JP3890280B2 - Hot water heater / heater / bath heater / hot water bath / heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot water heater / bath heater having at least two circuits of hot water supply, heating, bath, and heating, or a hot water bath heater having three circuits of hot water, bath, and heating. .
[0002]
[Prior art]
Conventional hot water heaters are equipped with a hot water heat exchanger and a bath heat exchanger in the can where the heat medium for heating is stored, and perform heating, hot water, bathing and warming well, respectively. Met. (For example, refer to Patent Document 1.)
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-65884
[Problems to be solved by the invention]
By the way, in this conventional type, when the heating load is high, heating and hot water supply, heating and bath or heating and hot water supply, and simultaneous use of the bath, depending on each desired set temperature, the heating capacity of the burner Due to this limitation, there is a problem that heating at a set temperature, hot water supply, and bath cannot be obtained.
[0005]
[Means for Solving the Problems]
This invention pays attention to this point and solves the above-mentioned drawbacks. In particular, in the first aspect of the present invention, a heating circuit having a heating burner portion at the lower portion and a heating radiator and a heating circulation pump is provided. In a heating can that is in communication with an indirect heating type hot water supply for communicating with the city water supply, when the heating and hot water are used at the same time, When the difference from the hot water supply set temperature is not higher than the predetermined temperature, the heating circulation pump is stopped.
[0006]
With this configuration, when using heating and hot water at the same time, the can body temperature sensor detects the temperature of the hot water in the heating can, and compares the detected temperature with the hot water supply set temperature. When it is higher, the heating and hot water supply operation is continued as it is, and when it is not higher, it is assumed that the capacity is insufficient, and the heating circulation pump is stopped, so that the hot water supply operation is temporarily used. Priority is given to the hot water supply at the set temperature, which does not give the user a sense of insecurity. Heating is temporarily interrupted, but the hot water temperature in the heating can rises due to the interruption, resulting in a difference of 20 ° C or more. Will resume again.
Therefore, when there is a shortage of capacity, there is no immediate change. Once the room is warmed up, the heating with the least urgency is temporarily stopped, and the hot water supply that is needed immediately is always kept at the set temperature. Since it can be supplied, it is easy to use and can be used with confidence.
[0007]
Further, according to the second aspect, a heating bathtub having a heating burner portion at a lower portion and communicating with a heating circuit having a heating radiator and a heating circulation pump is communicated with the bathtub through the bathtub and the circulation circuit. In the case of having an indirect heating type heat exchanger for bathing that heats the hot water or water inside, the difference between the hot water temperature in the heating can and the bath set temperature is higher than a predetermined temperature when the heating and the bath are used simultaneously. If not, the heating circulation pump was stopped.
[0008]
According to this, during simultaneous use of heating and bathing and heat retention, the temperature of the can body for heating can be detected by the can body temperature sensor, and the detected temperature and the set temperature of the bath can be compared with each other. It is judged whether the hot water temperature is 20 degrees or more higher than the bath set temperature, and when it is high, the heating and bath operation is continued as it is. The hot water bath operation is prioritized and the set temperature is chased and kept warm, so that the user does not feel uneasy, and the heating is temporarily interrupted, but the hot water in the heating can rises due to the interruption. However, if a difference of 20 ° C. or more occurs, it is resumed again.
Therefore, when there is a shortage of capacity, there is no immediate change. Once the room is warmed, the heating with the least urgency is temporarily stopped, and the bath that is needed immediately is always kept at the set temperature. Since it can be heated up, it is easy to use and can be used with peace of mind.
[0009]
Further, in claim 3, a heating burner having a heating burner portion at the lower portion and communicating with a heating circuit having a heating radiator and a heating circulation pump is provided for supplying hot water in communication with city water. What is provided with indirect heating type heat exchange for hot water supply and indirect heating type heat exchange for bath that heats hot water or water in the bathtub communicated with the bathtub through a circulation circuit, When the bath is used at the same time, the heating circulation pump is stopped when the difference between the hot water temperature in the heating can, the hot water supply set temperature, and the higher temperature of the bath set temperature is not higher than a predetermined temperature.
