EP1184504A2 - Method for washing the laundry in a continuous washing machine without tank and washing machine implementing such method - Google Patents

Abstract

Method for washing laundry and washing line for laundry in the bath changing and / or counter-current mode, in which the laundry to be washed passes through different treatment zones with chambers 1 to 16 in the passage through a washing line. wherein the individual baths are composed of fresh water and wastewater from other baths, the wastewater being fed to at least one bath without intermediate storage and directly at least partially to at least one other bath, and wherein no wastewater is temporarily stored in the water cycle during washing.

Description

The invention relates to a method for washing laundry, in which the laundry to be washed Laundry through a car wash with successive chambers with different Baths is moved, the laundry passes through at least one of the following zones: Pre-wash zone, rinse-off zone, rinse zone and post-treatment zone and the wash water of the individual baths composed of fresh water or fresh water and waste water from other baths becomes. The invention further relates to a car wash for laundry in the bath change and / or countercurrent operation with a washing drum with several successive Chambers for a variety of baths in the washing drum and a conveyor to transport the laundry through the washing drum and at least one Fresh water addition point and at least one wastewater withdrawal point and addition point for water drainage and supply.

In continuous car washes, the laundry to be washed is on one side in one Washing drum entered a large number of successive washing chambers having. By rotating the washing drum or a separate conveyor the laundry through the washing drum and the different chambers or baths promoted to be washed by it. Such continuous car washes operated in both bath exchange and counter-current operation. Even a combined one Operating mode from bath exchange and counterflow processes is known.

The individual chambers of the car wash are assigned to certain zones in which the Laundry is subjected to a treatment. For example, one differentiates with one a pre-wash zone, a clear wash zone, a Rinsing zone and a post-treatment zone, to which there is a drainage device such as B. connects a press or centrifuge. With a countercurrent The car wash is divided into a first prewash zone, a second prewash zone, and one Clear wash zone, a rinse zone and a post-treatment zone, to which the drainage device is attached followed.

When washing with car washes, unused bathrooms are used to make up for the subsequent ones Wash the prewash in the prewash zone, the rinse in the rinse zone (in the bath change or counter flow) or additionally one or more bath changes to be set. These baths are partly clear water, the rinse water or the drainage device such. B. a press or centrifuge resulting press water. These water are recovered and leave, for example the rinsing zone either through one or more overflows, through drain valves or together with the laundry when it leaves the machine or falls into the drainage device on.

Due to the constant change of direction of rotation of the inner drum of the car wash and through different water build-up when flowing through the laundry and the dividing walls in counterflow however, this water does not fall in a steady stream, but in gushes intervals that cannot be controlled. Therefore, the distribution of water on the varies different outlet points. At the places where this water is used again, precisely defined quantities are required at a precisely defined point in time, it is necessary collect the various water in buffer tanks and from there onto the Distribute the points of consumption precisely. However, the buffer tanks have that Disadvantage that they are very expensive to manufacture, take up a lot of space and are hygienic Need to be cleaned often. However, since they are usually among the Car washes are usually difficult to access, so cleaning the fluff filters, the removal of sand and objects is very complex and therefore expensive is.

The invention is therefore based on the object of proposing a washing method and to provide a car wash where the washing process simplifies efficiency the plant is significantly increased and the manufacturing and operating costs are reduced can. At the same time, a good washing result with low water consumption should be guaranteed be and the service on the machine is made easier.

This object is achieved by the inventive method according to claim 1 and a Washing line according to claim 13 solved in an advantageous manner. Advantageous configurations are the subject of the subordinate claims subordinate to these claims. The one described above The problem is solved in an advantageous manner in that the reusable, recovered baths are not removed from the machine through overflows or drains be stored in tanks and then stored in the required amount of Machine to be fed again but the wastewater is right there at which they occur, in exactly the required, measured amount to the position of the Pumped car wash where they are actually needed. On buffer tanks that the have the disadvantages described above, is advantageously completely dispensed with, so that the construction of a novel washing line according to the invention already through the saving of material costs, but also significantly improved by design simplification while simplifying maintenance. In the subclaims are called advantageous features that indicate in terms of method and device, such as Wastewater taken from sub-zones of the car wash and some of the preceding zones is fed again. The wash water becomes variable from fresh water and waste water composed, this taking place depending on the wastewater content, so that always it is ensured that a suitable amount of wash water is available in the respective zone is. The wastewater, which is advantageously continuously extracted in a precisely defined amount can, with other wastewater from a different zone area of the Washing line is removed, as well as mixed with fresh water, so that a suitable mixing ratio is set. The wastewater is z. B. at the beginning the rinsing zone and / or at the beginning of the aftertreatment zone and / or from a At the end of the car wash, the subsequent drainage system is removed, whereby as Dewatering device a press or centrifuge can be used and the Washing process with the squeezing of the moisture out of the washed laundry includes. Without intermediate storage, the wastewater from these zones becomes the prewash zone fed. Furthermore, the wastewater from the clear wash zone can be from a previous one Chamber of the clear wash zone or the wastewater from the rinse zone of a previous chamber be fed to the rinsing zone.

