WO1995029625A1

WO1995029625A1 - Method for washing items in a washing line, and washing apparatus

Info

Publication number: WO1995029625A1
Application number: PCT/FI1995/000231
Authority: WO
Inventors: Timo Värpiö
Original assignee: Vaerpioe Timo
Priority date: 1994-05-02
Filing date: 1995-04-27
Publication date: 1995-11-09
Also published as: NO319887B1; CA2189014C; FI96661B; AU695232B2; FI942018A0; ES2168364T3; DE69525337D1; EP0757538A1; NO964621D0; DE69525337T2; EP0757538B1; CA2189014A1; ATE212816T1; FI96661C; NO964621L; FI942018A; US5876515A; AU2308995A

Abstract

A method for washing items in an automatic washing line, and an automatic washing apparatus. When items (1) are conveyed to a washing zone (2), the method uses a sensor (6a) for detecting if there is a continuous flow of items (1) to the washing zone (2). If there is a break in the flow of items, washing in the washing zone (2) is interrupted. The apparatus comprises a sensor (6a) for detecting if there is a continuous flow of items (1) to be washed to the washing zone (2). In addition, the apparatus comprises a programme for interrupting the wash in the washing zone (2) when the sensor (6a) detects a break in the flow of items (1) to be washed.

Description

Method for washing items in a washing line, and washing apparatus

The invention relates to a method for washing items in an automatic washing line wherein the items to be washed are conveyed to a washing zone in succession and a sensor is used to detect the presence of an item in the sensor area of the sensor.

The invention also relates to an automatic washing apparatus for washing items, the apparatus comprising an accumulation area for accumulating items to be washed in succession into a line, a conveyor in the accumulation area for conveying the items to the washing zone, and a sensor for detecting the presence of an item in the sensor area of the sensor.

In institutional kitchens, such as hotel or restaurant kitchens, large quantities of dishes are washed daily. Washing is effected by placing the dishes in racks which are conveyed through a washing line. Such washing lines usually comprise prewash, main wash and rinsing.

The operating costs of a washing line consist of water, energy and detergent consumed. Previously attention has not been paid to what the idle running costs of such a washing line may be. Unexpectedly, calculations show that the idle running costs of a kitchen washing e.g. 500 standard-sized racks daily may, at worst, exceed FIM 100.000 per year.

Idle running is caused by the wash running although no racks are conveyed through the line or there is space between the racks. With the line empty, water, energy and detergents are wasted.

It is an object of the present invention to provide a method enabling a cut in operating costs by decreasing idle running. To obtain this goal, the method of the invention is characterized in that when the items are conveyed to the washing zone, a sensor is used to detect the presence of a new item essentially immediately after the last item which has passed the sensor area of the sensor, and in case of non-presence of a new item, washing in the washing zone is interrupted until the next item input towards the washing zone has reached the item that has passed the sensor area of the said sensor. It is a further object of the present invention to provide an apparatus for washing items, the apparatus allowing the realization of the above economical method that will save operating costs. The apparatus of the invention is characterized in that it comprises the sensor which is arranged to detect if there is a new item essentially immediately after the item which has passed the sensor area, and in addition the washing apparatus comprises a programme which will interrupt the wash in the washing zone on the basis of information supplied by the sensor regarding the non-presence of a new item. Additionally the apparatus may comprise a separate sensor for detecting the location of the last item on line, whereby a programme will give a command to stop the wash programme in the washing zone on the basis of information supplied by the sensor. Correspondingly the location of the first item may be detected by means of a suitable sensor whereby the wash programme will start once a new line reaches that point. A similar idea may also be used separately in the different sub-zones of the apparatus; sub-zones that have a separate wash programmes, e.g. prewash, main wash and rinsing.

It is an essential idea of the invention that washing takes place in the washing area mainly only when the area is filled with items to be washed, whereby detergent, water and electricity will be utilized in the best possible way. The washing of items in the washing zone is thus interrupted if the items are not followed by items to be washed and the wash is not completed until new items to be washed arrive in the washing zone as a continuation of the existing ones. According to a preferred embodiment, a certain quantity of items to be washed is assembled in succession, preferably a quantity corresponding to the length of the washing zone, and the wash is started when a full quantity of items, i.e. a group of items, is accumulated and waiting to be washed, and continues until a new group of items has wholly entered the washing zone. If new items to be washed continue to arrive as a continuation of the ones in the washing zone, washing will naturally continue until a gap is formed after the items to be washed.

In the following the invention will be described in greater detail with reference to the accompanying drawings, where Figure 1 is a schematic top view of the apparatus of the invention and

Figure 2 illustrates the effect of idle running on the operating costs of a washing line.

