JP3876697B2 - Water heater - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a hot water supply apparatus having a hot water storage tank for storing hot water heated by a heating source.
[0002]
[Prior art]
An example of the hot water supply apparatus is a heat pump type hot water supply apparatus as shown in FIG. This heat pump hot water supply apparatus includes a tank unit 51 having a hot water storage tank 50 and a heat pump unit 53 having a refrigerant circuit 52. The refrigerant circuit 52 is configured by connecting a compressor 54, a water heat exchanger 55, an expansion valve 57, and an evaporator 58 in this order. The tank unit 51 includes the hot water storage tank 50 and a circulation path 59, and a water circulation pump 60 and a heat exchange path 61 are interposed in the circulation path 59. In this case, the heat exchange path 61 is configured by a part of the water heat exchanger 55.
[0003]
In the above apparatus, when the compressor 54 is driven and the pump 60 is driven (actuated), the stored water (hot water) flows out from the water intake provided at the bottom of the hot water storage tank 50 to the circulation path 59, which exchanges heat. Circulates the channel 61. At this time, the hot water is heated (boiling) in the heat exchange path 61 heated by the water heat exchanger 55 and returned to the upper part of the hot water storage tank 50 from the hot water inlet. As a result, hot hot water is stored in the hot water storage tank 50. [0004]
By the way, when installing the said apparatus, it is necessary to perform a test run and to confirm operation | movement. Here, the trial operation is an operation for confirming the operation state when the hot water supply apparatus is installed, and the above boiling operation is performed. That is, in the case of the heat pump type hot water supply device, the temperature of water entering the circulation path 59 (temperature upstream of the heat exchange path 61) and the temperature of hot water discharged from the circulation path 59 to the hot water storage tank 50 (on the downstream side of the heat exchange path 61). Temperature) and the like, and the operating status is grasped to determine whether or not it is operating normally.
[0005]
For this reason, conventionally, various measuring instruments for obtaining necessary information are separately installed in the hot water supply apparatus at the time of installation, and measurement means from these measuring instruments or detection means for obtaining necessary information are provided in the controller of the hot water supply apparatus. It was equipped in the microcomputer (microcomputer) which comprised.
[0006]
[Problems to be solved by the invention]
However, in the method of installing various measuring instruments, the installation work is troublesome and observation of various measuring instruments is difficult. Further, even if the microcomputer has a means for detecting necessary information, it is difficult to confirm the value (necessary information) in the microcomputer at the work site.
[0007]
The present invention has been made to solve the above-mentioned conventional drawbacks, and its purpose is to easily perform operation check during trial operation during installation, and to stabilize normal operation after installation. It is in providing the hot-water supply apparatus which can be performed.
[0008]
[Means for Solving the Problems]
Therefore, the hot water supply apparatus of claim 1 has a hot water storage tank 3 and a circulation path 12 connecting the lower part and the upper part of the hot water storage tank 3, and a water circulation pump 13 and a heat exchange path 14 are connected to the circulation path 12. A hot water supply apparatus that enables boiling operation in which the heat exchange path 14 is heated by a heating source to boil unheated water from the lower part of the hot water storage tank 3 and return it to the upper part of the hot water storage tank 3. In the trial operation, a display means 36 is provided for displaying the temperature of the hot water heated by the heating source as necessary information for operation confirmation, and the necessary information indicates the temperature of water entering the circulation path 12. And the hot water temperature from the heat exchange path 14 and the pump command value of the water circulation pump 13. Further, the difference between the hot water temperature and the incoming water temperature is obtained, and the difference is multiplied by the pump flow rate to bring the boiling point. The upper capacity is calculated and this boiling capacity It is displayed as necessary information, and each temperature and command value range is set for the above water temperature, hot water temperature, pump command value, and boiling capacity, and it is determined whether each value is within that range, The result is displayed .
[0009]
In the hot water supply apparatus according to the first aspect, since the display means 36 for displaying necessary information for operation confirmation (such as the temperature of the hot water heated by the heating source) during the trial operation is provided, the hot water storage tank 3 is displayed during the trial operation. It can be determined whether the hot water supplied is boiling normally. Thereby, it can be judged whether this driving | operation operation | movement is normal.
