CN104482581A - Connecting device and connecting method for capillary networks and mainfold devices - Google Patents

Abstract

The invention relates to a connecting device and a connecting method for capillary networks and mainfold devices. The connecting device comprises the special mainfold devices (1) for the capillary networks and the capillary networks (2) in all rooms; the special mainfold devices (1) for the capillary networks and the capillary networks (2) in all rooms are all provided with water inlets and water return ports; the water inlets of the special mainfold devices (1) for the capillary networks are connected with the water inlets of the capillary networks (2) in each room by PE-RT (Polyethylene of Raised Temperature Resistance) water inlet pipes (3); the water return ports of capillary networks (2) in all rooms and those of the special mainfold devices (1) for the capillary networks are connected by PE-RT water return pipes (4). Compared with the prior art, the connecting device and the connecting method have the beneficial effects that the connecting device disclosed by the invention has a simple structure; the connecting method is convenient and reliable to mount and economic and practical; the technical defects of excessive heat fusion joints and high workload, which are caused by adoption of PPR (polypropylene) pipelines, of a pipeline system in the prior art are effectively overcome; mounting cost and the mounting progress are reduced.

Description

The jockey of a kind of capillary network and water collecting and diversifying device and method of attachment

Technical field

The present invention relates to assembling pipe joint and method of attachment, particularly relate to jockey and the method for attachment of a kind of capillary network and water collecting and diversifying device.

Background technology

The patent No. is that the Chinese invention patent of ZL201010598627.3 discloses a kind of capillary network air conditioner wall and adopts the air-conditioning system of this air-conditioning wall, described air-conditioning wall, comprise load bearing support wall and be fixed on air-conditioning capillary network within the walls, it is characterized in that described air-conditioning wall also comprises passive radiating surface, described passive radiating surface with between capillary network, load bearing support wall with all leave spacing between capillary network and do not contact; Described air-conditioning system is the air-conditioning system using air-conditioning wall as air conditioning terminal heat exchanger, and this air-conditioning system tool has the following advantages, and energy-efficient, comfort level is high, saves space, environmental protection, and comparatively fast, the life-span is permanent for cooling, intensification.But the air-conditioning system involved by this invention adopts the anticorrosives such as PP-R to make completely, the technological deficiency that heat fusion joint is too much, workload is huge that the conduit coupling that there is the pipeline and PPR material because adopting PPR material on the one hand brings; On the other hand, there is too much connected node owing to adopting in the pipe-line system of PPR material, thus significantly add the leakage hidden trouble of pipe-line system; In addition, intersecting because existing between each pipeline when adopting the pipe-line system of PPR material that stringing is installed at the scene, thus can bring very big inconvenience to in-site installation.

The patent No. is that the Chinese utility model patent of ZL201220052449.9 discloses a kind of indirect type solar auxiliary air source heat pump radiant heating system, be mainly used in the heat pump type air conditioner system of cold and severe cold area minimized office type building, it is characterized in that comprising two cyclic systems, i.e. solar energy water circulation loop and refrigerant circulation loop, system relates to solar energy heat collector, heat pump assembly, fluorine water plate type heat exchanger, radiation heat transfer capillary network, air-conditioner and water circulating pump.The key technology of this utility model is to add fluorine water plate type heat exchanger and solar energy heat collector, heat solar thermal collector collected by fluorine water plate type heat exchanger is to heat pump transmission, the problem that air source heat pump can not normally run when outdoor evaporator frosting is serious can be solved, also solve the problem of the too low and shortage of heat of the hot water direct heating water temperature of solar thermal collector.But what the circulating water pipe of this utility model connected is the PPR pipe of φ 20mm, therefore, the technological deficiency that heat fusion joint is too much, workload is huge that the conduit coupling of the pipeline and PPR material that still exist on the one hand because adopting PPR material brings; On the other hand, in the pipe-line system of PPR material, still there is too much connected node, thus significantly add the leakage hidden trouble of pipe-line system; Moreover, will certainly exist between each pipeline when adopting the pipe-line system of PPR material that stringing is installed at the scene and form arranged crosswise, and then the installation of job site can be caused very inconvenient.

Summary of the invention

In order to the technological deficiency that the jockey solving above-mentioned existing capillary network and water collecting and diversifying device exists, the technical solution used in the present invention is as follows:

The jockey of a kind of capillary network and water collecting and diversifying device, comprise the capillary network in the special water collecting and diversifying device of capillary network and each room, the special water collecting and diversifying device of described capillary network is equipped with water inlet and water return outlet with the capillary network in each room, adopt PE-RT water inlet pipe to be connected between the water inlet of the special water collecting and diversifying device of described capillary network and the water inlet of the capillary network in each room, between the water return outlet of the capillary network in each room described and the water return outlet of the special water collecting and diversifying device of capillary network, adopt PE-RT return pipe to be connected.