If you consider a washing machine in the countercurrent principle, with two prewash zones are provided, it is possible that the wastewater from the clear wash zone and / or Rinsing zone and / or the dewatering device of a first prewash zone and / or one is fed to the second prewash zone. Excess, not returned to the car wash Wastewater can be drained or recovered.

The washing line according to the invention advantageously has a water recovery system whose water-carrying components are made exclusively from direct, water-transporting Pipes between water addition points and water withdrawal points exist without any water storage components. A valve and pump system can control the water flows in a known manner in the water recovery system and / or be provided in a fresh water supply. The water recovery system shows Water tapping points that have a precisely defined water tapping point, z. B. using inductive flow meters or a time measuring device enable. The water addition points can have at least two or be connected to several water tapping points. The at least one prewash zone, one Rinsing zone, a rinsing zone and a washing zone comprising an aftertreatment zone has a water recovery system, which water withdrawal points at the end of the Has a clear wash zone and / or at the end of the rinsing zone and / or the aftertreatment zone, these water tapping points directly via lines with addition points in the Prewash zone and / or rinse zone and / or rinse zone are connected. These lines are also equipped with valve-equipped drains through which z. Belly disposal of wastewater in the sewer system, but also recovery can be. It can also be provided in an advantageous manner that to the car wash a dewatering device, in particular a laundry press for pressing the washed Laundry or a centrifuge is connected, the water withdrawal point via a Line is connected directly to the prewash zone. The drum of the car wash can be designed as a double drum at least in the area of the water tapping points, the inner wall of the drum being perforated in the region of the double drum formation.

Fig. 1

eine schematische Darstellung einer im Badwechsel arbeitenden Waschstraße, und

Fig. 2

eine schematische Darstellung einer im Gegenstrom arbeitenden Waschstraße.

Further features, advantages and details of the invention result from the following description of preferred exemplary embodiments with reference to the drawings. In it show:

Fig. 1

a schematic representation of a car wash working in the bathroom change, and

Fig. 2

a schematic representation of a counter-current car wash.

In the car wash 20 shown schematically in FIG. 1, 16 chambers 1 to 16 are provided, the following zones being assigned: Chambers 1 to 4 Prewash zone 21 Chambers 5 to 10 Clear wash zone 22 Chambers 11 to 14 rinse zone Chambers 15 and 16 Post-treatment zone 24

At the post-treatment zone 24, a drainage device 25, such as. B. a press or a centrifuge.

As can be seen from FIG. 1, the chambers 1 to 16 of the car wash 20 are in one Drum 26 arranged, which in the area of chambers 4 to 7, 11 and 14 to 15 as Double drum is formed. The inner wall of the drum is perforated in these areas formed while they are equipped with insulation 27 in the region of the chambers 8, 9, 10 is. This avoids that the fresh water line 28 from a Boiler coming heated water or heated by adding via steam line 29 Water cools down prematurely in the area of the clear wash zone.

As can be seen from the schematic drawing of FIG. 1, this is done with a Temperature of approx. 35 ° C or higher fresh water supplied in the area of the prewash zone 26 forwarded to the car wash. Steam can enter the chambers via the steam line 29 5 and 11 can be initiated. Finally, cold water flows through line 30 of the chamber 14 fed.

Water withdrawal points for the withdrawal of waste water are marked with X on the Chamber 11, designated Y on chamber 15 and Z on the drainage device 25 provided. Water addition points are marked with the letters A, B and D. characterized. It can be seen that, for example, the sewage line X has a Connecting line 31 is connected directly to either the water addition point A or B, while the waste water withdrawal point Y via a direct connection line 32 with the Water addition point B, and finally the wastewater withdrawal point Z via a connecting line 33 are connected to the water addition point A. From the clear wash zone 22 removed clear wash water, which still contains considerable substances from detergent, can therefore be recovered and fed directly to chamber 1 or 4 of the prewash zone become. At the end of the rinsing zone 23, rinsing water removed from the chamber 15 can either to chamber 4 of the prewash zone or to chamber 14 of the rinse zone are fed while the cold press water via line 33 to the prewash zone can be.