[0011]
Further, in the hot water supply apparatus, hot water can be stored in the hot water storage tank 3 by driving the water circulation pump 13 and performing the boiling operation. During the test run, the temperature of water entering the circulation path 12 and the temperature of the hot water from the heat exchange path 14 can be grasped, and the temperature in the circulation path 12 can be grasped. The pump flow rate can be detected from the pump command value of the water circulation pump 13. That is, it is possible to obtain a large amount of data capable of grasping the operation state at the time of the trial operation of the hot water supply apparatus, and it is possible to confirm the operation with high accuracy from these data.
[0013]
Furthermore, in the hot water supply apparatus, the boiling capacity is calculated from the necessary information and the normal / abnormality of the operation during the trial operation is determined. Therefore, the normality / abnormality of the operation can be reliably determined. In other words, the boiling capacity can be calculated by (the temperature of the hot water minus the temperature of the incoming water) × the pump flow rate, and the reliability of judgment (determination) for normality / abnormality can be improved.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Next, specific embodiments of the hot water supply apparatus of the present invention will be described in detail with reference to the drawings. FIG. 1 shows a simplified diagram of a hot water supply apparatus (in this case, a heat pump type hot water supply apparatus). This hot water supply apparatus includes a tank unit 1 and a heat pump unit (heat source unit) 2, and water (hot water) in the tank unit 1 is used as the heat pump unit 2. It heats with.
[0015]
The tank unit 1 includes a hot water storage tank 3, and hot water stored in the hot water storage tank 3 is supplied to a bathtub (not shown). That is, the hot water storage tank 3 is provided with a water supply port 5 on its bottom wall and a hot water outlet 6 on its upper wall. Then, city water is supplied from the water supply port 5 to the hot water storage tank 3, and hot hot water is discharged from the hot water outlet 6. The hot water storage tank 3 has a water intake 10 at the bottom wall and a hot water inlet 11 at the top of the side wall (peripheral wall). The water intake 10 and the hot water inlet 11 are connected by a circulation path 12. Has been. The circulation path 12 is provided with a water circulation pump 13 and a heat exchange path 14.
[0016]
By the way, the hot water storage tank 3 is provided with five remaining hot water detectors 18a, 18b, 18c, 18d, and 18e at a predetermined pitch in the vertical direction. Each of the remaining hot water detectors 18a, 18b, 18c, 18d, 18e is, for example, a thermistor. In addition, a water thermistor 20 is provided on the upstream side of the heat exchange path 14 in the circulation path 12, and a hot water thermistor 21 is provided on the downstream side of the heat exchange path 14.
[0017]
Next, the heat pump unit (heat source unit) 2 includes a refrigerant circuit, which includes a compressor 25, a water heat exchanger 26 that constitutes the heat exchange path 14, an electric expansion valve (decompression mechanism) 27, An air heat exchanger (evaporator) 28 is connected in order. That is, the discharge pipe 29 of the compressor 25 is connected to the water heat exchanger 26, the water heat exchanger 26 and the electric expansion valve 27 are connected by the refrigerant passage 30, and the electric expansion valve 27 and the evaporator 28 are connected to the refrigerant. The evaporator 31 and the compressor 25 are connected to each other through a passage 31 and a refrigerant passage 33 in which an accumulator 32 is interposed. Thereby, when the compressor 25 is driven, the water heat exchanger 26 functions as a condenser, and the water flowing through the heat exchange path 14 can be heated as will be described later.
[0018]
By the way, as shown in FIG. 2, the control unit of the heat pump type hot water supply apparatus has an incoming water temperature detected by the incoming water thermistor 20 (an incoming water temperature into the circulation path 12) and an outgoing hot water temperature detected by the outgoing hot water thermistor 21. A controller (control means) 35 to which (the heat exchanging path 14 and the temperature of the hot water) is input. Further, a pump command value of the water circulation pump 13 is input to the control means 35. The apparatus is operated under the control of the control means 35. The control means 35 can be configured using, for example, a microcomputer.
