CN107100232B - Uninterrupted water activating system - Google Patents

Abstract

The invention provides uninterrupted water activating systems, which comprise a water supply main pipe, at least branch water supply pipes connected to the water supply main pipe, and at least branch water supply systems connected to each branch water supply pipe, wherein each branch water supply system comprises a water inlet pipe and a water return pipe communicated with the branch water supply pipes, a middle connecting pipe communicated with the water inlet pipe and the water return pipe, and a water using terminal connected to the middle connecting pipe.

Description

Uninterrupted water activating system

Technical Field

The invention relates to the technical field of water supply systems, in particular to continuous water supply systems.

Background

In the prior art, a pipeline system of a domestic water supply system is arranged in a series/parallel connection structure, and water in the pipeline system can directly flow out after a water using terminal connected to the pipeline system is opened.

Disclosure of Invention

Based on the above, in order to solve the above problems, the invention provides uninterrupted water activating systems, which can reduce the pressure loss of the pipeline system and ensure the water flow balance in the pipeline system.

The technical scheme is as follows:

uninterrupted water activating system, which comprises a water supplying main pipe, at least water supplying branch pipes connected to the water supplying main pipe, and at least water supplying branch systems connected to each water supplying branch pipe;

the water supply branch system comprises a water inlet pipe and a water return pipe which are communicated with each other through the water supply branch pipe, a middle connecting pipe for the water inlet pipe and the water return pipe is communicated with each other, and a water using terminal connected to the middle connecting pipe is arranged.

The technical scheme of step is explained as follows:

, the main water supply pipe includes a main hot water supply pipe, the branch water supply pipe includes at least branch hot water supply pipes connected with the main hot water supply pipe, each branch hot water supply pipe is connected with at least branch water supply systems;

the water supply branch system comprises a hot water inlet pipe and a hot water return pipe which are communicated with each other through a hot water supply branch pipe, the hot water inlet pipe and the hot water return pipe are communicated through a hot water intermediate connecting pipe, and the water terminal is connected with the hot water intermediate connecting pipe.

, the main water supply pipe comprises a cold water main water supply pipe, the branch water supply pipe comprises at least branch water supply pipes communicated with the cold water main water supply pipe, and each branch water supply pipe is communicated with at least branch water supply systems;

the water supply branch system further comprises a cold water inlet pipe and a cold water return pipe which are communicated with the cold water supply branch pipe, and a cold water intermediate connecting pipe which is communicated with the cold water inlet pipe and the cold water return pipe, and the water using terminal is connected with the cold water intermediate connecting pipe.

step, including th water supply branch system connected to both the hot water supply branch pipe and the cold water supply branch pipe, the 0 th water supply branch system including 1 th hot water inlet pipe and 2 th hot water return pipe connected to the hot water supply branch pipe, the 3 th hot water inlet pipe and th hot water return pipe connected to the hot water intermediate connection pipe, and th water using terminal connected to the hot water intermediate connection pipe, the th water supply branch system further including th cold water inlet pipe and th cold water return pipe connected to the cold water supply branch pipe, the cold water intermediate connection pipe connected to the th cold water inlet pipe and th cold water return pipe, the th water using terminal connected to the cold water intermediate connection pipe;

the second water supply branch system is communicated with the hot water supply branch pipe and the cold water supply branch pipe; the second water supply branch system comprises a second hot water inlet pipe and a second hot water return pipe which are communicated with the hot water supply branch pipe, a hot water intermediate connecting pipe which is communicated with the second hot water inlet pipe and the second hot water return pipe, and a second water terminal which is connected to the hot water intermediate connecting pipe; the second water supply branch system also comprises a second cold water inlet pipe and a second cold water return pipe which are communicated with the cold water supply branch pipe, a cold water middle connecting pipe which is communicated with the second cold water inlet pipe and the second cold water return pipe, and a second water terminal is connected to the cold water middle connecting pipe.

