CN211503276U - Distributed hot water system - Google Patents

Abstract

The utility model belongs to the water heater field, in particular to distributing type hot water system. The water heater comprises at least two water heaters which are respectively arranged near a water using terminal, and the water heaters are arranged on a hot water pipe in a parallel, serial or combined connection mode, the installation and control mode of the water heater enables at least one water heater to work with other water heaters, the structure or the installation mode of at least one water heater enables the water heater to provide hot water for the water using terminal and the hot water pipe, and the water heater can work with other water heaters and can provide hot water for the two water heaters. By the scheme, the electric water heater with high power or large capacity is split into the water heaters with low power and small capacity and distributed on each wire branch, the water heaters are arranged near each water consumption point, and meanwhile, a plurality of water heaters jointly form the high-power water heater to transform the large electric water heater into small household appliances.

Description

Distributed hot water system

Technical Field

The utility model belongs to the water heater field, especially a distributing type hot water system.

Background

The existing household or commercial hot water supply adopts three forms of single-point water supply, centralized water supply and combined water supply, for example, a small kitchen appliance only supplies one faucet, and an electric water heater only supplies one shower head, which are single-point water supply; the centralized water supply is that one water heater supplies hot water of a plurality of water using points, not only provides water for all taps, but also provides water for bathing, and the centralized water supply is a form of centralized water supply; one water heater is matched with a plurality of small kitchen wares or electric heating water taps, the water heater is used for bathing, and the kitchen wares and the electric heating water taps are used for tap hot water, so that combined water supply is realized. The three conventional hot water supply schemes have disadvantages. 1, single-point water supply ensures that each water heater needs to meet the requirement of a water consumption point, for example, two water heaters are arranged in two toilets, each water heater needs to meet the requirement of bathing, and each water heater is a large-volume or high-power water heater; the large-volume electric water storage type heat preservation and radiation causes great waste of energy, unsanitary scale formation and high manufacturing, transporting, installing and maintaining costs; if the instant heating type is adopted, each water heater has to ensure large power, and a single water heater needs to be relatively comfortable in ten thousand watts, and a common household line cannot be installed at all; meanwhile, each counter basin with single-point water supply needs to be provided with a small kitchen treasure. 2. In the centralized water supply, because each water using point has a certain distance with the water heater, a large amount of cold water is discharged when hot water is used each time; if a backwater device is added, the following problems also exist: if the timing return water circulation is adopted, the random hot water demand cannot be met; if constant-temperature hot water circulation is adopted, the waste energy is too large, and the current concept of energy conservation and environmental protection is very inconsistent; for example, in two toilets, the near shower head and faucet are about 8 meters long and about 20 meters far away from the common hot water pipeline of the water heater, so that the heat energy of about 5 liters of hot water is wasted after each circulation. If the backwater circulation is only used for bathing, the frequency is not high, the backwater circulation is acceptable, but the tap is usually cleaned by hot water, the average time is about 15 times per person per day, and the heat of 150 to 300 liters of hot water is wasted by four families per day, which is very surprising. Therefore, if the centralized water supply is to achieve the purpose that hot water is available at any time, even air energy is used, if hot water is needed, the energy-saving water heater is not energy-saving in actual use compared with an electric instant water heater, the cost of manufacturing, transporting, installing and the like is low, the household use is not cost-effective and more expensive, and the water tank of the air energy is also a hotbed for storing dirt and breeding bacteria. 3. The form that the combination formula was supplied water all installs kitchen treasured or adopts electric heat tap under all taps, and the water heater only is used for bathing, has solved above-mentioned problem to a certain extent, but also brings other problems simultaneously, for example increased the cost of buying and selling, kitchen treasured itself will keep warm the heat dissipation, and kitchen treasured knot incrustation scale influences quality of water.

Meanwhile, the above three forms of hot water schemes also solve one problem: installation after sale, transportation costs. The water heaters for bathing are large household appliances, so that the manufacturing cost is high, the transportation cost is high (the size of the hot water heater is small, the transportation is cheap, the instant heating installation condition is high, the water quantity is small), and after the installation and the sale of the hot water heater are not in the way of professional, the hot water heater can provide home service, and users of small household appliances such as electric kettles and electric cookers can not use the hot water heater after buying, and the hot water heater can be maintained after sale by themselves without installation if problems exist; meanwhile, the water heater with the water storage tank cannot solve the problem of water pollution (except the multi-mode water heater of the utility model in the past). In summary, conventional hot water solutions are not perfect regardless of the heating form, and new ideas are needed to solve these problems.