[0019]
That is, in the above apparatus, the compressor 25 is driven and the water circulation pump 13 is driven (actuated). As a result, the stored water (hot water) flows out from the water intake 10 provided at the bottom of the hot water storage tank 3, and this flows through the heat exchange path 14 of the circulation path 12. At this time, the heat exchange path 14 is heated by a heating source (in this case, the water heat exchanger 26 of the heat pump unit 2), and the hot water is heated by passing through the heat exchange path 14 (boiling), The water is returned from the hot water inlet 11 to the upper part of the hot water storage tank 3. At this time, a boiling operation controlled by the control means 35 is performed based on the data from the remaining hot water detectors 18a, 18b, 18c, 18d, 18e, the incoming water thermistor 20, and the outgoing hot water thermistor 21, and the hot water storage tank. 3, a predetermined amount of hot water can be stored.
[0020]
By the way, as shown in FIG. 2, this apparatus is provided with display means 36 for displaying necessary information for confirming the operation during the trial run. Here, the trial operation is an operation for confirming the operation state when the hot water supply apparatus is installed, and the above boiling operation is performed. The necessary information, that is, the display content by the display means 36 includes the “water temperature” of the water thermistor 20, the “water temperature” of the hot water thermistor 21, and the “pump command value input to the control means”. "
[0021]
This display means 36 is provided in a remote control 37 for performing various driving operations of this apparatus, for example, as shown in the figure. That is, if the remote control 37 is provided with a display section 38 (for example, composed of a liquid crystal screen) of the display means 36 and a test operation is performed, the display section 38 displays the incoming water temperature, the hot water temperature, and the pump command value. The The trial run can be set to start by providing a trial run switch (button) on the remote control 37 or the like and operating the trial run switch. The necessary information can be displayed in such a way that the incoming water temperature, the outgoing hot water temperature, and the pump command value are displayed one by one in order every predetermined time (for example, several seconds), or the incoming water temperature, the outgoing hot water temperature, and the pump command value are displayed at once. A display method or the like can be employed. Further, even if the necessary information is automatically displayed when the test run switch is operated and the test run is started, an operation switch (button) different from the test run switch is provided on the remote control 37. It may be displayed for the first time by operating. Further, when an operation switch (button) is provided, the contents (incoming water temperature, hot water temperature, pump command value) displayed each time this operation switch is operated (pressed) may be sequentially changed. . Note that the arrangement positions of the trial operation switch and the operation switch are not limited to the remote controller 37 and may be provided on the apparatus main body (tank unit 1 or heat pump unit 2) side.
[0022]
For this reason, in the said hot water supply apparatus, the operation condition at the time of a test run can be confirmed from required information. That is, by checking the temperature of the hot water and the like, if the temperature of the hot water does not rise to a predetermined temperature, it can be determined that it is not operating normally. Accordingly, if an abnormality is determined, the operation in this abnormal state can be avoided, and correction can be made so that the operation can be performed in a normal state by changing the frequency of the compressor 25, the refrigerant circulation amount of the refrigerant circuit, and the like.
[0023]
Further, the boiling capacity during the trial operation can be calculated from the necessary information. That is, during this test operation, the incoming water temperature is detected by the incoming water thermistor 20 and the outgoing hot water temperature is detected by the outgoing hot water thermistor 21, whereby (the outgoing hot water temperature−the incoming water temperature) can be calculated. Further, the water circulation pump 13 for circulating the hot water in the circulation path 12 is driven by a pump command value, and from this, the pump flow rate can be detected. If this pump flow rate is detected, the boiling capacity can be determined by calculating (pumping water temperature-incoming water temperature) × pump flow rate.
[0024]
Thus, if the boiling capacity is calculated, it is possible to determine whether or not the operation during the trial operation is normal. That is, if the compressor frequency is not normal, or if the circulating refrigerant amount in the refrigerant circuit is not normal, normal capacity cannot be output. Can be determined. For this reason, if the operation is in an abnormal state in which the normal boiling capacity is not output, it is possible to perform an operation for correcting the abnormal point to obtain a normal state. As a result, stable installation work can be performed, the reliability of the work is improved, and a hot water supply apparatus that can be operated in a normal state after installation is obtained. Moreover, since necessary information is displayed on the display part 38 of the display means 36 provided in the remote control 37, the operator can grasp | ascertain the condition at the time of a test run immediately. As a result, the operation in the abnormal state can be immediately stopped, and the failure of the hot water supply device can be prevented.
