JP3926188B2 - Heat medium supply system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention provides heat source means for supplying a heated heat medium to a terminal through a heat medium circuit, opening / closing means for opening and closing the heat medium circuit and intermittently supplying the heat medium, operation of the heat source means, and opening / closing of the heat source means And an opening / closing ratio setting means for setting an opening / closing ratio between an opening time for maintaining the opening / closing means in an open state and a closing time for maintaining the opening / closing means in a closed state. Provided for the terminal,
The control means periodically controls the opening / closing operation of the opening / closing means in the form of adjusting the opening / closing ratio in a single cycle based on the opening / closing ratio setting information set by the opening / closing ratio setting means. The present invention relates to a configured heating medium supply system.
[0002]
[Prior art]
In the heat medium supply system as described above, the open / close ratio setting means sets, as open / close ratio setting information, one open / close ratio selected by human operation according to the terminal among a plurality of preset open / close ratios, From the heat source means, the control means periodically controls the opening / closing operation of the opening / closing means in a form of adjusting the opening / closing ratio in a single cycle based on the opening / closing ratio setting information set by the opening / closing ratio setting means. The heating medium is supplied to the terminal while intermittently supplying the heating medium to the terminal.
[0003]
As this type of heat medium supply system, for example, as shown in FIG. 3, the heat medium flowing through the heat source passage 38 is heated by combustion of the burner 31, and the heated heat medium is used as the heat medium circulation path. A heat source unit 34 supplied to the terminal 33 through 32, a heat source unit side control unit 36 as a control unit for controlling the operation of the heat source unit 34 and the opening / closing operation of the switching unit 35, and the heat source unit side control unit 36. A terminal-side control unit 37 is provided as the open / close ratio setting means.
And the terminal side control part 37 presupposes that the temperature of the heat medium supplied to the terminal 33 from the heat source machine 34 is a fixed temperature of heat medium supply temperature (for example, 60 degreeC), and based on the heat medium supply temperature Among the plurality of open / close ratios, one open / close ratio selected by an artificial operation such as a switch is set as the open / close ratio setting information, and the set open / close ratio setting information is transmitted to the heat source unit control unit 36. It is configured.
The heat source device side control unit 36 controls the operation of the heat source device 34 so that the temperature of the heat medium supplied from the heat source device 34 to the terminal 33 becomes the heat medium supply temperature, and based on the heat medium supply temperature. Supplying the heat medium from the heat source unit 34 to the terminal 33 by periodically controlling the opening / closing operation of the opening / closing means 35 in a form in which the opening / closing ratio in a single cycle is adjusted based on the set opening / closing ratio setting information. The heat medium is supplied from the heat source device 34 to the terminal 33 while the power is intermittent.
[0004]
[Problems to be solved by the invention]
However, in the conventional heating medium supply system, the control means periodically controls the opening / closing operation of the opening / closing means based on the opening / closing ratio setting information set based on the heating medium supply temperature. When the temperature of the heat medium supplied from the heat source means to the terminal is different from the heat medium supply temperature, there is a possibility that a desired amount of heat corresponding to the terminal cannot be supplied from the heat source means to the terminal.
[0005]
In other words, when the switching operation of the switching means is controlled periodically based on the switching ratio setting information set based on the heating medium supply temperature, the temperature of the heating medium supplied from the heat source means to the terminal is hot. When the temperature is lower than the medium supply temperature, the heat medium is not supplied from the heat source means to the terminal even though the desired amount of heat is not supplied to the terminal. When the temperature is higher than the heat medium supply temperature, the heat medium is supplied from the heat source means to the terminal regardless of whether a desired amount of heat is supplied to the terminal, and the terminal responds to the terminal from the heat source means. The desired amount of heat cannot be supplied.
[0006]
Incidentally, when the temperature of the heat medium circulated to the heat source means changes or the amount of heating in the heat source means changes, the temperature of the heat medium supplied from the heat source means to the terminal is different from the heat medium supply temperature.
Moreover, when supplying a heat medium from a heat source means to a floor heating apparatus, from the viewpoint of the comfort of floor heating, the temperature of the heat medium supplied from the heat source means to the terminal is higher than the heat medium supply temperature (for example, 60 ° C.). It is desired to change the temperature of the heat medium supplied to the terminal from the heat source means to a temperature lower than the heat medium supply temperature, etc. The temperature of the heat medium supplied from the heat source means to the terminal is different from the heat medium supply temperature.
