO2009109305A3; US20110123357A1; WO2009109305A2

Abstract

The invention relates to a pump unit that is floatable and has an electric drive motor (16), a centrifugal pump driven by the same, a drive motor (16), and a unit housing (2) accommodating the centrifugal pump. Furthermore, the pump unit has at least one inlet opening (8) disposed below the fluid surface (6) in the floating state, and at least one outlet opening (10, 12). The unit housing (2) is configured and disposed such that it varies the alignment thereof compared to the floating position upon reaching a contact surface (44), wherein position-controlled switching means are provided inside the unit housing (2).

Description

The floatingpump unit

Technical field

The present invention relates to the floatingpump unit of the given feature of a kind of preamble with claim 1.

Background technique

Floatingpump (schwimmfaehige Pump) can be considered as existing technology, and it swims on the liquid level of container and water body, pumping liquid or water from container or water body.If container or water body seal, and the liquid that sucks is mixed with solid particle, then uses this pump to be proved to be problematic.This is based on the following fact: descend by pump operation liquid level or water level, make pump drop to the zone near the bottom of container or water body, the solid content in this zone can improve usually significantly.Strengthened thus solid particle enters pump and block pumps by the inlet opening risk, this is related to necessary maintenance, is related at least the cleaning work of cost costliness.

Summary of the invention

Under this background, the object of the invention is to propose a kind of floatingpump unit that is applicable to be mixed with the liquid of solid particle, wherein, at least significantly reduced the risk that pump assembly stops up.

Purpose of the present invention is by having the pump assembly realization of the given feature of claim 1, and the preferred expansion scheme of this pump assembly is provided by dependent claims, following description and accompanying drawing.

The pump in accordance with the present invention unit is relocatable, and has electric drive motor and by this motor-driven centrifugal pump and the machine unit shell that is used for holding this drive motor and centrifugal pump.In addition, this pump assembly also has at least one be arranged on inlet opening and at least one delivery outlet below the liquid level under floating condition.According to the present invention with machine unit shell design and be set to, so that machine unit shell arrives supporting surface

The time change its orientation with respect to floating position (Ausrichtung), wherein, the switch gear of setting position control in machine unit shell.

At this, the present invention is based on following thought: with the design of the machine unit shell of pump assembly and be set to, when the liquid level that descends owing to the operation by pump makes machine unit shell arrive supporting surface, for example during the bottom section of container bottom or water body, machine unit shell is not in fixing state there, namely be not in stable state of equilibrium, therefore the orientation of machine unit shell is changed along with the further decline of liquid level, at this, along with this switch gear of variation of machine unit shell orientation also changes the position, and preferably close pump assembly or pump assembly is switched to the state that can stay described solid particle or can also be switched in case of necessity the state that thereupon extracts.Machine unit shell and the change in orientation that is positioned at the switch gear of machine unit shell inside typically realize by the inclination of machine unit shell with respect to its floating position.Worthily, at least one inlet opening of pump assembly is arranged on the machine unit shell like this so that when machine unit shell arrives supporting surface, this inlet opening in liquid, be arranged in the basic sediment that is formed by solid particle that is expected at that container or water body occur above.In this way, utilize the pump in accordance with the present invention unit can prevent in a preferred manner that centrifugal pump from sucking excessive solid particle, these solid particles might the block pumps unit.Another advantage of pump in accordance with the present invention unit is, this design proposal can prevent the running dry (Trockenlaufen) of centrifugal pump.Thus, the pump in accordance with the present invention unit has very high operational reliability.

In order when machine unit shell arrives supporting surface, to make machine unit shell change orientation with respect to its floating position, preferably machine unit shell is designed to, can tilts perpendicular to the buoyancy direction of liquid around the axis that is arranged in the contact area between machine unit shell and the supporting surface.After tilting, the machine unit shell that is positioned on the supporting surface can its stable inclination attitude obtain the plane earth supporting.For this reason, machine unit shell preferably the lower section under floating condition have the plane of inclination.In the present invention, the plane of inclination is interpreted as, utilizes this plane of inclination that machine unit shell is being positioned on the supporting surface after the inclination.Wherein, the concept of plane of inclination is arranged on the plane on the machine unit shell with being not limited to entity, comprises that also machine unit shell is positioned on the supporting surface with the posture that tilts on these aspects by at least two planes that isolated point forms outside machine unit shell, the imagination.