[0010]
According to this, at the time of simultaneous use of heating, hot-water supply and bath chasing and heat retention, the can body temperature sensor detects the hot water temperature in the heating can, and the detected temperature, hot water set temperature and bath set temperature are detected. Compared to the higher temperature, it is judged whether the temperature in the hot water in the heating can is 20 degrees or more higher than the set temperature of the higher temperature. Because it is insufficient, the heating circulation pump is turned off, giving priority to hot water supply and bath operation, which are temporarily used, and hot water at the set temperature, bathing and keeping warm, and anxiety to the user. Heating is temporarily interrupted, but when the temperature of the hot water in the heating can rises due to the interruption and a difference of 20 ° C. or more occurs, the heating is resumed again.
Therefore, when there is a shortage of capacity, there is no immediate change. Once the room is warmed up, the heating with the least urgency is temporarily stopped. Since the hot water supply and the bath can be boiled at the set temperature at all times, it is easy to use and can be used with peace of mind.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Next, a 1-can 3-circuit type hot-water heating / heating bath apparatus according to the present invention will be described with reference to an embodiment shown in the drawings.
Reference numeral 1 denotes a heating can body having a combustion chamber 3 having a heating burner section 2 at the lower portion. Inside the can body 1, heat for hot water supply that constitutes a heat exchanger for indirect heating hot water supply by a serpentine tube AC 4 and bath heat exchanger 5 constituting a heat exchanger for indirect heating bathing using a serpentine tube are arranged vertically so that hot water heating and hot water supply and bathing can be performed simultaneously or independently. It is a thing.
[0012]
First, the heating circuit A will be described. 6 is a heating forward pipe, 7 is a heating radiator such as a floor heating panel, 8 is a heating return pipe, 9 is a circulation pump for heating, 10 is a gas-liquid separator, and 11 is An expansion tank for heating, 12 is a heating bypass pipe provided with an on-off valve 13, and 14 is a can body temperature sensor used for temperature control of the heating can body 1. The heat medium heated to the control target temperature (88 ° C. or higher) of the body temperature sensor 14 is sent to the heating radiator 7 via the heating forward pipe 6 by the heating circulation pump 9 to perform heating, and the heat dissipation. The low-temperature water (about 30 ° C. to 50 ° C.) radiated by the vessel 7 returns to the heating can 1 through the heating return pipe 8 and is heated to the control target temperature again and circulated.
[0013]
Next, the hot water supply circuit B will be described. 15 is a water supply pipe connected to the water supply, 16 is a flow rate sensor for detecting the flow rate of water, 17 is a hot water supply pipe for discharging hot water heated by the heat exchanger 4 for hot water supply, and 18 is A hot-water tap 19 is connected to the hot-water pipe 17 through the mixing valve 20 and connects the hot-water pipe 15 and the hot-water pipe 17, and 21 is an expansion tank for hot-water supply that absorbs thermal expansion when the hot-water tap 18 is closed. , 22 is a hot water temperature sensor, and 23 is a hot water temperature sensor. When the hot water tap 18 is opened and the flow rate sensor 16 detects the minimum operating flow rate, the temperature of the heat medium in the heating can 1 is as high as about 88 ° C. The burner unit 2 is combusted so that the cold water from the water supply pipe 15 is indirectly heated by the high-temperature heat medium in the heating can 1 in the hot water supply heat exchanger 4 and mixed with the tap water in the mixing valve 20. Is the hot water tap adjusted to an appropriate temperature? It is intended to be hot water supply.
[0014]
Next, the bath circuit C will be described. 24 is a bath tub, 25 is a bath outlet pipe, 26 is a bath return pipe, 27 is a bath circulation pump provided in the return pipe 26, 28 is a running water switch for detecting the presence or absence of circulation, 29 is a bath temperature sensor, and when there is a request to boil the hot water in the bathtub 24, the hot water in the bathtub 24 is circulated to the heat exchanger 5 for the bath by the bath circulation pump 27, and the hot water in the bathtub 24 is heated to the heating can. The hot water in the bathtub 24 is boiled up to a suitable temperature or kept warm by being indirectly heated by a high-temperature heat medium in the inside 1.