The utility model provides a new technical scheme adopts the moderate water heater of a plurality of powers to distribute at each water spot, and these water heaters can the autonomous working, also can many cooperations as required, and high-power is accumulated to the miniwatt, perhaps helps water storage formula, instant-heating formula or instant heating type water heater to reach better use and experience. Because the national standard service wire is a 10-square copper core wire, a plurality of accumulated high powers can be borne, and the power of a single power is small, such as 3KW, each wire branch can be borne, a plug can be directly used, and the installation by a special person is not needed, so that the problem of overhigh traditional instant heating power is solved, and the installation problem is also solved; the plurality of water heaters can be various combinations of various types, but some preferred schemes, such as the combination of a plurality of water heaters with 5 liters of water and about 3KW of power, can be combined in various ways according to the needs. For example two bathrooms, the preferred scheme among the utility model is: the small-volume water heaters are arranged under the counter basins of the kitchen and the two toilets, when a tap is used for water, one small-volume water heater can meet the requirement without cooperation of multiple water heaters, when a user needs to take a bath, the water heaters can cooperate to form a high-power instant water heater, and each water heater controls the outlet water temperature of the water heater, so that constant-temperature water supply can be realized; however, a problem also occurs in cooperation of multiple water heaters, for example, if three water heaters cooperate with each other, the amount of water flowing through each water heater is about one third of the amount of water flowing through a shower head, and the final stable temperature is reached when the water flow of each water heater reaches the shower head terminal, so that the time for the farthest water heater to flow to the shower head is too long, for example, the pipe diameter is 25, the distance of the farthest pipe is 20 meters, and the flow of the shower head is 4 liters, the stable water temperature is finally reached for nearly 5 minutes, which is not usable; in order to solve the problem, the utility model also installs a return pump (or an external return pump) in a water heater, and installs a check valve at the far water end of the cold and hot water pipe, when the water heater is used for bathing, the hot water pipe is filled with hot water through the return pump, so that the problem can be solved; the utility model provides a complete set of solution of distributed hot water system, the proposition of this scheme for can carry out standardized design to various types of water heater, the user makes up by oneself according to house type, the circuit condition of oneself, for example the combination of instant heating and water storage water heater, the combination between instant heating and the combination of instant heating, a plurality of little volume water storage formula water heater, the combination of little volume water storage and great volume water storage formula water heater etc..

Advantageous effects

The utility model discloses a distributed hot water system, make the water heater miniaturized, heat promptly, single low-power ization, it is standardized, low cost, need not the special messenger after sale, it is more convenient, more energy-conserving etc. become reality, this kind of big household electrical appliances of water heater have become little household electrical appliances, and because the water heater of each little volume or instant heating type just installs at the hot water terminal, not only greatly improve user experience, reach perfect hot water experience with, still avoid heat energy waste as far as possible, energy-concerving and environment-protective, the energy-conserving effect of family's in-service use can keep level with natural gas and air basically, and greatly reduced the manufacturing, expenses such as transportation, have the popularization meaning.

SUMMERY OF THE UTILITY MODEL

For solving the deficiencies of the prior water heater technology, the utility model provides a new technical scheme.

The purpose of the utility model is solved by the following technical solutions:

1. a distributed hot water system comprises a plurality of water heaters, wherein at least two water heaters are arranged near a water terminal respectively, the water heaters are arranged on a hot water pipe in a parallel, serial or combined connection mode, the installation and control mode of the water heaters enables at least one water heater to work with other water heaters in a cooperative mode, the structure or the installation mode of at least one water heater enables the water heater to provide hot water for the water terminal and the hot water pipe in two ways, and the water heater can work with other water heaters in a cooperative mode and can provide hot water for the two ways.

2. Furthermore, many water heaters comprise main water heater and one or more other water heaters, main water heater includes return water system, return water system mountable is in main water heater's inside or outside, main water heater installs the one end at many water heater combinations, distributed hot water system still includes check valve one, check valve one is installed at the cold and hot water pipe and is connected cold water pipe and hot water pipe for the far-water end of main water heater, and the mode of its installation only allows the rivers of hot water pipe to the cold water pipe, main water heater gives the hot water pipe according to the instruction and allows hot water in advance, other water heaters can be the water heater of arbitrary form.

