KR102583364B1 - Household unit with hot water preheating function using bypass function and its control method - Google Patents

Abstract

The present invention solves the problem of dissatisfaction with hot water supply due to the stagnation of fluid flowing into each household, enabling rapid hot water supply in accordance with the hot water temperature set by the user, thereby reducing water waste due to the water wasting phenomenon that occurred during conventional hot water supply of low-temperature water. The purpose is to provide a household unit with a hot water preheating function and a control method using a bypass function that prevents water energy consumption from being reduced.
In order to implement this, the household unit having a hot water preheating function using the bypass function of the present invention is a heating water generation unit equipped so that heating water is supplied to each household by branching from the main heating water supply pipe, which supplies heating water from the heat source of the integrated piping system. lead pipe; a heating water household discharge pipe provided to be connected to a main heating water water return pipe through which heating water withdrawn from each household is returned to the heat source; A heat exchanger that generates hot water by exchanging heat between the heating water and direct water; and a control unit that controls, when setting the hot water preheating function, to form a bypass flow path through which the heating water introduced into the heating water generation inlet pipe flows through the heat exchanger to the heating water generation outlet pipe.

Description

Household unit with hot water preheating function using bypass function and its control method {Household unit with hot water preheating function using bypass function and its control method}

The present invention relates to a household unit having a hot water preheating function using a bypass function and a control method thereof, and more specifically, to a household unit installed in each household of an integrated piping system consisting of a water piping system with a heating water heat source to improve hot water supply performance. This relates to a household unit having a hot water preheating function using a bypass function and its control method.

Recently, large-scale apartments or medium-to-large-sized buildings have installed common heating facilities for the entire complex rather than individual heating and hot water supply systems, and are supplying heating water to each household or each floor through a common piping network. A district and central heating system is being built that uses the supplied heating water to heat areas requiring heating, such as rooms or living rooms, and uses hot water through heat exchange between the supplied heating water and direct water. .

The existing piping structure connected to each individual household for local and central heating is composed of a four-pipe type with a heating supply pipe, a heating return pipe, a domestic hot water supply pipe, and a domestic hot water return pipe. However, while this four-pipe type allows simultaneous use of heating and hot water, it has the disadvantage of incurring a lot of costs during maintenance and new installation.

Therefore, recently, four-season heating is possible, the temperature of hot water can be controlled like an individual boiler, and the structure of the facility has been simplified as it consists of two pipes, a heating supply pipe and a heating return pipe that supply and return water from the heat source. The use of two-pipe integrated piping systems is increasing. The prior art related to this two-pipe integrated piping system is disclosed in Korean Patent Publication No. 10-2016-0150313.

Meanwhile, referring to FIG. 1, the conventional integrated piping system includes a heat source 10 that heats heating water and supplies it to each household of the apartment complex 20 and 30, and is installed in each household to heat water from the heat source 10. A household unit 40 including a heat exchanger 41 that generates hot water by heat exchange between supplied heating water and direct water, and a heating water main supply pipe (L1) through which heating water supplied from the heat source 10 is supplied to each household. , L2, L3, L4-1, L4-2), heating water main water return pipes (L5-1, L5-2, L6, L7, L8) through which the heating water withdrawn from each household is returned to the heat source 10. , heating water household inlet pipes (L9-1, L9-2) branched from the heating water main supply pipes (L4-1, L4-2) and injecting heating water into each household, and heating water withdrawn from each household to the heating water. Heating water household discharge pipes (L10-1, L10-2) connected to water main water return pipes (L5-1, L5-2), the heat source (10) and heating water main supply pipes (L1, L2, L3, L4- 1, L4-2) and a circulation pump 50 that pumps the heating water so that it circulates to the main heating water return pipes (L5-1, L5-2).

For example, the conventional integrated piping system includes a heating water household inlet pipe (L9-1, L9-2), a heat exchanger (41), and a heating water household outlet pipe (L10-1, L10) when heating or domestic hot water is not used in each household. -2) The structure in which heating water is circulated is insufficient, and as shown by 'A' and 'B' in Figure 1, the heating water main supply pipes (L2, L4-1) located on the top floor of the apartment building (20) and the heating water A differential pressure bypass valve (60, 70) and a temperature maintenance sensor (not shown) are installed between the main water return pipes (L7, L5-1) and the heating water main supply pipe (L2, L4-1) and the heating water main return pipe. A bypass flow path is formed between (L7, L5-1) so that heating water circulates through the heat source (10), the main heating water supply pipe (L2, L4-1), and the main heating water return pipe (L7, L5-1). It is done.

