DE102004018504A1 - Liquid sucker for solids e.g. mud, has container with mechanical control that alternately switches on and off motors so that liquid flows out from one absorption chamber to other chamber when liquid in latter chamber gets drained - Google Patents

Abstract

The sucker has a container with two absorption chambers (1, 2) and a mechanical control. Suction motors are assigned to each absorption chamber. The mechanical control switches on and off the motors alternatively, so that the liquid flows out from the chamber (1) to the other chamber (2) when the liquid in the chamber (2) gets drained. The chambers are sealable opposite to suction side of the motors using main valves.

Description

The invention relates to a liquid aspirator for sucking or transporting liquids, in particular solids containing liquids such as sludge or the like. Such a liquid sucker according to the preamble of claim 1 is known from DE 102 40 804 A1 known. It has a receptacle in which a vacuum is generated via an air-suction motor. Due to the negative pressure, the liquid or the mud is sucked into the receptacle via a suction port and after filling of the container and switching off the engine via a drain and a discharge element, usually in the form of a hose, run out of the receptacle again and to a desired location be directed.

such Sludge suckers work reliably, over there the separation of motor and moving liquid or sludge through the receptacle an engine damage by entrained Solids is avoided. However, after every filling process of the receptacle a suction break necessary, in which the receptacle is emptied again. The liquid or mud sucking is therefore relatively time consuming.

Of the Invention is based on the object, improved in this regard wet vacuum cleaner to accomplish.

According to the invention this Problem with a liquid aspirator solved with the features of claim 1. By the receptacle of the liquid sucker is formed with at least two separate receiving chambers and a controller is provided by which an alternate filling and emptying the receiving chambers is introduced with liquid, can the liquid or sludge suction continuously be continued, as always liquid into one of the chambers can be sucked while another chamber just emptied and thus makes room for a refill.

Preferably works the liquid aspirator according to the invention with two receiving chambers. Each of the receiving chambers can be a separate engine be assigned, the controller just designed this way it can be that she the motors turn on and off alternately. As a result, the liquid flows out of the chamber whose engine is currently off under her Tare off while through the other, powered engine fluid into the other receiving chamber is sucked into it.

at a particularly preferred embodiment is only a naturally aspirated engine provided and the circuit designed so that the Suction side of the engine alternately with the various receiving chambers is connected, so that too here the receiving chambers are alternately filled and emptied. Of the Suction motor can therefore pass through and is thus more efficient. In the Receiving chamber, with the suction side of the suction motor just connected is, becomes liquid sucked in while at the other receiving chamber no vacuum is applied, so that there located liquid can run under its own weight. Once this chamber is complete or predominant is emptied, the process is reversed and this initially emptied chamber Connected to the suction side of the suction motor to comply accordingly to fill again.

Of the Suction motor can be arbitrary, for example as an air-suction or as Vacuum pump to be formed.

The Control can be done electronically, also as a time control. she However, it is preferably designed as a mechanical control or circuit, since so a low maintenance and low sensitivity against external influences and eventual Improper use, such as tilting of the teat, can achieve.

Further Advantages and details of the invention will become apparent from the dependent claims and in the drawings illustrated embodiments of the invention, which will be described below; show it:

1 : A liquid aspirator with two motors on average,

2 FIG. 4 is an external view of another embodiment with a motor. FIG.

3 : a section in direction III-III through the object in 2 .

4 : a cut in the direction of IV-IV through the object in 2 .

5 : a cut in the direction of VV through the object in 2 .

6 to 11 : the object out 3 in different filling and discharging stages,

12 : a partial section accordingly 3 by another embodiment of the Schlammsaugers the 2 to 11 and

13 and 14 : Another single-motor embodiment of a liquid aspirator according to the invention in section.