3. Preferably, the distributed hot water system comprises a main water heater and two auxiliary water heaters, the main water heater and the auxiliary water heaters are arranged on a hot water pipeline in a parallel connection mode, the main water heater and at least one auxiliary water heater further comprise a second one-way valve, the second one-way valve is arranged on a channel of the water heater connected with the hot water pipe, the second one-way valve is arranged in a direction of allowing hot water to flow from the water heater to the hot water pipe, and the second one-way valve is arranged inside or outside the water heater.

4. Preferably, the distributed hot water system comprises a main water heater and at least one instant water heater, the main water heater and the instant water heater are arranged on a hot water pipe in a parallel connection mode, the main water heater can provide hot water for a water terminal and two paths of the hot water pipe in a structural or installation mode, the distributed hot water system further comprises a second check valve, the second check valve is arranged on a channel of the main water heater connected with the hot water pipe, the installation direction of the second check valve only allows water of the water heater to flow to the hot water pipe, and the second check valve can be arranged inside or outside the water heater.

5. Preferably, the plurality of water heaters comprise two water heaters, the two water heaters are arranged on the hot water pipe in a series connection mode, one water heater is structurally or arranged in a mode that hot water can be supplied to the water using terminal and the hot water pipe in two ways, the water heater is arranged below the faucet, and the other water heater can be any type of water heater.

6. Preferably, the plurality of water heaters comprise two water heaters, one of the two water heaters is a water storage type water heater, the other water heater is an auxiliary water heater, the structure or the installation mode of the auxiliary water heater enables the auxiliary water heater to provide hot water for a water terminal and two ways of hot water pipes, the auxiliary water heater further comprises a second check valve and an adjusting valve, the second check valve and the adjusting valve are installed on a channel of the hot water pipe connected with the water heaters, and the two water heaters are installed on the hot water pipe in a parallel connection mode.

7. Further, the distributed hot water system according to any one of claims 1 to 6 further includes a central control unit, the central control unit communicates with the plurality of water heaters to control the operating states of the plurality of water heaters, and the central control unit is integrated with a certain water heater or is an independent component.

8. Further, 1 to 6, the plurality of water heaters further include a regulating valve, the regulating valve is installed on a channel connecting the water heater with the hot water pipe, the plurality of water heaters may be partially or completely installed with the regulating valve, and the regulating valve is driven by a manual or an electric driving method.

Drawings

The present invention will be further explained with reference to the drawings and examples

FIG. 1 is a schematic diagram of three small-volume water heaters connected in parallel

FIG. 2 is a schematic diagram of a small volume and two small power instant heating parallel connection

FIG. 3 is a schematic diagram of a small volume water heater and two small power instant heating parallel connection

FIG. 4 is a schematic diagram of a small volume water heater in parallel with an instant heating

FIG. 5 is a schematic view of a small volume water heater in series with an instant heating

FIG. 6 is a schematic diagram of a small volume water heater and a water storage type water heater connected in parallel

FIG. 7 is a schematic view of a modular coupling for a distributed hot water system

FIG. 8 is a schematic diagram of a central control of a distributed hot water system

In the figure:

1. the water heater comprises a main water heater 2, an auxiliary water heater 3, a water return mechanism 4, a water inlet joint 5, a water outlet joint 6, a cold water pipe 7, a hot water pipe 8, a one-way valve I9, a one-way valve II 10, a three-way joint 11, a counter basin 12, a faucet 13, a shower head 14, an instant water heater I15, an instant water heater II 16, a water storage type water heater 17, an adjusting valve 18, a central control unit 19 and a current induction module

Detailed Description

It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict. The present invention will be further explained with reference to the drawings and examples.

