TR201810075T4 - Apparatus comprising a steam generator and a method of controlling the same. - Google Patents

Abstract

The steam generating device 81) and the method for controlling the same and wherein said steam generating device (1) is a water reservoir (5), a steam boiler (6) for generating steam, the temperature or pressure in the steam boiler (6) is determined. receiving a signal from the sensor (14) connected to the boiler (6) and a pump (7) for pumping water from the reservoir (5) to the boiler (6) and controlling the operation of the pump (7) based on said signal. and the controller (15) for determining an amount of water in the boiler (6) and for supplying water to the boiler (6) when the specified amount of water is less than a predetermined value. configured to control the pump (7); in addition, said controller 15 is arranged to determine the amount of water by measuring at least one time interval required for a predetermined increase in temperature or pressure of the boiler 6 and to compare the measured time interval with a predetermined value.

Description

TECHNICAL FIELD The present invention includes a device, such as an iron for clothes, comprising a steam generator and in particular, such a steam generator with improved control device and a method of controlling such a device. PRIOR ART Appliances such as clothes irons, clothes steamers, and steam cleaners which converts it into steam and supplies the steam to the soleplate of the iron a gasket that lifts the garment to be ironed through the steam channels in the soleplate. It includes a steam generator system with a steam boiler. water in steam boiler the water level in the steam boiler decreases as it is converted into steam and therefore a water supply to the steam boiler is required. a pump device to pump water from a water reservoir inside the boiler to the steam boiler. can be used. The pump can be controlled automatically so that When heard, sufficient water is fed to the steam boiler. Instead of this function steam boiler to generate a control signal for the pump to bring Accurate and sensitive perception of the water level inside is required. This is steam by direct measurement of the water level in the boiler or indirectly, by measuring the water temperature or pressure in the steam boiler can be done.

Direct steam boiler water level measurement by inserting a sensor into the boiler electrical integration of the sensor and at the same time often more complex and easier to manufacture, due to the need to isolate it is expensive. In addition, direct water level measurement increases the detection sensitivity. 21442.1132 scale on the surface of the sensor over time, which decomposes has the disadvantage of its possibility.

Indirect boiler water level measurement is often put into practice. a simple case, but determining the water level is often limited data plotted temperature or pressure changes from measurement points less accurate because it is based on extrapolation it could be. Document EP 0843039 provides indirect steam boiler measurements and temperature or a steam that puts such extrapolation of pressure changes into use. Describes a device with a generator. In this explanation, the water level is from the steam boiler. a predetermined period of time during steam release by measuring a temperature drop of a steam boiler over determines. However, in this description and the process of determining such a water level In other devices put into use, when the steam outlet valve is open, the temperature drops the valve opening diameter, the steam hose between the steam boiler and the steam outlet length, the number of steam outlet openings in the appliance, the steam at the time of use. variable backpressure on their outlets (for example, the steam outlet hose and/or the mouths of an iron soleplate covered by a garment due to the variability of the steam outlet path due to bending or coiling due to the climax performed in the steam boiler at the point of opening the valve pressure and the cooling of the steam boiler during the steam release. Many factors including the effects of the voltage amplitude applied to the heater reducing the speed affected by. Therefore, during the steam release, the steam The actual line of temperature drop against the boiler's time curves or the steam changes significantly in gradient over the period of release. This state that measuring a small number of points and such a variable and/or extrapolation of a straight line from these few points on the curved graph Calculating the water level in the steam boiler incorrectly means it will. This is also during the steam release. The temperature drop rate is not constant for a given volume inside the boiler. It means. 21442.1132 BRIEF DESCRIPTION OF THE INVENTION The above mention of controlling a device including a steam generator and the same a method that alleviates or overcomes the problems Invention is defined by independent wills; Dependent wants are advantageous define applications.

One aspect of the invention is a water reservoir, a steam boiler for generating steam, to the steam boiler to detect the temperature or pressure of the steam boiler. a connected temperature or pressure sensor, steam from the reservoir a pump configured to pump water into the boiler and a to receive the signal and control the operation of the pump based on the signal. provides a vapor generating device that includes a configured controller and here, the controller is to determine the amount of water in the boiler and when the specified amount is less than a predetermined value, to control the pump to supply steam boiler water configurable and characterizing feature of the steam boiler of the controller the maximum needed for a predetermined rise in temperature or pressure. to determine the amount of water by measuring a small time interval and to compare the measured time interval with a predetermined value. is arranged. Predetermined time value predetermined at temperature or pressure a time for one or more known quantities of water to reach an increase may correspond to the range.

The device is additionally designed to allow steam to be released from the steam boiler. may include a control valve, wherein the controller is simply a control valve 21442.1132 when it is turned off and the steam is prevented from being released from the boiler, a time for a gradual increase in temperature or pressure in the steam boiler can be configured to measure the range. This is the time interval(intervals) For consistent and accurate prediction and extrapolation of temperature rise be measured in a condition when steam is not ejected from the boiler. guarantees. This situation also creates a more stable steam boiler condition. and a more consistently reproducible temperature of the pressure gauge results. and the above-mentioned known water level detection methods and It ensures that the problems of your devices are avoided.