[0025]
Although specific embodiments of the present invention have been described above, the present invention is not limited to the above embodiments, and various modifications can be made within the scope of the present invention. For example, the necessary information displayed on the display means 36 may be only the hot water temperature, and it is possible to determine whether or not the hot water is operating normally only with this hot water temperature. Further, as the incoming water temperature and the outgoing hot water temperature can be detected with the incoming water thermistor 20 and the outgoing hot water thermistor 21 as in the embodiment, a highly accurate one can be obtained, but is detected by the remaining hot water detector 18e. The temperature may be the incoming water temperature, or the temperature detected by the remaining hot water detector 18a may be the outgoing hot water temperature. Further, the temperature display means 36 can be provided in other various parts of the hot water supply device without being provided in the remote controller 37. Furthermore, the device main body (tank unit 1, heat pump unit 2, etc.) of the hot water supply device. It can be configured by a general-purpose personal computer (personal computer) connected to the PC. And as a display method of necessary information, each data may be displayed as a numerical value (number), and each temperature and a range of command values are set, and a different color is set for each range, The color may be displayed when each value falls within the range, or may be displayed by voice. Further, the display unit 38 may display the boiling capacity calculated from the necessary information, or may display a result (normal or abnormal result) determined from the boiling capacity, If abnormal, a warning sound may be generated. Note that the hot water supply device may be an electric hot water supply device or a gas hot water supply device.
[0026]
【The invention's effect】
According to the hot water supply apparatus of the first aspect, since the operation check at the time of the trial operation can be performed from the tapping temperature or the like, if it is abnormal, the operation can be stopped so that the normal operation can be performed. Thereby, the stable installation work can be performed and the reliability of construction (construction) is improved. Further, since the operation in the abnormal state can be avoided, the failure due to the operation in the abnormal state can be prevented.
[0027]
Moreover, according to the said hot water supply apparatus, the driving | running condition at the time of a test run can be detected accurately from many data, and the workability | operativity of installation improves.
[0028]
Furthermore, according to the hot water supply apparatus, it is possible to reliably determine whether the operation is normal or abnormal. Thereby, installation work can be performed more stably. In addition, the hot water supply apparatus after installation (installation) can stably exhibit normal capability, and becomes a highly reliable product (hot water supply apparatus).
[Brief description of the drawings]
FIG. 1 is a simplified diagram showing an embodiment of a hot water supply apparatus of the present invention.
FIG. 2 is a simplified block diagram of a controller of the hot water supply apparatus.
FIG. 3 is a simplified diagram showing a conventional hot water supply apparatus.
[Explanation of symbols]
3 Hot water storage tank 12 Circulation path 13 Water circulation pump 14 Heat exchange path 36 Display means

Claims (1)

It has a hot water storage tank (3) and a circulation path (12) connecting the lower part and the upper part of the hot water storage tank (3), and a water circulation pump (13) and a heat exchange path (14) are connected to this circulation path (12). ) And the heat exchange path (14) is heated by a heating source to boil unheated water from the lower part of the hot water storage tank (3) and return it to the upper part of the hot water storage tank (3). A hot water supply apparatus capable of boiling operation, comprising display means (36) for displaying, as a necessary information for operation confirmation, a hot water outlet temperature of the hot water heated by the heating source at the time of a trial operation. The information includes the temperature of the incoming water to the circulation path (12), the temperature of the hot water from the heat exchange path (14), and the command value of the pump for the water circulation pump (13). Boiling capacity is obtained by calculating the difference from temperature and multiplying this difference by the pump flow rate. Calculate and display this boiling capacity as the above required information.Set the temperature and command value ranges for the incoming water temperature, hot water temperature, pump command value, and boiling capacity. A hot water supply apparatus that determines whether or not a container is present and displays the result .

Images