The general idea is as follows: considering the layout of a household kitchen and a toilet and a household line, a common commercial house is one kitchen and one toilet or two kitchens and two toilets, the layout of each layer of a rural house is almost the same, the national standard is 10 square copper core wires of an entrance wire, the kitchen and the toilet are generally independently wired and controlled by an independent air switch, each branch is generally not less than 4 square and maximally 6 square, and the old house is 2.5 square. According to the middle standard, the maximum power allowed by the branch is about 8KW, the maximum power allowed by the branch is about 5KW according to the 2.5 square of the minimum standard, and the maximum power allowed by the service wire is 2 ten kilowatts. As soon as the power of the water heater is greater than 3.5KW, the conventional plug socket can no longer be used, which makes installation by specialists necessary. To sum up, the utility model discloses an optimal consideration is: 3 small-volume water heaters with power of 3.2 kilowatts are respectively arranged under the counter basins of a kitchen and a toilet in one kitchen and two toilets, and when a counter basin tap is used for water, the water heaters work singly, and when a large amount of water is used for bathing, the water heaters work cooperatively; 2 small volumes of 3.2 kilowatts and 3.2 kilowatts of instant heating can be combined in parallel for a kitchen and a toilet, and a 3.2KW small volume water heater and a water storage type or instant heating with moderate power can be combined in parallel or in series; for commercial users, a plurality of commercial users can be connected in series according to actual conditions, for example, pipelines are not installed in advance, and a plurality of commercial users are connected in series to form a group which is very suitable for the commercial users, in particular hotels and hotels. . . In summary, under the method framework of the utility model, the user can use various types of water heaters to make any combination according to the actual conditions. Several more classical embodiments are described below.

Example one

As shown in fig. 1, a scheme that one main water heater is connected with two auxiliary water heaters in parallel is adopted, and the schematic diagrams of the three water heaters are drawn to be the same except that the main water heater comprises a water return system 3, so that the description is convenient. The three water heaters are all composed of small-volume water storage type water heaters, are arranged below a counter basin 11, and cold and hot water connectors of the three water heaters are externally connected with a tee joint 10 (or a tee joint structure can be integrated on the water heaters) so that the cold and hot water are respectively divided into two paths: one path of the tap 12 is connected with the cold water pipe 6 and the hot water pipe 7 respectively, so that the water heater can supply hot water to the tap and the hot water pipe; the tee joint 10 is connected with a passage of the hot water pipe 7, and a one-way valve I9 is also arranged, wherein the one-way valve I9 is used for preventing other water heaters from supplying hot water to the faucet 12 and only allowing the water heaters to supply water to the hot water pipe 7; because the tap is the little water scene, a 3 KW's small volume water heater of 5 liters or so has satisfied the requirement, if the tap water needs other water heater cooperations, then the following problem can appear: before the hot water of the other two water heaters does not reach, the full opening of the hot water of the faucet is equivalent to that one hot water is matched with two cold water, the flow of the hot water for full opening of each water heater is only one third of the water outlet amount of the faucet, so the water of the other two water heaters can flow over a long time, the heat is wasted, the experience is poor, if the water for the faucet is also started to return water, the heat is excessively wasted, the time is required for returning the water, and the experience is poor; in the far water end of the main water heater 1, a one-way valve 8 is installed, the installation direction of the one-way valve 8 only allows water in a hot water pipe to flow to a cold water pipe, in an actual household water channel environment, the position where the one-way valve 8 can be installed on the ready can be located at the front end of the last shower, which has no influence, for example, a cold-hot water joint for installing an electric water heater is originally reserved, in a schematic view, when a faucet or a shower opens cold water, other water heaters can supply cold water to the faucet or the shower through the hot water pipe 7 and the one-way valve 8, and the situation that cold water and hot water are mixed when the cold water is opened can not occur, and the water always flows from a place with high pressure to a place with low pressure, because the pressure of the position of the cold water pipe is far greater than the pressure of the cold water pipe, the hot water device and the hot water pipe and the one-, a throttle valve can be added at the position of the one-way valve I8 to increase the damping; when the shower head 13 needs to use hot water, because several water heaters are far away from the shower head and near differently, the temperature of water flow of all the water heaters to the position of the shower head is stable, so that a user can send a signal to the main water heater 1 in a water control mode (for example, the shower head is continuously opened for two times and then closed in a conventional mode, the water flow switch can receive the signal, the water flow switches of the other two water heaters can also receive the signal, the stable water flow signal can be continuously started for N seconds for heating through program design, a signal can also be sent to the main water heater 1 by the human body induction module installed at the corresponding position, and other modes, such as remote control, timing water return and the like, are also provided. The main water heater 1 starts the water return mechanism 3 after receiving a signal, drives hot water to flow out from the water outlet joint 5, passes through the second check valve 9, passes through the hot water pipe 7, cold water in the hot water pipe 7 flows into the cold water pipe 6 through the first check valve 8, and then flows back to the water inlet joint 4 of the main water heater 1, the time length of starting is determined by the water return mechanism 3 according to set time or temperature sensor information arranged at a certain position of the water pipe, after the main water heater returns water, hot water is filled in the hot water pipe 7 in advance, and a user opens a shower head to obtain stable hot water. Meanwhile, three water heaters supply water according to a set temperature, the power of the water heaters is controlled by a main control circuit, so that the hot water is kept at the set temperature, the three accumulated water heaters are equivalent to a high-power instant water heater, the temperature is constant, the water using time is not limited, and the experience and energy saving effects are good; as shown in fig. 6, the water heater assembly of the present invention can further add an adjusting valve 17, the adjusting valve 17 is installed on the channel of the water heater connected to the hot water pipe, the adjusting valve can also be controlled automatically by an electric valve, the opening degree of the adjusting valve can be controlled according to the reading of the water flow switch, and the adjusting valve can also be used for closing the water flow, and of course, a manual valve can also be used; the regulating valve 17 is used for controlling the flow rate of each water heater flowing to the hot water pipe, and preventing the water quantity of each water heater from being unbalanced in matching with the power of the water heater due to the imbalance of the pipeline pressure or preventing the water quantity from reaching the temperature due to overlarge flow rate; meanwhile, the regulating valve 17 can also control the corresponding water heaters to supply water to the hot water pipe 7 according to seasons, so that the best energy-saving effect is achieved, for example, in summer, a shower head only needs one nearest water heater to heat to meet the requirement, and when a person is in the corresponding shower head for bathing, other two far water heaters close the regulating valve 17. If the automatic control regulating valve 17 is adopted, the water using position and the installation relation of each water heater are required to be determined firstly to determine which water heater is closed, when two toilets exist, how to judge which toilet water is used and how to judge which water heater is installed in the toilet are well realized, human body induction is added on the corresponding water heater, a reasonable numerical value is set for the induction distance, and the position of water using is determined by using a human body induction switch; preferably, the water tanks of the three water heaters have the volume of about 5 liters and the power of about 3.2 kilowatts, and further comprise a water flow switch, a plurality of temperature sensors and a control circuit board (which belong to the mature known technology and are not described in more detail); certainly, the distributed hot water system needs to obtain the best effect, and the structure and the control mode of the related water heater need to be adjusted correspondingly so as to be more suitable for the distributed hot water scheme, but the structure of the water heater belongs to another utility model, and is not described here.

