EP1035262A2 - Sewage lifting device - Google Patents

Abstract

The waste water raising device comprises a basic body (1) with at least one inflow (2) and at least one outflow (3) and in which a waste water pump (20) is arranged. Two separate flow channels are provided, of which the first is a forced drainage channel, through which, when there is stagnation in the channel system, water is fed via the waste water pump. The second flow channel is for outflow through which the water can flow away freely, when there is no stagnation in the channel system. Two stagnation valves (31,32) are provided, and in the event of a stagnation the first valve closes the forced drainage channel and the second valve closes the outflow channel. Both valves are located in a push-in part (30), which as an entity can be removed from the basic body.

Description

The invention relates to a lifting system for waste water.

Basically, the use of sewage lifting plants always required if wastewater below the Backflow level of the sewer system, for example in a basement room and if from the source to the Channel system there is no natural gradient.

In cases where under favorable conditions wastewater taking advantage of a natural gradient in the Channel system can run under unfavorable conditions the backflow level, however, is above the level of the point of origin can increase, it is known from the prior art, a Flooding the drainage point and possibly adjacent living areas by installing a To prevent backflow trap.

From DE 33 13 458 A1 is a backflow valve serving lifting plant for sewage containing faeces known given the natural slope of the waste water as Backflow stop is usable and in the case of a pump is only switched on if the pending Backwater either wastewater or the backflow flaps are leaking.

This known lifting system has an insert body which by two parts connected by flanges exists and a main channel and one above this arranged secondary channel forms, the insert body between two flanges of a suitably designed one Drainage pipe can be used. On the The top of one of the two parts of the insert body is a Molded housing attachment that serves to hold a pump.

Are in the parting plane of the two parts of the insert body one each in the secondary channel and in the main channel Backflow flap arranged.

The known lifting system has a number of disadvantages. The arrangement of the backflow flaps in the parting plane of the both parts of the insert body designed a cleaning of the Backflow flaps and the corresponding seats of the Backflow flaps, especially when using the Lifting plant for sewage containing faeces in regular Intervals required are extremely difficult.

In addition, the assembly of the lifting system must be precisely specified Flange ends in a precisely defined positioning to be provided. The well-known lifting system is suitable therefore not for retrofitting, for example in such Cases where the need to provide a Lifting system is only recognized later or through Overloading the sewer system is an afterthought the provision of a lifting system.

Another disadvantage is that the variety of relatively complicated flange surfaces sealing the entire lifting system difficult.

The invention is based, which by the Disadvantages of the prior art raised technical To solve problems.

The solution to this problem is in the claims specified.

The lifting plant for waste water according to the invention has a base body that has at least one inlet and at least has an outlet and in which a sewage pump is arranged and two separate flow channels set are. Here is a first flow channel Forced drainage channel through which the water can backflow in the sewer system via the activated sewage pump and the second flow channel is a drain channel, through which the wastewater can flow freely if not There is backflow in the sewer system. The invention Waste water lifting station also has two Backflow flaps, in the case of a backflow a first Backflow flap the forced drainage channel and the second Backflow flap closes the drainage channel. Both Backflow flaps are stored in an insert, which can be removed as a whole from the base body.

This results in a simple structural arrangement of the Backflow flaps are reached and it is possible that these especially for cleaning or maintenance purposes, simple and can be removed together.

The first backflow flap is advantageously in the essentially vertically above the second backflow flap arranged. As a result, the insertion part can be special simply be designed.

In an advantageous embodiment, the second Back pressure flap manually or by forced actuation brought into their closed position by motor and in it be determined. If you are absent for a long time, this may result a house can be reliably secured against backwater. If in Water accumulates from the house at this time, this is over the Pump disposed of.

The base body can be designed as an inspection shaft, in which an insert element can be used. Such one Inspection shaft can be part of an existing sewage system be and is usually in the continuous Pipeline string of a house, for example in the Cellar sole, used. The inspection shaft has usually via a top cover and a Sealing cover. After removing the cover and the The inspection shaft ensures access to the cover the pipeline, for example for the purpose of Cleaning.

