JP3242365B2 - Laundry pouring method and apparatus - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method and an apparatus for pouring a laundry using residual water in a bathtub.

[0002]

2. Description of the Related Art When hot water is used for washing, dirt is easily removed, and the remaining hot water of a bath, that is, bathtub water, has conventionally been used for washing. In order to guide the remaining hot water from the bathtub to the washing machine, there is a method of pumping the remaining hot water from the bathtub and supplying it to the washing machine.

[0003]

By the way, when the remaining hot water of the bath is used, a temperature suitable for washing in winter, for example, 3 ° C.
In many cases, hot water at a temperature of about 5C to 40C cannot be obtained.
In this case, a method in which the temperature of the bathtub water is raised to a desired temperature by additional heating and then supplied to the washing machine can be used, but in this method, all the water in the bathtub is heated. If the temperature of the bathtub water is low, it takes time to reach a desired temperature, and if the water in the bathtub cannot be used up, the heat energy consumed for raising the temperature of the bathtub water is wasted.

Moreover, the temperature of the bathtub water varies depending on conditions such as the elapsed time after bathing and the season, and in order to raise the temperature of the bathtub water having different temperatures to a temperature suitable for washing, the heating means is appropriately controlled. It is necessary. For example, when a burner is used as the heating means, the temperature of the hot water can be adjusted by a well-known control method such as proportional control. However, application of these control methods is relatively expensive, and the water for washing is relatively expensive. As a means for adjusting the temperature, the cost performance becomes extremely low. If the difference between the desired set temperature and the temperature of the bath water is small, the control itself becomes difficult.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a method and an apparatus for pouring a laundry for supplying water having a temperature suitable for washing to a washing machine while heating a heat exchanger.

[0006]

The method and apparatus for pouring laundry according to the present invention are directed to a method and apparatus for pouring laundry while pouring hot water through a heat exchanger (3) through a washing machine (4). And a heating means (2) for heating the heat exchanger (3), a temperature detecting means (5), a control means (9), etc., and the heat exchanger is operated when the heating means is operated continuously. Temperature rise of the water passing through, the temperature difference between the detected temperature of the water supplied to the heat exchanger and the set temperature, the ratio of the temperature difference to the rise temperature width is calculated, and the unit pouring into the washing machine is performed. Washing water at the set temperature is realized by operating the heating means only for a time corresponding to the ratio with respect to time and pouring water into the washing machine.

According to the first aspect of the present invention, there is provided a method for pouring a laundry,
While heating the tap water or hot water in the bathtub through a heat exchanger
A washing pouring method of supplying the washing machine, depending on the burner
Processing for continuously calculating the temperature rise per predetermined time of water passing through the heat exchanger by burning the fuel gas continuously.
If, it detects the temperature of the water supplied to the heat exchanger, and Ru process obtains the temperature difference between the detected temperature and the set temperature, this treatment
Seeking percentage against the temperature rise width of the temperature difference obtained by physical, determined combustion time <br/> pairs in a unit pouring time to the washing machine in accordance with this ratio, combustion of the burner Processing
And the hot water obtained by this process is supplied to the washing machine.
And performing the following processing .

In other words, this washing and pouring method controls the pouring temperature to the washing machine to a set temperature by changing the burning time of the burner in accordance with the water supply temperature. Since there is no means for detecting the hot water temperature, the temperature of the washing water is controlled to the set temperature from the heating capacity of the heat exchanger, the water supply temperature and the water supply amount. That is, the burner that heats the heat exchanger selectively performs a combustion operation from a periodic intermittent state to a continuous state, sets a unit time as the periodic intermittent state, and sets an operation period during the unit time. A non-operation period is set, and the length of the operation period is controlled.

Therefore, the heating capacity of the heat exchanger with respect to the supply water is determined. That is, when the burner for heating the heat exchanger is continuously burned, the temperature rise width of the water passing through the heat exchanger is calculated in advance. Here, determining elevated temperature range and, when the heat exchanger was continuously heated by a burner, the maximum temperature of water passing through the heat exchanger is increased by being heated by the heat exchanger and a burner, etc. Is the eigenvalue to be used.

Detecting the temperature of the water supplied to the heat exchanger,
The temperature difference between the detected temperature and the set temperature is determined. The user can arbitrarily set the set temperature. Next, the ratio of this temperature difference to the temperature rise range is determined. The burner is burned for a time corresponding to the ratio with respect to the unit pouring time to the washing machine. That is, the unit pouring time is a time width obtained by arbitrarily dividing the continuous pouring time, and in this time width, the burner is burned for a fixed time or continuously to heat the water supply.
Therefore, the temperature of pouring water into the washing machine is controlled to the set temperature.