, including a th water supply branch system communicated with the hot water supply branch pipe and the cold water supply branch pipe, wherein the 0 th water supply branch system includes a 1 th hot water inlet pipe communicated with the hot water supply branch pipe, a th hot water inlet pipe communicated with the hot water intermediate connecting pipe, a th hot water return pipe communicated with the hot water intermediate connecting pipe, and a th water terminal connected to the hot water intermediate connecting pipe, the th water supply branch system includes a th cold water inlet pipe communicated with the cold water supply branch pipe, a th cold water intermediate connecting pipe communicated with the th cold water inlet pipe, an th cold water return pipe communicated with the cold water intermediate connecting pipe, and a th water terminal connected to the cold water intermediate connecting pipe;

the second water supply branch system comprises a second hot water inlet pipe communicated with the th hot water return pipe, a hot water intermediate connecting pipe communicated with the second hot water inlet pipe, a second hot water return pipe communicated with the hot water intermediate connecting pipe, and a second water use terminal connected to the hot water intermediate connecting pipe, the second hot water return pipe is communicated with the hot water supply branch pipe, the second water supply branch system comprises a second cold water inlet pipe communicated with the th cold water return pipe, a cold water intermediate connecting pipe communicated with the second cold water inlet pipe, and a second cold water return pipe communicated with the cold water intermediate connecting pipe, the second water use terminal is connected to the cold water intermediate connecting pipe, and the second cold water return pipe is communicated with the cold water supply branch pipe.

, including a th water supply branch system communicated with the hot water supply branch pipe and the cold water supply branch pipe, wherein the 0 th water supply branch system includes a 1 th hot water inlet pipe communicated with the hot water supply branch pipe, a th hot water inlet pipe communicated with the hot water intermediate connecting pipe, a th hot water return pipe communicated with the hot water intermediate connecting pipe, and a th water terminal connected to the hot water intermediate connecting pipe, the th water supply branch system includes a th cold water inlet pipe communicated with the cold water supply branch pipe, a th cold water intermediate connecting pipe communicated with the th cold water inlet pipe, an th cold water return pipe communicated with the cold water intermediate connecting pipe, and a th water terminal connected to the cold water intermediate connecting pipe;

the second water supply branch system comprises a second hot water return pipe communicated with the th hot water return pipe, a hot water intermediate connecting pipe communicated with the second hot water return pipe, a second hot water inlet pipe communicated with the hot water intermediate connecting pipe, and a second water terminal connected to the hot water intermediate connecting pipe, the second hot water inlet pipe is communicated with the hot water supply branch pipe, the second water supply branch system comprises a second cold water return pipe communicated with the th cold water return pipe, a cold water intermediate connecting pipe communicated with the second cold water return pipe, and a second cold water inlet pipe communicated with the cold water intermediate connecting pipe, the second water terminal is connected to the cold water intermediate connecting pipe, and the second cold water inlet pipe is communicated with the cold water supply branch pipe.

, the water supply system further comprises a third water supply branch system communicated with the hot water supply branch pipe and the cold water supply branch pipe, the third water supply branch system comprises a third hot water inlet pipe and a third hot water return pipe communicated with the hot water supply branch pipe, a hot water intermediate connecting pipe communicated with the third hot water inlet pipe and the third hot water return pipe, and a third water terminal connected to the hot water intermediate connecting pipe, the third water supply branch system further comprises a third cold water inlet pipe and a third cold water return pipe communicated with the cold water supply branch pipe, a cold water intermediate connecting pipe communicated with the third cold water inlet pipe and the third cold water return pipe, and the third water terminal is connected to the cold water intermediate connecting pipe.

, the hot water intermediate connecting pipe and the cold water intermediate connecting pipe are both arranged as a U-shaped pipe or an F-shaped pipe.

, the water use terminal includes a terminal control valve connected to the intermediate connection pipe.

, the water supply branch system comprises a three-way pipe which is communicated with the water inlet pipe, the water return pipe and the water supply branch pipe.

The invention has the advantages that the middle connecting pipe and the water return pipe are added at the water using terminal of the water outlet point of the pipeline system, the terminal control valve is connected with the middle connecting pipe, when water in the pipeline system flows into the water using terminal through the end of the middle connecting pipe, part of water flows out through the terminal control valve , and part of water flows flow flows back to the pipeline system again through the water return pipe from the other end of the middle connecting pipe, so that running water circulating systems like a closed container are formed.