Preferably machine unit shell is designed to, its lower section under floating condition is tapered downwards.That is to say, machine unit shell comes to a point downwards gradually in this lower section.Therefore, the lower section of machine unit shell can for example be designed to taper or wedge shape, and at this, the cone that forms like this or the tip of wedge-like body are the part of machine unit shell worthily, and this part at first arrives the supporting surface in container or the water body when liquid level reduces.Such tip must be enough blunt, in case penetrate supporting surface; This tip also must be enough sharp, to guarantee to tilt.Like this, described tip has consisted of the part of tilt axis or tilt axis, and machine unit shell can tilt around this axis.At this, the outside of the tapered lower section of machine unit shell can consist of the plane of inclination, and machine unit shell can be positioned on the supporting surface after the inclination on this plane of inclination.Worthily, the lower section of machine unit shell is tapered like this, so that machine unit shell can not keep inserting in the muddy substrate on container or the water bottom and can not change by this way the orientation of machine unit shell at floating condition where necessary.

For state is inserted in this maintenance under floating condition of the lower section that prevents machine unit shell, preferably the underpart of this section of machine unit shell is made smooth or circular.Therewith relatively, the preferred extension of pump in accordance with the present invention unit is the bottom surface of machine unit shell to be made the arch of protrusion.Machine unit shell for example can be under floating condition on lower section balling-up be tapered crownly, and tilt around the summit of its vault.At this, the outside of arch area can consist of a part that is bearing in the plane of inclination on the supporting surface.

In another preferred design of pump assembly, can form in the bottom surface of machine unit shell the protuberance below preferably pointing to.This protuberance designs aptly and is set to, and it at first arrives the supporting surface that forms there in the pump assembly that descends in container or water body, and then machine unit shell free end around this protuberance when continuing to descend tilts.In this case, the plane of inclination of machine unit shell typically is made of the plane of the imagination, the free end of protuberance and at least one other, be positioned on the plane of this imagination with the point in the isolated machine unit shell of this protuberance outside.Particularly preferably be, this protuberance is arranged on like this on the bottom surface of machine unit shell, so that protuberance is spaced apart along the center of gravity of the direction of liquid level and pump assembly in the floating position of pump assembly, thereby make the gravity of pump assembly when protuberance arrives supporting surface, apply heeling moment at pump assembly.Can realize that thus machine unit shell always tilts towards the same side.Correspondingly, in this design proposal, machine unit shell has a uniquely defined plane of inclination.

Oblique switch (Neigungsschalter) preferably is set as the position controlling switch device, the design of this switch gear also is set to: when the orientation of machine unit shell departed from orientation under floating condition, this switch gear cut out centrifugal pump.Oblique switch can have the assembly that is installed in movably in this switch, wherein, this component design also is set to, it makes oblique switch when pump assembly is on the floating position centrifugal pump be placed on-state, and this assembly changes the position of oblique switch when the change in orientation of machine unit shell, and makes thus oblique switch switch to the position that centrifugal pump cuts out.In order to make these parts that are arranged on movably in the oblique switch have good mobility, that these parts preferably rotate and be preferably designed for spheroid.

In another preferred embodiment, the zone that is arranged under floating condition more than the liquid level of machine unit shell has at least one perpendicular direction in the delivery outlet of liquid level.This delivery outlet can be configured in for the fixing interface of flexible pipe, utilize this flexible pipe the liquid in container or the water body can be drawn.In addition, the pump in accordance with the present invention unit can also utilize the delivery outlet of such setting to form for example fountain., the pump assembly floating ground can be applied in pond or the pond for this reason, and the water column that when connecting centrifugal pump, stretches perpendicular to the water surface from the delivery outlet ejection.

According to governable space in the container, if delivery outlet is arranged on other positions of machine unit shell and has where necessary other orientation, also be favourable.Therefore, the pump in accordance with the present invention unit preferably has at least one is arranged essentially parallel to liquid level or also can points to sideling liquid level under floating condition delivery outlet.

Particularly preferably be, machine unit shell has at least two delivery outlets, wherein, can select a delivery outlet to be connected with the compression-side pipeline of centrifugal pump in these two delivery outlets.Correspondingly, a kind of device is set, utilizes this device can close from the stream of delivery side of pump to a delivery outlet, and open the stream that leads to another delivery outlet.In this case, for example can use 3/2 selector valve (Wegeventil).