Preferably, the water inlet of the special water collecting and diversifying device of described capillary network is connected by articulation with between PE-RT water inlet pipe, and the water inlet of the capillary network in each room described is connected by crossover sub with between PE-RT water inlet pipe.

In above-mentioned either a program preferably, the water return outlet of the capillary network in each room described is connected by crossover sub with between PE-RT return pipe, and the water return outlet of the special water collecting and diversifying device of described capillary network is connected by articulation with between PE-RT return pipe.

In above-mentioned either a program preferably, the special water collecting and diversifying device of described capillary network comprises the main thick stick of water collecting and diversifying device, the main thick stick of described water collecting and diversifying device is provided with water inlet and water return outlet, and described water inlet and water return outlet are equipped with described articulation, and described articulation comprises connector, tight loop and clamp nut.

In above-mentioned either a program preferably, capillary network in each room described comprises capillary network PPR to be responsible for, described capillary network PPR supervisor is provided with water inlet and water return outlet, all be connected by crossover sub between described water inlet with PE-RT water inlet pipe and between described water return outlet with PE-RT return pipe, described crossover sub comprises PE-RT pipe joint, copper crossover sub and PPR pipe joint, described PE-RT pipe joint is connected with PE-RT water inlet pipe or PE-RT return pipe by PE-RT hot melt is straight-through, described PPR pipe joint is led directly to by PPR hot melt and is connected with the water inlet on described capillary network supervisor PPR or water return outlet.

In above-mentioned either a program preferably, described PPR pipe joint comprises PPR90 degree elbow.

In above-mentioned either a program preferably, described PPR pipe joint comprises PPR free flow coupling.

In above-mentioned either a program preferably, described PE-RT water inlet pipe and PE-RT return pipe all adopt caliber to be De20, and wall thickness is 2.0mm, and material is the tubing of PE-RT.

In above-mentioned either a program preferably, the material of the special water collecting and diversifying device of described capillary network adopts engineering plastics.

In above-mentioned either a program preferably, described engineering plastics adopt polyimides.

In above-mentioned either a program preferably, described polyimides adopts aliphatic polyimide.

In above-mentioned either a program preferably, described polyimides adopts semi-aromatic polyimides.

In above-mentioned either a program preferably, described polyimides adopts aromatic polyimide.

In above-mentioned either a program preferably, described polyimides adopts TPI.

In above-mentioned either a program preferably, described polyimides adopts Thermocurable polyimide.

In above-mentioned either a program preferably, the material of the special water collecting and diversifying device of described capillary network adopts PPR pipe.

In above-mentioned either a program preferably, the caliber of the main thick stick of described water collecting and diversifying device is DN25.

In above-mentioned either a program preferably, the caliber of the main thick stick of described water collecting and diversifying device is DN32.

In above-mentioned either a program preferably, the caliber of the main thick stick of described water collecting and diversifying device is DN40.

In above-mentioned either a program preferably, the material of the capillary network in each room described adopts PPR pipe.

In above-mentioned either a program preferably, described copper crossover sub adopts hot melt and extrusion process to make, and can guarantee that Long-Time Service drainage does not occur, and there will not be corrosion when can ensure long-term buried installation.

In above-mentioned either a program preferably, the special water collecting and diversifying device of described capillary network comprises flowmeter and valve switch executing agency.

In above-mentioned either a program preferably, described valve switch executing agency adopts paraffin thermometer bulb electrical actuator.

In above-mentioned either a program preferably, described valve switch executing agency adopts YE, and described YE comprises gear structure.

In above-mentioned either a program preferably, described flowmeter adopts target type meter.

In above-mentioned either a program preferably, described flowmeter adopts volumetric flowmeter.

In above-mentioned either a program preferably, described flowmeter adopts turbine flowmeter.

In above-mentioned either a program preferably, described flowmeter adopts differential pressure flowmeter.

In above-mentioned either a program preferably, described flowmeter adopts variable area formula flowmeter.

In above-mentioned either a program preferably, described flowmeter adopts electromagnetic flowmeter.

In above-mentioned either a program preferably, described flowmeter adopts ultrasonic flowmeter.

In above-mentioned either a program preferably, described flowmeter adopts vortex-shedding meter.

In above-mentioned either a program preferably, described flowmeter adopts coriolis mass flowmeters.

In above-mentioned either a program preferably, described flowmeter adopts plug-in type thermal mass flow sensors.

In above-mentioned either a program preferably, described connector material is copper.

In above-mentioned either a program preferably, described tight loop material is copper.

In above-mentioned either a program preferably, described clamp nut material is copper.