[0011]

[0012]

According to a second aspect of the present invention, there is provided water supply or bathtub.
In the washing and pouring method for supplying hot water to a washing machine while heating the hot water through a heat exchanger, the increased temperature width is added to the heat exchanger from the burner by a constant flow rate or a detected water amount for the heat exchanger. It is characterized by being calculated from the calorific value. That is, the temperature rise width of the water passing through the heat exchanger, Ba
It is the heating capacity of the heat exchanger including the burner, and can be calculated from a fixed flow rate or the amount of water detected for the heat exchanger, and the amount of heat applied to the heat exchanger from the burner .

According to a third aspect of the present invention, there is provided a laundry pouring apparatus,
A washing pouring device for supplying hot water in the water supply or the bathtub (1) heat exchanger (3) to the through it while heating the washing machine (4), said heat exchanger by burning a fuel gas Through the
A burner (heating means 2) for heating water and the heat exchanger
And pumping means (pump 8) for pumping the water, temperature detecting means for detecting the incoming water temperature of the heat exchanger (5), said bar
The fuel gas is continuously burned by
Preliminary calculation of temperature rise per predetermined time of water passing through the vessel
Processing, detecting the temperature of water supplied to the heat exchanger
Processing for obtaining a temperature difference between the detected temperature and the set temperature,
The temperature difference obtained in this process is
Determine the ratio and add the unit pouring to the washing machine according to this ratio.
Calculate the burning time with respect to time and burn the burner
Treatment, hot water obtained by these treatments into the washing machine
And a control means (9) for supplying the power to the control unit.

That is, this washing and pouring apparatus is used in the washing and pouring method according to the first aspect, and includes a burner , a heat exchanger, a pressure feeding means, a temperature detecting means, and a control means. I have. Then, the burner heats the heat exchanger. The pumping means pumps the water to the heat exchanger, and the pumping force causes the hot water to be poured into the washing machine. The temperature detecting means detects an incoming water temperature to the heat exchanger. And the control means, when the burner for heating the heat exchanger is continuously burned , calculates in advance the temperature rise width of the water passing through the heat exchanger,
The temperature of the water supplied to the heat exchanger is detected, the temperature difference between the detected temperature and the set temperature is obtained, the ratio of the temperature difference to the temperature increase range is obtained, and the unit pouring time to the washing machine is obtained. The burner is burning for the time corresponding to the ratio. With such a configuration, the temperature of pouring water into the washing machine is controlled to the set temperature.

According to a fourth aspect of the present invention, there is provided a laundry pouring apparatus.
In a washing and pouring apparatus for supplying hot water or hot water in a bathtub to a washing machine while heating the hot water through a heat exchanger, the rising temperature width may be a fixed flow rate or a detected water amount for the heat exchanger, or the heat from the burner. It is characterized by being calculated from the amount of heat applied to the exchanger. That is, the temperature rise width of the water passing through the heat exchanger, a heating capacity of the heat exchanger, including the burner, the detection amount of water for a given flow rate or heat exchanger, the burner or <br/> et heat exchanger It can be calculated from the amount of heat applied.

[0017]

[0018]

FIG. 1 shows an embodiment of a method and an apparatus for pouring laundry according to the present invention. The water in the bathtub 1 and the bathtub water can be supplied to the washing machine 4 through the heat exchanger 3 provided with the heating means 2, and the bathtub water temperature detecting means 5 and the temperature to be poured (setting) And a setting means 6 for setting the temperature) to calculate a rising temperature range in which the bath water passing through the heat exchanger 3 is heated when the heating means 2 is operated continuously, and to calculate the rising temperature range. The ratio of the temperature difference between the set temperature and the detected temperature of the bathtub water is derived, and the heating means 2 is turned on for the time corresponding to the ratio within the time required to supply the washing machine 4 with a predetermined unit supply amount of the bathtub water. Make it work.
That is, the heating unit 2 has an operation mode from a periodic intermittent state to a continuous state.

When the heating means 2 is operated, the flow rate of the bathtub water for deriving the rising temperature range of the water passing through the heat exchanger 3 may be a known constant flow rate or the flow rate measured by the flow rate measuring means 7. There may be.

Further, the heat exchanger 3 is a heat exchanger for reheating, which is provided in the reheating path of the bathtub water, and the supply switching between the bathtub side and the washing machine side is provided downstream of the heat exchanger on the reheating path. By providing the means, the bathtub water can be supplied to the washing machine 4.