As can be seen, valves 34 and pumps 35 are provided in the lines which a metered loading of the water addition points with waste water is adjustable. During the operation of the car wash described above, wastewater is now generated from the water tapping points X, Y and Z is taken directly from the corresponding lines 31, 32, 33 pumped to the water addition points A, B and D, for which purpose preferably the pumps 35 are provided, which are insensitive to impurities, such as. B. lint etc. that are in the wastewater. This will not happen at the water addition points too heavily soiled washing water from the end areas of the washing line of the washing drum added in the area of the baths, in which the laundry to be washed has another has a high degree of pollution. For example, the almost clean press water from the removal point Z of the laundry press very well used in the prewash area to soak the laundry there and free it from the greatest dirt. The use of wastewater from the clear wash zone also has the advantage that this water is already heated, so that the washing water does not heat up as much the clear wash zone, as would be necessary if only fresh water was used, is required.

The car wash shown in FIG. 2 works in countercurrent and has the following zones: Chambers 1 to 3 1. Prewash zone 26 Chambers 4 and 5 Prewash zone 37 Chambers 6 to 11 Clear wash zone 38 Chambers 12 to 15 Rinse zone 39 Chamber 16 Post-treatment zone 40

The dewatering device 41 connects to the aftertreatment zone 40.

The wastewater tapping points are also labeled with the letters X, Y and Z. and are located in chambers 12 and 16 or at the outlet of the drainage device 41. In addition to water addition points A, B and D is the water addition point C provided in the chamber 11.

Pre-heated fresh water reaches the water addition point via the fresh water line 42 A and B at the beginning of the first prewash zone 36 or at the beginning in chamber 4 of the second prewash zone 37. Steam becomes the final wash zone via the steam line 43 the chambers 6, 8, 10 and 11 fed. Finally, fresh water is supplied via the fresh water line 44 at the water addition point D in chamber 15.

As can be seen, the drum 45 is in the area of the chambers 4 to 12 and 15 and 16 formed as a double drum, the inner wall of the drum being perforated, which by the dashed line is indicated.

The sketched pipe scheme shows that the waste water extraction point X over the Connection line 46 with the water addition point 1 or with the second prewash zone chamber 4 at the water addition point B or with the water addition point C in the chamber 11 of the final washing zone is connected. Furthermore, the water tapping point Y is on the one hand the water addition point B of the chamber 4 of the second prewash zone and on the other hand with the water addition point D connected to the chamber 15 of the rinsing zone. And finally it is Water withdrawal point Z of the drainage device via the connecting line 48 with connected to the water addition point A at the beginning of the first prewash zone. In all lines valves 49 and pumps 50 are provided as in the exemplary embodiment according to FIG. 1, so that a metered supply of waste water to the individual chambers is possible. In the exemplary embodiments 1 and 2, the connecting lines 31, 32 and 33 and 46 are 47, 48 provided with drains 51 and 52, respectively, via which wastewater shares in the sewer system or can be derived into a recovery system.

LIST OF REFERENCE NUMBERS

1-16

chamber

20

carwash

21

prewash

22

Wash zone

23

rinse zone

24

post-treatment zone

25

dehydrator

26

drum

27

insulation

28

Fresh water pipe

29

steam line

30

Fresh water pipe

31

connecting line

32

connecting line

33

connecting line

34

Valve

35

pump

36

1.Vorwaschzone

37

2.Vorwaschzone

38

Wash zone

39

rinse zone

40

post-treatment zone

41

dehydrator

42

Fresh water pipe

43

steam line

44

Fresh water pipe

45

drum

46

connecting line

47

connecting line

48

connecting line

49

Valve

50

pump

51

procedure

52

procedure

A, B, C, D

Waste water addition points

X, Y, Z

Waste water removal points

Claims (22)

