CN215832042U - DFUN central hot water temperature acquisition and central controller - Google Patents

Abstract

The utility model discloses a DFUN central hot water temperature acquisition and central controller, which comprises a central controller body, wherein one side of the central controller body is provided with an installation groove, one side in the installation groove is provided with an output end, the other side of the output end is provided with an input end, and one side of the input end, which is far away from the output end, is provided with a micro-control switch. Through the detection of four temperature probe to water tank and heat collector, no matter locally still control the interface, water tank and pipeline temperature surveyability, the manual and programming mode of circulation, heating all can realize through simple operation and setting, and it is convenient greatly and promoted user's use and experienced.

Description

DFUN central hot water temperature acquisition and central controller

Technical Field

The utility model relates to the technical field of central controllers, in particular to a DFUN central hot water temperature acquisition and central controller.

Background

For a closed type volumetric heat storage central hot water system, a common temperature control system on the market at present usually has isolated heating at a hot water tank, and whether heating is carried out or not is judged only according to a temperature probe of the hot water tank. And the hot water circulation function is isolated, and whether the hot water circulation pump is started or not is judged only according to the return water temperature of the pipeline. The presence of heating and circulation in isolation means that it is difficult to implement an accurate hot water circulation. Such a control method has the following problems: 1. when the heat source of the water tank does not provide heating for various reasons, namely a tank of cold water is arranged in the water tank, the circulating work of the circulating pump can be continued and cannot be stopped, and the energy waste is caused; 2. in summer, the temperature probe of the water return pipeline is influenced by the ambient temperature, and even if cold water exists in the pipeline, the temperature read by the temperature probe in summer can reach a higher temperature, so that the real circulation requirement is blocked, and the use experience of a user is influenced. Therefore, a DFUN central hot water temperature acquisition and central controller is provided.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to a DFUN central hot water temperature collection and central controller to solve the above problems.

In order to achieve the purpose, the utility model provides the following technical scheme: a DFUN central hot water temperature acquisition and central controller comprises a central controller body, wherein one side of the central controller body is provided with a mounting groove, one side in the mounting groove is provided with an output end, the output end comprises a first output interface, one side of the first output interface is provided with a second output interface, the other side of the second output interface is provided with a third output interface, the other side of the third output interface is provided with a fourth output interface, the other side of the fourth output interface is provided with a fifth output interface, the other side of the fifth output interface is provided with a sixth output interface, the other side of the sixth output interface is provided with a seventh output interface, the other side of the seventh output interface is provided with an eighth output interface, the other side of the eighth output interface is provided with a ninth output interface, the other side of the ninth output interface is provided with a tenth output interface, and the other side of the output end is provided with an input end, the input includes first input interface, first input interface one side is equipped with the second input interface, the second input interface opposite side is equipped with the third input interface, the third input interface opposite side is equipped with the fourth input interface, the fourth input interface opposite side is equipped with the fifth input interface, the fifth input interface opposite side is equipped with the sixth input interface, the sixth input interface opposite side is equipped with the seventh input interface, the seventh input interface opposite side is equipped with the eighth input interface, the input is kept away from output one side and is equipped with the micro-control switch.

Preferably, the first output interface and the second output interface are connected with an ACV power supply.

Preferably, the third output interface and the fourth output interface are grounded.

Preferably, the fifth output port and the sixth output port are connected to an electric valve switch.

Preferably, the seventh output interface and the eighth output interface are connected with a water circulating pump.

Preferably, the ninth output interface and the tenth output interface are connected to an auxiliary heat source heating signal switch box.

Preferably, the first input interface and the second input interface are connected with a first temperature probe.

Preferably, the third input interface and the fourth input interface are connected with a second temperature probe.

Preferably, the fifth input interface and the sixth input interface are connected with a third temperature probe.

Preferably, the seventh input interface and the eighth input interface are connected with a fourth temperature probe.

Compared with the prior art, the utility model has the beneficial effects that: this kind of DFUN central authorities hot water temperature acquisition and central controller, through the detection of four temperature probe to water tank and heat collector, no matter local still controls the interface, water tank and pipeline temperature surveyability, and manual and the programming mode of circulation, heating all can realize through simple operation and setting, and the use that is convenient greatly and has promoted the user is experienced.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the figure: 1 central controller body, 2 output ends, 20 first output interfaces, 21 second output interfaces, 22 third output interfaces, 23 fourth output interfaces, 24 fifth output interfaces, 25 sixth output interfaces, 26 seventh output interfaces, 27 eighth output interfaces, 28 ninth output interfaces, 29 tenth output interfaces, 3 input ends, 30 first input interfaces, 31 second input interfaces, 32 third input interfaces, 33 fourth input interfaces, 34 fifth input interfaces, 35 sixth input interfaces, 36 seventh input interfaces, 37 eighth input interfaces, 4 micro-control switches and 5 mounting grooves.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention provides a technical solution: a DFUN central hot water temperature collection and central controller comprises a central controller body 1, wherein one side of the central controller body 1 is provided with a mounting groove 5, one side in the mounting groove 5 is provided with an output end 2, the output end 2 comprises a first output interface 20, one side of the first output interface 20 is provided with a second output interface 21, the other side of the second output interface 21 is provided with a third output interface 22, the other side of the third output interface 22 is provided with a fourth output interface 23, the other side of the fourth output interface 23 is provided with a fifth output interface 24, the other side of the fifth output interface 24 is provided with a sixth output interface 25, the other side of the sixth output interface 25 is provided with a seventh output interface 26, the other side of the seventh output interface 26 is provided with an eighth output interface 27, the other side of the eighth output interface 27 is provided with a ninth output interface 28, the other side of the ninth output interface 28 is provided with a tenth output interface 29, the other side of the output end 2 is provided with an input end 3, the input end 3 comprises a first input interface 30, one side of the first input interface 30 is provided with a second input interface 31, the other side of the second input interface 31 is provided with a third input interface 32, the other side of the third input interface 32 is provided with a fourth input interface 33, the other side of the fourth input interface 33 is provided with a fifth input interface 34, the other side of the fifth input interface 34 is provided with a sixth input interface 35, the other side of the sixth input interface 35 is provided with a seventh input interface 36, the other side of the seventh input interface 36 is provided with an eighth input interface 37, one side of the input end 3, which is far away from the output end 2, is provided with a micro control switch 4, and the micro control switch 4 controls the working state of the central controller body 1.