Drawings

FIG. 1 is a schematic block diagram of a configuration of an uninterruptible water supply system (with water supply branch systems) according to an embodiment of the present invention;

FIG. 2 is a schematic diagram showing the structure of an uninterrupted water-activating system (with two water supply branch systems) according to an embodiment of the present invention.

Description of reference numerals:

100-water supply main pipe, 100 a-cold water supply main pipe, 100 b-hot water supply main pipe, 200-hot water supply branch pipe, 210-hot water inlet pipe, 210a- th hot water inlet pipe, 210 b-second hot water inlet pipe, 212-hot water intermediate connecting pipe, 220-hot water return pipe, 220a- th hot water return pipe, 220 b-second hot water return pipe, 222-hot water three-way pipe, 300-cold water supply branch pipe, 310-cold water inlet pipe, 310a- th cold water inlet pipe, 310 b-second cold water inlet pipe, 312-cold water intermediate connecting pipe, 320-cold water return pipe, 320a- th cold water return pipe, 320 b-second cold water return pipe, 322-cold water three-way pipe, 400-water terminal, 400a- th water terminal, and 400 b-second water terminal.

Detailed Description

The following examples illustrate the invention in detail:

as shown in fig. 1, the present invention provides uninterrupted running water systems, which include a main water supply pipe 100, at least branch water supply pipes (200, 300) connected to the main water supply pipe 100, and at least branch water supply systems connected to each branch water supply pipe, i.e. a plurality of branch water supply pipes can be installed on the main water supply pipe 100, and each branch water supply pipe can be connected to a plurality of branch water supply systems.

Furthermore, the water supply branching system comprises a water inlet pipe (210, 310) and a water return pipe (220, 320) communicating with the water supply branch pipe (200, 300), an intermediate connection pipe (212, 312) communicating with the water inlet pipe (210, 310) and the water return pipe (220, 320), and a water use terminal (400) connected to the intermediate connection pipe (212, 312), water can be supplied to the user terminal (400) through the water inlet pipe (210, 310) communicating with the water supply branch pipe (200, 300), and by providing the intermediate connection pipe (212, 312) and the water return pipe (220, 320) and connecting the water use terminal (400) to the intermediate connection pipe (212, 312), so that during water use of the water use terminal (400), part of water at in the water inlet pipe (210, 310) flows into the water use terminal (400) through the end of the intermediate connection pipe (212, 312), while part of water at another in the water inlet pipe (210, 310) flows into the water use terminal (220) through another , 312) end of the intermediate connection pipe (220), and so that loss of water at the water supply branch pipe (300) can be solved, particularly when water loss occurs in the water supply branching system, such that a large amount of the water supply branch pipe (300) and water supply branch pipe (300) can be lost, and water supply branch pipe (300) can be eliminated.

, the main water supply pipe 100 includes a main hot water supply pipe 100a, the branch water supply pipes include at least branch hot water supply pipes 200 communicated with the main hot water supply pipe 100a, each branch hot water supply pipe 200 is communicated with at least branch water supply systems, the branch water supply systems include a hot water inlet pipe 210 and a hot water return pipe 220 communicated with the branch hot water supply pipes 200, a hot water intermediate connecting pipe 212 communicating the hot water inlet pipe 210 and the hot water return pipe 220, and the water terminal 400 is connected with the hot water intermediate connecting pipe 212.

Further, the main water supply pipe 100 includes a main cold water supply pipe 100b including at least branch cold water supply pipes 300 communicating with the main cold water supply pipe 100b, each branch cold water supply pipe 300 communicating with at least branch water supply systems, the branch water supply systems further include a cold water inlet pipe 310 and a cold water return pipe 320 communicating with the branch cold water supply pipes 300, a cold water intermediate connection pipe 312 communicating with the cold water inlet pipe 310 and the cold water return pipe 320, and the water use terminal 400 is connected to the cold water intermediate connection pipe 312.

