BR102012013972A2 - PROCESS FOR CONTROL OF DRAINAGE TIME OF ELECTRIC HOUSEHOLD APPLIANCE - Google Patents

Abstract

PROCESS FOR CONTROL OF DRAINAGE TIME OF ELECTRIC HOUSEHOLD APPLIANCE. The present invention belongs to the field of home appliances and refers to an algorithm, or even, a method for determining the drain time in water in an appliance, more specifically for draining a washing basket / tank from a washing machine with clothes. the process for controlling the drainage time object of the present invention performs a control of the time necessary for the total drainage - or, as necessary, partial drainage - from a washing tank to a washing machine without, however, using pressure sesores , water level or mechanical keys.

Description

Report of the Invention Patent for "PROCESS FOR CONTROL OF DRAINAGE TIME OF ELECTRIC HOUSEHOLD APPLIANCE".

Field of the Invention The present invention pertains to the field of home appliances and relates to an algorithm or method for determining the drainage time of water in a household appliance, more specifically for draining a washing basket / tank. a washing machine.

Background of the Invention As is well known, many household appliances - especially washing machines - operate by storing certain amounts of water in a wash tank which, after processing, must be completely drained for process continuity. .

In general, such equipment, which normally uses single-contact mechanical pressure switches, requires a long period of time to drain water during the washing, rinsing and centrifugation steps, and this condition exists due to the fact that the equipment does not “know” the level and actual volume of water inside the tank to be drained. For this reason, the system operating the operation of such equipment uses a preset drain time for the maximum volume of water the tank can hold, and this time can be adjusted to drain the maximum volume of water based on certain conditions. extremes of the product and constituent parts. Document PI0402550-4, for example, describes a method of optimizing drainage and spin time for washing machines using an electromechanical timer, by timing only the stirring and spinning processes, and by controlling the start of the spinning process. centrifugation by the water level sensor control indicating minimum presence of water inside the wash tank. Therefore, the operation of this system depends fundamentally on the existence of the level sensor, which demands installation and operation costs. Other devices indicating the use of level sensors to perform this same function are described in US6065170, US2003-0056300, KR2005123228 and US2009-0265863. Another example of the current state of the art is described in EP1096052 concerning a method using fixed levels. water column height to calculate if there is water inside the wash tank and thus determine the drainage time by monitoring the time intervals between decreases and water levels to be drained. It is noted, therefore, that this is a system that, because it cannot identify the actual volume of water inside the wash tank, is not completely accurate and may incur failures that may compromise proper drainage of the appliance. EP1942219 describes an appliance that uses intermittent and consecutive drainage to detect the water level inside the tank, and this system uses a pump that operates in a pulsed manner and must necessarily be connected to perform the drainage time calculation. It is therefore a system that depends entirely on the pump, which is one of the components of the appliance that, together with the motor, demands considerable energy consumption and thus incurs increased operating costs.

Therefore, it is noted that the drainage processes known for household appliances lack solutions that do not require the use of water level sensors, pressure switches or the pump drive to perform the drainage time calculation, aiming to improve the consequently, the reduction of manufacturing and operating costs.

Objectives of the Invention In view of the foregoing, it is an object of the present invention to disclose a process for household appliance drain time control - in particular, a washing machine - that can operate by reducing drainage time without the use of sensors. pressure

Another object of the present invention is to describe a process for drainage time control that contemplates conditions related to user interactions such as opening of the movable lid and water placement. It is also an object of the present invention to provide a drainage time control process that does not involve specific costs and thus can be applied to low cost products.

Still another object of the invention is to disclose a process that proves robust in relation to water inlet pump and valve specification variations.

Another object of the present invention is to provide an operational process that does not employ any information from sensors or mechanical switches in general. Finally, it is an object of the present invention to provide a drainage time control method which utilizes, as input data, the valve on time, leading to a drainage time that includes boundary conditions for installation variations ( hydraulic and electrical) and product (valve and pump variation and drain hose).

SUMMARY OF THE INVENTION The present invention achieves the above objects by a method for controlling the drainage time of the appliance, said appliance comprising a structure provided with a movable lid, a wash tank and a pump. Said process controls the time required for drainage by measuring the water inlet time spent to reach at least a predetermined wash tank water level and, based on the calculated volume of water entering In that tank, determine the length of time the pump must remain on to complete the flushing tank drainage process.

According to a preferred embodiment of the present invention, said process further comprises means for detecting the opening of the movable lid of the household appliance to, based on this information, define the drainage time.