[0007]
The present invention has been made paying attention to such a point, and its purpose is to achieve a desired response from the heat source means to the terminal according to the terminal even if the temperature of the heat medium supplied from the heat source means to the terminal changes. The point is to provide a heating medium supply system capable of supplying heat.
[0008]
[Means for Solving the Problems]
In order to achieve this object, according to the first aspect of the present invention, the heat source means for supplying the heated heat medium to the terminal through the heat medium circulation path, and the supply of the heat medium by opening and closing the heat medium circulation path And a control means for controlling the operation of the heat source means and the opening / closing operation of the opening / closing means, and an opening time for maintaining the opening / closing means in an open state and the opening / closing means in a closed state. An opening / closing ratio setting means for setting an opening / closing ratio with a closing time is provided corresponding to the terminal;
The control means periodically controls the opening / closing operation of the opening / closing means in the form of adjusting the opening / closing ratio in a single cycle based on the opening / closing ratio setting information set by the opening / closing ratio setting means. In the configured heating medium supply system,
Based on the temperature information of the heat medium supplied from the heat source means to the terminal, the control means sets the opening / closing ratio setting information so that the lower the temperature, the longer the opening time with respect to the closing time. The opening / closing ratio correction information is corrected, and the opening / closing operation of the opening / closing means is controlled based on the opening / closing ratio correction information.
[0009]
That is, the control means sets the open / close ratio setting information set by the open / close ratio setting means based on the temperature information of the heat medium supplied from the heat source means to the terminal, and the lower the temperature, the open time relative to the close time. The opening / closing ratio of the opening / closing means is controlled periodically in such a manner that the opening / closing ratio correction information is corrected in accordance with the corrected opening / closing ratio correction information. Therefore, even if the temperature of the heat medium supplied from the heat source means to the terminal changes, the control means, based on the open / close ratio correction information corrected in accordance with the changed temperature information of the heat medium, It is possible to control the opening / closing operation of the opening / closing means.
Therefore, even if the temperature of the heat medium supplied from the heat source means to the terminal changes, it is possible to intermittently supply heat from the heat source means to the terminal in a state corresponding to the changed temperature of the heat medium, Even if the temperature of the heat medium supplied from the heat source means to the terminal changes, a heat medium supply system that can supply a desired amount of heat according to the terminal from the heat source means to the terminal can be provided.
[0010]
  Claim 1The temperature of the heat medium supplied from the heat source means to the terminal is changed.Dip switch for changing heat medium temperatureAnd the control means isDip switch for changing heat medium temperatureThe opening / closing ratio setting information is corrected to the opening / closing ratio correction information on the basis of the temperature information of the heat medium changed in step (1).
[0011]
  That is, the control meansDip switch for changing heat medium temperatureBased on the temperature information of the heat medium that is artificially changed in step 1, the open / close ratio setting information can be corrected to the open / close ratio correction information. In the corresponding state, the open / close ratio setting information can be corrected to the open / close ratio correction information.
  Therefore, even if the temperature of the heat medium supplied from the heat source means to the terminal is changed, it is possible to intermittently supply heat from the heat source means to the terminal in a state corresponding to the changed temperature information of the heat medium. Thus, a desired amount of heat corresponding to the terminal can be accurately supplied from the heat source means to the terminal.
[0012]
  Claim 2According to the invention described inHeat source means for supplying the heated heat medium to the terminal through the heat medium circuit, opening / closing means for opening / closing the heat medium circuit and intermittently supplying the heat medium, operation of the heat source means, and opening / closing operation of the switch means An opening / closing ratio setting means for setting an opening / closing ratio between an opening time for maintaining the opening / closing means in an open state and a closing time for maintaining the opening / closing means in a closed state. And the control means periodically adjusts the opening / closing operation of the opening / closing means in a form of adjusting the opening / closing ratio in a single cycle based on the opening / closing ratio setting information set by the opening / closing ratio setting means. In the heat medium supply system configured to control the heat medium, the control means is based on the temperature information of the heat medium supplied from the heat source means to the terminal, the lower the temperature, Open The opening / closing ratio setting information is corrected to the opening / closing ratio correction information so as to lengthen the interval, and the opening / closing operation of the opening / closing means is controlled based on the opening / closing ratio correction information. A dip switch for changing the temperature of the heating medium supplied to the heating medium is provided,Heat medium temperature detecting means for detecting the temperature of the heat medium supplied from the heat source means to the terminal is provided, and the control means is based on the temperature information of the heat medium detected by the heat medium temperature detecting means. The open / close ratio setting information is modified to the open / close ratio correction information.