After the steam has been released from the boiler, the controller and following closure of the control valve for a predetermined period of time steam boiler following closure of the control valve after the history a time interval for a gradual increase in temperature or pressure. can be configured to start measurement. predetermined time period it may depend on the period of time the control valve has been opened. Such a pre- The specified time period may include a duration of around 1-5 seconds. This is advantageous as a result of thermal inertia within the system and from the end of the previous vapor blast event. allows the response time of the next sensor. This situation is above the system settle into a stable thermal state before the start of the defined process. allows.

Following the closing of the controlling control valve and a Once the detected temperature or pressure reaches a threshold value, the steam a time interval for a one-step increase in temperature or pressure in the boiler. It can be configured to start its measurement. This advantageously, the steam boiler temperature and/or pressure inside before measurements begin to be taken. stabilizes, which leads to more accurate and reliable measurements. allows. The threshold at which the measurement begins may be a threshold temperature and the boiling point of water There may be a threshold value at or above the point of 120°C. or it could be 123°C. 21442.1132 The controller is a gradual increase in the temperature or pressure of the steam boiler. for each measured time interval is greater than a predetermined time interval. low, it can be configured to run the pump. This is advantageous As a result, a smaller amount of water is removed from a predetermined threshold time interval. since it will heat up more quickly, if the water level in the steam boiler is What happens inside the boiler if it is below the pre-set minimum level? time indicates that more water is needed.

The controller keeps the pump running during a predetermined time period. can be configured to run. predetermined period of time may be fixed or the specified amount of water remaining in the steam boiler. may be attached. A fixed pump time with a simpler control method results, however, based on the measured residual determination of the volume of water to be pumped the water level in the steam boiler It allows for more accurate control.

During or after the operation of the pump, the controller Always set the interval for a gradual increase in temperature or pressure in the boiler. can be configured to measure. During an operation of the pump or The water level determined after the pump starts the next operation of the pump. can be used to determine

The controller, if the specified water level is the time period of the pump operation It can be configured to stop the pump if it does not increase in accordance with This is advantageous As a result, when the water reservoir is empty, it is necessary to pump continuously and to the pump. helps to prevent potential harm.

The controller may contain a microprocessor and one or more memories. Previously- determined value is one or more known values of water in the boiler a time interval for gradual temperature or pressure rises 21442.1132 may contain one or more of these controllers in a memory unit. can be stored in the reference table. These are the known water in the steam boiler. time measured for gradual temperature increases versus that for volume(s) They allow a quick reference for the controller to determine ranges.

In addition to the controller, depending on the temperature or pressure signal from the sensor can be arranged and detected to control the operation of the steam boiler water when the temperature or pressure has reached a predetermined threshold value. Heating can stop the steam boiler. This advantageously reduces the associated overpressure. To Prevent overheating of the steam boiler and potential damage to the appliance with its consequences. it will be helpful.

The sensor may include a temperature sensor, and may include a thermal resistor, and a negative The temperature coefficient (NTC) may include thermal resistance. Thermal resistance of a metallic substrate It can be mounted on it and mounted on the metallic substrate steam boiler.

The sensor can be mounted on an overhead or upper part of the boiler. You ask It can be mounted on an outer surface of the steam boiler. This is advantageous As a result, it avoids the deterioration of the sensor due to calcification.

The device may contain more than two thermal resistors as described above. may include the temperature sensor. Each sensor is placed on an upper or overhead part of the boiler. can be mounted or one can be mounted on an overhead or overhead and the other It can be installed in an alternative part of the steam boiler. This situation is advantageously from the heating element so as not to detect the heater temperature directly. Allows accurate temperature measurement by at least one spaced sensor. knows. Placing temperature sensors in a spaced relationship advantageously, the temperatures detected at different points inside the steam boiler accurate temperature measurement, by allowing comparison allows to be determined. Also, if a sensor is close to the heating is installed, detecting an overheating of the steam boiler in the absence of water. or a sensor close to the heater and a remote 21442.1132 detecting an excessive difference between the Temperatures detected by the sensor advantageously in detecting the condition of a dry steam boiler. allowed. If the sensor is close to the heater, an interrupting device such as a thermostat may contain.

Alternatively, each sensor may include a pressure sensor. known sizes In a closed volume of the steam boiler, temperature and pressure are well correlated. subject and thus functionally interchangeable.

Here, you also use a steam reservoir to create steam. boiler, steam boiler to detect the temperature or pressure of the steam boiler a temperature or pressure sensor connected to the boiler from the reservoir. a pump configured to pump water into the steam boiler and from the sensor to receive a signal and control the operation of the pump based on the signal a vapor generating device that includes a controller configured to A method of operating is explained and the method is a combination of the water in the steam boiler. determine the amount of water and the specified amount of water in a pre-determined When the value is less than the value of the pump to supply water to the steam boiler. includes checking, wherein the characterizing feature is that the method is steam for a predetermined rise in temperature or pressure in the boiler, at least one determining the amount of water by measuring the time interval and comparing the measured time interval with a predetermined value it contains.