As another example, the conventional integrated piping system includes a heating water household inlet pipe (L9-1, L9-2), a heat exchanger (41), and a heating water household outlet pipe (L10-1, L10) when heating or domestic hot water is not used in each household. -2) The structure for circulating heating water is insufficient, and as shown by 'C' in Figure 1, the main heating water supply pipe (L4-2) and the main heating water return pipe (L5-) located on the top floor of the apartment building (30) 2) It is structured so that a separate bypass valve is not installed in between, so when heating or domestic hot water is not used in each household, the heating water inlet pipes (L9-1, L9-2), the heat exchanger (41), and the heating water are discharged from the household. It has a structure in which the stagnation phenomenon in which fluid does not circulate becomes more severe not only in the pipes (L10-1, L10-2) but also in the main heating water supply pipe (L4-2) and the main heating water return pipe (L5-2).

As described above, in the conventional integrated piping system, when heating or hot water is not used in each household, heating water does not flow into the heating water household inlet pipes (L9-1, L9-2), so the heating water household inlet pipes (L9-1, L9-2) -2) The heating water remaining in the heat exchanger 41 and the heating water discharge pipes (L10-1, L10-2) does not circulate and stagnates, so when using hot water, the stagnant heating water whose temperature has been lowered is adjusted to the set temperature for hot water. Because it takes a long time to heat up, cold water is dispensed for a long time at the beginning of hot water use, causing consumer dissatisfaction with hot water supply, water waste due to discarding water (city water), and unnecessary water usage charges.

In addition, in order to circulate heating water while maintaining it at a constant temperature between the heating water main supply pipe (L4-2) and the heating water main return pipe (L5-2), differential pressure bypass valves (60, 70) and temperature maintenance valves are used. Since the same separate parts must be installed additionally, the equipment structure of the integrated piping system becomes complicated, which causes problems such as increased construction costs, delayed construction period, and increased maintenance costs that will continue to occur in the future.

The present invention was developed to solve the above-mentioned problems. It solves the problem of dissatisfaction with hot water supply due to stagnation of fluid flowing into each household, and enables rapid hot water supply according to the hot water temperature set by the user, thereby reducing the use of conventional low-temperature water. The purpose is to provide a household unit with a hot water preheating function and its control method using a bypass function to reduce water energy consumption by preventing water waste due to water wasting caused during hot water supply.

The household unit having a hot water preheating function using the bypass function of the present invention to implement the above-described purpose is branched from the main heating water supply pipe, which supplies heating water from the heat source of the integrated piping system, so that the heating water is introduced into each household. Equipped heating water household inlet pipe; a heating water household discharge pipe provided to be connected to a main heating water water return pipe through which heating water withdrawn from each household is returned to the heat source; A heat exchanger that generates hot water by exchanging heat between the heating water and direct water; And when the hot water preheating function is set, a bypass flow path is controlled to be formed through which the heating water introduced into the heating water household inlet pipe flows to the heating water household outlet pipe via the heat exchanger, and when the heating or hot water supply mode is not in operation, Controls the hot water preheating function to be executed, determines whether a release condition for executing the hot water preheating function is present during execution of the hot water preheating function, and executes the hot water preheating function if the release condition for executing the hot water preheating function is not met. and a control unit that maintains the state and controls to stop executing the hot water preheating function when the release condition for executing the hot water preheating function is met.

It may further include a hot water supply control valve that regulates the flow of heating water through the bypass passage.

The heating water household inlet pipe is connected to the heating water main supply pipe and a heating distributor supply unit that supplies heating water to heating consumers, and the heating water household outlet pipe is connected to the heating distributor water supply pipe that returns heating water via the heating consumers. It is connected to the heating water main water return pipe and may further include a heating control valve that regulates the flow of heating water through the heating source.

The control unit controls the opening and closing operations of the hot water supply control valve and the heating control valve. When the hot water preheating function is set, the control unit may control the hot water supply control valve to open and the heating control valve to close.

A heating water heat exchanger inlet pipe branched from the heating water generation inlet pipe and connected to the heating water inlet side of the heat exchanger, and a heating water heat exchanger connecting the heating water outlet side of the heat exchanger and the heating water generation outlet pipe. It may include an outflow pipe, the heating water heat exchanger inlet pipe is provided with the hot water supply control valve, and the heating water heat exchanger outlet pipe is provided with a heating water temperature sensor for measuring the temperature of the heating water passing through the heat exchanger. You can.

In addition, a direct water inlet pipe branched from the main direct water supply pipe through which direct water is supplied and connected to the direct water inlet side of the heat exchanger through which direct water enters each household, and an outlet of hot water generated by heat exchange with heating water in the heat exchanger It includes a hot water tap connected from the side to a hot water source, the direct water inlet pipe is equipped with a flow sensor to detect the flow of direct water, and the hot water tap pipe is equipped with a hot water temperature sensor to measure the temperature of hot water. You can.

