CA1181662A - Mechanical dishwashing system and apparatus - Google Patents

Abstract

ABSTRACT

An improved process and apparatus for the mechanical washing of dishes wherein said objects are placed on a horizontal rack or conveyor chain over an open reservoir or wash tank containing a wash liquor com-prising an aqueous cleaning liquid which is pumped and sprayed through spraying devices placed over and/or under the rack or conveyor chain onto the dishes, subsequently followed by a rinse cycle wherein said washed dishes are sprayed with water optionally mixed with a rinse aid through spraying-devices-placed over and/or under the rack or conveyor chain, the improvement being that a bleaching and/or disinfecting agent (sani-tizer) is introduced into the cleaning liquid line to the spraying devices and/or direct into the wash liquor in the tank before the start of the rinse cycle, thereby controlling the amount of sanitizer in the cleaning liquid at a sufficient strength. The energy-saving process and apparatus can be used at lower washing and rinsing temperatures without decreasing the hygienic safety of the process.

Description

= 1 - C 590 (R) MECHANICAL DISHWASHING SYSTEM A'ID APPARATUS

This invention relates to an improved process and apparatus for the mechanical washing of dishes. The term "dishes" is 5 used here to include all sorts of crockery, glassware, cutlery and kitchen utensils.

Dishwashing machines wherein the dishes are placed on a hori--zontal rack or conveyor chain above an open reservoir or wash tank containing a heated wash liquor comprising an aqueous cleaning liquid and which operate by pumping and spraying said aqueous cleaning liquid onto the dishes for a predetermined period followed by a rinsing programme wherein the washed dishes are sprayed with warm water, optionally mixed with a rinse aid, are known.

Various types of dishwashing m~chines operating on the above principle are known.

A. Sin~le tank "dump" machines In these machines the wash liquor is dumped completely after each wash. They operate as follows:
1. Wash tank is filled with warm water and cleaning agent is dosed,

2. Wash cycle (circa 45 -180 seconds);

3. Wash water is drained;

4. Mach;ne is rinsed ~optional);

5. Wash tank is f;lled with fresh warm water and rinse aid is .

= - 2 - C 590 (R) dosed;

6. Rinse cycle (circa 45 -180 seconds);

7. Rinse water remains in tank and is used for the next wash cycle.
B. Single tank ''re-use"_machines In these machines only part of the wash liquor i5 continuously drained via an overflow pipe and refreshed by water from the rinse. They operate as follows:
1. Wash tank is filled with warm or cold water (depending on local circumstances) and cleaning agent is dosed;
2. Wash cycle (circa 20-70 seconds);
3. Wash water stays in the wash tank;
4. Rinse cycle (circa 5 -20 seconds). Rinse water from a warm - water line at ordinary water pressure (1.5 - 3 bar) flows into the wash tank via rinse sprayers. Rinse aid is dosed into the warm water line during rinsingj 5. Water level in wash tank is kept constant by means of an - overflow pipe (i.e. during the rinse cycle part of the wash water is drained);
6. Next wash cycle can start.

C. Multitank "re-use" machines These machines generally operate as follows:
l. Tank (pre-wash, wash and power rinse~ are filled with warm . water, 2. Machine is switched on (all sections have their own pump);
3. Cleaning agent is automatically dosed into the wash tank and rinse aid is dosed into the water of the final rinse;
4. Final rinse water (rinse water from a warm water line at ordinary water pressure (1.5 -3 bar) flows into the final rinse section via rinse sprayers, it cascades over into the power rinse tank.
5. Water from the power rinse tank cascades into the wash tank9 and from there it cascades over into the pre-wash tank, kept at a constant level by an overflow to the drain. The power r;nse (- pumped rinse) prior to final rinse is necessary to ~: ' ;
,, .
.

- 3 C 590 (R) ~1 rinse away alkalinity and soil residues from crockery be- l cause the final rinse (with fresh warm water) is too short to obtain alkali-free and soil-free crockery.

Some multi-tank machine types do not have a power rinse ¦
section so that the final rinse water cascades into -the wash tank.

These machines generally operate at a relatively high wash temper- !
10 ature of about 60C and a rinse temperature of about 80C. ~j ~1 The cleaning agents used in industrial mechanical dishwashing can be powders or liquids and are generally blends of two or more of the following compounds: sodium- or potassium triphosphate, sodium meta- I, silicate, sodium- or potassium hydroxide, sodium carbonate, sodium sulphate, with or without a chlorine bleaching agent.