In 1 schematically a liquid suction is shown, which has two separate receiving chambers 1 . 2 features. Every recording room 1 . 2 is a separate naturally aspirated engine 3 . 4 assigned. About the naturally aspirated engines 3 . 4 can in the chambers 1 . 2 a negative pressure can be generated, whereby a suction port, not shown, in the upper area in the receiving chambers 1 . 2 opens, liquid in the receiving chambers 1 . 2 can be sucked into it. For example, is the receiving chamber 1 filled with liquid up to a predetermined height, so the suction motor 3 from. Under the weight of the liquid, a receiving chamber opens 1 Bottom side closing vacuum flap 5 and the liquid flows through a drain 7 and a subsequent unillustrated discharge element, for example a drain hose, from. By a control ensures that the filling with liquid and the emptying of the receiving chambers 1 . 2 takes place alternately so that liquid is continuously sucked in and over the drain 7 is delivered. In the illustrated embodiment, control is via floats 9 . 10 , each in a leadership 11 . 12 are kept movable in the vertical direction. The swimmers 9 . 10 represent by their top-side configuration simultaneously valves, with which the receiving chambers on 1 . 2 opposite the respective intake side of the engines 3 . 4 can be closed, so that no liquid can be sucked into the engines. The position of the swimmers 9 . 10 is queried about signalers, such as reed contacts or the like. Is a swimmer 9 . 10 When it reaches its upper end position, the signal transmitter gives the message "Chamber full" to an electronic control unit that controls the respective engine 3 . 4 turns off and the other engine 4 . 3 turns. The motors 3 . 4 However, they can also be mechanically attached by means of suitable swiveling switches 9 . 10 be operated. Also a purely time-controlled electronic circuit of the engines 3 . 4 is possible.

A particularly preferred embodiment of a liquid aspirator according to the invention is in the 2 to 11 shown. The exterior view in 2 shows the housing of the liquid aspirator with receptacle 13 and lid 14 , A suction connection 15 extends into the receptacle 13 into it.

3 shows a central section through the liquid sucker. This has two receiving chambers 1 . 2 in which have air intake openings 17 . 18 by means of a single suction motor 3 Negative pressure can be generated. The naturally aspirated engine 3 continuously aspirates air while the air intake openings 17 . 18 alternately through main valves 19 . 20 be opened or closed, so that always only in a receiving chamber 1 . 2 a negative pressure is generated. The alternating opening and closing of the main valves 19 . 20 is through a coupling of the main valves 19 . 20 ensured, which is preferred and less susceptible to mechanical failure. If the liquid aspirator as in the illustrated embodiment, two receiving chambers 1 . 2 can, the main valves 19 . 20 in a particularly simple manner via a rigid but pivotally mounted rocker 21 be connected. The movement of the main valves 19 . 20 will be over in guides 11 . 12 height-flexibly held float 9 . 10 initiated. Became the swimmer 9 in chamber 1 As shown, lifted by the sucked liquid in its highest possible position, so he has the main valve 19 closed and thus the main valve 20 open. The reception chamber 1 is no longer with the suction side of the suction motor 3 connected, so that in her no negative pressure prevails. By the weight of the in the receiving chamber 1 collected liquid, which is no longer compensated by the negative pressure, opens a vacuum flap 5 , and the fluid can drain through 7 and an unillustrated discharge element connected thereto, for example a hose, drain.

In the illustrated embodiment, the emptying of the receiving chambers 1 . 2 still supported by the receiving chambers 1 . 2 over in the 4 and 5 shown secondary valves 23 . 24 with the outlet side or pressure side of the suction motor 3 are connected. The secondary valves 23 . 24 are controlled so that each with the main valve closed 19 . 20 that of the respective receiving chamber 1 . 2 associated secondary valve 23 . 24 is open. For example, in the position of the 3 and 4 in the receiving chamber 1 during drainage of the liquid located there by the exhaust air of the suction motor 3 that is via the opened secondary valve 23 in the receiving chamber 1 penetrates, an overpressure, which is the outflow of liquid from the vacuum flap 5 accelerated. The secondary valves 23 . 24 are preferably also mechanically coupled, preferably also via a rocker 25 ,

5 , for the representation of the suction motor 3 was removed, clarifies the principle of assisted evacuation. The seesaw 21 the main valves 19 . 20 and the seesaw 25 the secondary valves 23 . 24 are over a common pivot axis 26 rigid and only together around this pivot axis 26 pivotally connected and thus mechanically coupled in a simple manner. This ensures that main valve 19 and secondary valve 23 the receiving chamber 1 or main valve 20 Valve 20 and secondary valve 24 the receiving chamber 2 each alternately open and close. 5 also shows that the main valves 19 . 20 to one with the suction side of the suction motor 3 connected slot-shaped suction chamber 27 connect while the secondary valves 23 . 24 in one the suction chamber 27 enclosing round pressure chamber 28 located with the exhaust side of the suction motor 3 connected is. The exhaust air of the suction motor 3 does not have to completely over the secondary valves 23 . 24 and the receiving chambers 1 . 2 can be derived, but can also be partially or completely delivered directly to the environment of the liquid sucker depending on the requirements.