If there is a request for use of heating while the hot water preheating function is being executed, the controller may determine that a condition for disabling the hot water preheating function is met and control the execution of the hot water preheating function to be stopped.

While executing the hot water preheating function, if the flow of direct water is detected by the flow sensor, the control unit determines that there is a request to use hot water, determines that the release condition for executing the hot water preheating function is met, and stops executing the hot water preheating function. It can be controlled as much as possible.

The control unit determines that the hot water temperature measured by the hot water temperature sensor reaches a first reference temperature, which is a temperature obtained by adding a predetermined temperature to the hot water temperature set by the user, and the state in which the first reference temperature is reached is maintained for a certain period of time. If the condition is maintained above, it may be determined that the condition for disabling the hot water preheating function is met, and the hot water preheating function may be controlled to stop running.

When the hot water temperature measured by the hot water temperature sensor reaches the second reference temperature set as the appropriate upper limit temperature for hot water use, the control unit determines that the condition for disabling the hot water preheating function is satisfied and executes the hot water preheating function. This can be controlled to stop.

When the maximum operation time, which is the limit time for executing the hot water preheating function, has elapsed from the time execution of the hot water preheating function is started, the control unit determines that the release condition for executing the hot water preheating function is met and stops executing the hot water preheating function. It can be controlled as much as possible.

If the heating or hot water supply mode is not in operation for a set time after execution of the hot water preheating function is stopped, the controller may control the hot water preheating function to be executed again.

The method of controlling a household unit with a hot water preheating function using the bypass function of the present invention is to control the heat exchanger of the household unit with the heating water branched from the main heating water supply pipe of the integrated piping system and introduced into each household through the heating water household inlet pipe. A control method of a household unit having a hot water preheating function using a bypass function in which the heating water is circulated through the household discharge pipe to the heating main water return pipe, comprising the steps of: a) determining whether the heating or hot water supply mode is being operated; b) executing a hot water preheating function using the bypass function when the heating or hot water supply mode is not in operation; and c) determine whether the release condition for execution of the hot water preheating function is in a state, and if the release condition for execution of the hot water preheating function is not met, maintain the execution state of the hot water preheating function, and if the release condition for execution of the hot water preheating function is met. and stopping execution of the hot water preheating function when the condition is met.

In step c), if there is a request to use heating or hot water while the hot water preheating function is being executed, it may be configured to stop executing the hot water preheating function by determining that the release condition for executing the hot water preheating function is met.

In step c), while the hot water preheating function is being executed, the measured temperature of the hot water preheated by heat exchange with the heating water passing through the heat exchanger is a first standard that is a temperature obtained by adding a predetermined temperature to the hot water set temperature set by the user. When the temperature reaches the first reference temperature and the state of reaching the first reference temperature is maintained for more than a certain period of time, it may be determined that the conditions for releasing the hot water preheating function are met and the hot water preheating function is stopped.

In step c), while the hot water preheating function is being executed, when the measured temperature of the hot water preheated by heat exchange with the heating water passing through the heat exchanger reaches the second reference temperature set as the appropriate upper limit temperature for hot water use, the hot water It may be configured to stop executing the hot water preheating function by determining that the release condition for executing the preheating function is met.

In addition, the maximum operation time, which is the limit time for executing the hot water preheating function, is set, and when the maximum operation time has elapsed from the time when execution of the hot water preheating function is started, it is determined that the release condition for executing the hot water preheating function is satisfied, and the It can be configured to stop running the hot water preheating function.

After execution of the hot water preheating function is stopped, if the heating or hot water supply mode is not in operation for a set time, steps a) to c) may be configured to be performed again.

According to the household unit and its control method having a hot water preheating function using a bypass function according to the present invention, the advantages of the existing integrated piping system are maintained, but the heating of the household, which is a problem of the existing 4-pipe or 2-pipe integrated piping system, is solved. By solving the problem of delay in hot water supply time due to fluid stagnation at the water inlet, rapid hot water supply is possible according to the hot water temperature set by the user, thereby preventing water waste due to water wasting phenomenon that occurred when supplying low-temperature water. (Sisu) The utility of use can be improved.

In addition, there is no need to install parts (differential pressure bypass valve, temperature maintenance valve, etc.) that were installed at the end of the pipe or household pipe of the existing integrated piping system, which simplifies the equipment, making it possible to reduce construction cost and construction period, while also reducing water ( It is possible to reduce the cost of water use and maintenance costs that will continue to occur in the future.