The method is a method that only allows steam to be released from the boiler. the control valve is closed and the steam is released from the boiler a gradual increase in temperature or pressure in the steam boiler may involve measuring a time interval for

The method is after the steam has been released from the steam boiler and the control elapsed of a predetermined period of time following valve closure 21442.1132 in the steam boiler after closing the control valve. measuring the time interval for a gradual rise in temperature or pressure may include startup. Such a predetermined time period is 1-5 seconds. It can contain a value between and can contain a period of around 3 seconds.

Depending on the determined amount of water remaining in the steam boiler, the method may include starting the pump for a predetermined period of time. Comparison of the measured time interval with a predetermined value The step of the water in the steam boiler is a memory unit of the controller. one or more known ones stored in one or more reference tables a predetermined amount for a gradual rise in temperature or pressure. may involve comparing a measured time interval with a time interval.

The method depends on a temperature or pressure signal from the sensor. operation and the detected temperature or pressure should be checked beforehand. when it reaches the specified threshold value, the water heating of the steam boiler may include suspension. Do not overheat this boiler and/or steam It prevents excessive pressure build-up inside the boiler.

A pre-determination of the temperatures or pressures of the controller steam boiler. at the temperature or pressure of the steam boiler within the specified range. measure one or more time intervals for increments can be configured to perform. Such a range of temperatures is 120°C to May include a range of 160°C or a range from 123°C to 146°C may contain. One or more of the steam boilers at the temperature of the steam boiler measure the controller's time interval(s) for gradual increase It is a pre-determination of the internal pressure of the steam boiler that the range of temperatures can be configured to correspond to a specified range. steam boiler Such a predetermined range of internal pressure is between 1.5 Bar and 6.5 Bar. range may be included. 21442.1132 The water reservoir of the device may not be pressurized. Steam to the pump and/or There is a single-acting system between the pump and the steam boiler to prevent backflow into the reservoir. directional valve can be provided. This advantageously allows steam to be removed during a measurement process. It prevents the incorrect boiler control caused by the escape of from damage to the pump by Prevention of exposure to steam. avoids. The steps of the temperature rises over which the time intervals are measured It may contain fixed temperature steps over a range of one degree Celsius. degrees, however, the invention is limited to individual degrees Celsius degrees. It is not intended as such.

The steam boiler may contain one or more heating elements. Heating of the steam boiler element(s) may be inside or outside the boiler. Internal elements Although they can heat the water in the steam boiler more efficiently, external elements in avoiding degradation such as calcification by boiling water they are advantageous.

During a heating operation of the controlling steam boiler, the steam boiler for predetermined gradual increases in temperature or pressure. to continue the measurement of one or more time intervals and until the upper threshold temperature or pressure is reached or to release steam from an actuator or trigger steam boiler one or more known water in the steam boiler until it is started. predetermined time for gradual temperature or pressure rises can be configured to compare measured time intervals with

The temperature or pressure of the controller steam boiler each measurement of the time interval(s) for the specified increment(s). perceived temperature or pressure in the steam boiler 21442.1132 is below a predetermined threshold temperature or pressure, and during the period when the energy is supplied to the steam boiler, the known water known time for gradual temperature or pressure rise(s) to compare the time interval(s) measured with the interval(s) configurable.

An operable actuator button to actuate the device control valve. or trigger. Controller to control valve and/or actuator button to actuate the control valve and/or actuator button. can be connected to detect.

The appliance may include a garment steam iron and may include a soleplate and a hand-hold may include location. Hand-grip electrically or fluidly base can be connected to the part of the energy and steam can be supplied. Reservoir, pump and steam boiler base can be provided in. An actuator button is about to actuate the control valve. The hand-grip can be provided operable on the person.

These and other aspects of the invention refer to the practices described hereinafter. will be made clear and understood.

BRIEF DESCRIPTION OF THE FIGURES Now, applications of the invention are by way of example only, to accompanying drawings. will be defined by reference and here: According to a first embodiment of the invention, Fig. 1 is an electrical eV device. shows the sematic diagram; Figure 2 versus time for a given volume of water in the boiler shows a graph with a graph of the boiler temperature; 21442.1132 Figure 3 is timed for a range of volumes of water in the boiler. displays a graph of multiple graphing of the opposite temperature; Figure 4 is a first example of the controller of the device of the invention. shows the reference table; Figure 5 shows a flowchart showing the method of operation of the invention. shows; and Figure 6 is a second example of the controller of the device of the invention. shows the reference table.

DETAILED DESCRIPTION OF THE INVENTION Referring now to Figure 1, a device of a first embodiment of the invention illustrates schematically and here, this exemplary application is Includes 1 iron. The steam iron 1 includes a body 2 and a soleplate 3. steam iron l to apply steam to the garments through the openings 4 in the soleplate 3 is configured.