Certainly, the number of the water heaters can be more and also feasible, but the cost is increased on one hand, and on the other hand, in the practical use, the number of the water heaters connected in parallel is more than three, so that the water flow passing through a single water heater is very small, and a water flow switch (which is a known technology and is not shown in the utility model) is possibly pushed to be out of use; when a plurality of water heaters are connected in parallel to cause that part of the water flow switches cannot be started, an electric valve or a manual valve is used for closing part of the water heaters which do not participate in heating correspondingly, so that the water flow which flows through each combined heating water heater can push the water flow switches. It is also to be understood that the number of water heaters shown in the drawings in the specification is not to be construed as limiting the claimed invention.

Example two

Fig. 2 and 3 are schematic diagrams of a second embodiment of the present invention, which is different from the first embodiment in that two other water heaters are low-power instant water heaters except for the main water heater, fig. 2 is an installation manner of one kitchen and two toilets, and fig. 3 is an installation manner of one kitchen and one toilet. The embodiment of fig. 2 is used in places with high annual air temperature, and the tap can use about 3KW of instant heat, such as Guangdong, Hainan, hong Kong, southeast Asia, India, Feizhou and other countries and regions. In fig. 2, a second check valve 9 is arranged on a passage of the water heater connected with the hot water pipe. Of course, the second check valve 9 can also be arranged at the water inlet of the first instant water heater 14, so that other water heaters can supply hot water to the faucet together; fig. 3 is substantially identical to fig. 2, and fig. 3 shows an instant water heater which does not supply water to the tap at the same time, but is connected directly in parallel to the hot water pipe in such a way that the instant water heater is used for a kitchen-bathroom connection, and the bathroom has two groups of cold and hot water connectors, one group is arranged below the counter basin 11, and the other group is reserved for containing an electric water heater.