Figure 1 is a schematic diagram of a conventional integrated piping system;
Figure 2 is a schematic diagram of an integrated piping system installed with a household unit having a hot water preheating function using the bypass function of the present invention;
Figure 3 is a schematic diagram of a household unit having a hot water preheating function using the bypass function of the present invention and a water pipe connected thereto;
Figure 4 is a control block diagram of a household unit having a hot water preheating function using the bypass function of the present invention;
5 is a flow diagram of fluid when using heating,
Figure 6 is a flow diagram of fluid when heating and hot water are not used;
Figure 7 is a flow diagram of fluid when using hot water;
Figure 8 is a flow diagram of fluid when using heating and hot water;
Figure 9 is a fluid flow diagram when the bypass hot water preheating function is in operation;
Figure 10 is a diagram for explaining conditions for canceling the execution of the hot water preheating function;
Figure 11 is a flowchart showing a control method of a household unit with a hot water preheating function using the bypass function of the present invention.

Hereinafter, the structure and operation of a preferred embodiment of the present invention will be described in detail with reference to the attached drawings.

Referring to FIG. 2, the integrated piping system installed with the household unit 100 having a hot water preheating function using the bypass function of the present invention includes a heat source 10 that heats heating water and supplies it to each household of the apartment complex 80. ), a household unit 100 installed in each household and including a heat exchanger 110 that generates hot water by heat exchange between heating water supplied from the heat source 10 and direct water, supplied from the heat source 10 Heating water main supply pipes (L1, L2, L3, L4-1, L4-2) through which heating water is supplied to each household, and heating water main water return pipes through which heating water withdrawn from each household is returned to the heat source 10 ( L5-1, L5-2, L6, L7, L8), a heating water household inlet pipe (L9) branched from the heating water main supply pipe (L4-1, L4-2) and provided to allow heating water to be introduced into each household; A heating water household discharge pipe (L10) provided so that the heating water withdrawn from each household is connected to the heating water main water return pipe (L5-1, L5-2), the heat source 10 and the heating water main supply pipe (L1, L2, L3, L4-1, L4-2) and the main heating water return pipe (L5-1, L5-2, L6, L7, L8), including a circulation pump (50) that pumps the heating water so that it circulates. It is composed by:

In addition, the household unit 100, which has a hot water preheating function using the bypass function of the present invention, has a bypass connecting the heating water household inlet pipe (L9), the heat exchanger 110, and the heating water household outlet pipe (L10). By forming a flow path (P) and executing a hot water preheating function when heating or hot water supply is not used to prevent fluid stagnation, as indicated by 'D', 'E', and 'F' in Figure 2, the conventional Unlike the integrated piping system, there is a differential pressure between the heating water main supply pipes (L2, L4-1, L4-2) and the heating water main return pipes (L7, L5-1, L5-2) located on the top floor of the apartment building (80). There is no need to install separate parts such as bypass valves and temperature maintenance sensors, simplifying the structure of the integrated piping system.

Referring to Figures 3 and 4, the household unit 100 having a hot water preheating function using the bypass function of the present invention is supplied from the main heating water supply pipe (L4) through which heating water is supplied from the heat source 10 of the integrated piping system. A heating water household inlet pipe (L9) branched and provided to allow heating water to enter each household, and a heating water main water return pipe (L5) through which heating water withdrawn from each household is returned to the heat source (10). When the hot water preheating function is set, the heating water introduced into the heating water household inlet pipe (L9), the heat exchanger 110 for generating hot water by heat exchange between the heating water and direct water, and the heating water outlet pipe (L10), the heat exchanger It includes a control unit 400 that controls the formation of a bypass passage (P) flowing through the machine 110 to the heating water generation discharge pipe (L10).

The heat exchanger 110 is divided into a first area (110a) through which heating water passes and a second area (110b) through which direct water passes, and heats the direct water through indirect heat exchange between the heating water and the direct water to produce hot water. It is configured to create

A heating water heat exchanger inlet pipe (L11) is branched from the heating water generation inlet pipe (L9) and connected to the heating water inlet side of the heat exchanger (110), and the heating water outlet side of the heat exchanger (110) is connected to the heating water inlet pipe (L11). The heating water heat exchanger outlet pipe (L12), which joins the household outlet pipe (L10), is connected. The heating water heat exchanger inlet pipe (L11) is provided with a hot water control valve 120 that regulates the flow of heating water through the bypass passage (P), and the heating water heat exchanger outlet pipe (L12) is provided with the heat exchanger. A heating water temperature sensor 150 is provided to measure the temperature of the heating water passing through the device 110. The hot water supply control valve 120 may be opened and closed in an ON/OFF manner, or may be configured to have a structure in which the opening amount can be proportionally adjusted according to the heating load and hot water load.