The steam iron 1 contains a water reservoir 5 and a steam boiler 6. a pump 7 It is provided to pump water from the reservoir to the 5 steam boiler 6 . a first water pipe 8 connects reservoir 5 to pump 7 fluidly and a second water pipe 9 connects the pump 7 to the steam boiler 6 fluidly. Reservoir 5 is an unpressurized vessel. Steam boiler 6 steam boiler to make steam 6 a sealed shell or shell with a heating element 10 to heat the water inside includes. Although the heating element is shown as placed in the steam boiler 6, this within the scope of the invention evenly over an outer surface of the boiler can be placed. A third water pipe 11, through the openings 4 in the base plate 3 2 supply of the steam to be discharged from the steam boiler to the l body of the 6 steam iron It connects the steam boiler 6 to the body l of the steam iron 2 for

A control valve ensures the supply of 3 steam from 12 boilers to 6 footplates. is provided to check. As shown in this Figure II, in the third conduit 21442.1132 can be sgable or alternatively, 2 in 1 body of the iron or alternatively at the same time 6 can be provided in the body of the steam boiler. Body of iron 2 includes an actuator 13 that operates the control valve. A user therefore, the actuator Control the steam to be ejected from the soleplate 3 by pressing 13 can.

Steam boiler 6, in this first application, a steam boiler with a temperature sensor it includes a sensor 14 on an upper surface of the shell. However, later As will be described, the invention is limited to the use of a temperature sensor. and alternatively, a pressure sensor within the scope of the invention can be provided. The temperature sensor 14 is preferably attached to the steam boiler shell. well with the steam boiler shell, which is fixed and joined there It is an NTC thermal resistor with thermal contact. Advantageously, thermal resistance on a metallic substrate, which itself is mounted on the steam boiler shell. (not shown) is installed. This is between the boiler shell and the thermal resistance. It provides very good thermal conductivity and thermal inertia in response to heat resistance and reduces delay. mounted on an upper surface of the steam boiler shell The temperature sensor is more consistent with the steam temperature in the steam boiler. It is advantageous because it means that temperature readings are obtained. If If the temperature sensor 14 was on the base of the shell, for example, the steam boiler A significant drop in the temperature of the crust occurs whenever cold water comes out of the reservoir. If the steam is pumped into the boiler 6, the remaining steam in the boiler 6 degradation of the sign of the amount and temperature would be detected.

A controller is provided to control 1 operation of 15 steam irons and it contains a microprocessor and a memory unit. controller 15 these two to the heater 10 and to the poinpa 7 to check the operation of the component. is connected. The controller receives 14 temperature signals from 15 temperature sensors. It is connected to the temperature sensor 14 to receive it. Controller 15 in-kind at the time specified by a user through the operation of the actuator. 21442.1132 In the figure, check valve 12 to determine if my check valve is working. 12 are connected.

Steam iron 1, 6 heating elements of the steam boiler 10, 3 heaters on the soleplate 1 of the iron containing the element(s) (not shown), pump 7 and controller 15 a power cord (not shown) to energize its various elements to an external power source such as domestic mains electricity can be linked.

Depending on the temperature signals received from 14 of the 15 sensors in the controller, the steam When the water level in the boiler is low, water from the reservoir 5 to the steam boiler 6 It is configured to control the operation of the pump 7 to supply

More specifically, the controlling actuator 13 is not operated and therefore, during a period of time when steam is not expelled by the steam iron 1 steam boiler by measuring the rate of increase in the temperature of the steam boiler Determines an unknown remaining volume of water in it. Controlling heater 10 active for an increase in pre-determined temperature levels It determines the time intervals taken for the detected temperature of the steam boiler. From him Then the controller 15 records these measured time values in the boiler 6 stored in the controller's 15 memory for the delivered volumes of water. compares it against known time intervals and determines that the measured time values are Comparison of the remaining amount of water in the steam boiler 6 6 below a minimum threshold where it needs refilling It uses it against known time values to determine whether If If re-filling is required, the controller 15 will have a required for an appropriate period to refill the steam boiler 6 with starts the pump 7.

In embodiments of the invention, 6 of the controlling steam boiler are detected. measures the time it takes for each degree Celsius of temperature to rise. This The measurements are to an internal pressure between 1.5 Bar and 6.5 Bar in the boiler 6 21442.1132 the corresponding example is the steam boiler between 120°C and 160°C. they can occur within a predetermined range of their temperature. Growing Time measurements for temperature control valve 12 are closed and thus, steam They are taken from the boiler 6 when no steam can escape or be thrown out.

Since the volume of the steam boiler is fixed, the supplied to the steam boiler the power (eg from the mains voltage) is constant and the control valve metering process is closed during the boiler and can affect the rate at which the water temperature rises in the boiler The only variable factor is the mass of the water in the boiler 6. Thus, given a for steam boiler 6 and power input, for specific volumes of water Accurate pre-determined time taken for gradual increases in temperature values can be calculated. Such known time for gradual temperature rises The graphs of the intervals are shown in Figures 2 and 3. Figure 2 steam boiler 6 degrees Celsius for a given volume (for example, 350 ml) of water heated in time in seconds (y-axis) versus increasing time increments (x-axis) axis) shows a graph. This is shown as a single line in Figure 2. Shape 3 shows groups of graphs of temperature levels versus time and three tests for different volumes of water in each group steam boiler Includes graphics. The graph of Figure 39 shows the water in a steam boiler. 350ml (includes group A lines i, ii and iiiS), 300ml (group B lines iv, V and vi,yi) contains), 250ml (group C includes lines vii, viii and ix,u) and 200ml (group D lines Includes graphs for x, xi, and xii). For known volumes of water These data on ascending linear graph lines are as shown in Figure 4. as reference data in reference tables in the memory of the controller 15 they are stored. The exemplary reference table in Figure 4 is nominally a 120°C above, with a starting temperature Tom and an ending temperature of 160°C, Tcmp shows data within the mentioned temperature range. This is the beginning and the end The temperature values between are gradually increasing temperature values. These They are not shown in Figure 49. Instead, a pointer temperature value Tptr Figure 4, and as this will be explained in more detail below, the invention It is a temperature related to the control process. Those against every temperature value 21442.1132 The relevant volume of water in the steam boiler to reach the gradual temperature value are the time values in seconds for Time values at initial temperature starts from zero. In Figure 4, the time at the end temperature value, this water is different Since it will differ for each reference table regarding the volumes, It is simply represented as 'n'.