EXAMPLE III

As shown in fig. 4, the present embodiment is composed of a main water heater 1 and an instant water heater two 15 connected in parallel, the main water heater and the instant water heater two are stacked together to form a more powerful instant water heater combination to meet the bathing requirement in winter, and the passage (the regulating valve is not shown) connecting the main water heater 1 with the hot water pipe 7 can be shut off when the temperature is high; according to different climates of each region, namely the power of the second hot water heater 15 is selected according to actual conditions, and when the power of the two water heaters is inconsistent, a regulating valve 17 or other flow regulating mechanisms are added, so that the water quantity flowing through each water heater is proportional to the power of the water heater. The utility model discloses a distributed hot water system, when the power of many water heaters differs great, then need match its water yield size, when not matching, the function of system still can realize, only some water heater power is opened entirely and still can not reach the settlement temperature, and some water heaters are power surplus again, can not reach best effect. For the convenience of adjustment of a user, the flow display function can be added, so that the flow of the water heater can be visually displayed.

As shown in fig. 6, an auxiliary water heater 2 is adopted to be connected with the water storage type water heater 16 in parallel, and the auxiliary water heater 2 independently provides hot water for the faucet 12; when the shower head is opened, the two water heaters simultaneously supply hot water to the hot water pipe 7, and because the two water heaters are separated by a certain distance, when the hot water of the water storage type water heater 16 reaches the shower head, the hot water of the auxiliary water heater 2 has a certain distance, even the hot water reaches after 5 minutes, the hot water of the front reaching the shower head is mixed with cold water and hot water; assuming that the ratio of the hot water provided by the water storage type water heater 16 to the hot water provided by the auxiliary water heater 2 is 2:1, and assuming that the temperature of tap water in winter is 5 ℃, the hot water of 65 ℃ is provided by the water storage type water heater, and the hot water which arrives at the front first can reach 45 ℃; a valve 17 can be further arranged on a channel of the auxiliary water heater 2 connected with the hot water pipe 7, the opening degree of the valve 17 is adjusted to limit the proportion of the hot water of the auxiliary water heater and the water storage type water heater, and generally, when the temperature of the water in winter is lowest, the water supply of the auxiliary water heater 2 to the hot water pipe 7 can reach the bathing temperature; when the water storage type water heater 16 does not need the auxiliary water heater 2 for heating in a coordinated manner, the valve 17 can be closed, and the valve 17 can adopt two modes of manual operation and electric control; the distributed system without the water return device, such as adopting a parallel connection mode, wherein at least one of the distributed system is a water storage type water heater, is not perfect, but has the advantages that: the effect of a high-power instant water heater can be achieved by adopting lower power, for example, if the capacity of the water storage type water heater of the system reaches 30 liters, the effect of two instant water heaters with the total power of 7KW can reach 1 ten thousand watts, and the system is particularly suitable for the condition of insufficient power load in rural areas.

Of course, the effect is better if the series connection mode is adopted, as shown in fig. 5, the series connection mode is adopted, in the figure, the water inlet of the instant water heater 15 is connected with the hot water pipe 7, and the water outlet is directly connected with the hot water pipe of the shower head, the mode is the simplest, but the disadvantage is that the instant water heater 15 cannot provide hot water for the hot water pipe 7. The same is true of replacing the instantaneous water heater 15 with a storage-type water heater.

Example four

As shown in fig. 7, the connection mode is a combined connection mode of a distributed hot water system, and the combined connection mode is composed of 4 water heaters, three water heaters are connected in parallel, and one water heater is connected in series. The three water heaters can also be connected in a combined mode, for example, two water heaters under the counter basin are connected in parallel, the other water heater is connected in series, and a hot water outlet is connected with a shower head. The advantages of the combined connection are small, the connection is troublesome, the combined connection is not a preferred scheme except special occasions, and only a simple example is introduced.

EXAMPLE five

As shown in fig. 8, in this embodiment, a central control unit 18, a regulating valve 17 and a current detection module 19 are added on the basis of fig. 1, and in the first embodiment, three water heaters can be coordinated without data exchange between the three water heaters only by structure and installation. But the use effect of more energy-saving, safe, intelligent and convenient can be achieved by carrying out unified intelligent control on the three water heaters. For example, three sets of water heaters have larger accumulated power, so that when other high-power electrical appliances are started simultaneously, how to prevent tripping of household electrical appliances due to overlarge current is avoided, and when the weather is warm, how to control heating of part of water heaters without cooperation of multiple sets of water heaters even for bathing.