The heating water household inlet pipe (L9) is connected to the heating water main supply pipe (L4) and a heating distributor supply unit 210 that supplies heating water to the floor heating coil 221 provided in the heating consumption area 220, The heating water household discharge pipe (L10) is connected to the heating distributor water exchange unit 230, through which heating water is returned via the floor heating coil 221 of the heating consumption point 220, and the heating water main water return pipe (L5). do. In addition, the heating water generation discharge pipe (L10) is provided with a heating control valve (130) that regulates the flow of heating water through the heating demand point (220).

The household unit 100 includes a direct water inlet pipe (L14) branched from the main direct water supply pipe (L13) through which direct water is supplied, through which direct water enters each household, and connected to the direct water inlet side of the heat exchanger (110), A hot water tap pipe (L15) is provided that connects the outlet side of the hot water generated by heat exchange with the heating water in the heat exchanger (110) to the hot water consumption source (240). The direct water inlet pipe (L14) is provided with a flow sensor 140 for detecting the flow of direct water, and the hot water tap pipe (L15) is provided with a hot water temperature sensor 160 for measuring the temperature of hot water.

Referring to FIG. 4, the control unit 400 receives a heating use request, a hot water use request, and And based on the hot water preheating function setting signal and the signals detected by the flow sensor 140, the heating water temperature sensor 150, and the hot water temperature sensor 160, the hot water supply control valve 120 and the heating control valve 130 ) controls the opening and closing operation.

Referring to FIG. 5, when using heating, the control unit 400 controls the hot water supply control valve 120 to be closed and the heating control valve 130 to be open. Therefore, the heating water supplied through the main heating water supply pipe (L4) is the heating water household inlet pipe (L9), the heating distributor supply unit 210, the floor heating coil 221 of the heating consumption area 220, and the heating distributor return water. The heating water is returned to the main water return pipe (L5) via the unit 230, the heating control valve 130, and the heating water discharge pipe (L10).

In FIG. 5 and the drawings below, hatched marks in the form of diagonals indicate the flow of heating water, hatched marks in the form of dots indicate the flows of direct water and hot water, and arrows indicate the flow directions of heating water, direct water, and hot water. will be.

Referring to FIG. 6, when heating and hot water supply are not in use, the control unit 400 controls both the hot water control valve 120 and the heating control valve 130 to close. Therefore, the heating water flows along the main heating water supply pipe (L4) and the main heating water return pipe (L5), the direct water flows along the main direct water supply pipe (L13), and the heating water inlet pipe (L9) and the household outlet. The flow of heating water becomes stagnant in the pipe L10.

Referring to FIG. 7, when using hot water, the control unit 400 controls the hot water supply control valve 120 to be opened and the heating control valve 130 to be closed. Therefore, the heating water supplied through the main heating water supply pipe (L4) is supplied through the heating water household inlet pipe (L9), the heating control valve 120, the heating water heat exchanger inlet pipe (L11), and the heat exchanger (110). In area 1 (110a), the heating water is returned to the main water return pipe (L5) via the heating water heat exchanger outlet pipe (L12) and the heating water household discharge pipe (L10). At the same time, the direct water supplied through the direct water main supply pipe (L13) exchanges heat with heating water via the direct water inlet pipe (L14), the second area (110b) of the heat exchanger 110, and the hot water tap pipe (L15). It is generated as hot water and supplied to the hot water source (240).

Referring to FIG. 8, when using heating and hot water, the control unit 400 controls the hot water supply control valve 120 to be opened proportionally according to the heating load and hot water load, and the heating control valve 130 to be opened. Control. Therefore, some of the heating water supplied through the main heating water supply pipe (L4) is supplied to the heating water household inlet pipe (L9), the heating distributor supply unit (210), the floor heating coil (221) of the heating consumption area (220), and the heating water supply pipe (L9). The heating water is returned to the heating water main water return pipe (L5) via the distributor water return unit 230, the heating control valve 130, and the heating water discharge pipe (L10), and the heating supplied through the heating water main supply pipe (L4) The remaining part of the water is the heating water household inlet pipe (L9), the heating control valve 120 and the heating water heat exchanger inlet pipe (L11), the first area 110a of the heat exchanger 110, and the heating water heat exchanger discharge. The heating water is returned to the main water return pipe (L5) via the pipe (L12) and the heating water discharge pipe (L10). At the same time, the direct water supplied through the direct water main supply pipe (L13) exchanges heat with heating water via the direct water inlet pipe (L14), the second area (110b) of the heat exchanger 110, and the hot water tap pipe (L15). It is generated as hot water and supplied to the hot water source (240).