As can be seen from the graphs in Figure 3, as expected, 200 ml of water (group D) graphs for the increase in temperature for 250 m1 (group C) takes less time than on lines (with a shallower graph gradient) through) and this is shallower than the graph lines for 300ml (group B), which is for 350 ml of water (group A) it is shallower than the graph lines.

Referring to Figure 5 , a logic operation of the controller 15 of the invention displayed as a flow chart. Time measurement of the control process of the invention When valve 12 is closed (for example, no steam escapes from soleplate 3). not thrown) occurs, a start in operation S0 It starts from the point where the controller's 15 electronic control valve 12 is closed. It contains a first step S1, which it determines whether If not, process control loop back to before step Sl7 until it is determined that valve 12 is closed it does. If in step Sl° it is determined that the control valve is closed, SZ moves forward.

In step $2, the temperature of the steam boiler 6 detected by the sensor 14 Tcmp is measured. After that, the process proceeds step by step to ST, where the controller is measured Temp of temperature is a marker more than a value of temp minus 1 (Tptr - 1) whether it is large and a marker temperature plus 1”(Tpu-+1) is smaller determines whether Control operator for this step [(Tpti› - 1) < Temp < (Tptr + 1)] can be represented as . Here, the marker temperature Tptr versus time is the temperature gradually increasing along the x-axis at which measurements will be recorded, and this is value as a starting point, for example 120°C in which temperature measurements will be taken. is set at a value at the low end of the range. If the measured temperature Temp (Tpu- - 21442.1132 1) and (Tptr + 1), then the process proceeds to step S4 where, A time measurement t at 0 moment counted from the start of the measurement process is captured.

If the measured temperature is not within the range of Tamp (Tptr - 1) and (Tpir + 1), 0 time The process proceeds to step 85, where the marker temperature Tptr is set by one degree. is graded. After that, the process steam boiler 6 temperature is determined again. loops back to step SZ to

After step S4, at step Sö, refill under controller 15. subject marker temperature at a threshold value of water needed (t@Tptr) whether the measured time t is less than a reference time in the reference table determines not. This control operator can be represented as [t < t@Tptr?].

If the result is yes - ie the water in the boiler 6 has a minimum threshold of water. 0 time, steam boiler 6 the volume of water in it is below the threshold volume and the process proceeds to step S7 and wherein the controller 15 is used to recharge the steam boiler 6 with water. activates the pump 7 for a pre-determined period of time and henceforth then the process loops back to repeat from step Sl. Steam known period of time during which the pump 7 operates to refill the boiler 6 the volume of the steam boiler 6 and the threshold at which the pump is activated, the minimum volume and on the known pump specification, which includes the pump's fluid flow predetermined on a basis.

If in the controlling step S6, the measured time t does not need to be refilled. for the subject marker temperature value at a threshold volume of water below hearing If a reference time in the reference table is greater than 0 time steam It is not necessary to fill the boiler with 6 more water and the process name is Slsden. loops back to the beginning to be repeated. After that, the process is steam While the water in the boiler 6 continues to heat, for gradual temperature increases, continues as described above to record time intervals. 21442.1132 The temperature in the steam boiler 6 must be kept below an upper threshold value. is arranged. The controller receives 14 temperature signals from 15 sensors and, if If the detected temperature reaches the upper threshold value, the controller will turn off 15 steam boiler 6 Deactivates the heater 10. Activate the heater 10 of the above-described process brought in and the water in the steam boiler is being heated and the control valve 12 is closed. will be satisfactory. Therefore, the above control steps S23 to S7 of the process until the threshold temperature is reached (and then until the heater 10 is turned off by the controller 15) or the actuator is operated by the user. until actuated (and control valve 12 therefore opened to let steam out) until repeated. From here on, the whole process is for each release of the actuator 13. is repeated on - for example, after every steam-out event.

In one embodiment of the invention, the controller 15 is advantageously placed after step S1. after a positive response is received, a temperature measurement in step SZS Temp includes a delay time td (not shown in the Figures) before it is received.