[0015]
A hot water filling pipe 30 is branched from the hot water supply pipe 17 of the hot water supply circuit B and connected to the bath circuit C via the hot water filling valve 31 and the three-way valve 32. The bath circuit C and the hot water pipe 30 are switched so as to communicate with each other, and the hot water valve 31 is opened, and the hot water heated by the hot water supply heat exchanger 4 is caused to flow into the bath circuit C and a certain amount to the bath tub 24. The hot water filling is done.
[0016]
Here, 33 is a communication pipe connecting the upper and lower portions of the heating can body 1, and 34 is a stirring circulation pump provided in the middle of the communication pipe 33, which is driven during hot water supply or bath operation, The temperature inside is made uniform up and down, and stirring is continued until the hot water supply or bath operation is completed. Since the heating circulation pump 9 is driven during the heating operation, the stirring circulation pump 34 can be prevented from being driven.
[0017]
Next, the operation of one embodiment of the present invention will be described.
First, the heating operation will be described. The can body temperature sensor 14 detects the hot water temperature in the heating can body 1 and controls the combustion of the burner section 2 so that the temperature becomes about 88 ° C. or higher. The circulation pump 9 is driven to circulate a heating medium such as hot water, circulating liquid, or antifreeze liquid that has become hot in the heating can body 1 through the heating radiator 7 and return to the heating can body 1 again. Then, the room is heated by the heating radiator 7.
[0018]
In the hot water supply operation, when the hot water tap 18 is opened in a state where the inside of the heating can 1 is at a high temperature, the low-temperature water from the water supply pipe 15 immediately passes through the heating can 4 in the heating can 1. At the same time as being indirectly heated by a high-temperature heat medium, the stirring circulation pump 34 is driven to supply hot water at the lower portion of the can body 1 to the upper portion of the can body 1 through the communication pipe 33 to stir the heating can body 1. Thus, the temperature difference between the upper and lower sides in the heating can 1 is eliminated, and hot water having a desired temperature is supplied so that heat exchange can always be performed with the same heat exchange efficiency.
[0019]
Further, in the bath operation, when there is a request to boil the hot water in the bathtub 24 such as turning on a bath heat switch of a remote controller (not shown), the bath circulation pump 27 is driven to exchange the hot water in the bathtub 24 with heat exchange 5 for the bath. The bath temperature sensor 29 is used to heat the hot water in the bath 24 to a desired temperature or keep it warm by heating with a heat medium in the heating can 1 held at a high temperature. It is automatically stopped when the temperature is detected.
[0020]
Next, in the simultaneous use of heating and hot water supply, as explained in the flowchart shown in FIG. 2, the simultaneous use of heating and hot water supply is determined by pressing each operation switch (not shown) (step 35). In step 36, the flow rate sensor 16 determines whether the hot water is being discharged.
If YES in the hot water, the routine proceeds to step 37, where the hot water supply set temperature Tb is subtracted from the current can body temperature Ta detected by the can body temperature sensor 14, and the rest is higher than the predetermined temperature Tc of 20 ° C. When it is high, the step 37 is repeated again with NO, and when it is not high, it is said that the capacity is insufficient, so that the process proceeds to step 38 to stop the driving of the circulation pump 9 for heating and interrupt the heating to give priority to hot water supply. .
[0021]
Here, the predetermined temperature Tc is set to 20 ° C., and there is no temperature difference of 20 ° C. or more between the can body temperature Ta and the hot water supply set temperature Tb. This is because the hot water supply temperature cannot be obtained, and changes due to a change in the number of turns of the hot water supply heat exchanger 4 or a change in the capability of the burner unit 2.
[0022]
Further, after step 38, the process proceeds to step 39, where the can body temperature Ta is again compared with the hot water supply set temperature Tb, the can body temperature Ta rises due to the interruption of heating, and the difference from the hot water supply set temperature Tb is predetermined. The temperature Tc is checked to see if it has become higher than 20 ° C. When the temperature Tc becomes higher, the routine proceeds to step 40 with NO, the heating circulation pump 9 is started to resume heating, and there is still a large temperature rise. If it is not so high, the process proceeds to step 41 with YES to determine whether the hot water supply is continuing. If the hot water supply is stopped, the process proceeds to step 40 with NO to restart the heating. If YES, the process returns to step 35.
[0023]
Next, when heating and hot water are not used at the same time in step 35, the routine proceeds to step 42 with NO, and normal operation is performed, and when hot water supply is not started at step 36, the routine proceeds to step 43 with NO. In normal heating operation is performed.