Method for washing laundry, in which the laundry to be washed is moved through a washing line with successive chambers (1 to 16) with different baths, the laundry passing through at least one of the following zones: prewash zone (21, 36, 37), final wash zone (22, 38), rinsing zone (23, 39) and post-treatment zone (24, 40) and the wash water of the individual baths is composed of fresh water or fresh water and waste water from other baths, characterized in that the waste water is recovered at least in one zone and without intermediate storage and is at least partially fed directly to at least one other zone, with no waste water being temporarily stored in the water cycle during washing. A method according to claim 1, characterized in that the waste water is at least partially fed to at least one preceding zone. A method according to claim 1, characterized in that the wash water is variably composed of fresh water and wastewater, so that sufficient wash water is available depending on the wastewater volume. Method according to one of the preceding claims, characterized in that the wastewater is withdrawn in a precisely defined amount, preferably continuously. Method according to one of the preceding claims, characterized in that the water added in a certain area of the washing line is taken from at least two or more waste water extraction points (X, Y, Z) and is used in a preferably variably adjustable mixing ratio. Method according to one of the preceding claims, characterized in that the waste water is removed at the beginning of the rinsing zone (X) and / or at the beginning of the aftertreatment zone (Y) and / or from a dewatering device (Z) which follows at the end of the washing line. A method according to claim 6, characterized in that a press or centrifuge is used as the dewatering device (25, 41) and the washing process comprises the squeezing out of the moisture from the washed laundry, the wastewater obtained in this way also being fed to the car wash without intermediate storage. Method according to one of the preceding claims, characterized in that the waste water is fed to the rinse zone and / or the rinse zone and / or the dewatering device of the prewash zone. Method according to one of the preceding claims 1 to 7, characterized in that the waste water from the clear wash zone is fed to a preceding chamber of the clear wash zone. Method according to one of the preceding claims 1 to 7, characterized in that the waste water from the rinsing zone is fed to a preceding chamber of the rinsing zone. Method according to one of the preceding claims 1 to 7, characterized in that the wastewater of the clear wash zone and / or the rinse zone and / or the dewatering device is fed to a first prewash zone (36) and / or a second prewash zone (37). Method according to one of the preceding claims, characterized in that excess waste water which is not returned to the car wash is drained off or recovered. Washing line for laundry in the bath changing and / or countercurrent mode with a washing drum (26) with several successive chambers (1 to 16) for a large number of baths in the washing drum (26) and a conveying device for transporting the laundry through the washing drum ( 26) and at least one fresh water addition point (A, B, C, D) and at least one wastewater withdrawal and addition point (X, Y, Z) for the water discharge and supply, characterized in that the car wash has a water recovery system, the water-carrying Components (31, 32, 33) consist exclusively of direct, water-transporting pipes (31, 32, 33) between water addition points (A, B, C, D) and water withdrawal points (X, Y, Z) without any water storage components. Car wash according to claim 13, characterized in that the car wash comprises a valve and pump system (34, 35; 49, 50) for regulating the water flows in the water recovery system and / or in a fresh water supply (28, 30, 42, 44). Car wash according to one of claims 13 or 14, characterized in that the water recovery system has water extraction points (X, Y, Z) which enable a precisely defined water extraction. Car wash according to one of claims 13 to 15, characterized in that the car wash has water addition points (A, B, C, D) which are connected to at least two or more water withdrawal points (X, Y, Z). Washing line according to one of claims 13 to 15, characterized in that the washing line comprises at least one prewash zone, a rinse zone, a rinse zone and an aftertreatment zone, the water recovery system water extraction points (X, Y, Z) at the end of the rinse zone and / or at the end of the Rinsing zone and / or the after-treatment zone, which are connected directly via lines (31, 32, 33) to addition points (A, B, C, D) in the prewash zone and / or rinse zone and / or rinse zone. Car wash according to claim 17, characterized in that the lines (31, 32, 33) are equipped with valve-equipped outlets (51, 52). Washing line according to one of Claims 13 to 17, characterized in that the washing line is connected to a dewatering device (25, 41), in particular a laundry press for pressing the washed laundry or a centrifuge, the water removal point (Z) of which is connected via a line (33, 48) is directly connected to the prewash zone. Car wash according to one of claims 13 to 17, characterized in that the water recovery system further comprises valves (34, 49) for controlling the amounts of water in the lines (31, 32, 33; 46, 47, 48). Car wash according to one of the preceding claims 13 to 19, characterized in that the drum (26, 45) of the car wash is designed as a double drum at least in the area of the water tapping points (X, Y, Z). Car wash according to claim 20, characterized in that the inner wall of the drum is perforated in the region of the double drum design.

Images