Specifically, as shown in fig. 2, in , the uninterrupted live water system may include two water supply branches, namely, a th water supply branch communicating with both the hot water supply branch 200 and the cold water supply branch 300, and a second water supply branch communicating with both the hot water supply branch 200 and the cold water supply branch 300.

in , in some embodiments, the second branch water supply system includes th and th hot water inlet pipes 210a and 220a communicating with the hot water supply branch pipe 200, the hot water intermediate connection pipe 212 communicating with the 3 th and th hot water return pipes 210a and 220a, and the th water use terminal 400a connected to the hot water intermediate connection pipe 212, the branch water supply system further includes th and 9636 th cold water inlet pipes 310a and 320a communicating with the cold water supply branch pipe 300, the cold water intermediate connection pipe 312 communicating with the cold water inlet pipe 310a and the cold water return pipe th cold water return pipe 320a, the th water terminal 400a connected to the cold water intermediate connection pipe 312 a, and a second cold water inlet pipe 967 b and a second hot water return pipe 220b communicating with the cold water supply branch pipe 200, the second hot water inlet pipe 210b and the cold water intermediate connection pipe 220b communicating with the hot water supply branch pipe 220b and the cold water return pipe 300 b, the cold water intermediate connection pipe 310b and the cold water return pipe 96320 b communicating with the hot water inlet pipe 320a and the cold water supply branch water inlet pipe 320b, the cold water supply branch connection pipe 300 b, the cold water inlet pipe 320b and the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b and the cold water inlet pipe 320b, the cold water inlet pipe 320b and the cold water inlet pipe 300 b, the cold water supply branch system further communicating with the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water inlet pipe 320b and the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b, and the cold water inlet pipe 320b, the cold water inlet pipe 320.

In addition, in other embodiments, the th water supply branch system includes a th hot water inlet pipe 210a communicating with the hot water supply branch pipe 200, the hot water intermediate connection pipe 212 communicating with the th hot water inlet pipe 210a, a th hot water return pipe 220a communicating with the hot water intermediate connection pipe 212, and a th water terminal 400a connected to the hot water intermediate connection pipe 212, the th water supply branch system includes a th cold water inlet pipe 310a communicating with the cold water supply branch pipe 300, the cold water intermediate connection pipe 312 communicating with the cold water inlet pipe 310a of the second water supply branch pipe 42, a th cold water return pipe 320a communicating with the cold water intermediate connection pipe 312, the th water terminal 400a connecting with the cold water intermediate connection pipe 312, a further, the second hot water branch system includes a 210b communicating with the second hot water inlet pipe 220b communicating with the second hot water intermediate connection pipe b 220b, the hot water intermediate connection pipe 312 a is connected to the cold water supply branch connection pipe 320b, the cold water inlet pipe 320b, the cold water return pipe 320b communicating with the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water return pipe 300 b communicating with the cold water inlet pipe 320b, the cold water inlet pipe 300 b communicating with the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b communicating with the cold water inlet pipe 300, the cold water inlet pipe 320b communicating with the cold water inlet pipe 320a warm water inlet pipe 300, the cold water inlet pipe 300 b communicating with the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water inlet pipe 300 and the cold water inlet pipe 300, the cold water inlet pipe 300 b communicating with the cold water inlet pipe 300 b, the cold water inlet pipe 300 b communicating with the cold water inlet pipe 300 b, the cold water inlet pipe 300.

In addition, in other embodiments, the second water supply branch system includes a second hot water inlet pipe 210a communicating with the hot water supply branch pipe 200, the hot water intermediate connection pipe 212 communicating with the second hot water inlet pipe 210a, a second hot water return pipe 220a communicating with the hot water intermediate connection pipe 212, and a second water terminal 400a connected to the hot water intermediate connection pipe 212, the water supply branch system includes a second cold water inlet pipe 310a communicating with the cold water supply branch pipe 300, the cold water intermediate connection pipe 312 communicating with the second 310 cold water inlet pipe 310a, a second cold water return pipe 320a communicating with the cold water intermediate connection pipe 312, the second water terminal 400a connected to the cold water intermediate connection pipe 312, the second 358 hot water return pipe 220b communicating with the second 220a of the second hot water intermediate connection pipe 220a, the second cold water intermediate connection pipe 469 connected to the hot water return pipe 310a, the second cold water inlet pipe 310b communicating with the second cold water intermediate connection pipe 320b, the hot water return pipe 320b, the second cold water inlet pipe 320a communicating with the second cold water return pipe 320b, the hot water inlet pipe 300 b, the cold water inlet pipe 320a and the cold water return pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b communicating with the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water inlet pipe 320b communicating with the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b communicating with the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b, the cold water inlet pipe 320b, the cold water inlet pipe 300 b.