This delay td is from the moment the actuator 13 is released by a user and through the openings 4 in the base plate 3 and the control valve 12 closed. a time from the moment when the ejection of steam from the steam boiler 6 is stopped. corresponds to the delay. This delay causes thermal inertia and previous steam in the system. Allows a response time of the sensor 14 after the end of the kick-out event. This before the system starts the process described above, a stable thermal allows it to settle into the situation. Such a delay period is within the scope of the invention. It may change within 1-5 seconds, but it can be around 1-5 seconds and around 3 seconds. it could be. In such an application, the control process described above, if the period predetermined delay time td after actuator operation it is repeated upon each release of the actuator 13.

Significant linearity of time plots versus rising temperature and thus, only a few closely spaced temperatures graph from range/time measurements (for example, one degree Celsius increments) It is possible to accurately calculate the ascending gradient of the curve, and this 21442.1132 a known boiler specification by extrapolation from measurements and a part of the water to heat it up to the given temperature range for the power supply. the ability to accurately pre-determine the time intervals taken for a given volume It can be seen from Figures 2 and 3 where possible. Linear graphics steam the water in the closed environment of the boiler 6 (time measurements with the steam outlet valve closed) because it is taken when it is available) and for a given (constant) volume of water It relates to and represents its capacity and specific heat. Therefore, linearity accurate and predictable water volume prediction of the method and device of the invention It is about these fixed factors that allow This is also a measuring range in which means at which boiler temperature it is not critical and the time interval measurement process is started, because the temperature versus time graphing line and the rate of water heating in the steam boiler process initiation significantly throughout the temperature range on either side of the is linear. This linearity of the plotting lines determines the volume of the invention. makes the method significantly more accurate compared to other methods, and where, for example, the decreasing temperature of a steam generator of a steam generating device or pressure measurements are taken while steam is being vented out of the boiler. they are taken. This situation is the temperature versus time during steam discharge. because a plot of the decrease is less linear and more because it is curved/parabolic, and for this case, a few close Less accurate extrapolation from gapped initial measurements means it is. At the same time, the temperature during steam exhaust on the soleplate due to fabrics covering the steam openings. valve is opened to initiate back pressure, peak pressure and steam evacuation. temperature inside the steam boiler and valve opening at the usual point It is affected by an index of variables such as the degree of diameter/magnitude.

Thus, such variables are the measured temperature during steam venting. or water in a boiler based on pressure reduction they make predictions of volume inaccurate. 21442.1132 The use of reference tables in the device and method of the invention any light weight that may exist on the plot line of temperature versus time compensates for non-linearity. At the same time, the method and device of the invention variables in other processes or systems, such as those mentioned above are not affected by it. The use of reference tables can also be used, for example different power supply voltages, such as different mains voltages in different countries. A given for known volumes of water for different power supplies additional pre-programmed time interval for boiler specification and by incorporating the temperature range data in the controller memory can easily be included in the account. After that, used with the controlling device depending on the detected power supply, the relevant reference table data can reference.

In the application of the invention described above, a water reservoir has 5, on a fixed stand and body of the pump 7 and the steam boiler 6 the garment they are supplied with may contain a steam ironing device, where also the total A hand grip component of the device is provided. In such an application, the footrest mains to be connected to the power supply and the iron body 2 from the steam boiler 6 to the soleplate 3 a steam supply duct to supply steam and heating in the soleplate via an electrical power cable to supply power to the elements from the stand will be attached to the stand. Actuator 13 will be provided on body 2, however, the control valve can be provided either in the body 2 or in the footrest.

In an alternative embodiment of the invention, controller 15 is in step S3°, if the measured If the temperature is determined to be between Ten-ip (Tptr - 1) and (Tptr + 1), in step S4, that the controller 15 will set the timer to zero (for example t = 0) and then a predetermined step temperature occurring above Tptr will begin timing the time taken for the increase (for example, one degree Celsius). can be configured in the following way. That is, the control system measured temperature Temp Tptr temperature until it reaches the predetermined gradual temperature rise above Cycles through taking temp measurements. temperature rise once 21442.1132 When performed, the time to achieve that increase is 1: captured. After that, referencing a relevant reference table for the controller 15 specific Tptr degen' and in step S6, a measured time t in the reference table compares whether it is higher or lower than the reference time.

Such a reference table is shown in Figure 6 as an example only and is from the given Tptr temperature (in the table of Figure 6, Tpu- = 135 degrees Celsius the volumes of water (for example, can store values. For example, if the measured t is 62 seconds, then the control 15 Using the exemplary reference table of Figure 6, steam it will determine that the water level in the boiler 6 is between 150-200 ml.

on the target water level to be maintained in the steam boiler 6 as installed (in the controller or in the runtime instructions pre-configurable), the controller 15 activates the pump 7 in step S6. will make a decision as to whether to bring will decide how long it will run (for example, if the water level is 250 m1 if it is, then the controller can run the pump for 3 seconds). find it In one mode of operation, the pump 7 is only fixed in one of the operations. may have a time interval. However, within the scope of the invention, pump 7 The operation can have a variable inode and, for example, variable pumping time on the difference between the estimated water level and a target water level. can be based on and then the controller 15 steam boiler 6 pre- depending on how much water is needed to fill the specified level. Alternatively, it can operate the pump 7 for a required period of time.