Be close to situation about being emptied completely in order to make where necessary the pump in accordance with the present invention unit be used for container, preferably the part that consists of the plane of inclination in the machine unit shell be arranged to removablely, and cover the attachment face that is arranged on the pump assembly

In this design proposal, only need unload the part of the machine unit shell that consists of the plane of inclination, this part for example connects (Rastverbindung) by draw-in groove and is connected with the remaining part of machine unit shell, make thus the pump assembly of the attachment face with exposure in the situation that do not change its orientation and the switching position, can rest on the supporting surface in container or the water body.

In order to make the pump in accordance with the present invention unit not change its position on liquid level under floating condition, preferably the lower section of the machine unit shell under floating condition arranges fixing device.This fixing device for example can be connecting plate (Lasche) or buttonhole, for example earth anchor (Bodenanker) can be fixed on this connecting plate or the buttonhole.

In another kind of preferred implementation, pump assembly has operating grip.This operating grip can be arranged on the outside of machine unit shell, perhaps is made of machine unit shell self, for example is made of the undercutting that is arranged on the machine unit shell.

Description of drawings

Below the present invention is described further by the accompanying drawing illustrated embodiment.In the accompanying drawings:

Fig. 1 shows the side view of unsteady pump assembly,

Fig. 2 shows the second side view of pump assembly shown in Figure 1,

Fig. 3 shows the perspective view of pump assembly shown in Figure 1,

Fig. 4 shows pump assembly shown in Figure 1 at the perspective view that rotates with respect to Fig. 3 after 180 °,

Fig. 5 shows the sectional arrangement drawing of pump assembly shown in Figure 1,

Fig. 6 shows the pump assembly shown in Figure 1 of the lower section of pulling down machine unit shell,

Fig. 7 shows and is positioned at pump assembly on the supporting surface, shown in Figure 6,

Fig. 8 shows the pump assembly shown in Figure 1 that is in the first heeling condition,

Fig. 9 shows the pump assembly shown in Figure 1 that is in the second heeling condition.

Embodiment

Pump assembly shown in the figure has machine unit shell 2.Pump assembly is designed to relocatable, and wherein, under floating condition, more than 6, machine unit shell parts 4b then immerses in the middle of the liquid major part of machine unit shell parts 4a fully at liquid level.In order to produce buoyancy, in machine unit shell parts 4a, be provided with air-filled

buoyancy chamber

7a and 7b (Fig. 5).Weight distribution in the pump assembly is so that the longitudinal axis A of machine unit shell 2 is basically perpendicular to liquid level 6 orientations in the floating position of pump assembly.

Machine

unit shell parts

4a and 4b are rotational symmetric with respect to longitudinal axis A basically.Machine unit shell parts 4a has the large external diameter than machine unit shell parts 4b, wherein, is provided with recessed 9 (Fig. 4) in the end in the zone of the external diameter that exceeds machine unit shell parts 4b of machine unit shell parts 4a.Circumferentially be provided with the handle 11 for the operate pump unit in recessed at this end.

On machine unit shell parts 4b, be provided with two inlet openings 8 that come space on the longitudinal axis A direction at the whole circumference of machine unit shell parts 4b with distributing.The

discharge pipe joint

10 and 12 of the delivery outlet of two formation pump assemblys is set at machine unit shell parts 4a.Discharge pipe joint 10 stretches out with one heart from longitudinal axis A on machine unit shell parts 4a, discharge pipe joint 12 then extends radially outwardly with respect to longitudinal axis A in the zone of machine unit shell parts 4a, when pump assembly was in floating condition, discharge pipe joint 12 was positioned under the liquid level 6.

Discharge pipe joint

10 and 12 has respectively outside thread, thereby flexible pipe can be connected on these discharge pipe joints by AN connector where necessary.The delivery outlet of discharge pipe joint 10 is by nut 14 sealings that are screwed on the discharge pipe joint 10.The delivery outlet that also can choice for use nut 14 seals discharge pipe joint 12.

In machine unit shell parts 4b, be provided with by electric drive motor 16 centrifugal pumps that drive, that have impeller 20.For to drive motor 16 power supplies, can connect the electric connection 21 of electricity cable and control cables in the arranged outside of machine unit shell parts 4b.Utilize centrifugal pump liquid can be extracted from container or water body by inlet opening 8, and arrive pump assembly through the stream that is marked by direction arrow B therefrom.