Optionally, the process of the present invention may further comprise means for detecting a power outage to, based on this information, define the drainage time. The process of the present invention is characterized in that it comprises the following steps: i) checking whether the power button has been operated; ii) check if the water inlet valve has been turned on; - If the water inlet valve has not been activated, the process performs the following steps: check if pressure switch preset has occurred; If the pressure switch has been preset, the system activates the drainage time based on the worst case; Verify that the user has programmed the appliance in Stand-by to start the Rinse cycle; If the appliance has been programmed into a rinse standby, turn on the fill valve; If the appliance has not been programmed in standby for rinsing, check that the user has programmed the appliance in standby to start in the Spin cycle. if so, wait for the actuator time to start and centrifugation, and if the appliance has not been programmed in stand-by for centrifugation, wait for user action; - If the water inlet valve has been actuated, the process performs the following steps: check the time the water inlet valve was turned on to determine the operating time of the pump; (iii) check whether preset pressure switch has occurred, where: - if no pressure switch preset has occurred, check that the movable lid has been opened during filling, and if the lid has been opened during filling, the system activates the time. drainage based on the worst case possible; If the lid was not opened during filling, the system drains according to a reference table. check if the Advance Steps function has been selected from the beginning to the end of the drainage; If the Advance Steps function has been selected, the system changes the indicator light to the new selected stage and does not interrupt the drainage until the process is finished. If Step Advance has not been selected, the system continues to drain until the drain time has elapsed; - if pressure switch preset occurred: check if the preset signal time was less than 141 seconds; If the default signal time was less than 141 seconds, the system activates the worst-case drainage time, verifies that the Advance Steps function has been selected from the beginning to the end of the drainage and, if the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt drainage until the process is completed, and if Step Advance function has not been selected, the system continues to drain until the drainage time has elapsed; If the default signal time has been greater than 141 seconds, the system checks to see if the machine has been unplugged before filling is complete, or if there has been a power outage before the drain step if the machine has been turned off. If a power outage or power outage occurs, the system activates the drainage time based on the worst case scenario, verifies that the Step Forward function has been selected from the beginning to the end of the drain, and if Step Forward has been selected, the The system changes the indicator light to the new selected step and does not stop the drain until the process has been completed, and if the Step Forward function has not been selected, the system will continue to drain until the drain time has elapsed. iv) If the machine has not been switched off If a power outage has occurred or a power outage has occurred, check that the machine has been put into standby before filling is complete; (v) If the machine has been put into standby before the filling has been completed, store the elapsed filling time before putting the machine into standby; vi) if the machine has not been put into standby before filling has been completed, check that the movable lid has been opened; - if the sliding lid has been opened, the system activates the drainage time based on the worst case possible, checks if the Advance Steps function has been selected from the beginning to the end of the drain and if the Advance Steps function has been selected, the system changes the indicative led to the new selected step and does not interrupt the drainage until the process has been completed. If the Step Advance function has not been selected, the system will continue to drain until the drainage time has elapsed; - If the sliding lid has not been opened, drain according to the equations indicated in the reference table and respect At (for reset signal), where At (for reset signal) is equal to the theoretical time calculated by the equation indicated in the table. reference minus 52 seconds; vii) respect time to drain reset = 52 seconds; viii) check that At (for reset signal) <theoretical time calculated by the table equation indicated in step 4: - if the check is positive, the remaining drainage time will be equal to the initial theoretical drainage time minus the elapsed drainage time ; - If the check is negative, wait for up to 180 seconds for the safety time reset signal that will form the pump's time-out; after reset signal, perform 70 seconds of drainage and if no reset signal occurs 180 seconds after At for reset signal, turn off the product; ix) check if the Step Advance function has been selected from the beginning to the end of the drainage: - if the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt the drainage until the process is completed; - If Step Advance has not been selected, the system will continue to drain until the drain time has elapsed.

Brief Description of the Drawings Figures 1 to 5 show a complete operational flowchart of the drainage time control process object of the present invention.

Detailed Description of the Invention The present invention will hereinafter be described in more detail based on the operating flow chart shown in the accompanying drawings. The drainage time control process object of the present invention realizes a time control required for total - or, as required, partial - drainage from a wash tank to a washing machine without, however, using pressure sensors. , water level or mechanical keys.

To do so, it is based on the measurement of the water inlet time, calculating the drainage time immediately after the washing tank is filled without requiring the activation of the pump responsible for the drainage per se of the water. Furthermore, the process of the present invention allows the drainage time to be calculated for any water level, not being limited, as in the vast majority of known processes, to predetermined specific levels.

Another differential feature of the process object of the present invention relates to the fact that it uses water input time as data input. Thus, the time taken to reach any water column height is measured to, based on the calculated volume of water entering the tank, determine the length of time the pump must remain on to complete the drainage process. tank.

In short, the process in question calculates the pump time required immediately after the tank is filled, and uses no other signals from any other additional device to assist in this calculation. This reduces the operating time of the pump, thus reducing the consumption of electricity and, consequently, the costs of using the equipment. Another benefit of the present invention is that it reduces the time the pump stays on and makes noise even when there is no water inside the tank, which creates inconvenience for consumers.