The current increasing demand to reduce energy and water consumption has led investigators to a reconsideration of mechanical dishwash-ing processes. Considering that lowering the wash water temperature from a nominal 60C to 50C, and lowering the rinse water tempera-ture from a nominal 80C to 60C without further changing the timing of the machine programme involve an energy-saving of about ~5%, it could be easily appreciated that one of the major objectives of in-vestigators is to lower these temperatures in mechanical dishwashingprocesses. Lowering of the working temperature will also improve working conditions in the kitchen environment.

However9 lowering the wash and/or rinse temperatures will obviously l~
decrease the hygienic safety of the process owing to reduced thermo-disinfection and higher risk of cross-contamination. ~t , It is one object of the present invention to provide a process and apparatus for the mechanical washing of dishes, whereln washing and/or rinsing can be effected at lower -temperatures without de-creasing the hygienic safety of the process.

- 4 - C 590 (R) i It is another object of the invention to improve the bleaching and h~qiene performance of mechanical dishwashing processes.

It has now been found that the above objects can be achieved by the separate addition of a bleaching and/or disinfecting agent, which latter agent in the further description of the invention will also be referred to as "sanitizer".

Accordingly, in one aspect the invention provides a process for the mechanical washing of dishes, wherein said objects are placed on a horizontal rack or conveyor chain over an open reservoir or wash tank containing a wash liquor comprising an aqueous cleaning liquid which is pumped and sprayed through spraying devices placed over and/or under the rack or conveyor chain onto the dishes, subsequently foll.owed by a rinse cycle wherein said washed dishes are sprayed wîth water optionally mixed with a rinse a~d through spraying devices placed over and/or under the rack or conveyor chain, characterized in that a bleaching and/or disinfecting agent is introduced into the cleaning liquid line to the spraying devices and/or direct into the wash liquor in the tank before the start of the rinse cycle, thereby con-trolling the amount of sanitizer in the cleaning liquid at a suf~icient strength.

In another aspect of ~he invention an apparatus for the mechan-ical washing of dishes is provided, comprising an open wash liquor tank, a moving or sta~ionary horizontal rack for articles (dishes) to be washed placed above the wash liquor tank, a pump connected to the wash liquor tank for spraying wash liquor onto the articles through spray anms situated above and below the rack, an overflow to maintain the wash liquor level in the tank, `
and optionally a heating element mounted in the tank for heating the wash liquor, characterized in that there is provided a device for injecting a bleaching and/or disinfecting agent into : ~5 the wash liquor.

. ~ ` Said injection-device can be connected to the wash liquor line .. . .
. . i .

- 5 - C 590 (R) at a point before or where the flow is split between the upper and lower spray arms, or direct to the was liquor tank.

Preferably the injection points are provided with a one-way valve.

Bleaching and/or disinfecting agents usable in the present in-vention are, for example, alkalimetal hypochlorite and hydrogen peroxide. Also peroxy acicls or peroxy acid precursors can be used. Depending on the manner of dosing, the sanitizer may be used in any physical form for convenient dosing, e.g. a liquid or a solid. If alkalimetal hypochlorite is used, it is prefer-ably introduced in the form of an aqueous solution at a concen-tration of about 6 -12% by weight. A preferred alkalimetal hypochlorite is sodium hypochlorite.

If hydrogen peroxide is used, it is introduced as an aqueous hydrogen peroxide solution, for example at a strength of about 3 -60% by weight.
Hitherto separate addition of hypochlorite in mechanical dish-washing systems has been suggested via the rinse water. However, in most countries addition of hypochlorite or any other oxida-tive disinfectant to the final rinse water is prohibited by law, owing to the risk of the formation of undesirable residues on washed articles.

The present invention avoids the above risk and is safe in this respect.
The technical problem to solve is how and when to dose the bleaching and/or disinfecting agent solution of a fixed concen-tration to obtain the most cost-effective bleaching and/or dis-infecting action. The reduction of hypochlorite, for example by organic soil in the wash liquor, will mean that, in order to maintain a constant active chlorine level, a regular dosing of hypochlorite would be needed but at a rate which varies with its ;:

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- 6 - C 590 (R) ^reduction by the organic soil present in the wash liquor. It was found that for a satisfactory bleaching and sani~izin~ ef fect the active chlorine content in the wash liquor should pref-erably be maintained at a level of at least 30 ppm per litre, particularly at a level within the range of 30-50 ppm per litre.
It is easier to maintain this constant level if the bleaching and/or disinfecting agent is dosed during the wash process in pulses~ preferably at leas-t 30 seconds before the start of the rinse cycle, the amount being calculated on the basis of the amount of rinse water per rack or per hour and adjusted by means of the pulse frequency of the pump.