That is, within a time required to supply a predetermined unit supply amount of bath water, the bath water passing through the heat exchanger 3 while the heating means 2 is operating is reduced by 100% of the heating means 2.
% And is supplied into the washing tub of the washing machine 4. Further, while the heating means 2 is not operating, the bathtub water passing through the heat exchanger 3 is supplied into the washing tub of the washing machine 4 without being heated. Therefore, the temperature of the water supplied into the washing tub at each point in time does not always reach a predetermined desired temperature. However, when such a predetermined unit supply amount of water is supplied and mixed in the washing tub, the mixing is performed at a previously derived ratio, so that the temperature reaches the set temperature, and as a result, the hot water temperature is adjusted.

As described above, the adjustment of the set temperature is performed by the heating means 2.
Is performed by the ON-OFF operation of, and the components for control are simple. The heating means 2 is ON-O
Although the FF operation is performed, it is not an operation in which ON-OFF is continuously repeated as needed so that the temperature on the downstream side of the heat exchanger 3 becomes the set temperature as in the conventional ON-OFF control. Is one ON-OFF within the time required to supply the unit supply amount of water,
Heating means 2 required to supply a predetermined amount of water to washing machine 4
Is extremely smaller than the number of times in the conventional ON-OFF control.

Further, in order to derive a temperature rise range in which the bath water passing through the heat exchanger 3 is heated when the heating means 2 is operated continuously, it is necessary to know the flow rate of the bath water. However, if the flow rate is known and constant due to the capability of the pump 8 or the like as a pumping means, the flow rate may be set. If the flow rate may change,
If it is unknown even if it is constant, the flow rate measuring means 7 may be installed at an appropriate place in the bathtub water path, and the value measured by this may be used for calculation. Further, the bathtub water temperature detecting means 5 can also be installed in a suitable position in the bathtub or on the upstream path of the heat exchanger 3.

The washing and pouring method and the washing apparatus can be carried out by using the reheating path of the bath. In this case, the heat exchanger 3 is provided on the reheating path of the bathtub water. As a heat exchanger for heating, a supply switching means for the bathtub side and the washing machine side is provided downstream of the heat exchanger on the additional heating path, so that bathtub water is supplied to the washing machine as necessary. be able to.

Reference numeral 9 denotes control means, and reference numeral 10 denotes a control element of the heating means 2.

[0026]

EXAMPLES Next, FIGS. 2 and 3 show an embodiment of a washing pouring method and device of the present invention.

A hot water supply device 11 is provided as hot water supply means. The hot water supply device 11 includes first and second heat exchangers 1.
The heat exchanger 12 is heated by a burner 14 as a heating means, and the heat exchanger 13 is heated by a burner 15. The heat exchanger 12 is configured to be able to heat tap water by being connected to water supply. On the downstream side of the heat exchanger 12,
A hot water mixing valve 16 is provided for mixing and mixing the tap water on the upstream side, and the temperature of the hot water is adjusted and output by a valve body operated by a built-in heat-responsive element or the like. A part of the output pipe of the hot / water mixing valve 16 is connected to a hopper 17 for opening to the atmosphere, and the output pipe of the hopper 17 is connected to the selection port 1 on one side of the first three-way valve 18.
8a. A return pipe 20 from a bathtub 19 is connected to a selection port 18b on the other side of the first three-way valve 18.

On the other hand, a pipe 21 on the upstream side of the second heat exchanger 13 is connected to a common port 18c of the first three-way valve 18,
Between the second heat exchanger 13 and the first three-way valve 18, a pump 22 serving as a pressure feeding means and a water temperature detection sensor 29 are provided. And the pipe 2 on the downstream side of the second heat exchanger 13
Numeral 3 is connected to the common port 24c of the second three-way valve 24 via the flow sensor 30, and the selection port 24a on one side of the second three-way valve 24 is connected to the going pipe 25 to the bathtub 19. . A washing machine pipe 26 is connected to the selection port 24b on the other side of the second three-way valve 24, and is connected to the washing tub of the washing machine 28 via a hose 27 connected to the washing machine pipe 26. It is configured to supply bathtub water and the like.

In the above configuration, first, as shown by hatching in FIG. 2, the first three-way valve 18 connects the selection port 18b to the common port 18c, and
When the pump 22 is operated in this state, the bath water flows from the return pipe 20 through the selection port 18b of the first three-way valve 18 and the common port 18c. 21, and then through a pump 22, a heat exchanger 13, a pipe 23, and a flow sensor 30 to a common port 24 of a second three-way valve 24.
Then, the water is returned to the bathtub 19 from the selection port 24a via the going pipe 25. Therefore, by operating the burner 15 at this time, additional reheating of the bathtub water can be performed.