Figure 1 shows an ordinary washing line installed into an institutional kitchen, where dishes are washed by placing them in separate items 1, such as standard-sized plastic racks, which are conveyed through a line. The washing apparatus comprises an accumulation area 7, which may be a normal loading and input table for dishes, the area comprising a conveyor 4 at one edge for conveying the dishes to a washing zone 2. Dish washing machines are situated in the washing zone 2, i.e. a prewash machine in the first sub-zone 2a and a main washing machine, comprising a washing section forming the second sub-zone 2b, where detergent is also administered, and a rinsing section comprising the last washing zone 2c, where the washed dishes are rinsed. The above are followed by a discharge line 8 for assembling the washed items 1. The conveyor 4 of the accumulation area and the conveyor 9 of the washing zone 2 are separate conveyors. The discharge line 8 may additionally have a separate conveyor.

The washing zone 2 is preceded by a mechanical retainer 5, a sensor 3 on the conveyor 4, and there are other sensors 6a-6c in the washing zone 2, the functions of which are described below.

The operation of the apparatus is such that when washing is started, the items 1 to be washed are transferred via the loading and input table to the conveyor, where they are in succession in a line. The conveyor keeps running all this time, and the mechanical retainer 5 preceding the washing zone 2 will stop the items 1 from proceeding to the washing zone, which will thus result in the items being in close contact. At this point the wash programme in the washing zone 2 is not running. The sensor 3 on the conveyor 4 detects that a certain quantity of items has accumulated and respective information is transmitted by means of an automatic programme to the retainer 5, which will retract, and the conveyor 4 is thus able to convey the line to the washing zone and to the conveyor 9, where the items first enter the prewash machine, i.e. sub-zone 2a. A sensor 6a is also located in the first washing zone 2a, and it will detect the end of the line that has passed its sensor area, and this information is again transmitted to devices which will stop the wash programme. In accordance with the same principle, also the subsequent sub-zones 2b and 2c may have separate sensors 6b and 6c which will detect the arrival of the line to the sub-zone, and this information is transferred to devices which will start the wash programme of that particular sub-zone, and similarly they will detect the end of the line, and this information is transferred to devices which will stop the wash programme.

Normally the wash proceeds after the start so that there is a continuous flow of items 1 to be washed in all the washing zones 2a-2c, and the wash will continue so long as a new item 1 to be washed will follow essentially immediately after the item 1 to be washed arriving in e washing zone 2. If there is a gap after an item 1 arriving to the washing zone 2, the probe 6a will detect the non-presence of a new item 1 to be washed, and the wash in the whole washing zone 2 is interrupted until a new item 1 to be washed reaches the last item to have arrived to the washing zone 2 on the conveyor. Hereafter the wash will restart until the probe 6a again detects a gap after an item 1 having arrived in the washing zone 2.

Timing may be effected so that a predefined quantity of items 1 is allowed to be accumulated in the accumulation area 7, whereafter the group of items formed by items 1 in succession is forwarded in one go in accordance with the wash speed to the washing zone. The wash is similarly interrupted after the last item 1 of the group of items has passed the probe 6a, and the wash is not restarted until a new group of items of a predetermined size is formed. The sensor 3 detects the formation of such a group of items and thereafter gives a starting command to transfer the group of items forward, and when the line reaches the probe 6a the latter will give a command to restart the wash in the washing zone 2. When the wash is finished the last items 1 may be washed although no new item 1 follows. The apparatus comprises a separate switch or control for this purpose in order to override the stop command given by the probe 6a. In addition the apparatus may comprise either an extra probe at the end of each separate sub-zone 2a-2c or timers which will stop the wash in a certain sub-zone after a certain time has passed from the moment when the last item 1 passed the probe 6a-6c of the respective washing zone.

The sensors 6a-6c may be arranged at sufficiently short intervals in the washing zone 2 to ensure sufficient information on the location of the items 1 at the different points of the washing line. The automation of the apparatus may be arranged using probe and control solutions known per se. The sensors may be e.g. capacitive approach sensors, which will notify if an item is at the location of the sensor. The apparatus comprises a logic unit, wherein all necessary information may be programmed and by means of which ad hoc programmes may be made. Additionally a monitoring programme may be used, which will record the consumption of cold water, hot water and detergent per item, whereby the performance of the apparatus may be monitored. The data may e.g. be visible at all times on a display monitor, which will also allow any deviations in certain optimum values to be detected, whereat the programme may be assigned to give an alarm.

Figure 2 is a graph showing the effect of idle running on water, energy and chemical costs in FIM per year of a washer washing 600 racks per day in an institutional kitchen. Studies show that idle running constitutes typically 65% of the operating time. The graph shows that by the solution of the invention savings of tens of thousands of Finnmarks per year may be achieve .