For example, in a single tank machine, having a wash tank con-tent of 50 litres and a rinse water adjusted at 2.5 l/rack, this turns out to be approximately 625 9 of hypochlorite solution (6% active chlorine) per 200 racks washed (i.e. 1.1 9 sodium hypochlorite/li-tre).

To ensure that sufficient active chlorine or active oxygen is present in the liquor, the dosing pump for the bleaching and/
or disinfecting agent may be activated by push button to deliv-er an extra "initial dosing" (i.e. a dose, yielding at least 30 ppm active chlorine level in a fresh liquor). In addition an extra amount of sanitizer may be needed to allow for varia-tions in the intervals between two wash processes and in the soil l~ad or soil composition.

Preferably a main wash product that contains more sequestrant than ~ost conventional mechanical dishwashing products is used to improve the hygienic safety of the process even further.
Both powder and liquid cleaning products can be used in the proce~s of the invention. The powder product may be dosed via any commercially known "powder dosing" system, e.g. an overflowing reservoir system, and the liquid product may be dosed by a suitable pump. The product concentration can be kept ~ithin acceptable limits via a conductivity cell in the wash liquor and controller. Advantageously the aqueous clean-ing liquid in the wash tank is kept at a strength at least - 7 - C 590 (R) equivalent to 500 mg/litre sodium triphosphate per 1 mole M 3 water hardness and 200mg/litre NaOH.

Under these conditions the level of residual bacteria found with the low temperature dishwashins process (washing temperature 50C/
rinse temperature 60C) is near that found with a conventional process at 60C/80C without hypochlorite. The combination of this alkaline liquor and the use of a separate sanitizer addition according to the invention results in an exceptional hygiene security and de1ivers a more cost-effective bleaching result ~han is possible with a conventional chlorine-containing main wash product.

The liquid bleaching and/or disinfecting agent, e.g. sodium hypo-chlorite solution or hydrogen peroxide solution, can be dosed by a diaphragm pump which is triggered by an electrical connec-tion to the ~ash pump via an electrical device.

In single tank machines with sprays over and under the rack the sanitizer product is dosed preferably at a point in the wash arm of the machine before or where the flow is split between upper and lower spray arms. This injection point with a one-way valve is chosen to minimize the delay between sanitizer addition and contact with the articles being washed (i.e. to deliver a maximum instantaneous level of active chlorine or active oxygen on the articles). It should be noted that, typically, the re-cycle time of the wash liquor through the wash pump is 6-lO
seconds so that dosing of the sanitizer into the wash liquor can also give very sim;lar results. The dosing pump for the sanitizer is conveniently operable by push button for the ini-tial dose (and intermittent bleaching when re~uired), whereafter a fixed volume (about 3 9 for 6% hypochlorite solution) is dosed per rackg starting e.g. 30 seconds before the end of the wash cycle. This dose may be injected in pulses of 1 9 at time in-tervals, whlch will depend on the duration of the wash cycle.

TXe rinse aid can be dosed, as in the conventional processes, .. ~

.;

j6 ~

- 8 - C 590 (R) with a Venturi or electrically operated pump.

The process of the invention not only avoids the risk of forma-tion of undesirable residues on washed articles arising from the sanitizer, but is also operable at lower wash and rinse temperatures, producing bleaching and hygienic results that are at least equal to the results obtained with conventional high-temperature ~60/80C) mechanical dishwashing processes.
In the process of the invention the wash liquor temperature is preferably maintained at a level of about 50 to 55~C, and the rinse water temperature is kept at a level of about 60 to 65C.