Therefore, in the simultaneous use of heating and hot water supply, hot water supply is given priority and hot water supply at a set temperature is reliably provided, and hot water supply that is temporarily used is reliably performed, so that it is very convenient to use.
[0024]
Next, in the simultaneous use of heating and bath, as explained in the flowchart shown in FIG. 3, the simultaneous use of heating and bath is determined by pressing each operation switch (not shown) (step 44). In step 45, it is determined whether the bath is circulating.
If YES in the circulation, the process proceeds to step 46 where the bath set temperature Td is subtracted from the current can body temperature Ta detected by the can body temperature sensor 14 and the rest is higher than a predetermined temperature Tc of 20 ° C. When it is high, the step 46 is repeated again with NO, and when it is not high, it is said that the capacity is insufficient, so that the process proceeds to the step 47 to stop the heating circulation pump 9 and interrupt the heating to give priority to the bath operation. Let
[0025]
Further, after step 47, the process proceeds to step 48 where the can body temperature Ta and the bath set temperature Td are compared again, and the can body temperature Ta rises due to the interruption of heating, and the difference from the bath set temperature Td is predetermined. The temperature Tc is checked to see if it has become higher than 20 ° C. When the temperature Tc becomes higher, the routine proceeds to step 49 with NO, the heating circulation pump 9 is started to resume heating, and there is still a large temperature rise. If it is not too high, the process proceeds to step 50 with YES to determine whether the circulation is continuing. If the bath is stopped, the process proceeds to step 49 with NO and heating is resumed. If YES, the process returns to step 44.
[0026]
Next, when heating and bath are not used at the same time in step 44, the process proceeds to step 51 with NO to perform normal operation. When hot water supply is not started at step 45, the process proceeds to step 52 with NO. In normal heating operation is performed.
Therefore, in the simultaneous use of heating and bath, the bath operation at the set temperature is surely provided with priority on the bath operation, and the bath operation, which is a temporary use, is surely performed, which is very convenient to use. .
[0027]
Next, in the case of simultaneous use of heating, hot water supply, and bath, as explained in the flowchart shown in FIG. 4, the simultaneous use of heating, hot water supply, and bath is determined by pressing each operation switch (not shown). (Step 53), if YES, the process proceeds to Step 54 to determine whether the bath is circulating in the hot water.
If YES during circulation in the hot water, the process proceeds to step 55, and the higher setting of the hot water supply set temperature Tb and the bath set temperature Td is subtracted from the current can body temperature Ta detected by the can body temperature sensor 14, and the rest It is determined whether or not the temperature is higher than the predetermined temperature Tc of 20 ° C., and when it is high, step 55 is repeated again with NO, and when it is not high, the capacity is insufficient. , Stop heating and give priority to hot water and bath operation.
[0028]
Further, after step 56, the process proceeds to step 57, where again the can body temperature Ta is increased by comparing the can body temperature Ta, the hot water supply set temperature Tb, and the bath set temperature Td with a higher setting, and heating is interrupted. If the difference from the high set temperature is higher than the predetermined temperature Tc of 20 ° C., the process proceeds to step 58 with NO, and the heating circulation pump 9 is started to restart the heating. If the temperature has not increased and the temperature has not increased yet, the process proceeds to step 59 with YES to determine whether the circulation continues in the hot water. If the hot water supply and bath are stopped, the process proceeds to step 58 with NO. The process advances and restarts heating. Conversely, during hot water supply, the process returns to step 53 with YES.
[0029]
Next, when heating and bath are not used at the same time in step 53, the process proceeds to step 60 with NO to perform normal operation, and when hot water supply and bath operation are not started in step 54, step with NO is performed. Proceeding to 61, the normal heating operation is performed.
Therefore, in the simultaneous use of heating, hot water supply, and bath operation, the hot water supply and bath operation are given priority and hot water supply and bath operation at the set temperature are reliably provided, so that temporary use of hot water supply and bath operation is ensured. It is extremely easy to use.