Next, when the pump 22 is operated in a state where the selection port 18a and the common port 18c of the first three-way valve 18 are in communication with each other, the first three-way valve The tap water heated by the burner 14 and the temperature of which has been adjusted by the hot / water mixing valve 16 is supplied to the selection port of the first three-way valve 18 via a pipe from a hopper 17 as shown by a two-dot chain line in FIG. 18a, and flows into the pipe 21 via the common port 18c. Next, via the same route as described above, the going pipe 25 is connected to the bathtub 19.
Is supplied to the bathtub 19 in this manner.

Next, as shown by hatching in FIG. 3, the first three-way valve 18 communicates the selection port 18b with the common port 18c, and the second three-way valve 24 communicates with the selection port 24b. When the port 24c is communicated and the pump 22 is operated in this state, the bath water reaching the common port 24c of the second three-way valve 24 via the above-described path flows into the washing machine pipe 26 via the selection port 24b. Then, the water is supplied into the washing tub of the washing machine 28 through the hose 27.

At this time, the burner 1 of the second heat exchanger 13
5 is operated by applying the above-described method of the present invention, the bathtub water can be heated to a temperature suitable for washing in the heat exchanger 13 and then supplied to the washing machine 28.

Therefore, a specific operation example of the present invention will be described below.
The following conditions will be described. First, the conditions are as follows. Burner capacity: 11000 kcal / h A Heat exchanger efficiency: 0.75 B Bath bath water flow rate: 6 L / min C Unit supply: 10 L D

First, when the burner 15 is continuously burned under the above conditions, ΔT is obtained by the following equation as a temperature increase width in which the bathtub water is heated in the second heat exchanger 13. ΔT = (A × B) / (C × 60) = 23 deg (1)

Accordingly, assuming that the temperature of the bathtub water is Ta and the desired set temperature, that is, the set temperature of the setting means (not shown in FIGS. 2 and 3) is Tb, the bathtub water is heated from the temperature Ta to Tb. The amount of heat in the second heat exchanger 13 necessary for
The ratio α of the amount of heat in the second heat exchanger 13 when the burner 15 is continuously burned can be expressed as α = (Tb−Ta) / ΔT (2).

In this equation, when α = 1, the desired hot water supply temperature can be obtained by continuously operating the burner 15, and when α> 1, the desired hot water supply temperature can be obtained even when the burner 15 is continuously operated. Hot water temperature is not reached. That is, the performance of the burner 15 is low. On the other hand, when α <1, if the burner 15 is operated continuously, the temperature is raised to a desired hot water supply temperature or higher. By the way, the value of α in the case of α <1 indicates that the desired hot water supply temperature can be obtained by operating the burner 15 with the capability corresponding to this ratio or operating the burner 15 at this time ratio. . The former operation requires expensive control such as proportional control.

Therefore, a predetermined unit supply amount, that is, 10 liters is set under the above-mentioned conditions, and within the time required to supply the bath water of this unit supply amount, the time ratio, that is, the time relative to α, The burner 15 is operated continuously by t. In the case of the above-mentioned unit supply amount of 10 liters, the time required to supply the bath water of this unit supply amount is divided by the above-mentioned flow rate of 6 liters / min to obtain (10 liters) / (6 liters). / Mi
n) = 100 sec, the time t is 100
It becomes t seconds, that is, the burner is continuously operated for 100 t seconds every 100 seconds, and the operation is stopped for 100 (1-t) seconds. That is, the burner is turned on and off at most once during this 100 seconds.

Next, FIG. 4 shows the relationship between each bathtub water temperature Ta.
The desired set temperature Tb is controlled at 2 ° C. increments to 36 to 39 ° C.
Burner 1 when controlling to be in the range of
5 represents an operation state, in which the burner 15 operates in a hatched portion.

In FIG. 4, when the bathtub water temperature is 12 ° C. or lower, even if the burner 15 is continuously burned, the temperature of the hot water in the washing tub of the washing machine 28 is kept within the above range due to the restriction on its capacity. Temperature cannot be Further, when the bathtub water temperature is in the range of 14 to 16 ° C., the burner 15 is continuously burned, so that the temperature can be set to just within the above range. On the other hand, when the bathtub water temperature is in the range of 16 to 36 ° C., the operation time (second) or time ratio (%) indicated in the figure is used.
And the hot water temperature described on the right side is obtained by operating the burner 15 continuously. At 36 ° C. or higher, the burner 15 does not need to be operated.