Further advantages of the invention are:
1. Level of active sanitizeribleach in the wash liquor can be kept more constant than when dosed via a main wash product. The required level for effective bleaching and/
or sanitizing can be set by adjusting:
- the amount of dosage per rack and/or ~ the initial dose and/or - by manual repetition of initial dose.
This makes better bleaching of washed articles and better disinfection of the wash liquor possible.
2. Presence of active sanitizer at an effective level in the wash liquor reduces risk of cross-contamination by bacteri~
(especially at lower temperatures, i.e. less than 60~C), hence a hygienically safer process.
Conventional mechanical dishwashing relies upon high tem-~erature (60/8a C) automatic washin~ of articles with a 3Q properly formulated and dosed cleaning product. It is, how ever, conceivable that ~here could be serious faults develop-ing with the washing of a particular load of used articles, resulting in reductions in temperature achieved~ reductions in the dosage of the product achieved~ and failure of one 35 ~ part~of;the cycle, for example rinsing. In extreme cases more than one~f ~he~se might fail.
~" If a serious fault develops in the process, it will undoubt--: .

.

- 9 edly result in a few articles being taken from the machine in an unsatisfactory hygienic state. There is also the chance that contamination introduced into the wash li~uor can be transferred to other articles. If large numbers of these would be involved, this cross-contamination could cause other washed articles to become hygienically unaccept-able.
The present invention seeks to compensate for such faults that may occur.
3. Incompatible components in especially li~uid main wash products can be used more effectively and more economically by the separate addition of sanitizer according to the invention.
The invention will now be further illustrated in the following Examples and explained by way of Figures 1 and 2.
Figure 1 is a schematic general arrangement view, partially in cross section of a mechanical dishwashing apparatus with means for dosing a liquid detergent cleaning product in accordance with the present invention.
. Figure 2 is a schematic general arrangement view, partially in cross section of a mechanical dishwashing apparatus with means for do~ing a powdered detergent cleaning product in accordance with the present invention.
Example 1 Process I using a li~uid detergent product as cleaniny agent (see Figure 1) 1. Fill the wash tank (A) with water of 50C by means of the rinse sprayers (B) or a separate filling tap.

,.~

- 9a -2. Put the rack with dirty dishes ~C) tn the washing compart-ment of the machine.

3. Start wash programme.

4. Push the button of pump (D); a pre-set amount of detergent is then dosed from the supply container (E) into the wash tank (A)-5. Push the button of pump (F) as soon as the pump is acti-vated by the timer (G), which is indicated by lightening up of the green pilot lamp; a pre-set amoun~ of bleach/sanitizer ~ .

- 10 - C 590 (R) is then dosed from the supply container (H) into the wash arm (J) or the wash tank (A).

6. The solution containing detergent and bleach/saniti~er is sprayed onto the dishes by the wash sprayers (K), which are being fed from the wash tank (A) by the machine pump (L).

7. During the last 30 seconds of the wash process pump (F) doses a pre-set amoun-t of bleach/sanitizer into the wash arm (J) or the wash tank (A); the amount is calculatecl on the basis of the amount of rinse water per rack or per hour and adjusted by means of the pulse frequency of the pump.

~. After the dishes have been washed, they are rinsed with Fresh water of 60C from the water heater (M) by means of the rinse sprayers ~B); to promote quicker drying of the clean dishes, a rinse aid is dosed automatically from the sùpply container (N) into the rinse water by means of pump (P).

9. With each subsequent rack the process repeats itself auto-matically, starting from 6. Detergent is dosed automatically during each wash cycle analogous to that described under 7 for bleach/sanitizer.

10. If the wash solution is dumped completely, the process has to be started again from 1.

No - In dishwashing machines with a separate power rinse section the bleach/sanitiz~r is dosed into the power rinse tank or power rinse line.
- In the above process the detergent concentration in the wash tank is kept sufficiently high by introducing a pre-set amount of detergent in the wash tank at the beginning of each wash cycle. It is also possible to use a conducti~ity control system to maintain the detergent concentration. ~uch a system is analogous to that used in Process II of Example 2 for powder detergents.
~ If during washing the concentration of the sanitizer in the wash tank turns out to be too low te.g. decrease of chlorine concentration by decomposition during a break), an extra amount can be dosed by pushing the button of pump ~F).

C 590 ~R) Example 2 Process I I usin~ powder detergent product as cleaning_~ent (see Figure 2) 1. Fill the wash tank (A) with water of 50C by means of the rinse sprayers (B) or a separate filling tap.