[0013]
  That is, the control meansBased on the temperature information of the heat medium supplied from the heat source means to the terminal, the opening / closing ratio setting information set by the opening / closing ratio setting means is such that the lower the temperature, the longer the opening time with respect to the closing time. Since it is possible to periodically control the opening / closing operation of the opening / closing means in the form of adjusting the opening / closing ratio in a single cycle based on the corrected opening / closing ratio correction information, it is corrected to the opening / closing ratio correction information. Even if the temperature of the heating medium supplied from the heat source means to the terminal changes, the control means performs the opening / closing operation of the opening / closing means based on the opening / closing ratio correction information corrected in accordance with the changed temperature information of the heating medium. It becomes possible to control.
  Therefore, even if the temperature of the heat medium supplied from the heat source means to the terminal changes, it is possible to intermittently supply heat from the heat source means to the terminal in a state corresponding to the changed temperature of the heat medium, Even if the temperature of the heat medium supplied from the heat source means to the terminal changes, a heat medium supply system that can supply a desired amount of heat according to the terminal from the heat source means to the terminal can be provided.
  The control meansBased on the temperature information of the heat medium that is actually supplied from the heat source means to the terminal, it becomes possible to correct the opening / closing ratio setting information to the opening / closing ratio correction information. It is possible to correct the opening / closing ratio setting information to the opening / closing ratio correction information in a state corresponding to the temperature of the medium.
  Therefore, even when the temperature of the heat medium supplied from the heat source means to the terminal changes, it is possible to intermittently supply heat from the heat source means to the terminal in a state corresponding to the changed temperature information of the heat medium. Thus, it is possible to accurately supply a desired amount of heat corresponding to the terminal from the heat source means to the terminal.
[0014]
  Claim 3According to the invention described above, the control means detects the heat demand load in the terminal, and the open / close ratio is set such that the open time becomes longer with respect to the close time as the heat demand load increases. The setting information is configured to be corrected to the opening / closing ratio correction information.
[0015]
That is, the control means converts the opening / closing ratio setting information set by the opening / closing ratio setting means into the opening / closing ratio correction information so that the opening time becomes longer with respect to the closing time as the heat demand load in the actual terminal is larger. Even if the heat demand load at the terminal changes, the control means can perform the opening / closing operation of the opening / closing means based on the opening / closing ratio correction information corrected corresponding to the changed heat demand load. Can be controlled.
Therefore, even if the heat demand load at the terminal changes, it becomes possible to intermittently supply heat from the heat source means to the terminal in a state corresponding to the changed heat demand load. It becomes possible to supply a desired amount of heat according to the heat demand load in the terminal.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
A heating medium supply system according to the present invention will be described with reference to the drawings.
[First Embodiment]
This heating medium supply system includes a terminal 2 such as a floor heating device, a heat source device 3 as a heat source means for supplying a heating medium heated to the terminal 2 through the heating medium circulation path 1, and an opening / closing means for opening and closing the heating medium circulation path 1. The heat source valve 4, the operation of the heat source machine 3, and the heat source machine side controller 5 as a control means for controlling the opening and closing operation of the heat valve 4, the heat source machine side controller 5 provided corresponding to the terminal 2, The terminal-side control unit 6 is provided as an open / close ratio setting means capable of communication.
[0017]
The heat source unit 3 is a system for storing the heat medium in the heat source machine internal channel 23 in the middle of the heat source machine internal channel 23 connected to each of the outgoing side channel 1a and the return side channel 1b of the heat medium circulation channel 1. 7. A circulation pump 8 for circulating and supplying the heat medium to the terminal 2; a heat exchanger 10 for heating the heat medium flowing through the heat source passage 23 by combustion of the burner 9; A fan 11 for supplying air is provided.