This advantageous embodiment of the invention Lifting plant for wastewater enables an existing one Sewage system without a lifting system with a lifting system too provided without structural measures, in particular a Destruction of the basement floor and the pipes, required are. The convertibility of the conventional Sewage system without lifting system on a sewage system with Lifting system without any structural measures A significant advantage in terms of costs and time represents.

Another advantage is that such Lifting system has only one outer sealing surface, namely the connection between the insert element and the Basic body. This parting line is simple in terms of sealing technology to handle.

In a further advantageous embodiment, the Sealing of the insertion part in the base body by a circumferential sealing device done and ready for use assembled state of the lifting unit the insert element can be fixed in the base body.

The insert element preferably essentially has the Form of a suitable for closing the base body Lid on. As a result, the insert element can simply be countered the cover of an existing one Inspection shaft to be exchanged, so this Existing inspection shaft without any structural Measures related to the function of a lifting system Extend backflow protection.

The sewage pump is preferably in one in the lid integrated pump housing arranged, the Pump housing via a pump suction opening and a Pump outlet opening has. Assembled ready for use Condition of the preferred embodiment of the lifting system enables access from the outside of the lid Part of the pump housing connecting to a Power supply line and the inside of the main body arranged pump suction opening has a predetermined Distance to the bottom surface of the base body.

Preferably, the seal between the Outlet opening of the pump housing and the insertion part in Area of the first backflow flap by a spherical one or conical contact surface. It is not here necessary to ensure a complete seal is because low leakage losses only affect the efficiency of the Reduce the pumping process slightly.

The lifting system according to the invention is preferably with a Provide means for chopping coarse materials so that besides the use for sewage free of faeces also for the Use of sewage containing faeces can be used.

The lifting system according to the invention preferably also has via a device for detecting the water level in the Basic body, so that the operation of the sewage pump in Depending on the level of the water level can be controlled can.

Fig. 1 einen Schnitt durch eine bevorzugte Ausführungsform der erfindungsgemäßen Hebeanlage im betriebsfertig montierten Zustand der Hebeanlage zeigt,

Fig. 2 eine perspektivische Darstellung des Einsatzelements mit dem die Rückstauklappen enthaltenden Einschiebeteil ist,

Fig. 3 eine perspektivische Darstellung des Einsatzelements mit demontiertem Einschiebeteil ist und

Fig. 4 eine perspektivische Darstellung des die Rückstauklappen enthaltenden Einschiebeteils ist.

The invention is explained below with reference to a preferred embodiment with reference to the accompanying drawings, in which

1 shows a section through a preferred embodiment of the lifting system according to the invention in the ready-to-use assembled state of the lifting system,

2 is a perspective view of the insert element with the insertion part containing the backflow flaps,

3 is a perspective view of the insert element with the inserted part removed and

Fig. 4 is a perspective view of the insertion part containing the backflow flap.

A base body 1 has an inlet 2 and a Process 3. The basic body can be an existing one, for Example built into the basement of a residential building Inspection shaft, the one with its inlet 2 and its Drain 3 to the pipeline of the sewage system Residential building is connected. The base body 1 is on his upper margin with a not shown Sealing device provided and can not by one shown closing cover are closed.

1 is an insert element 10 placed on the base body 1. On the bottom of the Insert element 10 is a circumferential sealing groove 11 formed, which when inserting the insert element 10 the base body 1 the upper area of the peripheral edge of the base body 1. To seal between the Insert element 10 and the base body 1 cannot be closer shown sealing device, for example a appropriately shaped rubber ring may be provided.

A pump housing 12 is integrated in the insert element 10. Here, reinforcing ribs 13 are provided to the Insert element 10 to give sufficient strength. A sewage pump 20 is arranged in the pump housing 12. The waste water pump 20 sucks through a pump suction opening 21 Waste water on, which through a pump outlet opening 22 the pump housing 12 emerges. Especially for use the lifting plant for sewage containing faeces can Waste water pump 20 a chopper system for coarse materials exhibit.