2. Add detergent powder to the dosing reservoir (C).

3. Put the rack with dirty dishes (D) into the washing compart-ment of the machine.

4. Start wash programme. Detergent solution/slurry is dosed automatically from the dosing reservoir (C) into the wash tank (A). Dosing continues until the concentration reaches a pre-set level. This level can be adjusted with the controller (E) which operates a solenoid valve (F) in the water supply line of the dosing reser~oir (C). The controller monitors the con-centration in the wash tank by means of an electrode (G, con-ductivity principle). The controller has a built-in alarm cir-cuit which operates a buzzer and/or a pilot lamp to indicate that the reservoir has to be refilled with detergent powder.
The dosing system is in operation as long as the machine is switched on.

5. Push the button of pump (H) as soon as the pump is acti-vated by the timer (J), which is indicated by lighting up of the green pilot lamp; a pre-set amount of bleach/sanitizer is then dosed from the supply container (K) into the wash arm (L) or the wash tank (A).
. The solution containing detergent and bleach/san;tizer is sprayed onto the dishes by the wash sprayers (M), which are being fed from the wash tank (A) by the machine pump (N).

7. During the last 30 seconds of the wash process, pump (H) ~ dos~s~a pre-set ~amount of bleaoh/sanitizer into the wash arm `~~` ` ~ (L)~-or the;wash tank ~A); the amount is calculated on the basis - - , ' - 12 - C 590 (R) of the amount of rinse water per rack or per hour and adjusted by means of the pulse frequency of pump (H).

8. After the dishes have been washed, they are rinsed with fresh water of 60C from the water heater (R), by means of the rinse sprayers (B); to promote quicker drying of the clean dishes, a rinse aid is dosed automatically -From the supply con-tainer (P) into the rinse water by means of pump (Q).

9. With each subsequent rack the process repeats itself auto-matically, starting from 6.

10. If the wash solution is dumped completely, the process has to be started again from 1.
Notes:
~ In dishwashing machines with a separate power rinse section the bleach/sanitizer is dosed into the power rinse tank or power rinse line.
- The above process can also be used for liquid detergents.
In that case the powder dosing reservoir (C) and the sole-noid valve (F) are not necessary; the controller operates a pump which doses the detergent from a supply container into the wash tank.
- If during washing the concentration of the sanitizer in the wash tank turns out to be too low (e.g. decrease of chlorine concentration by decomposition during a break), an extra amount can be dosed by pushing the but-ton of pump (H).

Claims (7)

THE EMBODIMENTS OF THE INVENTION IN WHICH AN EXCLUSIVE
PROPERTY OR PRIVILEGE IS CLAIMED ARE DEFINED AS FOLLOWS:

1. A process for the mechanical washing of dishes, wherein said objects are placed on a horizontal rack or conveyor chain over an open reservoir or wash tank containing a wash liquor which is pumped and sprayed through spraying devices placed over and/or under the rack or conveyor chain onto the dishes, subsequently followed by a rinse cycle wherein said washed dishes are sprayed with water optionally mixed with a rinse aid through spraying devices placed over and/or under the rack or conveyor chain, characterised in that a bleaching and/or desinfecting agent (sanitizer) is introduced in the wash liquor before the start of the rinse cycle at a point in the wash liquor line before the sprying devices, thereby controlling the amount of sanitizer in the wash liquor at a sufficient strength.

2. A process according to claim 1, characterised in that the sanitizer is an alkalimetal hypochlorite.

3. A process according to claim 2, characterised in that the active chlorine content in the wash liquor is maintained at a level of 30-50 ppm .

4. A process according to claim 1, characterised in that the sanitizer is introduced in the wash liquor at least 30 seconds before the start of the rinse cycle.

5. A process according to claim 1, characterised in that the wash liquor has a strenth at least equivalent to 500 mg/litre sodium triphosphate per mole M-3 water hardness and 200 mg/litre sodium hydroxide.

6. A process according to claim 1, characterised in that the wash liquor is kept at a temperature of about 50°-55°C.

7. Apparatus for the mechanical washing of dishes, comprising an open wash liquor tank, a moving or stationary horizontal rack for articles (dishes) to be washed placed above the wash liquor tank, a pump connected to the wash liquor tank for spraying wash liquor onto the articles through spray arms situated above and below the rack, an overflow to maintain the wash liquor level in the tank, and optionally a heating element mounted in the tank for heating the wash liquor, characterised in that there is provided a device for injecting a bleaching and/or disinfecting agent (sanitizer) to the wash liquor at a point in the wash liquor line before or where the flow is split between the upper and lower spray arms.