Referring to FIG. 9, when the bypass hot water preheating function is in operation, the control unit 400 controls the hot water supply control valve 120 to be opened and the heating control valve 130 to be closed. Therefore, the heating water supplied through the main heating water supply pipe (L4) is supplied through the heating water household inlet pipe (L9), the heating control valve 120, the heating water heat exchanger inlet pipe (L11), and the heat exchanger (110). In area 1 (110a), the heating water is returned to the main water return pipe (L5) via the heating water heat exchanger outlet pipe (L12) and the heating water household discharge pipe (L10).

When the bypass hot water preheating function is executed in this way, heating is heated inside the heating water household inlet pipe (L9), the first area (110a) of the heat exchanger (110), and the heating water household outlet pipe (L10) even when heating and domestic hot water are not used. Since water stagnation is prevented and the heated heating water circulates through the bypass path (P), the heat of the heating water is used to heat the second area 110b of the heat exchanger 110 and the hot water tap pipe L15 connected thereto. It is possible to preheat the hot water remaining inside. Therefore, when using hot water, rapid hot water supply is possible in accordance with the hot water temperature set by the user, and thus water waste due to the water wasting phenomenon that occurred when conventional low-temperature water was supplied can be prevented.

Meanwhile, during operation of the bypass hot water preheating function, if the condition for disabling the hot water preheating function is met, the execution of the hot water preheating function is controlled to stop.

Referring to FIG. 10, in one embodiment, the control unit 400 may control execution of the hot water preheating function to be stopped if there is a request to use heating or hot water while the hot water preheating function is being executed. The heating use request is determined based on a signal where the user sets the heating temperature in the heating temperature setting unit 310, and the hot water use request is made when the flow of direct water is detected by the flow sensor 140. If it is determined that this is the case, the hot water preheating function may be controlled to be stopped.

In another embodiment, the control unit 400 determines that the hot water temperature measured by the hot water temperature sensor 160 reaches the first reference temperature, which is the temperature obtained by adding a predetermined temperature to the hot water temperature set by the user, and If the state of reaching the first reference temperature is maintained for more than a certain period of time, execution of the hot water preheating function can be controlled to stop.

In another embodiment, the control unit 400 stops executing the hot water preheating function when the hot water temperature measured by the hot water temperature sensor 160 reaches the second reference temperature set as the appropriate upper limit temperature for hot water use. It can be controlled as much as possible.

In another embodiment, the control unit 400 may control the execution of the hot water preheating function to be stopped when the maximum operation time, which is the limit time for executing the hot water preheating function, has elapsed from the time the hot water preheating function is started. .

In this way, after execution of the hot water preheating function is stopped and the heating or hot water supply mode is not in operation for a set time, the control unit 400 may control the hot water preheating function to be executed again.

Hereinafter, with reference to FIG. 11, a control method of a household unit with a hot water preheating function using the bypass function of the present invention will be described.

First, it is determined whether the integrated piping system and household unit 110 is operating in heating or hot water mode (S1).

As a result of the determination in step S1, if the operation is in the heating or hot water mode, the operation is performed in the corresponding mode (S2). Then, when the set heating or hot water supply mode operation is terminated, the heating or hot water supply mode non-operation time is checked (S3), and if the heating or hot water supply mode is not in operation for the set time, the process returns to step S1.

As a result of the determination in step S1, if the heating or hot water mode is not in operation, the hot water preheating function is executed (S4).

Then, it is determined whether the release condition for execution of the hot water preheating function is in a state, and if the release condition for execution of the hot water preheating function is not met, the execution state of the hot water preheating function is maintained, and the release condition for execution of the hot water preheating function is met. When this happens, perform steps (S5, S6, S7, S8) to stop executing the hot water preheating function.

If there is a request to use heating or hot water while the hot water preheating function is being executed in step S4, it is determined that the conditions for disabling the hot water preheating function are met and the hot water preheating function is stopped (S5).

While executing the hot water preheating function in step S4, the measured temperature of the hot water preheated by heat exchange with the heating water passing through the heat exchanger 110 is the temperature of the hot water set temperature set by the user plus a predetermined temperature. When the reference temperature is reached and the state of reaching the first reference temperature is maintained for more than a certain period of time, it is determined that the conditions for disabling the hot water preheating function are met and the hot water preheating function is stopped (S6).

While executing the hot water preheating function in step S4, when the measured temperature of the hot water preheated by heat exchange with the heating water passing through the heat exchanger 110 reaches the second reference temperature set as the appropriate upper limit temperature for hot water use, It is determined that the conditions for disabling the hot water preheating function are met, and the hot water preheating function is stopped (S7).