In the 4 and 5 it can also be seen that the receiving chambers 1 . 2 are arranged eccentrically in one another in a particularly space-saving manner, wherein both receiving chambers 1 . 2 a pressure-favorable substantially cylindrical shape and have substantially the same recording volumes.

The operation of the liquid aspirator is described below with reference to 6 to 11 clarified. 6 shows that the main valve 20 the receiving chamber 2 is open. In the reception room 2 A negative pressure forms, whereby over the suction connection 15 and an open check valve 32 Liquid, symbolized by open arrows, in the receiving chamber 2 is sucked into it. The swimmer 10 is doing with increasing liquid level within his leadership 12 moved upwards. The leadership 12 is formed as shown at the bottom of broken, so that liquid in the guide 12 can penetrate. In the upper area 12 ' is the lead 12 However, formed circumferentially closed. The swimmer 10 has a seal at its upper outer periphery 33 , Once this top with the seal 33 provided area of the float 10 in the upper closed area 12 ' the leadership 12 dips, forms in the upper area then also closed at the bottom 12 ' the leadership 12 by the suction effect of the suction motor 3 so much negative pressure that the swimmer 10 from the liquid surface is torn upwards, with its the main valve 20 in the form substantially corresponding top against the main valve 20 beats and this jerkily pushes upwards and closes, resulting in the coupling of the main valves 20 . 19 over the seesaw 21 the main valve 19 the other receiving chamber 1 opens. This moment is in 7 shown. The special training of the guides 11 . 12 with areas closed on top 11 ' . 12 ' and the swimmer 9 . 10 with seals 33 makes it possible in this embodiment to mechanically provide a sufficient pulse that the previously closed main valve 19 (or in the opposite case 20 ) against the in the suction chamber 27 ruling through the naturally aspirated engine 3 generated negative pressure still opens.

In the illustration according to 8th has been in the recording room 1 already formed a negative pressure, causing the negative pressure flap 5 closed. About the suction connection 15 and one of the receiving chamber 1 associated non-return valve 31 is now indicated by the open arrows liquid in the receiving chamber 1 sucked. While eating is in the receiving chamber 2 because of the closed main valve 20 no negative pressure on. Due to the weight of the liquid therefore opens the vacuum flap 6 and the liquid flows, symbolized by the filled arrows, out of the drain 7 out.

The 9 and 10 show how to coincide with the emptying of the receiving chamber 2 the receiving chamber 1 filled with liquid. In 11 the process has turned around again. The swimmer 9 has the main valve 19 closed and the main valve 20 open. The non-return valve 31 and the vacuum flap 6 have closed. From the opened vacuum flap 5 Liquid flows through the drain 7 from the receiving chamber 1 from. Into the receiving chamber 2 is via the suction connection 30 and the open check valve 32 Liquid in the receiving chamber 2 sucked. The illustrated embodiment is extremely low maintenance, mechanically simple design and reliable operation at continuously high suction power operable.

12 shows a modified embodiment with also only a naturally aspirated engine 3 , The controller, from which receiving chamber 1 . 2 straight air is sucked, is in the embodiment according to 12 through a lever linkage with two levers 35 . 36 realized that a changeover flap 37 pivot, causing the suction side of the suction motor 3 alternating with the receiving chambers 1 . 2 is connected. The main valves are thereby by the Umschaltklappe 37 educated.