The fuel supply passage 12 for supplying the fuel gas to the burner 9 is provided with a fuel gas on-off valve 13 for intermittently supplying the fuel gas and a fuel gas adjusting valve 14 for adjusting the fuel gas supply amount. An igniter 15 to be performed and a frame rod 16 for confirming the ignition of the burner 9 are also provided.
[0018]
A return thermistor 20 for detecting the temperature of the heat medium is provided upstream of the cistern 7 in the heat source machine flow path 23 in the heat medium circulation direction, and the heat medium in the heat source machine flow path 23 is higher than the heat exchanger 10. A forward thermistor 21 that detects the temperature of the heat medium is provided on the downstream side in the circulation direction, and a thermal valve 4 is provided in the outward flow path 1 a of the heat medium circulation path 1.
During operation of the heat source device 3, the supply of the heat medium to the terminal 2 is interrupted by opening and closing the thermal valve 4.
[0019]
The heat source unit side control unit 5 and the terminal side control unit 6 are connected to the heat source unit 3 via the heat source unit side communication unit 20 and the terminal side communication unit 18, and commands for starting and stopping the operation of the heat source unit 3 Various control information such as an opening / closing ratio between a closing time for maintaining 4 in the closed state and an opening time for maintaining the thermal valve 4 in the open state is configured to be communicable.
[0020]
When the start and stop of heat supply are instructed by the terminal remote controller 17, the terminal side control unit 6 requests the heat source unit side control unit 5 to start and stop the operation of the heat source unit 3, and An opening / closing ratio between a closing time for maintaining the valve 4 in the closed state and an opening time for maintaining the thermal valve 4 in the opened state is set, and the set opening / closing ratio setting information is transmitted to the heat source apparatus side control unit 5. It is configured as follows.
And the terminal side control part 6 assumes that the temperature of the heat medium supplied to the terminal 2 from the heat source device 3 is a heat medium reference temperature (for example, 60 ° C.), and based on the heat medium reference temperature, Each memory stores the open / close ratio between the open time and the close time in a single cycle (for example, 20 minutes). Among the memories, the memory selected by an artificial operation such as a switch outside the figure is stored. The corresponding open / close ratio is set as open / close ratio setting information.
[0021]
When the start of the operation of the heat source unit 3 is requested from the terminal side control unit 6, the heat source unit side control unit 5 starts the operation of the heat source unit 3 and stops the operation of the heat source unit 3 from the terminal side control unit 6. Is required, the operation of the heat source device 3 is stopped.
Further, the heat source device side control unit 5 sets the temperature of the heat medium supplied to the terminal 2 to the temperature changed by the heat medium temperature changing dip switch 22 as the heat medium temperature changing means during the operation of the heat source device 3. In order to control the operation of the heat source unit 3, a correction process for correcting the open / close ratio setting information received by the heat source unit side communication unit 19 to the open / close ratio correction information is executed, and the correction process is corrected. Based on the opening / closing ratio correction information, the opening / closing operation of the thermal valve 4 is periodically controlled.
[0022]
When the control operation of the heat source unit side control unit 5 in the start and stop of the operation of the heat source unit 3 is described, the heat source unit side control unit 5 starts the operation of the heat source unit 3 in the heat source unit side communication unit 19. When the control information to be commanded is received, the fan 11 is operated, the fuel gas on-off valve 13 and the fuel gas regulating valve 14 are opened to start the combustion of the burner 9, and the circulation pump 8 is operated to 3 is started.
In addition, when the heat source unit side control unit 5 receives control information that instructs the heat source unit side communication unit 19 to stop the operation of the heat source unit 3, the heat source unit side control unit 5 closes the fuel gas on-off valve 13 and the fuel gas adjustment valve 14. After the combustion of the burner 9 is stopped, the operation of the fan 11 is stopped and the operation of the circulation pump 8 is stopped to stop the operation of the heat source unit 3.
[0023]
When the control operation of the heat source device side control unit 5 during operation of the heat source device 3 is described, the temperature of the heat medium supplied from the heat source device 3 to the terminal 2 is changed by the heat medium temperature changing dip switch 22. Low temperature heat medium temperature (for example, 50 ° C.) lower than the reference temperature, heat medium reference temperature (for example, 60 ° C.), and high temperature heat medium temperature (for example, 70 ° C.) higher than the heat medium reference temperature. It can be changed.