A part of stream of centrifugal pump outlet side is made of the turning slide valve 20 that mainly is arranged among the machine unit shell parts 4a.But turning slide valve 20 has the rotation diverter valve 22 of the hollow cylinder of percolation, and rotation diverter valve 22 has the first groove 24 and the second groove 26 at its circumference.The position of groove 24 is corresponding with flow channel by discharge pipe joint 12, and the position of groove 26 is corresponding with the position of the flow channel that leads to discharge pipe joint 10.Diverter valve is rotatable is installed in movably among the machine unit shell parts 4a in rotation.The

groove

24 and 26 90 ° of angles of staggering each other in a circumferential direction.By being arranged on the functional unit 28 machine unit shell parts 4a outside, that be fixedly connected with rotation diverter valve 20, rotation diverter valve 20 can rotate under the first state, under this state, the stream that groove 24 discharges in the discharge pipe joint 12 is closed the stream that leads to discharge pipe joint 10 simultaneously.The stream that exports to the delivery outlet that forms at discharge pipe joint 12 from centrifugal pump that produces under this state of rotation diverter valve represents with direction arrow C among Fig. 3.When turning slide valve 20 half-twist, the stream that then leads to discharge pipe joint 12 is closed, and leads to the stream unlatching of discharge pipe joint 10.

On the floating position of pump assembly, above electric drive motor 16, be provided with oblique switch, this oblique switch has bowl-type working surface 30, ball 32 and microswitch 34.Microswitch 34 the floating position of pump assembly be located at groove that working surface 30 forms below.On floating position, can make the Metal Ball 32 that is designed to whole ball or hemisphere be positioned at the top of the groove of working surface 30, and compressing microswitch 34, the switching position that microswitch 34 is in centrifugal pump is connected.If machine unit shell 2 changes its orientations perpendicular to its longitudinal axis A, then ball 32 can be from groove to outer rolling on working surface 30, and correspondingly no longer oppresses microswitch 34, makes thus microswitch 34 be in the state that centrifugal pump cuts out.

Machine unit shell parts 4b is tapered downwards on floating position, at first is conical, then overarches so that the spherical crown shape is outwardly in lower section 36.On the outside of this section 36 of machine unit shell parts 4b, protuberance 38 outwards stretches with one heart with the longitudinal axis A of machine unit shell 2.Consist of the groove 40 that forms connecting plate at this protuberance 38.This connecting plate consists of fixing device, utilizes this fixing device the pump assembly that floats can be fixed on the bottom of container or water body by means of hawser or chain, thereby makes pump assembly no longer change its position under floating condition.In addition, machine unit shell parts 4a has many fixed connecting plates 42 that are distributed on its periphery equally, by means of these fixed connecting plates, can fix pump assembly by hawser or wire equally.

The working principle of pump assembly is as follows:

Pump assembly swims in container or the water body in floating position, and the longitudinal axis A of machine unit shell 2 is perpendicular to liquid level 6 orientations on this position.In this floating position, the ball 32 of oblique switch directly is placed at the top of the groove that forms on the working surface 30, and the microswitch 34 that will be arranged under the groove is urged to the switching position of connecting centrifugal pump.Centrifugal pump is exported liquid from container or water body.The liquid level 6 of container or water body is reduced, and therefore make pump assembly until the protuberance 38 that is arranged on the lower section 36 of machine unit shell parts 4b touches the supporting surface 44 that forms in the bottom of container or water body.Pump assembly is not the fixing state that is on supporting surface 44, but by protuberance 38 perpendicular to the edge of the longitudinal axis A of machine unit shell 2 to lopsidedness (Fig. 8 and 9).Here, the zone of the lower section 36 of the edge of protuberance 38 and machine unit shell parts 4b has consisted of the plane of inclination, and pump assembly is positioned on the supporting surface 44 with this plane of inclination.The ball 32 of oblique switch outwards moves from the groove that forms at this working surface on working surface 30 under specific inclined angle alpha, and no longer contacts microswitch 34 thus, thereby makes microswitch 34 close centrifugal pump.Liquid level 6 is closed for when centrifugal pump is tilted switch apart from the height of supporting surface 44, and this depends on the setting of oblique switch to a great extent.Therefore can be set to by oblique switch, when inclined angle alpha is larger, just make ball 32 leave itself and microswitch 34 contacted states, and thus so that when the liquid height of distance supporting surface 44 is very low, close centrifugal pump (Fig. 9).