The central control unit controls the heating modes of the plurality of water heaters according to set parameters, and respectively controls the states of the water heaters according to the change of air temperature and the position of water consumption so as to achieve the optimal energy-saving and experience effects; for example, when the air temperature is low, all the water heaters are started, and when the air temperature is high, one or more nearby water heaters are started. In addition, a user can input a maximum current allowable value in the central control unit according to the actual condition of the household circuit, the current sensing module is arranged on the household main circuit to collect current data, the current data is sent to the central control unit through the sending module, and if the current of the household electrical appliance exceeds the maximum allowable value, the central control unit controls the plurality of water heaters to reduce the power.

The above examples are only a few combinations of the distributed hot water system, and there are many more combinations, and any conceivable combination by the present invention is within the scope of the present patent.

Claims (8)

1. A distributed hot water system, characterized by: the water heater comprises at least two water heaters which are respectively arranged near a water using terminal, and the water heaters are arranged on a hot water pipe (7) in a parallel, serial or combined connection mode, the installation and control mode of the water heaters enables at least one water heater to work with other water heaters, the structure or the installation mode of at least one water heater enables the water heater to provide hot water for the water using terminal and the hot water pipe (7), and the water heater can work with other water heaters and can provide hot water for the two water heaters.

2. A distributed hot water system as claimed in claim 1, wherein: the distributed water heating system comprises a first one-way valve (8), the first one-way valve (8) is arranged at the far water end of a cold water pipe relative to the main water heater (1), the cold water pipe (6) and the hot water pipe (7) are connected, the water flow of the hot water pipe (7) is only allowed to flow to the cold water pipe (6) in the installation mode, the main water heater (1) supplies hot water to the hot water pipe (7) according to instructions, and the other water heaters can be water heaters in any form.

3. A distributed hot water system as claimed in claim 2, wherein: contain a main hot water ware (1) and two vice hot water ware (2), main hot water ware (1) is installed on hot-water line (7) with vice hot water ware (2) with parallelly connected mode, main hot water ware (1) and at least one vice hot water ware (2) still include check valve two (9), install on the passageway that hot-water line (7) were connected to the water heater two (9), the installation direction of check valve two (9) only allows hot water to flow to the hot-water line from the water heater, the mountable of check valve two is in the inside or the outside of water heater.

4. A distributed hot water system as claimed in claim 2, wherein: contain a main hot water ware (1) and at least one instant hot water ware, main hot water ware (1) and instant hot water ware are installed on hot-water line (7) with parallelly connected mode, the structure or the mounting means of main hot water ware (1) make it can provide hot water for water terminal and hot-water line (7) two ways, still include check valve two (9), check valve two is installed on the passageway that main hot water ware connects the hot-water line, and the direction of its installation only allows the rivers of water heater to hot-water line (7), the mountable of check valve two (9) is in the inside or the outside of water heater.

5. A distributed hot water system as claimed in claim 1, wherein: the plurality of water heaters comprise two water heaters, the two water heaters are arranged on the hot water pipe (7) in a series connection mode, one water heater can provide hot water for a water using terminal and two ways of the hot water pipe (7) due to the structure or the installation mode, the water heater is arranged below the faucet (12), and the other water heater can be any water heater.

6. A distributed hot water system as claimed in claim 1, wherein: the water heaters comprise two water heaters, one of the two water heaters is a water storage type water heater (16), the other water heater is an auxiliary water heater (2), the structure or the installation mode of the auxiliary water heater enables the auxiliary water heater to provide hot water for a water terminal and two ways of a hot water pipe, the auxiliary water heater further comprises a check valve II (9) and an adjusting valve (17), the check valve and the adjusting valve are installed on a channel of the water heater, which is connected with the hot water pipe (7), and the two water heaters are installed on the hot water pipe in a parallel connection mode.

7. A distributed hot water system as claimed in any one of claims 1 to 6, wherein: the water heater control system further comprises a central control unit (18), wherein the central control unit is communicated with the plurality of water heaters to control the working states of the plurality of water heaters, and is integrated on a certain water heater or is an independent component.

8. A distributed hot water system as claimed in any one of claims 1 to 6, wherein: the water heaters also comprise regulating valves (17), the regulating valves are arranged on the channels of the water heaters, which are connected with the hot water pipes (7), the regulating valves (17) can be partially or completely arranged on the water heaters, and the regulating valves (17) are driven by manual or electric modes.

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