The 13 and 14 show yet another embodiment of a single-motor liquid aspirator according to the invention, in which the controller, which receiving chamber 1 . 2 is formed by the container itself. This is the receptacle 13 pivotally mounted, and preferably as shown, about a substantially horizontal axis 38 swinging. Each reception room 1 . 2 of the receptacle 13 again has an air intake opening 17 . 18 , wherein by the pivoting of the receptacle 13 alternately one of the air intake openings 17 . 18 with the suction side of the suction motor 3 connected or disconnected. A seal of the air intake openings 17 . 18 is then simplified, if this from the pivot axis or pendulum axis 38 have the same distance, especially if the local wall area of the receptacle 13 is formed curved segment-shaped.

The pivoting of the receptacle 13 can be motorized, in particular time-controlled. However, the receptacle is preferred 13 in such a way on acceptance chambers 1 . 2 divided, that with increasing filling of a receiving chamber 1 . 2 with liquid with simultaneous discharge of liquid from the other receiving chamber 2 . 1 shifts focus. This will make the receptacle 13 automatically pivoted to a position that the other receiving chamber 2 . 1 for filling releases, while the one receiving chamber 1 . 2 emptied. Such a division is given in a preferred, simple manner by the receptacle 13 as shown, has substantially the shape of a horizontal cylinder or a ball and through a partition wall 40 in two receiving chambers 1 . 2 is divided with a substantially semicircular cross-section. The air intake openings are preferred 17 . 18 adjacent to both sides of the partition 40 to arrange and the drain holes in the form of vacuum flaps 5 . 6 also on both sides of the partition 40 at the opposite end. In 13 is the air intake opening 17 with the suction side of the suction motor 3 connected, whereby liquid via a suction port, not shown in the receiving chamber 1 is sucked into it. At the same time, the other air intake opening 18 the other receiving chamber 2 with the pressure side of the suction motor 3 or connected to the ambient air, so that under the weight of the in the receiving chamber 2 liquid located the vacuum flap 6 opens and the liquid from the receiving chamber 2 can flow out. Due to the increasing filling of the receiving chamber 1 and the emptying of the receiving chamber 2 there is a shift of emphasis in the receptacle 13 so that this around the pivot axis 38 from 13 to 14 pivoted automatically counterclockwise, causing in 14 Liquid in the receiving chamber 2 is sucked in and the liquid from the receiving chamber 1 can drain away.

All Embodiments of the invention are characterized by the possibility a continuous liquid suction operation resulting in the suction speed compared to conventional liquid aspirators with the same engine power doubled. The liquid aspirator according to the invention are preferred as sludge sucker for the purification of garden ponds. You can, however e.g. also for the promotion from other liquids used, even if they contain many solids and / or a higher one viscosity have, for example, building materials, such as screed materials, plasters or like.

Claims (26)