Further, the first output interface 20 and the second output interface 21 are connected to an AC220V power source, and the central controller body 1 can be powered through the first output interface 20 and the second output interface 21.

Further, the third output interface 22 and the fourth output interface 23 are grounded.

Further, the fifth output port 24 and the sixth output port 25 are connected to an electric valve switch.

Furthermore, the seventh output interface 26 and the eighth output interface 27 are connected to a water circulation pump.

Furthermore, the ninth output interface 28 and the tenth output interface 29 are connected to an auxiliary heat source heating signal switch box.

Furthermore, the first input interface 30 and the second input interface 31 are connected to a first temperature probe, the first temperature probe is a PT1000 temperature sensor, and the PT1000 is a platinum thermistor, which is an intelligent sensor integrating temperature and humidity acquisition. The temperature collection range can be-200 to +200 ℃, and the humidity collection range is 0 to 100 percent.

Furthermore, the third input interface 32 and the fourth input interface 33 are connected to a second temperature probe, which is an NTC10K B-3950 temperature sensor.

Furthermore, the fifth input interface 34 and the sixth input interface 35 are connected to a third temperature probe, which is an NTC10K B-3950 temperature sensor.

Furthermore, the seventh input interface 36 and the eighth input interface 37 are connected to a fourth temperature probe, which is an NTC10K B-3950 temperature sensor.

Specifically, in the utility model, three NTC10K B-3950 temperature sensors and a PT1000 temperature sensor are used and connected with the terminal of the central hot water temperature acquisition and control device. The temperature acquisition and control device is sealed in a standard box body by intelligent circuit hardware to form an independent product. The first temperature probe detects the solar thermal collector; the third temperature probe collects the temperature of the upper part of the water tank and represents the water temperature of hot water; the second temperature probe detects the middle part of the water tank and represents the average temperature of water in the water tank; the fourth temperature probe is positioned at the hot water circulating back water section and represents the temperature of the pipeline. The temperature probe is converted into digital temperature through the temperature transmitting function of the equipment and is connected with the intelligent set top box in a wireless and limited mode. Temperature data of the water tank and the pipeline are consulted through a handheld terminal interface, and automatic (programming, according to the required time period and the start-stop temperature) heating and manual heating of the hot water tank are carried out; automatic (programming, according to time interval and start-stop temperature) hot water circulation and manual circulation setting and control. Thereby obtaining intelligent, accurate and convenient comfortable use of hot water.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a DFUN central authorities hot water temperature collection and central controller, includes central controller body (1), its characterized in that: one side of the central controller body (1) is provided with a mounting groove (5), one side in the mounting groove (5) is provided with an output end (2), the output end (2) comprises a first output interface (20), one side of the first output interface (20) is provided with a second output interface (21), the other side of the second output interface (21) is provided with a third output interface (22), the other side of the third output interface (22) is provided with a fourth output interface (23), the other side of the fourth output interface (23) is provided with a fifth output interface (24), the other side of the fifth output interface (24) is provided with a sixth output interface (25), the other side of the sixth output interface (25) is provided with a seventh output interface (26), the other side of the seventh output interface (26) is provided with an eighth output interface (27), the other side of the eighth output interface (27) is provided with a ninth output interface (28), a tenth output interface (29) is arranged on the other side of the ninth output interface (28), an input end (3) is arranged on the other side of the output end (2), the input end (3) comprises a first input interface (30), one side of the first input interface (30) is provided with a second input interface (31), a third input interface (32) is arranged on the other side of the second input interface (31), a fourth input interface (33) is arranged on the other side of the third input interface (32), a fifth input interface (34) is arranged on the other side of the fourth input interface (33), a sixth input interface (35) is arranged on the other side of the fifth input interface (34), a seventh input interface (36) is arranged on the other side of the sixth input interface (35), an eighth input interface (37) is arranged on the other side of the seventh input interface (36), and a micro-control switch (4) is arranged on one side of the input end (3) far away from the output end (2).

2. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the first output interface (20) and the second output interface (21) are connected with an AC220V power supply.

3. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the third output interface (22) and the fourth output interface (23) are grounded.

4. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the fifth output interface (24) and the sixth output interface (25) are connected with an electric valve switch.

5. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the seventh output interface (26) and the eighth output interface (27) are connected with the water circulating pump.

6. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: and the ninth output interface (28) and the tenth output interface (29) are connected with an auxiliary heat source heating signal switch box.

7. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the first input interface (30) and the second input interface (31) are connected with the first temperature probe.

8. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the third input interface (32) and the fourth input interface (33) are connected with the second temperature probe.

9. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the fifth input interface (34) and the sixth input interface (35) are connected with the third temperature probe.

10. The DFUN central hot water temperature collection and central controller according to claim 1, wherein: the seventh input interface (36) and the eighth input interface (37) are connected with a fourth temperature probe.

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