An insertion part 30 has a first backflow flap 31 and a second backflow flap 32. Both backflow flaps 31, 32 are pivoted freely in the insertion part 30, the backflow flaps 31, 32 are ready for operation assembled state of the lifting station without any other effects external forces due to gravity in one closed state in which the first Backflow flap 31 loosely on a first backflow flap seat 33 and the second backflow valve 32 loosely on a second one Backflow valve seat 34 abuts.

When the lifting system is ready for operation, they are two backflow flaps 31, 32 substantially perpendicular stacked one on top of the other Backflow valve seat 33 adjoining line section 35 lies, preferably over a spherical or conical Contact surface, at the pump outlet opening 22.

The second backflow flap 32 has two closing webs 36, by means of which in connection with a Locking element 37, the second backflow flap 32 forced into a closed position and in it can be set. The actuation of the Locking element 37 can by one on the outside of the insert element 10 arranged hand lever 38 or, in an embodiment, not shown, by a motor, in particular electromotive device be operated.

The insertion part 30 is circumferential Provide sealing device, which is assembled ready for operation Condition of the lifting system a seal against the Insert element 10 and the base body 1 causes. As Sealing device can known means such as Web-groove connections and sealing lips made of rubber or others elastic materials are used. Preferably the insert element 10 is formed on its underside so that the insertion part 30 with the insert part 10 can be plugged together, as in the illustration according to Fig. 2 shown. Here is preferably the connection between the insertion part 30 and the insert element 10 so executed that the insertion part 30 in the fully assembled State in its position according to FIG. 1 in the base body 1 is fixed. The fixation of the insertion part 30 in the Base body 1 can by contacting the insertion part 30 a paragraph 4 of the base body 1, as shown in Fig. 1, get supported.

The following is an example of its use and function of the embodiment shown in the figures explained.

A conventional pipeline, for example in the Basement of a residential building, has one Inspection shaft according to the basic body 1 with an inlet 2 and a drain 3, the inspection shaft through a removable cover is tightly closed. Is at such a constellation, the use of a Sewage lifting plant necessary, so the conventional Cap removed and the conventional one Inspection shaft by placing the insert element 10 together with the insertion part 30 to a lifting system for Wastewater upgraded. The retrofit only requires the replacement of the conventional sealing cover with the Insert element 10 together with the insertion part 30 and the connection to a power grid. As a result of the constructive Design of the insert element 10 and the insertion part 30 are changes to that serving as the base body 1 Revision shaft not required. Depending on the embodiment of the base body and / or the insert element and the Slight modifications, for example sticking a passport or the like in the Revision shaft may be required. Depending on the design, first insert part 30 into the inspection shaft or Basic body 1 inserted and then that Insert element 10 on the inspection shaft or base body 1 and the insertion part 30 are placed. To Attachment of the insert element 10 on the inspection shaft or base body 1, for example by brackets or how shown in the figures, by screw connections a lifting plant for waste water with two backflow flaps Available.

There are two flow channels within this lifting system Are defined. A first flow channel provides one Forced drainage channel. This flow channel runs from the pump suction port 21 through the sewage pump 20 via the pump outlet opening 22 and the line section 35 to the first backflow flap 31. The second Flow channel is a drain channel and runs below the pump suction port 21 along the bottom of the Basic body 1 up to the second backflow flap 32.

During normal operation, i.e. in cases where the flowing into the base body 1 through the inlet 2 Sewage due to a natural gradient and without Backflow through drain 3 will be the second Backflow flap 32 through the effluent in the required dimensions opened and the sewage pump 20 is out of order. The wastewater thus flows through the second Flow channel.

If a backflow occurs from sequence 3, the second backflow flap 32 and the first backflow flap 31 closed by the returning wastewater and against the Non-return valve seats 34 and 33 pressed. This will be a Avoid flooding due to the backlog.

If closed due to a backlog Backflow flaps 31 and 32 through the inlet 2 waste water occurs, the water level rises within the base body 1. This is done by a device for detecting the Water level in the base body, for example a probe or a pressure sensor. As soon as the water level reached a predetermined height within the base body 1 or exceeded, the device for recording the Water level a signal to a control device (not shown) and in response to this, the Control device the sewage pump 20 in operation. The Waste water pump 20 sucks through the pump suction opening 21 Waste water on, which along the first flow channel to the first backflow valve 31 is conveyed and this against the Back pressure opens. In this way, despite backlogs Forced drainage causes. As soon as the water level in the Basic body 1 falls below a certain limit the sewage pump 20 is switched off.