In order to utilize the pump in accordance with the present invention unit to be close to fully emptying receptacles or water body, the lower section 36 of machine unit shell parts 4b is set to, unclamp the draw-in groove connection by button 46 after, be detachable, at this, lower section 36 just shows a basically smooth attachment face 48 that is arranged on the machine unit shell parts 4b, this attachment face vertical with the longitudinal axis A of machine unit shell (Fig. 6) after being removed.Utilize this smooth attachment face 48 pump assembly is on the supporting surface 44 and do not overturn (Fig. 7), thereby do not shut down.

Reference numerals list

2 machine unit shells

4a, 4b machine unit shell parts

6 liquid levels

7a, the 7b buoyancy chamber

8 inlet openings

9 ends, are recessed

10 discharge pipe joints

11 handles

12 discharge pipe joints

14 nuts

16 drive motor

18 impellers

20 turning slide valves

21 interfaces

22 rotation diverter valves

24 grooves

26 grooves

28 functional units

30 working surfaces

32 balls

34 microswitches

36 sections

38 protuberances

40 grooves

42 fixed connecting plates

44 supporting surfaces

46 buttons

48 attachment faces

The A longitudinal axis

The B direction arrow

The C direction arrow

The α tilt angle

Claims

1. relocatable pump assembly, has electric drive motor (16), by the centrifugal pump of this drive motor (16) driving and the machine unit shell (2) that holds described drive motor (16) and described centrifugal pump, described pump assembly also has at least one and be positioned at inlet opening (8) and at least one delivery outlet (10 under the liquid level (6) under floating condition, 12), it is characterized in that, described machine unit shell (2) designs and is set to, when arriving supporting surface (44), change it with respect to the orientation of floating position, and the switch gear of setting position control in this machine unit shell (2), the position of this switch gear changes along with the variation of machine unit shell orientation.

2. pump assembly as claimed in claim 1 is characterized in that, described machine unit shell (2) has the plane of inclination in the lower section that is under the floating condition.

3. pump assembly as claimed in claim 1 or 2 is characterized in that, is tapered downwards in the lower section of described machine unit shell (2) under being in floating condition.

4. pump assembly as claimed in claim 3 is characterized in that, the arch that the bottom surface of described machine unit shell (2) becomes to protrude.

5. pump assembly as claimed in claim 3 is characterized in that, is provided with protuberance (38) in the bottom surface of described machine unit shell (2).

6. pump assembly as claimed in claim 1 is characterized in that, described switch gear is arranged to oblique switch, and the design of this switch gear also is set to, and when the orientation of described machine unit shell (2) departed from orientation under floating condition, this switch gear cut out centrifugal pump.

7. pump assembly as claimed in claim 4 is characterized in that, described machine unit shell (2) has at least one orientation perpendicular to the delivery outlet (10) of described liquid level (6) in the zone of described liquid level (6) top under floating condition.

8. pump assembly as claimed in claim 5 is characterized in that, described machine unit shell (2) has at least one orientation perpendicular to the delivery outlet (10) of described liquid level (6) in the zone of described liquid level (6) top under floating condition.

9. pump assembly as claimed in claim 4 is characterized in that, described machine unit shell (2) has at least one delivery outlet (12) that is arranged essentially parallel to described liquid level (6) orientation under floating condition.

10. pump assembly as claimed in claim 5 is characterized in that, described machine unit shell (2) has at least one delivery outlet (12) that is arranged essentially parallel to described liquid level (6) orientation under floating condition.

11. pump assembly as claimed in claim 4 is characterized in that, described machine unit shell (2) has at least two delivery outlets (10,12), and wherein, a delivery outlet of selecting in described two delivery outlets (10,12) is connected with the pressurized effluent of described centrifugal pump.

12. pump assembly as claimed in claim 5 is characterized in that, described machine unit shell (2) has at least two delivery outlets (10,12), and wherein, a delivery outlet of selecting in described two delivery outlets (10,12) is connected with the pressurized effluent of described centrifugal pump.

13. pump assembly as claimed in claim 2 is characterized in that, section's section (36) of the described plane of inclination of formation of described machine unit shell (2) is arranged to removable, and covers the attachment face (48) that is arranged on the described pump assembly.

14. pump assembly as claimed in claim 13 is characterized in that, is provided with fixing device in the lower section under floating condition (36) of described machine unit shell (2).

15. pump assembly as claimed in claim 1 is characterized in that, described pump assembly has operating grip (11).