In addition, the maximum operation time, which is the limit time for executing the hot water preheating function, is set, and when the maximum operation time has elapsed from the time the hot water preheating function execution in step S4 is started, the release condition for executing the hot water preheating function is satisfied. The decision is made to stop executing the hot water preheating function (S8).

However, the order of determining whether the release condition for executing the hot water preheating function in steps S5 to S8 has been met may be performed sequentially, in a different order before or after steps, or performed simultaneously.

If at least one of the conditions for disabling the hot water preheating function is met and execution of the hot water preheating function is stopped, return to step S3 to check the time when the heating or hot water supply mode is not in operation, and the time when the heating or hot water supply mode is set. If it is not in operation for a while, steps S1 to S8 are performed again.

As described above, the present invention is not limited to the above-described embodiments, and obvious modifications can be made by those skilled in the art without departing from the technical spirit of the present invention as claimed in the claims. It is possible, and such modifications fall within the scope of the present invention.

10: Heat source 20,30,80: Apartment house
40: Generation unit 41: Heat exchanger
50: Circulation pump 60,70: Differential pressure bypass valve
100: Generation unit 110: Heat exchanger
110a: first area 110b: second area
120: hot water control valve 130: heating control valve
140: flow sensor 150: heating water temperature sensor
160: hot water temperature sensor 210: heating distributor supply unit
220: Heating requirements 221: Floor heating coil
230: Heating distributor water return unit 240: Hot water consumption source
310: heating temperature setting unit 320: hot water temperature setting unit
330: hot water preheating function setting unit 400: control unit
L1,L2,L3,L4,L4-1,L4-2: Heating water main supply pipe
L5,L5-1,L5-2,L6,L7,L8: Heating water main return pipe
L9,L9-1,L9-2: Heating water household inlet pipe
L10,L10-1,L10-2: Heating water discharge pipe
L11: Heating water heat exchanger inlet pipe L12: Heating water heat exchanger outlet pipe
L13: Direct water main supply pipe L14: Direct water inlet pipe
L15: Hot water tap P: Bypass flow path

Claims (18)