Liquid aspirator, in particular for solids containing liquids such as sludge, with a receptacle ( 13 ), in the liquid by means of a suction motor ( 3 . 4 ) via a suction connection ( 15 ) is sucked and from which the liquid via a drain ( 7 ), characterized in that the receptacle ( 13 ) at least two separate receiving chambers ( 1 . 2 ) and a control, through which alternately a filling of a receiving chamber ( 1 . 2 ) takes place with liquid, while another receiving chamber ( 2 . 1 ) emptied. Liquid vacuum cleaner according to claim 1, characterized in that each receiving chamber ( 1 . 2 ) a naturally aspirated engine ( 3 . 4 ), and the controller controls the naturally aspirated ( 3 . 4 ) turns on and off alternately. Liquid vacuum cleaner according to claim 1, characterized in that a suction motor ( 3 ) caused by the control for the alternate Einsau conditions of liquid in a plurality of receiving chambers ( 1 . 2 ) is designed. wet vacuum cleaner according to one of the preceding claims, characterized by a mechanical control. Liquid vacuum cleaner according to one of the preceding claims, characterized in that the receiving chambers ( 1 . 2 ) opposite the suction side of the suction motor ( 3 . 4 ) via main valves ( 19 . 20 ) are sealable. Liquid vacuum cleaner according to claim 5, characterized in that the main valves ( 19 . 20 ) are coupled together so that they open and close alternately. Liquid vacuum cleaner according to claim 5 or 6, characterized in that the main valves ( 19 . 20 ) are coupled via a lever linkage. Liquid suction device according to claim 7, characterized in that the lever linkage a Umschaltklappe ( 37 ) which pivots the suction side of the suction motor ( 3 ) alternately with one of the receiving chambers ( 1 . 2 ) connects. Liquid suction device according to claim 8, characterized in that the switching flap ( 37 ) forms the main valves. Liquid aspirator according to one of vorge dependent claims, characterized in that in each receiving chamber ( 1 . 2 ) a float ( 9 . 10 ) in a guided tour ( 11 . 12 ) is held. Liquid aspirator according to one of claims 5 to 8 and claim 9, characterized in that the float ( 9 . 10 ) so below the respective main valve ( 19 . 20 ) is arranged such that an increase of the liquid in the receiving chamber ( 1 . 2 ) above a fixed level the float ( 9 . 10 ) against the main valve ( 19 . 20 ) and closes this. Liquid vacuum cleaner according to one of claims 9 to 11, characterized in that the guide ( 11 . 12 ) of the float ( 19 . 20 ) in the lower area and in the upper area ( 11 ' . 12 ' ) is formed circumferentially closed and the float ( 19 . 20 ) there sealingly encloses in the raised position. Liquid vacuum cleaner according to one of the preceding claims, characterized in that the receiving chambers ( 1 . 2 ) each via a secondary valve ( 23 . 24 ) sealable with the exhaust side of the suction motor ( 3 . 4 ) are connected. Liquid vacuum cleaner according to one of Claims 5 to 8 and Claim 13, characterized in that the main valve ( 19 . 20 ) and secondary valve ( 23 . 24 ) of each receiving chamber ( 1 . 2 ) are coupled in such a way that they open and close alternately. Liquid vacuum cleaner according to one of claims 5 to 8, 13 or 14, characterized in that the coupling of the valves ( 19 . 20 . 23 . 24 ) is mechanically formed. Liquid suction device according to claim 15, characterized in that the main valves ( 19 . 20 ) via a rocker ( 21 ) are coupled. Liquid suction device according to claim 15 or 16, characterized in that the auxiliary valves ( 23 . 24 ) via a rocker ( 25 ) are coupled. Liquid vacuum cleaner according to claims 16 and 17, characterized in that the rockers ( 21 . 25 ) of the main valves ( 19 . 20 ) and secondary valves ( 23 . 24 ) are rigidly connected to each other. Liquid vacuum cleaner according to one of the preceding claims, characterized in that the receiving chambers ( 1 . 2 ) have substantially cylindrical shapes and / or have substantially the same volumes and / or are arranged one inside the other. Liquid vacuum cleaner according to one of the preceding claims, characterized in that the receptacle ( 13 ) is pivotally mounted. Liquid suction device according to claim 20, characterized in that the receptacle ( 13 ) about a substantially horizontal axis ( 26 ) is mounted oscillating. Liquid suction device according to claim 20 or 21, characterized in that each receiving chamber ( 1 . 2 ) of the receptacle ( 13 ) an air intake opening ( 17 . 18 ), which by pivoting of the receptacle ( 13 ) alternately with the suction side of the suction motor ( 3 ) is connected. Liquid suction device according to claim 22, characterized in that the air intake openings ( 17 . 18 ) in a wall region of the receptacle ( 13 ) arranged around the pivot axis of Aufnahmebehäl age ( 13 ) is formed bent at a substantially constant radius. Liquid vacuum cleaner according to one of claims 20 to 23, characterized in that the receptacle ( 13 ) in such a way in receiving chambers ( 1 . 2 ) is divided, that with increasing filling of a receiving chamber ( 1 . 2 ) adjusts a center of gravity displacement with liquid through which the receptacle ( 13 ) automatically into another receiving chamber ( 2 . 1 ) pivoted to the filling releasing position. Liquid aspirator according to one of the preceding claims without claim 19, characterized in that the receptacle ( 13 ) has in cross-section substantially a circular shape through a partition wall ( 40 ) in two receiving chambers ( 1 . 2 ) is subdivided with a substantially semicircular cross-section. Liquid aspirator according to claim 22 and claim 25, characterized in that the air intake openings ( 17 . 18 ) adjacent to both sides of the partition wall ( 40 ) are arranged and in each case opposite each other on both sides of the partition ( 40 ) are arranged closable drain holes.