In an alternative operation of the above-described applications, at step $6, controller 15 a threshold of water below that required to refill A reference of the measured value for the marker temperature value at the minimum volume instead of determining whether the water is less than For a range of volumes, Tptr (t@Tptr) at the corresponding marker temperature time values of a plurality of stored reference table time values 21442.1132 can compare the measured time t with In this alternative implementation, the controller only for refilling the water level in the steam boiler. not whether it is below the minimum value, but the water in the boiler 6 can determine its actual volume. Therefore, the actual water remaining in the steam boiler Once the volume has been determined, the controller will turn the boiler 15 to 6 The water needed to be pumped into the steam boiler to fill can determine the volume of the boiler and therefore a suitable can operate the pump 7 during the time period. Rebuild the steam boiler 6 the total steam known for the time period during which the pump 7 will be started to fill boiler volume and various known volumes associated with each reference table and based on known pump specification including fluid flow rate predetermined.

In one embodiment of the invention, more accurate water in the controlling boiler during or after pump operation to ensure level control. to measure time intervals for gradual increases in boiler temperature configurable. In such an embodiment, the method of controlling operation performs an iterative cycle of time measurements as part of

Thus, referring to Figure 5, every time control valve 12 is closed, for a time-directed temperature rise, only one measurement of time rather than being carried out, the cycle is instead activating the pump. repeating the temperature and time measurement process from step S7 to step SZ can loop back.

In such an alternative device and method of the invention, the controller ST measuring a temperature before or after the pump activation step through it can be configured to detect when the reservoir 5 is empty.

If no change (or an increase) in the perceived temperature inside the boiler if there is no water from that reservoir 5 to the steam boiler by pump 7 indicates that it is not fed, because the reservoir is empty and therefore, the steam boiler The water level inside has not increased. When the reservoir is empty 21442.1132 (may damage the pump or cause excessive pump wear) To prevent continuous operation, if the steam after one operation of the pump If it is determined that the water level in the boiler has not increased and this is no change (or an increase) in boiler temperature after operation is indicated by detecting that it is not, about to stop the pump. configurable.

In addition to the above, in such an alternative device and method of the invention, steam boiler during or after the operation of the pump by measuring the time intervals for gradual increases in temperature, the controller is capable of determining the water level in the boiler and therefore, it can store the current water level in a memory of the controller.

After that, when is the next refilling of this boiler? or to fill the steam boiler with the required amount of water. the duration of the pump operation required in the next pump operation It can be used to determine the next operation of the pump.

In the above-described application, 6 shells of a single sensor 14 steam boiler is provided on it. However, in an alternative embodiment of the invention, the steam boiler Two temperature sensors can be provided on the shell. Both of these steam The boiler can be placed on different parts of the upper surface of the shell and controlled. The transmitter 15 can receive signals from both sensors and the boiler temperature will be higher. can average two values to get accurate and precise readings.

Alternatively, a sensor can be mounted on the top of the boiler shell. and another sensor is placed on a side wall of the boiler shell. mountable. Again, the controller 15 can receive signals from both sensors and to obtain more accurate and precise readings of the steam boiler temperature. can average the value.

In the case of a dry boiler (eg absence of water in the boiler) case), no steam can be generated and therefore the sensor will adjust the steam temperature. 21442.1132 will not measure and instead will measure the boiler shell temperature. Two The use of the sensor is used to detect a dry-boiler condition and prevent overheating. can be used to prevent In such a case, a first sensor is preferably 10 away from the heater, with the boiler on the top of the shell can be positioned so that it will not be affected by the heater temperature and It can be used to measure the temperature of the steam inside the steam boiler. Therefore, the first sensor (as in 14, Figure 1) is sensitive to the temperature of the heater at the base. is not. A second sensor (not shown) is located at the bottom of the boiler or can be provided close to the base and thus prevent any overheating at base 0. can detect. In such an application, the second sensor is The detected temperature at the location of a predetermined value (water 10 tokens of a heater that heats to a high temperature in its absence) exceeds 10 of the heater an interrupting device, such as a thermostat, that can allow it to be stopped it could be. Alternatively, the controller can have the first and second sensors detected. can be configured to compare the temperature and if the difference between the two values above a predetermined value, this is a dry-steam indicates the boiler. This situation causes the heater to reach a high temperature in the absence of water. because it will heat up and is detected by the second sensor and the steam Its absence means that the first sensor is not exposed to any heated steam. comes on and thus, it will detect a lower temperature than expected. Like this In one case, the heater should be set at 10 minutes to avoid damage to the controlling device. can be configured to stop its operation.

In the embodiments described above, the sensor 14 includes a temperature sensor.

However, it is within the scope of the invention that the sensor may alternatively include a pressure sensor. is intended in. Closed steam as in the applications described above. In the boiler system, temperature and pressure are well correlated and thus, they are functionally interchangeable. such an alternative in practice, the operation of the device will be as described above, but where a sensor signal related to a measured temperature is specified, this steam will be replaced by a sensor signal related to the pressure inside the boiler. Time 21442.1132 The steam boiler measurements are between 1.5-6.5 Bar as mentioned above. They can be taken in a range of pressures and applied as shown in Figure 4. table for known volume(s) of water within such a range. known time taken to reach specified boiler pressures can store ranges. Such an alternative device and such a device The above-described advantages over systems with known methods of operation. it will still do.