In addition, in other embodiments, the uninterrupted live water system includes a third water supply branch system in communication with both the hot water supply branch pipe 200 and the cold water supply branch pipe 300, in addition to the th water supply branch system and the second water supply branch system in communication with both the hot water supply branch pipe 200 and the cold water supply branch pipe 300.

. in some embodiments , the third water supply branch system includes a third hot water inlet pipe and a third hot water return pipe communicating with the hot water supply branch pipe 200, the hot water intermediate connection pipe 212 communicating with the third hot water inlet pipe and the third hot water return pipe, and a third water terminal connected to the hot water intermediate connection pipe 212, the third water supply branch system further includes a third cold water inlet pipe and a third cold water return pipe communicating with the cold water supply branch pipe 300, the cold water intermediate connection pipe communicating with the third cold water inlet pipe and the third cold water return pipe, the third cold water terminal connected to the cold water intermediate connection pipe, the third hot water inlet pipe and the third hot water return pipe of the third water supply branch system directly communicate with the hot water supply branch pipe 200, the third cold water inlet pipe and the third cold water return pipe directly communicate with the cold water supply branch pipe 300. in combination with the above embodiments, the hot water inlet pipe and the hot water return pipe of the three water branch systems may directly communicate with the hot water supply branch pipe 200, the hot water inlet pipe and the cold water return pipe may directly communicate with the cold water supply branch system 300, and the hot water branch system may also communicate with each other branch water supply branch system, the cold water inlet pipe 300, and the hot water supply branch system may communicate with each other branch system, and the cold water supply branch system may communicate with the cold water inlet pipe 300, and the cold water supply branch system, the hot water supply branch system may communicate with the cold water supply branch system.

In addition, in other embodiments, the third water supply branch system includes a third hot water inlet pipe connected to the second hot water return pipe 220b (or the second hot water inlet pipe 210b), the hot water intermediate connection pipe 212 connected to the third hot water inlet pipe , a third hot water return pipe connected to the hot water intermediate connection pipe 212 , and a third water terminal connected to the hot water intermediate connection pipe 212, the third hot water return pipe directly connected to the hot water supply branch pipe 200, the third water supply branch system further includes a third cold water inlet pipe connected to the second cold water return pipe 320b (or the second cold water inlet pipe 310b), the cold water intermediate connection pipe 312 connected to the third cold water inlet pipe , a third cold water return pipe connected to the cold water intermediate connection pipe 312, and a third cold water terminal connected to the cold water intermediate connection pipe 312, the third cold water return pipe directly connected to the cold water supply branch pipe 300, in combination with the third hot water inlet pipe , and the third cold water return pipe 300, the third cold water return pipe 500 a, the third cold water return pipe 500 b, the third cold water inlet pipe 500 a, the cold water return pipe 500 b, the cold water return pipe 300, the third cold water return pipe 300, the cold water inlet pipe 210a, the cold water return pipe 210b, and the cold water return pipe 210b, the cold water inlet pipe 320a and the cold water return pipe 320 b.