For example, when 40 liters of bathtub water is supplied to the washing machine 28 when the bathtub water temperature is in the range of 16 to 36 ° C., the burner 15 is activated / deactivated at a predetermined rate every 100 seconds, that is, If ON-OFF is repeated, the temperature in the above-mentioned range is obtained by mixing in the washing tub. That is,
When supplying 40 liters of hot water to the washing machine,
The number of ON-OFF operations of the burner 15 is only four.

In the above description, it is assumed that the flow rate of the bathtub water is constant or known. However, even if the flow rate of the bathtub water changes or is unknown, the flow rate can be measured at an appropriate position. By configuring the means and performing the above-described calculation according to the flow rate, it is possible to adapt to these cases.

[0042]

As described above, according to the present invention,
The following effects are obtained. a. Washing water can be supplied to the washing machine at an appropriate pouring temperature while being heated by a heat exchanger using tap water or hot water in a bathtub, so that an appropriate pouring temperature can be obtained regardless of winter or summer. In addition, since heating is performed as needed only by supplying the washing machine, there is no wasteful heat loss. b. The bath water temperature is adjusted by simple burner ON-OFF combustion without using advanced control such as proportional control, so that the control structure is simple and can be realized at low cost. . c. Burner control is similar to conventional ON-OFF control.
It is not an operation of continuously turning ON / OFF at any time so that the temperature on the downstream side of the heat exchanger becomes the set temperature, but one operation is performed within a time required to supply a predetermined unit supply amount of water. Since it is ON-OFF, the number of times of intermittent combustion of the burner required to supply a predetermined amount of water to the washing machine is extremely small as compared with the number of times in the conventional ON-OFF control, and the number of control elements such as solenoid valves is small. The wear can be reduced and the life can be prolonged. d. It can be easily applied using the reheating path of the bath water heater, and the bath water heater can be used effectively,
Product value can be increased.

[Brief description of the drawings]

FIG. 1 is a view showing an embodiment of a method and an apparatus for pouring laundry according to the present invention.

FIG. 2 is a view showing an embodiment of a method and an apparatus for pouring a laundry of the present invention.

FIG. 3 is a diagram showing the operation of the laundry pouring method and the apparatus.

FIG. 4 is a diagram showing the operation of the laundry pouring method and the apparatus.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Bathtub 2 Heating means 3 Heat exchanger 4 Washing machine 5 Temperature detecting means 8 Pump (pressure feeding means) 9 Control means

Continuation of the front page (56) References JP-A-64-28710 (JP, A) JP-A 62-100185 (JP, U) JP-A 61-35685 (JP, U) JP-A 2-100160 (JP , U) (58) Fields surveyed (Int. Cl. ⁷ , DB name) D06F 39/08 301 D06F 39/04

Claims (4)

(57) [Claims] 1. A washing and pouring method for supplying tap water or hot water in a bath tub to a washing machine while heating the hot water through a heat exchanger , wherein the fuel gas is continuously burned by a burner . and calculated in advance for processing the temperature rise width per predetermined time of the water passing through, to detect the temperature of the water supplied to the heat exchanger, the process asking you to temperature difference between the detected temperature and the set temperature, against the temperature rise width of the temperature difference obtained by this process
Seeking percentage, determined combustion time versus the unit pouring time to the washing machine in accordance with this ratio, to burn the burner
Processing and supplying hot water obtained by this processing to the washing machine
Washing pouring method, characterized in that the processing carried out and, the. 2. The temperature rising range is calculated from a fixed flow rate or a detected water amount for the heat exchanger, and a heat amount applied to the heat exchanger from the burner.
1 Symbol placement of washing pouring method. 3. A washing pouring device for supplying hot water in the water supply or bath in the washing machine while heating through a heat exchanger, the water passed through the heat exchanger by burning a fuel gas a pressurized <br/> heat burner, a pumping means for pumping the water to the heat exchanger, a temperature detecting means for detecting the incoming water temperature of the heat exchanger, continuously burning fuel gas by the burner Let
Predict the temperature rise of the water passing through the heat exchanger per predetermined time.
The temperature of the water supplied to the heat exchanger.
Process to determine the temperature difference between the detected temperature and the set temperature.
Of the temperature difference obtained in this process.
The unit to the washing machine according to this ratio.
Calculate the burning time for the pouring time and burn the burner.
Treatment, washing the warm water obtained by these treatments
A washing and pouring device, comprising: control means for supplying to a rinsing machine. 4. The heating temperature range may be a constant flow rate or the heat
The amount of water detected with respect to the exchanger, and calculated from the amount of heat applied to the heat exchanger from the burner.
3. The washing and pouring device according to 3 .