Although the application of the invention described above is a steam iron, The invention is not intended to be limited to such a device and, for example, clothing steamers, wallpaper steamers, steam ovens or floors other parts of the steam generating device, such as steam cleaners for cleaning may include mowing. It is satisfying that the indefinite modifier does not exclude most will be. Language in different requests that are dependent on certain criteria in common The stand-alone fact of introducing does not indicate its unavailability. any of the claims The scope of the reference mark should not be construed as limiting.

Claims (1)

REQUESTS 1. A water reservoir (5), a steam boiler (6) for generating steam, a sensor (14) connected to the steam boiler (6) to detect the temperature or pressure inside the steam boiler (6), from the reservoir (5) to the steam boiler ( 6) a steam generating device (1) comprising a pump (7) to pump water and a controller (15) configured to receive a signal from the sensor (14) and control the operation of the pump (7) based on said signal, and wherein, the controller (15) is configured to determine a quantity of water in the boiler (6) and to control the pump (7) to supply water to the boiler (6) when the specified quantity of water is less than a pre-determined value, characterizing characterized in that the controller (15) determines the amount of water by measuring at least one time interval needed for the predetermined increase in temperature or pressure of the boiler (6) and predetermines the measured time interval. -It is arranged to compare with the specified value. . A steam generator, according to claim l, where a predetermined time value corresponds to an interval of time for one or more quantities of water to reach a predetermined rise in temperature or pressure. In addition, the steam boiler comprising a control valve (12) to allow steam to be released from the steam boiler (6), where only the control valve (12) of the controller (15) is closed and the release of steam from the boiler (6) is prevented. (6) A steam generator (1) according to claim 1 or claim 2, wherein it is configured to measure a time interval for a gradual increase in temperature or pressure. . After the controller (15) has been released from the steam boiler (6) and after a Predetermined period of time has elapsed after the control valve (12) has elapsed, a cascade at the temperature or pressure of the steam boiler (6) following the closing of the control valve (12) A vapor generation device (1) according to claim 3, where it is configured to initiate a time interval measurement for increase. . A steam generating device () according to any of the preceding claims, wherein the controller (15) is configured to operate the pump (7) when the measured time interval for a gradual increase in temperature or pressure of the steam boiler (6) is less than a pre-determined time interval. one). . A steam generator (1) according to any preceding claim, wherein the controller (15) is configured to operate the pump (7) for a predetermined period of time based on the determined amount of water in the boiler (6). . Any of the preceding claims, wherein the predetermined time value includes a time interval for a gradual increase in temperature or pressure of one or more known quantities of water in the boiler 6 stored in one or more reference tables in a memory unit of the controller 15. a steam generator (1) according to one of them. . The controller (15) is arranged to additionally control the operation of the steam boiler (6) based on a temperature or pressure signal from the sensor (14) and to stop the steam boiler (6), which heats the water, when the perceived temperature or pressure reaches a pre-determined threshold value, A steam generating device (1) according to any preceding claim. . A steam generator (1) according to any preceding claim, wherein the sensor (14) includes a thermostat where it is mounted on a metallic substrate and the metallic substrate is mounted on the boiler (6). A water reservoir (5), a steam boiler (6) for generating steam, a sensor (14) connected to the steam boiler (6) to detect the temperature or pressure inside the steam boiler (6), from the reservoir (5) to the steam boiler (6) A method of operating a steam generating device comprising a pump (7) to pump water and a controller (15) configured to receive a signal from the sensor (14) and control the operation of the pump (7) based on said signal, the method steam boiler ( 6) includes determining some amount of water in it and controlling the pump (7) to supply water to the steam boiler (6) when the specified amount of water is less than a pre-determined value, the characteristic feature being that the method is at the temperature or temperature in the boiler (6). Determine the amount of water by measuring at least one interval of time needed for a predetermined increase in pressure and that the measured time interval be at a Predetermined value. It includes the comparison with the ger. Claim 10, comprising measuring a time interval for a gradual increase in temperature or pressure of the steam boiler (6) when the control valve (12) is closed to allow only steam to be released from the boiler (6) and steam is prevented from being released from the boiler (6) a method accordingly. After the steam has been released from the boiler (6) and after a predetermined period of time has elapsed after the control valve (12) has been closed, it is necessary to measure a time interval for a gradual increase in the temperature or pressure of the boiler (6) following the closing of the control valve (12). A method in accordance with claim ll. A method according to any of claims 10 to 12, comprising operating the pump (7) for a predetermined period of time, depending on the determined amount of water remaining in the steam boiler (6). For gradual temperature or pressure increases of one or more known quantities of water in the steam boiler (6) stored in one or more reference tables in a memory unit of the controller 15 of the step of comparing the measured time interval with a predetermined time value A method according to any one of claims 10 to 13, which includes comparison with a predetermined time interval. Any of claims 109 to 14, which includes controlling the operation of the steam boiler (6) based on a temperature or pressure signal from the sensor (14) and stopping the steam boiler (6), which heats the water when the detected temperature or pressure exceeds a pre-determined threshold value. method according to one.