Then, the heat source device side control unit 5 sets the detected temperature of the forward thermistor 21 with the heat medium temperature changing dip switch 22 based on the detection information of the return thermistor 20 and the forward thermistor 21 during the operation of the heat source device 3. The opening degree of the fuel gas adjustment valve 14 and the rotation speed of the fan 11 are adjusted so that the temperature of the heat medium thus obtained is reached.
[0024]
When the correction process is described, the heat source apparatus side control unit 5 determines that the lower the temperature based on the temperature information of the heating medium changed by the heating medium temperature changing DIP switch 22, The open / close ratio setting information received by the heat source device side communication unit 19 is modified to open / close ratio correction information so that the open time becomes long.
[0025]
More specifically, when the temperature of the heat medium is set to the low temperature heat medium temperature by the heat medium temperature changing dip switch 22, the heat source apparatus side control unit 5 sets the open time to the extension set time (for example, 3 minutes), and the single cycle is also extended by the extension setting time (for example, 3 minutes), and the single cycle (for example, 20 minutes) in the open / close ratio setting information received by the heat source unit communication unit 19 and Information corrected so as to increase the opening time is used as the opening / closing ratio correction information.
Then, when the temperature of the heat medium is set to the high temperature heat medium temperature by the heat medium temperature changing dip switch 22, the heat source device side control unit 5 shortens the open time and shortens the set time (for example, 2 minutes). In addition, the single cycle is also shortened by shortening the set time (for example, 2 minutes), and the single cycle (for example, 20 minutes) and the open time in the open / close ratio setting information received by the heat source unit communication unit 19 are shortened. The information corrected in such a manner is used as the open / close ratio correction information.
Further, the heat source device side control unit 5 sets the open / close ratio received by the heat source device side communication unit 19 when the temperature of the heat medium is set to the heat medium reference temperature by the dip switch 22 for changing the heat medium temperature. The information is directly used as opening / closing ratio correction information.
[0026]
In this way, the heat source machine side control unit 5 converts the opening / closing ratio setting information into the opening / closing ratio correction information based on the temperature information of the heating medium whose temperature is changed by the heating medium temperature changing dip switch 22. A correction process is executed so as to correct, and the opening / closing operation of the thermal valve 4 is periodically controlled so as to be the opening time and the closing time in the opening / closing ratio correction information corrected by the correction process. Even when the temperature of the heat medium supplied from 3 to the terminal 2 changes, a desired amount of heat corresponding to the terminal 2 is supplied from the heat source device 3 to the terminal 2.
[0027]
[Second Embodiment]
This 2nd Embodiment shows another embodiment about the correction process of the heat source apparatus side control part 5 in the said 1st Embodiment, and demonstrates the correction process of the heat source apparatus side control part 5. FIG.
Incidentally, since other configurations are the same as those in the first embodiment, detailed description thereof will be omitted by using the same reference numerals.
[0028]
In the first embodiment, the heat source apparatus side control unit 5 changes the opening / closing ratio setting information to the opening / closing ratio correction information based on the temperature information of the heat medium changed by the heat medium temperature changing dip switch 21 in the correction process. However, in the second embodiment, the heat-source-unit-side controller 5 uses the temperature information of the heat medium detected by the forward thermistor 21 as the heat medium temperature detecting means in the correction process. Based on this, it is configured to correct the opening / closing ratio setting information to the opening / closing ratio correction information.
[0029]
Based on the temperature information of the heat medium detected by the forward thermistor 21, the heat source device side control unit 5 is configured so that the lower the temperature, the longer the opening time with respect to the closing time. The open / close ratio setting information received at 19 is corrected to open / close ratio correction information.
[0030]
In addition, as shown in FIG. 2, the heat source apparatus side control unit 5 determines the change rate of the open time for correcting the open time in the open / close ratio setting information, as shown in FIG. A table preset for each temperature is stored, and the change rate of the open time is set based on this table to correct the open time and the single cycle in the open / close ratio setting information.
[0031]
Specifically, the heat source apparatus side control unit 5 uses the opening time in the opening / closing ratio setting information as the reference when 60 ° C. is the reference and the temperature of the heat medium detected by the forward thermistor 21 is lower than 60 ° C. If the single cycle is corrected to be longer than the opening time and the single cycle, and the temperature of the heating medium detected by the forward thermistor 21 is higher than 60 ° C., the opening in the switching ratio setting information is The time and the single cycle are corrected to be shorter than the open time and the single cycle.