It should also be clarified that the process presented here detects whether or not the “movable washer lid” opens, since the use of mechanical or magnetic keys is commonly used to perform this monitoring. If the lid is opened, the consumer may have added water to the washer via, for example, a bucket or water hose. Thus, the algorithm pushes to the “worst case” of pump on time.

As explained, a similar idea is made when there is a power outage, as the product may lose its calculation of drainage time or consider the possibility of the consumer having added water to the device during the interval during which power grid was down.

Thus, the process for controlling the drainage time of a household appliance object of the present invention comprises the following steps. 1. check if the power button has been pressed; 2. Check that the water inlet valve has been turned on.

If the water inlet valve has not been activated, the process performs the following steps: 3. check if preset pressure switch has occurred; 3.1. If the pressure switch has been preset, the system activates the drainage time based on the worst case possible - this “worst time” is defined as being calculated in view of the worst case of: mains voltage, hose length drainage, water inlet valve with its maximum flow, pump with its minimum flow. 3.2 Verify that the user has programmed the appliance into Standby to start the Rinse cycle. 3.2.1. If yes, connect the fill valve 3.2.2. If not, check if the user has programmed the appliance in stand-by mode to start in the Spin cycle. 3.2.2.1. If yes, wait for the time to operate the actuator and start centrifugation (time less than 40 seconds on average) 3.2.2.2. If not, wait for user action.

If the water inlet valve has been actuated, the process performs the following steps: 4. Check the time the water inlet valve was turned on to determine the operating time of the pump.

The parameters of this definition follow the table below: It should be noted that the table above is for the specific case of a possible embodiment, as well as the other times described herein, so that the values presented in this report are merely exemplary and not limiting. 5. Check if preset pressure switch has occurred.

If the answer in step 5 is negative, the following is as follows: 6.1. check that the movable lid has been opened during filling: 6.1.1. if the lid was opened during filling, the system activates the drainage time based on the worst case possible; 6.1.2. If the lid was not opened during filling, the system drains according to the table above 6.2. Verify that the Step Advance function has been selected from the beginning to the end of the drain. 6.2.1. If the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt the drain until the process is completed. 6.2.2. If Step Advance has not been selected, the system continues to drain until the drain time has elapsed.

If the answer to step 5 is negative, proceed as follows: 7. check if the default signal time was less than 141 seconds 8. if the default signal time was less than 141 seconds, The system activates the drainage time based on the worst case possible. 8.1 Verify that the Advance Steps function has been selected from the beginning to the end of the drainage. 8.1.1. If the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt the drain until the process is completed 8.1.2. If the Step Advance function has not been selected, the system will continue to drain until the drain time has expired. 9. If the preset signal time has been greater than 141 seconds, check that the machine has been unplugged before the end of the drain. If the machine has been unplugged or a power outage occurs, the system activates the worst possible drain time 10.1 Check if the Step Forward function has been completed. selected from start to end of drainage 10.1.1. If the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt the drain until the process is completed. 10.1.2. If the Step Forward function has not been selected, the system will continue to drain until the drain time 11 has elapsed. If the machine has not been unplugged or a power outage has occurred, check that the machine has been put into Standby before 12. If the machine has been placed in Stand-by before filling, store the elapsed filling time before placing the machine in Stand-by 13. If the machine has not been placed in Stand-by. by before completing the filling check that the sliding lid has been opened 14. If the sliding lid has been opened, the system activates the drainage time based on the worst case possible 14.1 check if the Advance Steps function has been selected from the beginning until the completion of drainage 14.1.1. If the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt the drain until the process is finished 14.1.2. If Step Advance has not been selected, the system will continue to drain until the drain time has elapsed. 15. If the movable lid has not been opened, drain according to the equations indicated in the table in step 4 and respect At (for reset signal). .

Note that At (for reset signal) is equal to the theoretical time calculated by the equation indicated in the table in step 4 minus 52 seconds. 16. respect time to drain reset = 52 seconds 17. check that At (for reset signal) <theoretical time calculated by the table equation given in step 4. 18. If the verification of step 18 is positive, the remaining drain time will be equal to the initial theoretical drainage time minus the elapsed drainage time. It should be clarified that in this case the reset signal is not prioritized, being mandatory to follow the drainage time calculated by the above equation. 19. If the verification of step 18 is negative, wait for up to 180 seconds the reset signal of the safety time that will form the pump's time-out. After the reset signal, perform 70 seconds of drainage. If no reset signal occurs 180 seconds after At for reset signal, turn off the product. 20 check if the Step Advance function has been selected from the beginning to the end of the drainage. 20.1. If the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt the drainage until the process is finished. 20.2. If Step Advance has not been selected, the system continues to drain until the drain time has elapsed.