In addition, the hot water intermediate connection pipe 212 and the cold water intermediate connection pipe 312 may be provided as a U-shaped pipe or an F-shaped pipe, when the hot water intermediate connection pipe 212 and the cold water intermediate connection pipe 312 are provided as U-shaped pipes, the hot water inlet pipe and the hot water return pipe (or the cold water inlet pipe and the cold water return pipe) are connected to both extended ends of the U-shaped hot water intermediate connection pipe 212 (or the cold water intermediate connection pipe 312), respectively, and the water use terminal 400 is connected to both extended ends of the F-shaped hot water intermediate connection pipe 212 (or the cold water intermediate connection pipe 312), when the hot water intermediate connection pipe 212 and the cold water intermediate connection pipe 312 are provided as F-shaped pipes, respectively, the hot water inlet pipe and the hot water return pipe (or the cold water inlet pipe and the cold water return pipe) are connected to both extended ends of the F-shaped hot water intermediate connection pipe 212 (or the cold water intermediate connection pipe 312), respectively, and the water use terminal 400 is connected to the hot water intermediate connection pipe 212 (or the cold water intermediate connection pipe 312), respectively, the extended end , and the water connection pipe 400 includes a terminal control valve connected to the hot water inlet pipe and the cold water return pipe 220, a branch pipe 220, a cold water branch pipe connecting the hot water supply system, a cold water branch tee pipe, a cold water branch pipe 220, a cold water branch pipe 320, a cold water branch tee pipe, a cold water branch pipe.

According to the uninterrupted water activating system provided by the invention, the middle connecting pipe and the water return pipe are added at the water using terminal of the water outlet point of the pipeline system, the terminal control valve is connected with the middle connecting pipe, when water in the pipeline system flows into the water using terminal through the end of the middle connecting pipe, parts of water flows out through the terminal control valve , and other parts of water flow flows back to the pipeline system again through the water return pipe from the other end of the middle connecting pipe, so that water activating circulation systems like closed containers are formed.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. The uninterrupted water activating system is characterized by comprising a water supply main pipe, at least water supply branch pipes connected to the water supply main pipe, and at least water supply branch systems connected to each water supply branch pipe;

   the water supply branch system comprises a water inlet pipe, a water return pipe, a middle connecting pipe and a water using terminal, wherein the water inlet pipe and the water return pipe are communicated with the water supply branch pipe;

   the water supply main pipe comprises a hot water supply main pipe, the water supply branch pipes comprise at least hot water supply branch pipes communicated with the hot water supply main pipe, and each hot water supply branch pipe is communicated with at least water supply branch systems;

   the water supply branch system comprises a hot water inlet pipe, a hot water return pipe and a hot water intermediate connecting pipe, wherein the hot water inlet pipe and the hot water return pipe are communicated with the hot water supply branch pipe;

   the water supply main pipe comprises a cold water supply main pipe, the water supply branch pipes comprise at least cold water supply branch pipes communicated with the cold water supply main pipe, and each cold water supply branch pipe is communicated with at least water supply branch systems;

   the water supply branch system further comprises a cold water inlet pipe and a cold water return pipe which are communicated with the cold water supply branch pipe, and a cold water intermediate connecting pipe which is communicated with the cold water inlet pipe and the cold water return pipe, and the water using terminal is connected with the cold water intermediate connecting pipe.
2. 2. The non-interrupted water activating system according to claim 1, comprising th water supply branch system communicated with the hot water supply branch pipe and the cold water supply branch pipe, wherein the th water supply branch system comprises 0 th hot water inlet pipe and 1 th hot water return pipe communicated with the hot water supply branch pipe, the hot water intermediate connection pipe communicated with the 2 th hot water inlet pipe and th hot water return pipe, and th water terminal connected to the hot water intermediate connection pipe, wherein the th water supply branch system further comprises th cold water inlet pipe and th cold water return pipe communicated with the cold water supply branch pipe, the cold water intermediate connection pipe communicated with the th cold water inlet pipe and th cold water return pipe, and the th water terminal connected to the cold water intermediate connection pipe;

   the second water supply branch system is communicated with the hot water supply branch pipe and the cold water supply branch pipe; the second water supply branch system comprises a second hot water inlet pipe and a second hot water return pipe which are communicated with the hot water supply branch pipe, a hot water intermediate connecting pipe which is communicated with the second hot water inlet pipe and the second hot water return pipe, and a second water terminal which is connected to the hot water intermediate connecting pipe; the second water supply branch system also comprises a second cold water inlet pipe and a second cold water return pipe which are communicated with the cold water supply branch pipe, a cold water middle connecting pipe which is communicated with the second cold water inlet pipe and the second cold water return pipe, and a second water terminal is connected to the cold water middle connecting pipe.
3. 3. The uninterruptible water supply system according to claim 1, comprising th water supply branch system communicating with both the hot water supply branch pipe and the cold water supply branch pipe, wherein the th water supply branch system comprises 0 th hot water inlet pipe communicating with the hot water supply branch pipe, the th hot water inlet pipe communicating with the th hot water inlet pipe, th hot water return pipe communicating with the hot water intermediate connection pipe, and th water terminal connected to the hot water intermediate connection pipe, wherein the th water supply branch system comprises th cold water inlet pipe communicating with the cold water supply branch pipe, the cold water intermediate connection pipe communicating with the th cold water inlet pipe, th cold water return pipe communicating with the cold water intermediate connection pipe, and the th water terminal is connected to the cold water intermediate connection pipe;