For example, when the temperature of the heat medium detected by the forward thermistor 21 is 50 ° C., the heat source apparatus side control unit 5 corrects the open time in the open / close ratio setting information to 130% of the open time. In the single period, information corrected at 130% of the single period is used as the open / close ratio correction information.
[0032]
Incidentally, in the second embodiment, the temperature of the heat medium supplied from the heat source device 3 is configured to be freely changeable in six stages of 45 ° C., 50 ° C., 55 ° C., 60 ° C., 65 ° C., and 70 ° C. As in the first embodiment, the heat medium temperature changing dip switch 22 is provided, and the heat medium temperature changing dip switch 22 changes the temperature of the heat medium supplied from the heat source device 3 to the terminal 2 in six stages. It is designed to be freely configured.
[0033]
[Third Embodiment]
This 3rd Embodiment shows another embodiment about the correction process of the heat source machine side control part 5 in the said 2nd Embodiment, and demonstrates the correction process of the heat source machine side control part 5. FIG.
Incidentally, since other configurations are the same as those in the first embodiment, detailed description thereof will be omitted by using the same reference numerals.
[0034]
In the second embodiment, the heat source apparatus side control unit 5 sets the open time change rate based on a preset table in the correction process, and uses the open time change rate to set the open / close ratio. Although only the open time in the information is corrected, in the third embodiment, the heat source apparatus side control unit 5 obtains the change rate of the open time by calculation in the correction process, and the change rate of the open time. Is used to correct only the opening time in the open / close ratio setting information.
[0035]
In addition, in the correction process, the heat source apparatus side control unit 5 detects the heat demand load at the terminal 2 based on the temperature E of the heat medium detected by the forward thermistor 21 and the atmospheric temperature F at the terminal 2, Based on the temperature information of the heat medium and the heat demand load information in the terminal 2, the change rate A of the open time is obtained by calculation according to the following [Equation 1], and the open / close ratio setting information is based on the change rate A of the open time. Only the opening time is corrected, and the open / close ratio setting information is corrected to open / close ratio correction information.
In addition, about the atmospheric temperature in the terminal 2, it is possible to use either the temperature detected by a room temperature sensor, atmospheric setting temperature (for example, 20 degreeC), or the temperature of outside temperature, and the heat source side control part 5 is configured to receive the temperature information of the ambient temperature in the terminal 2 through communication with the terminal-side control unit 6.
[0036]
[Expression 1]
A = 100 × {(60−F) + α} / E
A is the change rate of open time
E is the temperature of the heat medium detected by the forward thermistor 21
F is the ambient temperature at the terminal 2
α is a temperature constant, for example, 20 ° C.
[0037]
When the explanation is added, the heat source machine side control unit 5 is configured so that the lower the temperature is, the longer the opening time is with respect to the closing time, based on the temperature information of the heat medium detected by the forward thermistor 21. The terminal 2 is configured to detect the heat demand load and correct the open / close ratio setting information to the open / close ratio correction information so that the larger the heat demand load, the longer the opening time with respect to the closing time. Yes.
[0038]
More specifically, for example, when the ambient temperature F at the terminal 2 is 20 ° C., the heating medium temperature E detected by the forward thermistor 21 is 50 ° C. and the open time change rate A is 120%, the temperature E of the heating medium detected by the forward thermistor 21 is 60 ° C., and the change rate A of the opening time is 100%, and the temperature E of the heating medium detected by the forward thermistor 21 is 70 ° C. Based on the temperature information of the heat medium detected by the forward thermistor 21 with the change rate A being 86%, the opening / closing ratio setting information is set such that the lower the temperature, the longer the opening time. Is corrected to open / close ratio correction information.
Further, for example, when the temperature E of the heat medium detected by the forward thermistor 21 is 60 ° C., according to the above [Equation 1], the ambient temperature F at the terminal 2 is 30 ° C. and the open time change rate A is 83%. When the atmospheric temperature F at the terminal 2 is 20 ° C., the change rate A of the open time is 100%, and when the atmospheric temperature F at the terminal 2 is 10 ° C., the change rate A of the open time is 117%, and the heat demand load is large. The opening / closing ratio setting information is corrected to the opening / closing ratio correction information so that the opening time becomes longer than the closing time.