[0030]
【The invention's effect】
As described above, according to the first aspect of the present invention, when the heating and the hot water supply are used simultaneously, the hot water temperature in the heating can is detected, and the detected temperature and the hot water supply set temperature are compared. The hot water supply operation is continued, and if it is not high, the capacity is insufficient, and the drive of the circulation pump for heating is stopped, giving priority to the hot water supply operation that is temporarily used to supply hot water at the set temperature, and the user feels uneasy When there is a lack of capacity, there is no immediate change, and once the room is warmed, the heating with the least urgency is temporarily stopped and the hot water needed immediately is turned off. Since it can always be supplied at a set temperature, it is easy to use and can be used with peace of mind.
[0031]
According to the second aspect of the present invention, the hot water temperature in the heating can is detected at the same time when the heating and reheating of the bath and the heat insulation are used, and the detected temperature is compared with the set temperature of the bath. If the operation is continued and the capacity is not high when it is not high, the driving of the circulation pump for heating is stopped, giving priority to the bath operation, which is temporarily used, for replenishing the set temperature and keeping the temperature warm. It does not give a sense of anxiety, and when there is a shortage of capacity, it does not immediately change, and once the room is warmed, heating with the least urgency is temporarily stopped and is immediately needed. Since the bath can be always boiled at the set temperature, it is convenient and safe to use.
[0032]
According to the third aspect of the present invention, the hot water temperature in the heating can is detected at the time of simultaneous use of heating, hot water supply, bathing and warming, and the detected temperature, hot water set temperature and bath set temperature are higher. Compared with the temperature, the heating, hot water, and bath operations are continued as they are when the temperature is high, and when it is not high, the capacity is insufficient. Priority is given to bath operation, hot water supply at the set temperature, bathing and warming of the bath is not given, and it does not give the user anxiety. When a lack of capacity occurs, the room does not immediately change, and the room warms up once If it is, the heating with the least degree of urgency is temporarily stopped, and the hot water supply and bath that are needed immediately can be boiled at the set temperature if the higher temperature is used as a reference. Messenger Selfishness is at ease well are those that can be used.
[Brief description of the drawings]
BRIEF DESCRIPTION OF DRAWINGS FIG. 1 is a schematic configuration diagram of a one-can three-circuit type hot-water heating / heating bath apparatus according to an embodiment of the present invention.
FIG. 2 is a flow chart when the heating and hot water are used at the same time.
FIG. 3 is a flow chart when using the same heating and bath operation at the same time.
FIG. 4 is a flow chart when using the heating, hot water supply, and bath at the same time.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Heating can body 2 Burner part 4 Hot water supply heat exchange 5 Bath heat exchange 7 Heating radiator 9 Heating circulation pump A Heating circuit B Hot water supply circuit C Bath circuit Ta Can body temperature Tb Hot water supply set temperature Tc Predetermined temperature Td Bath Preset temperature

Claims (3)

For indirect heating type hot water supply for supplying hot water in communication with city water in a heating can which is connected to a heating circuit having a heating burner part at the bottom and having a heating radiator and a circulation pump for heating. If the difference between the hot water temperature in the heating can and the hot water supply set temperature is not higher than a predetermined temperature when the heating and hot water are used at the same time, the heating circulation with the least urgency is provided . hot water heating system, characterized in that Ru once give priority to the hot water supply to stop the pump. Hot water or water in the bathtub is communicated through the bathtub and the circulation circuit into the heating can body having a heating burner part at the bottom and communicated by a heating circuit having a heating radiator and a circulation pump for heating. If the difference between the hot water temperature in the heating can and the set temperature of the bath is not higher than the predetermined temperature when using the heating and bath at the same time , the emergency degree bath heating system, characterized in that Ru is given priority once the bath operation to stop the lowest heating circulation pump. For indirect heating type hot water supply for supplying hot water in communication with city water in a heating can which is connected to a heating circuit having a heating burner part at the bottom and having a heating radiator and a circulation pump for heating. In heat exchange and indirect heating type bath heat exchange that heats hot water or water in the bathtub communicated through the bathtub and circulation circuit, at the time of simultaneous use of the heating, hot water supply and bath, If the difference between the hot water temperature in the heating can, the hot water supply set temperature, and the higher bath set temperature is not higher than the predetermined temperature , the heating circulation pump with the lowest urgency level is temporarily stopped and hot water supply and bath operation are performed. hot water bath heating system, characterized in that Ru is given priority.

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