It is to be noted that while a preferred constructive form of the present invention has been shown, it is understood that any omissions, substitutions and constructive alterations may be made by one of ordinary skill in the art without departing from the spirit and scope of the protection required. It is also expressly provided that all combinations of elements that perform the same function in substantially the same way to achieve the same results are within the scope of the invention. Substitutions of elements of one embodiment described by others are also fully intended and contemplated.

Claims (4)

1. Process for controlling the drainage time of an appliance, said appliance comprising a structure provided with a movable lid, a wash tank and a pump, characterized by the fact that the process performs the necessary time control for drainage. by measuring the water inlet time taken to achieve at least a predetermined wash tank water level and, based on the calculated volume of water entering the wash tank, determine the length of time The pump must remain on to complete the flushing tank drainage process. Method according to claim 1, characterized in that it further comprises means for detecting the opening of the movable lid of the appliance to define, based on this information, the drainage time. Method according to claim 1, characterized in that it further comprises means for detecting a power outage to define, based on this information, the drainage time. Process according to Claim 1, characterized in that it comprises the following steps: (i) verifying that the power button has been operated; ii) check if the water inlet valve has been turned on; - If the water inlet valve has not been activated, the process performs the following steps: check if pressure switch preset has occurred; If the pressure switch has been preset, the system activates the drainage time based on the worst case; Verify that the user has programmed the appliance in Stand-by to start the Rinse cycle; If the appliance has been programmed into a rinse standby, turn on the fill valve; If the appliance has not been programmed in standby for rinsing, check that the user has programmed the appliance in standby to start in the Spin cycle. if so, wait for the actuator time to start and centrifugation, and if the appliance has not been programmed in stand-by for centrifugation, wait for user action; - If the water inlet valve has been actuated, the process performs the following steps: check the time the water inlet valve was turned on to determine the operating time of the pump; (iii) check whether preset pressure switch has occurred, where: - if no pressure switch preset has occurred, check that the movable lid has been opened during filling, and if the lid has been opened during filling, the system activates the time. drainage based on the worst case possible; If the lid was not opened during filling, the system drains according to a reference table. check if the Advance Steps function has been selected from the beginning to the end of the drainage; If the Advance Steps function has been selected, the system changes the indicator light to the new selected stage and does not interrupt the drainage until the process is finished. If Step Advance has not been selected, the system continues to drain until the drain time has elapsed; - if pressure switch preset occurred: check if the preset signal time was less than 141 seconds; If the default signal time was less than 141 seconds, the system activates the worst-case drainage time, verifies that the Advance Steps function has been selected from the beginning to the end of the drainage and, if the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt drainage until the process is completed, and if Step Advance function has not been selected, the system continues to drain until the drainage time has elapsed; If the default signal time has been greater than 141 seconds, the system checks to see if the machine has been unplugged before filling is complete, or if there has been a power outage before the drain step if the machine has been turned off. If a power outage or power outage occurs, the system activates the drainage time based on the worst case scenario, verifies that the Step Forward function has been selected from the beginning to the end of the drain, and if Step Forward has been selected, the The system changes the indicator light to the new selected step and does not stop the drain until the process has been completed, and if the Step Forward function has not been selected, the system will continue to drain until the drain time has elapsed. iv) If the machine has not been switched off If a power outage has occurred or a power outage has occurred, check that the machine has been put into standby before filling is complete; (v) If the machine has been put into standby before the filling has been completed, store the elapsed filling time before putting the machine into standby; vi) if the machine has not been put into standby before filling has been completed, check that the movable lid has been opened; - if the sliding lid has been opened, the system activates the drainage time based on the worst case possible, checks if the Advance Steps function has been selected from the beginning to the end of the drain and if the Advance Steps function has been selected, the system changes the indicative led to the new selected step and does not interrupt the drainage until the process has been completed. If the Step Advance function has not been selected, the system will continue to drain until the drainage time has elapsed; - If the sliding lid has not been opened, drain according to the equations indicated in the reference table and respect At (for reset signal), where At (for reset signal) is equal to the theoretical time calculated by the equation indicated in the table. reference minus 52 seconds; vii) respect time to drain reset = 52 seconds; viii) verify that At (for reset signal) <theoretical time calculated by the table equation indicated in step 4; - if the check is positive, the remaining drainage time will be equal to the initial theoretical drainage time minus the elapsed drainage time; - If the check is negative, wait for up to 180 seconds for the safety time reset signal that will form the pump's time-out; after reset signal, perform 70 seconds of drainage and if no reset signal occurs 180 seconds after At for reset signal, turn off the product; ix) check if the Step Advance function has been selected from the beginning to the end of the drainage: - if the Step Advance function has been selected, the system changes the indicator light to the new selected step and does not interrupt the drainage until the process is completed; - If Step Advance has not been selected, the system will continue to drain until the drain time has elapsed.