[0039]
[Another embodiment]
(1) In the first embodiment, the heat source device side control unit 5 sets the open time to the extension set time (based on the temperature of the heat medium changed by the heat medium temperature changing dip switch 22 in the correction process). For example, the open / close ratio setting information is corrected to the open / close ratio correction information by lengthening the open time or shortening the open setting time (for example, 2 minutes). The control configuration of the side control unit 5 can be changed as appropriate.
[0040]
For example, as shown in FIG. 2, the heat source apparatus side control unit 5 uses the heat medium temperature changing dip switch 22 to change the change rate of the open time for correcting the open time in the open / close ratio setting information. It is stored as a preset table for each temperature of the medium, and the change rate of the open time is set based on this table, and the change rate of the open time is used to open and close the open time and the closing time in the open / close ratio setting information. It is also possible to carry out by correcting only the opening time of the time.
In this case, the temperature of the heat medium supplied from the heat source device 3 to the terminal 2 is changed to 6 of 45 ° C., 50 ° C., 55 ° C., 60 ° C., 65 ° C., and 70 ° C. with the DIP switch 22 for changing the heat medium temperature. It is configured to be changeable in stages.
[0041]
Moreover, the heat-source equipment side control part 5 calculates | requires the change rate of opening time by calculation, and it is also possible to carry out by correcting only the opening time in the open / close ratio setting information using the change rate of opening time. It is.
For example, in the above [Equation 1], E is the temperature of the heat medium changed by the dip switch 22 for changing the heat medium temperature, and the change rate of the open time is obtained by calculation using the above [Equation 1]. Is possible.
[0042]
(2) In the third embodiment, the heat source apparatus side control unit 5 obtains the change rate A of the open time by calculation in the above [Equation 1] in the correction process. Is not limited to the above [Equation 1], but may be another arithmetic expression such as [Equation 2] below.
[0043]
[Expression 2]
A = 100 × 60 / E
A is the change rate of open time
E is the temperature of the heat medium detected by the forward thermistor 21
[0044]
(3) In the first to third embodiments, the heat source unit control unit 5 corrects the open time and the single cycle in the open / close ratio setting information in the correction process, but the heat source unit control unit 5 In the correction process, the closing time and the single period in the opening / closing ratio setting information may be corrected, or the closing time and the opening time in the opening / closing ratio setting information may be corrected.
That is, in the correction process, based on the temperature information of the heat medium supplied from the heat source unit 3 to the terminal 2, the heat source unit control unit 5 increases the open time with respect to the closing time as the temperature is lower. As long as the open / close ratio setting information is corrected to the open / close ratio correction information, any information may be used.
[0045]
(4) In the first to third embodiments, one terminal 2 is provided and one thermal valve 4 and one terminal-side control unit 6 are provided. However, a plurality of terminals 2 are provided, and the plurality of terminals 2 are provided. The thermal valve 4 and the terminal-side control unit 6 may be provided corresponding to each, and the number of terminals 2 can be changed as appropriate.
Incidentally, in the case of providing a plurality of terminals 2, the heat source unit side control unit 5 corrects the open / close ratio setting information from all the terminal side control units 6 to the open / close ratio correction information, and sets the open / close ratios in all the thermal valves. Modify or modify only the opening / closing ratio setting information from the terminal side control unit 6 corresponding to the terminal whose temperature of the heat medium supplied from the heat source device 3 is changed to the opening / closing ratio correction information. It is possible to carry out by correcting the open / close ratio in the thermal valve.
[0047]
(6) In the second embodiment, the heat source unit control unit 5 corrects the open / close ratio setting information to the open / close ratio correction information based on the temperature information of the heat medium detected by the forward thermistor 21 in the correction process. However, the heat source machine side control unit 5 uses the dip switch for changing the heat medium temperature in the correction process.22The opening / closing ratio setting information is corrected based on the temperature information of the heating medium changed in step, and the corrected information is converted into the opening / closing ratio correction information based on the temperature information of the heating medium detected by the forward thermistor 21. It is also possible to correct it.