The invention may be applied to existing washing apparatuses by making the necessary additions. The method is applicable to e.g. tunnel-type washing apparatuses of all sizes and all ages. An automatic prewash machine may additionally be installed to washing lines with previous manual prewash.

Instead of a separate mechanical retainer 5, the conveyor 9 of the washing zone may also function as a mechanical retainer so that when the conveyor 9 is shut off, it will keep the incoming items 1 from moving forward until the conveyor 9 is set in motion. Instead of a sensor located at the beginning of the washing zone, sensor 6a may also be a sensor or a detector preceding the washing zone, whereby the wash may be interrupted in case of non-presence of a new item immediately after the item in the sensor range of the sensor is leaving the sensor area. Instead of a separate probe, the sensor may also be some sort of a light beam transmitter-receiver set or other respective sensor able to detect the presence or non-presence of an item.

Claims

1. A method for washing items (1 ) in an automatic washing line wherein the items (1) to be washed are conveyed to a washing zone ( 2) in succession and a sensor (6) is used to detect the presence of an item (1) in the sensor area of the sensor (6a), c h a r a c t e r i z e d in that when the items (1 ) are conveyed to the washing zone (2), the sensor (6a) is used to detect the presence of a new item (1) essentially immediately after the last item (1) which has passed the senror area of the sensor (6a), and in case of non-presenc of a new item ( 1 ) , washing in the washing zone (2) is interrupted until the next item (1) input towards the washing zone (2) has reached the item that has passed the sensor area of the said sensor (6a).

2. A method as claimed in claim 1, c h a r a c t e r i z e d in that on the basis of information from the sensor (6a) a command is given to start a wash programme in the washing zone (2) when a new item (1 ) has reached the item (1 ) which has bypassed a sensor (3) .

3. A method as claimed in claim 1 or 2, c h a r a c t e r i z e d in that the items (1 ) are accumulated to a conveyor (4), which is running and precedes the washing zone (2), and the line of items thus formed is held in place until a predetermined quantity of items (1) has accumulated, whereafter the group of items formed by the items is transferred towards the washing zone (2) .

4. A method as claimed in any one of claims 1-3, c h a r a c t e r i z e d in that the washing zone (2) comprises sub-zones (2a, 2b, 2c) for special washing operations, and at least one of the sub-zones comprises a sensor (6a-6c) for detecting the location of the first item ( 1 ) in line for starting the wash programme of the respective sub-zone and/or for detecting the location of the last item ( 1 ) in line for ending the wash programme of the respective sub-zone.

5. A method as claimed in any one of claims

1-4, c h a r a c t e r i z e d in that the sensor (6a) has been installed to detect essentially the leading edge of the washing zone (2) so that the item to be detected has reached the washing zone (2) before the non-presence of the next item (1) is expressed.

6. An automatic washing apparatus for washing items, the apparatus comprising an accumulation area (7) for accumulating items ( 1 ) to be washed in succession into a line, a conveyor (4) in the accumulation area for conveying the items to the washing zone (2), and a sensor (6a) for detecting the presence of an item (1) in the sensor area of the sensor, c h a r a c t e r i z e d in that it comprises the sensor (6a), which is arranged to detect if there is a new item (1) essentially immediately after the item (1) which has passed the sensor area, and in addition the washing apparatus comprises a programme which will interrupt the wash in the washing zone (2) on the basis of information supplied by the sensor (6a) regarding the non-presence of a new item.

7. An apparatus as claimed in claim 6, c h a r a c t e r i z e d in that in connection with the conveyor (4) there is a retainer (5) for blocking the passage of the items ( 1 ) to the washing zone (2), and a programme will remove the retainer ( 5) out of the way of the items ( 1 ) once a predetermined quantity of items has accumulated to let them pass to the washing zone (2) .

8. An apparatus as claimed in claim 7, c h a r a c t e r i z e d in that a sensor (3) will detect when the last item (1) in line has passed it, whereby a programme will give a command to stop the wash programme in the washing zone (2) on the basis of the information supplied by the sensor (3) .

9. An apparatus as claimed in any one of claims

6-8, c h a r a c t e r i z e d in that the washing zone (2) comprises sub-zones (2a, 2b, 2c) for special washing operations, and at least one of the sub-zones comprises a sensor ( 6) for detecting the location of the first item (1) in line, and a programme will start a wash programme corresponding to the washing operations of the sub-zone on the basis of the information of the sensor and/or a sub-zone comprises a sensor (6) for detecting the location of the last item ( 1 ) in line for ending a wash programme corresponding to the washing operations of the sub-zone.

10. An apparatus as claimed in any one of claims 2-9, c h a r a c t e r i z e d in that the washing zone (2) comprises several sensors (6) at certain intervals for detecting the locations of the items ( 1 ) .