A heating water household inlet pipe branched from the main heating water supply pipe through which heating water is supplied from the heat source of the integrated piping system and provided to allow heating water to be introduced into each household;
a heating water household discharge pipe provided to be connected to a main heating water water return pipe through which heating water withdrawn from each household is returned to the heat source;
A heat exchanger that generates hot water by exchanging heat between the heating water and direct water; and
When setting the hot water preheating function, a bypass flow path is controlled to be formed through which the heating water introduced into the heating water household inlet pipe flows through the heat exchanger to the heating water household outlet pipe, and when the heating or hot water supply mode is not in operation, the heating water is controlled to be formed. Controls the hot water preheating function to be executed, determines whether the hot water preheating function is in a release condition during execution of the hot water preheating function, and if the hot water preheating function release condition is not met, the hot water preheating function is in an execution state. A control unit that maintains and controls to stop executing the hot water preheating function when a release condition for executing the hot water preheating function is met;
A household unit with a hot water preheating function using a bypass function including. According to paragraph 1,
A household unit having a hot water preheating function using a bypass function, further comprising a hot water supply control valve that regulates the flow of heating water through the bypass passage. According to paragraph 2,
The heating water household inlet pipe is connected to the heating water main supply pipe and a heating distributor supply unit that supplies heating water to heating consumers,
The heating water household discharge pipe is connected to the heating distributor water return unit through which heating water passing through the heating consumption point is returned and the heating water main water return pipe,
A household unit having a hot water preheating function using a bypass function, further comprising a heating control valve that regulates the flow of heating water through the heating source. According to paragraph 3,
The control unit controls the opening and closing operations of the hot water control valve and the heating control valve, and when the hot water preheating function is set, the control unit uses a bypass function, characterized in that it controls the hot water supply control valve to open and the heating control valve to close. Household unit with hot water preheating function. According to paragraph 2,
A heating water heat exchanger inlet pipe branched from the heating water generation inlet pipe and connected to the heating water inlet side of the heat exchanger;
It includes a heating water heat exchanger outlet pipe connecting the heating water outlet side of the heat exchanger and the heating water generation outlet pipe,
A bypass, characterized in that the hot water supply control valve is provided in the heating water heat exchanger inlet pipe, and the heating water heat exchanger outlet pipe is provided with a heating water temperature sensor for measuring the temperature of the heating water passing through the heat exchanger. A household unit with a hot water preheating function. According to paragraph 1,
A direct water inlet pipe branched from the main direct water supply pipe through which direct water is supplied, and connected to the direct water inlet side of the heat exchanger through which direct water enters each household;
It includes a hot water tap connected to a hot water source at the outlet side of the hot water generated by heat exchange with the heating water in the heat exchanger,
The direct water inlet pipe is equipped with a flow sensor for detecting the flow of direct water, and the hot water tap pipe is equipped with a hot water temperature sensor to measure the temperature of hot water. It has a hot water preheating function using a bypass function. generation unit. According to paragraph 1,
The control unit determines that the conditions for disabling the hot water preheating function are met when there is a request for use of heating while the hot water preheating function is being executed, and controls the execution of the hot water preheating function to be stopped. Household unit with hot water preheating function. According to clause 6,
While executing the hot water preheating function, if the flow of direct water is detected by the flow sensor, the control unit determines that there is a request to use hot water, determines that the release condition for executing the hot water preheating function is met, and stops executing the hot water preheating function. A household unit with a hot water preheating function using a bypass function, characterized in that it is controlled as much as possible. According to clause 6,
The control unit determines that the hot water temperature measured by the hot water temperature sensor reaches a first reference temperature, which is a temperature obtained by adding a predetermined temperature to the hot water temperature set by the user, and the state in which the first reference temperature is reached is maintained for a certain period of time. A household unit having a hot water preheating function using a bypass function, characterized in that, if maintained above, it is determined that the release condition for execution of the hot water preheating function is met and the execution of the hot water preheating function is controlled to be stopped. According to clause 6,
When the hot water temperature measured by the hot water temperature sensor reaches the second reference temperature set as the appropriate upper limit temperature for hot water use, the control unit determines that the condition for disabling the hot water preheating function is satisfied and executes the hot water preheating function. A household unit with a hot water preheating function using a bypass function, characterized in that it is controlled to stop. According to paragraph 1,
When the maximum operation time, which is the limit time for executing the hot water preheating function, has elapsed from the time execution of the hot water preheating function is started, the control unit determines that the release condition for executing the hot water preheating function is met and stops executing the hot water preheating function. A household unit with a hot water preheating function using a bypass function, characterized in that it is controlled as much as possible. According to any one of claims 7 to 11,
After execution of the hot water preheating function is stopped, if the heating or hot water supply mode is not in operation for a set time, the control unit performs a hot water preheating function using a bypass function, wherein the control unit controls the hot water preheating function to be executed again. Having a household unit. A bypass function in which the heating water that branches off from the main heating water supply pipe of the integrated piping system and enters each household through the heating water household inlet pipe passes through the heat exchanger of the household unit and circulates through the heating water household outlet pipe to the main heating water return pipe. As a control method of a household unit with a hot water preheating function using,
a) determining whether heating or hot water mode is being operated;
b) executing a hot water preheating function using the bypass function when the heating or hot water supply mode is not in operation; and
c) Determine whether the release condition for execution of the hot water preheating function is in a state, and if the release condition for execution of the hot water preheating function is not met, maintain the execution state of the hot water preheating function, and the release condition for execution of the hot water preheating function is met. stopping execution of the hot water preheating function;
A control method of a household unit with a hot water preheating function using a bypass function including. According to clause 13,
In step c), if there is a request to use heating or hot water while the hot water preheating function is being executed, the bypass function is characterized in that it is determined that the conditions for disabling the hot water preheating function are met and the hot water preheating function is stopped. Control method of a household unit with a hot water preheating function using . According to clause 13,
In step c), while the hot water preheating function is being executed, the measured temperature of the hot water preheated by heat exchange with the heating water passing through the heat exchanger is a first standard that is a temperature obtained by adding a predetermined temperature to the hot water set temperature set by the user. When the temperature reaches the first reference temperature and the state of reaching the first reference temperature is maintained for more than a certain period of time, the bypass function determines that the conditions for disabling the hot water preheating function are satisfied and stops executing the hot water preheating function. Control method of a household unit with a hot water preheating function using . According to clause 13,
In step c), while the hot water preheating function is being executed, when the measured temperature of the hot water preheated by heat exchange with the heating water passing through the heat exchanger reaches the second reference temperature set as the appropriate upper limit temperature for hot water use, the hot water A control method of a household unit having a hot water preheating function using a bypass function, characterized in that execution of the hot water preheating function is stopped by determining that the release condition for executing the preheating function is met. According to clause 13,
The maximum operation time, which is the limit time for the hot water preheating function to be executed, is set,
Hot water preheating using a bypass function, wherein when the maximum operation time has elapsed from the time the hot water preheating function is started, it is determined that the release condition for the hot water preheating function is satisfied and the hot water preheating function is stopped. Control method of a generation unit with functions. According to any one of claims 13 to 17,
Having a hot water preheating function using a bypass function, characterized in that steps a) to c) are performed again if the heating or hot water supply mode is not in operation for a set time after the execution of the hot water preheating function is stopped. Control method of generation unit.

Images