As long as the water level within the body 1 exceeds the predetermined limit and the sewage pump 20 is in operation, between the Pump outlet opening 22 and the line section 35 Waste water passing through during the pumping process again from the sewage pump 20 through the pump suction port 21 sucked in. Even in the event that Leakage of the first backflow valve 31 or the second Backflow flap 32, for example due to contamination of the valve seat, leakage water accrues when there is a backflow should, the sewage pump 20 together with the previously explained control sure that this leak water is not too leads to flooding as it hits the backwater again is pumped out.

In certain cases, for example in the event of a long absence from the house, the second backflow flap 32 can pass through Actuation of the hand lever 38 via the locking element 37 and the closing bars 36 are forcibly closed. If there is water on the inflow side in this state, this is disposed of via the sewage pump 20.

This can be done for cleaning or maintenance purposes Insert element 10 removed from the base body 1 and that Insert part 30 can be removed. This is one easy maintenance and cleaning of the two backflow flaps 31 and 32 possible. In addition, the basic body 1 fulfills after removal the insert element 10 again the function of a Revision shaft, free access to this subsequent duct system, in particular for the purposes of Cleaning, allows.

Claims (11)

Lifting plant for wastewater with a base body (1) which has at least one inlet (2) and at least one outlet (3) and in which a waste water pump (20) is arranged and two separate flow channels are defined, wherein a first flow channel is a forced drainage channel through which the waste water is guided when the waste water pump (20) is switched on, and the second flow channel is a drainage channel through which the waste water can flow freely, and with two backflow flaps (31, 32), a first backflow flap (31) closing the forced drainage channel and the second backflow flap (32) closing the drainage channel in the event of a backflow, characterized,
that the two backflow flaps (31, 32) are mounted in an insertion part (30) which can be removed as a whole from the base body (1). Lifting system according to claim 1, characterized characterized in that the first backflow valve (31) in essentially vertically above the second backflow flap (32) is arranged. Lifting system according to claim 1 or 2, characterized characterized in that the second backflow flap (32) over a forced operation (36, 37, 38) manually or can be brought into their closed position by motor and can be specified in it. Lifting system according to one of the preceding claims, characterized in that the base body (1) as Inspection shaft is executed and that a Insert element (10) that the sewage pump (20) has, so in the base body (1) can be used that it closes the base body (1) and together with the Base body (1) within the base body (1) the two defines separate flow channels. Lifting plant according to claim 4, characterized characterized in that the sealing of the insertion part (30) in the base body (1) by a peripheral Sealing device is done and ready to use assembled state of the lifting unit (30) through the insert element (10) in the base body (1) is fixed. Lifting system according to claim 4 or 5, characterized characterized in that the insert element (10) in essentially the shape of a for closing the Has base body (1) suitable cover. Lifting system according to claim 6, characterized characterized in that the waste water pump (20) in a the pump housing (12) integrated with a cover Pump suction opening (21) and one Pump outlet opening (22) is arranged. Lifting plant according to claim 7, characterized characterized in that assembled ready for use Condition of the lifting system one from the outside of the Lid accessible part of the pump housing (12) Allows connection to a power supply line and the one arranged inside the base body (1) Pump suction opening (21) a predetermined distance to the bottom surface of the base body (1). Lifting system according to one of the preceding claims, characterized in that the sealing seat between the Pump outlet opening (22) and the insertion part (30) in the area of the first backflow flap (31) by a spherical or conical contact surface takes place. Lifting system according to one of the preceding claims, characterized in that the waste water pump (20) with a device for chopping coarse materials is provided. Lifting system according to one of the preceding claims, characterized in that a device for Detecting the water level in the base body (1) is provided and the operation of the waste water pump (20) depending on the height of the water level in the Basic body (1) is controlled.

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