  That is, in the correction process, the heat source machine side control unit 5 does not limit the temperature information for correcting the open / close ratio setting information to the open / close ratio correction information. Is possible.
[0048]
(7) In the first to third embodiments, the heat medium supply system according to the present invention is applied to a heat medium supply system including the heat source device 3 that supplies the heat medium from the heat source device 3 to one terminal 2. However, for example, various other heat medium systems such as a heat medium supply system including a two-temperature type heat source device that supplies a low temperature heat medium to a low temperature terminal and also supplies a high temperature heat medium to a high temperature terminal. It is possible to adapt to
Further, the heat source device 3 is not limited to the one that supplies the terminal 2 with the heat medium heated by the combustion of the burner 9, and other various heat source devices such as the one that supplies the heat medium heated by the electric heater to the terminal. Is adaptable.
[Brief description of the drawings]
FIG. 1 is an overall schematic diagram of a heating medium supply system.
FIG. 2 is a table showing the relationship between the detection temperature of the forward thermistor and the change rate of the open time.
FIG. 3 is an overall schematic diagram of a heating medium supply system in the prior art.
[Explanation of symbols]
1 Heating medium circuit
2 terminal
3 Heat source means
4 Opening and closing means
5 Control means
6 Opening / closing ratio setting means
21 Heat medium temperature detection means
22 Heat medium temperature changing means

Claims (3)

Heat source means for supplying the heated heat medium to the terminal through the heat medium circuit, opening / closing means for opening / closing the heat medium circuit and intermittently supplying the heat medium, operation of the heat source means, and opening / closing operation of the switch means And control means for controlling
An opening / closing ratio setting means for setting an opening / closing ratio between an opening time for maintaining the opening / closing means in an open state and a closing time for maintaining the opening / closing means in a closed state is provided corresponding to the terminal,
The control means periodically controls the opening / closing operation of the opening / closing means in the form of adjusting the opening / closing ratio in a single cycle based on the opening / closing ratio setting information set by the opening / closing ratio setting means. A heating medium supply system configured,
Based on the temperature information of the heat medium supplied from the heat source means to the terminal, the control means sets the opening / closing ratio setting information so that the lower the temperature, the longer the opening time with respect to the closing time. It is configured to correct the opening / closing ratio correction information, and to control the opening / closing operation of the opening / closing means based on the opening / closing ratio correction information ,
A heat medium temperature changing dip switch for changing the temperature of the heat medium supplied from the heat source means to the terminal is provided,
The control means is configured to correct the opening / closing ratio setting information to the opening / closing ratio correction information based on temperature information of the heating medium changed by the dip switch for changing the temperature of the heating medium. Supply system. Heat source means for supplying the heated heat medium to the terminal through the heat medium circuit, opening / closing means for opening / closing the heat medium circuit and intermittently supplying the heat medium, operation of the heat source means, and opening / closing operation of the switch means And control means for controlling
An opening / closing ratio setting means for setting an opening / closing ratio between an opening time for maintaining the opening / closing means in an open state and a closing time for maintaining the opening / closing means in a closed state is provided corresponding to the terminal,
The control means periodically controls the opening / closing operation of the opening / closing means in the form of adjusting the opening / closing ratio in a single cycle based on the opening / closing ratio setting information set by the opening / closing ratio setting means. A heating medium supply system configured,
Based on the temperature information of the heat medium supplied from the heat source means to the terminal, the control means sets the opening / closing ratio setting information so that the lower the temperature, the longer the opening time with respect to the closing time. It is configured to correct the opening / closing ratio correction information, and to control the opening / closing operation of the opening / closing means based on the opening / closing ratio correction information,
A heat medium temperature changing dip switch for changing the temperature of the heat medium supplied from the heat source means to the terminal is provided,
A heat medium temperature detecting means for detecting the temperature of the heat medium supplied from the heat source means to the terminal;
Said control means, based on the temperature information of the heating medium detected by the heat medium temperature detecting means, the heating medium supply system is configured to modify the opening ratio setting information to the on-off ratio correction information. The control means detects a heat demand load in the terminal, and the open / close ratio setting information is set to the open / close ratio correction information so that the open time becomes longer with respect to the close time as the heat demand load increases. The heating medium supply system according to claim 1 , wherein the heating medium supply system is configured to be modified to the above .

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