   the second water supply branch system comprises a second hot water inlet pipe communicated with the th hot water return pipe, a hot water intermediate connecting pipe communicated with the second hot water inlet pipe, a second hot water return pipe communicated with the hot water intermediate connecting pipe, and a second water use terminal connected to the hot water intermediate connecting pipe, the second hot water return pipe is communicated with the hot water supply branch pipe, the second water supply branch system comprises a second cold water inlet pipe communicated with the th cold water return pipe, a cold water intermediate connecting pipe communicated with the second cold water inlet pipe, and a second cold water return pipe communicated with the cold water intermediate connecting pipe, the second water use terminal is connected to the cold water intermediate connecting pipe, and the second cold water return pipe is communicated with the cold water supply branch pipe.
4. 4. The uninterruptible water supply system according to claim 1, comprising th water supply branch system communicating with both the hot water supply branch pipe and the cold water supply branch pipe, wherein the th water supply branch system comprises 0 th hot water inlet pipe communicating with the hot water supply branch pipe, the th hot water inlet pipe communicating with the th hot water inlet pipe, th hot water return pipe communicating with the hot water intermediate connection pipe, and th water terminal connected to the hot water intermediate connection pipe, wherein the th water supply branch system comprises th cold water inlet pipe communicating with the cold water supply branch pipe, the cold water intermediate connection pipe communicating with the th cold water inlet pipe, th cold water return pipe communicating with the cold water intermediate connection pipe, and the th water terminal is connected to the cold water intermediate connection pipe;

   the second water supply branch system comprises a second hot water return pipe communicated with the th hot water return pipe, a hot water intermediate connecting pipe communicated with the second hot water return pipe, a second hot water inlet pipe communicated with the hot water intermediate connecting pipe, and a second water terminal connected to the hot water intermediate connecting pipe, the second hot water inlet pipe is communicated with the hot water supply branch pipe, the second water supply branch system comprises a second cold water return pipe communicated with the th cold water return pipe, a cold water intermediate connecting pipe communicated with the second cold water return pipe, and a second cold water inlet pipe communicated with the cold water intermediate connecting pipe, the second water terminal is connected to the cold water intermediate connecting pipe, and the second cold water inlet pipe is communicated with the cold water supply branch pipe.
5. 5. The uninterruptible water supply system according to any of of claims 2 to 4, further comprising a third water supply branch system connected to both the hot water supply branch pipe and the cold water supply branch pipe, wherein the third water supply branch system comprises a third hot water inlet pipe and a third hot water return pipe connected to the hot water supply branch pipe, a hot water intermediate connection pipe connected to the third hot water inlet pipe and the third hot water return pipe, and a third water terminal connected to the hot water intermediate connection pipe, wherein the third water supply branch system further comprises a third cold water inlet pipe and a third cold water return pipe connected to the cold water supply branch pipe, a cold water intermediate connection pipe connected to the third cold water inlet pipe and the third cold water return pipe, and the third water terminal is connected to the cold water intermediate connection pipe.
6. 6. The uninterruptible water supply system according to claim 1, wherein the hot water intermediate connection pipe and the cold water intermediate connection pipe are each provided as a U-shaped pipe or an F-shaped pipe.
7. 7. The continuous water activating system as claimed in claim 1, wherein the water using terminal comprises a terminal control valve connected to the intermediate connection pipe.
8. 8. The uninterrupted water activating system according to claim 1, wherein the water supply branch system comprises a three-way pipe for communicating the water inlet pipe, the water return pipe and the water supply branch pipe.

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