In order to the technological deficiency that the method for attachment solving existing capillary network and water collecting and diversifying device exists, present invention also offers the method for attachment of a kind of capillary network and water collecting and diversifying device, comprising:

Step 1, one end of described PE-RT water inlet pipe and PE-RT return pipe is set in the articulation of the main thick stick water inlet of described water collecting and diversifying device and water return outlet, one end by described PE-RT water inlet pipe and PE-RT return pipe is set on the periphery of the connector of described articulation, described tight loop and clamp nut to be sleeved on successively subsequently on described connector and to lock.

Step 2, synchronously to carry out with step 1, the water inlet that described PE-RT water inlet pipe and the other end of PE-RT return pipe are responsible for described capillary network PPR is respectively connected with water return outlet, by described crossover sub PPR pipe joint by PPR hot melt lead directly to be sleeved on described capillary network PPR be responsible for water inlet and water return outlet periphery on, be connected with described PE-RT water inlet pipe or PE-RT return pipe by PE-RT hot melt is straight-through by the PE-RT pipe joint of described crossover sub subsequently, described pipeline connects employing sweat soldering technique.

The present invention's beneficial effect is compared with prior art: the jockey and the method for attachment that the invention discloses a kind of capillary network and water collecting and diversifying device, namely capillary network is in the syndeton of indoor location and method of attachment, this jockey structure is simple, easy installation and reliable and economical and practical, this method of attachment adopts PE-RT pipeline to be main connecting branch road, when carrying out PE-RT Pipe installing, pipeline corner connects without the need to using other pipe joints, only need crossover sub be adopted to carry out being connected with PE-RT pipeline in capillary network mesh sheet termination, then articulation PE-RT pipeline being connected to radiant panel for cooling and heating system-specific water collecting and diversifying device just can complete installation.One aspect of the present invention effectively overcomes the technological deficiency that heat fusion joint is too much, workload is huge because adopting PPR material pipeline and PPR material conduit coupling to bring between capillary network and water collecting and diversifying device in existing conventional installation methods; On the other hand, the present invention also effectively eliminates the leakage hidden trouble caused because there is too much connected node in existing PPR material pipe-line system; In addition, the present invention at the scene stringing time easy for installation, completely eliminate existing PPR material pipeline bring because there is arranged crosswise install inconvenience technological deficiency; Also effectively overcome the technological deficiency that electrical actuator is burnt in the serious dew condensation phenomenon existed when summer cooling that causes because using existing common floor heating water collecting and diversifying device and existence simultaneously.In addition, the present invention also effectively overcomes the technical problem of delay site operation progress that causes because being difficult to purchase the PPR pipe road of S5 grade De20 in the market existed in actual installation construction at present.In sum, the present invention significantly reduces installation cost and the installation progress of the humiture independence control air conditioner system using this radiation tail end of capillary network.

Accompanying drawing explanation

Fig. 1 is the structural representation of jockey one preferred embodiment according to capillary network of the present invention and water collecting and diversifying device;

Fig. 2 is the capillary network main pipeline embodiment illustrated in fig. 1 of jockey according to capillary network of the present invention and water collecting and diversifying device and the syndeton schematic diagram of water collecting and diversifying device;

Fig. 3 is syndeton local I enlarged diagram of crossover sub embodiment illustrated in fig. 1 according to the jockey of capillary network of the present invention and water collecting and diversifying device and capillary network;

Fig. 4 assembles and decomposition texture schematic diagram with the pipe connecting piece be connected between water collecting and diversifying device according to the capillary network main pipeline embodiment illustrated in fig. 1 of capillary network of the present invention with the jockey of water collecting and diversifying device;

Fig. 5 is the crossover sub structural representation with PPR90 degree elbow embodiment illustrated in fig. 1 of the jockey according to capillary network of the present invention and water collecting and diversifying device;

Fig. 6 is the crossover sub structural representation with PPR free flow coupling embodiment illustrated in fig. 1 of the jockey according to capillary network of the present invention and water collecting and diversifying device;

Fig. 7 is the structural representation of the jockey of existing capillary network and water collecting and diversifying device.

Description of reference numerals:

The special water collecting and diversifying device of 1 capillary network; Capillary network in 2 each rooms; 3PE-RT water inlet pipe; 4 PE-RT return pipes; 5 crossover subs; 6PE-RT hot melt leads directly to; 7PPR hot melt leads directly to; 8 capillary network PPR are responsible for; The main thick stick of 9 water collecting and diversifying device; 10 connectors; 11 tight loops; 12 clamp nuts; 13PE-RT pipe joint; 14 copper crossover subs; 15PPR90 degree elbow; 16PPR free flow coupling; 17 capillary network ordinary diversity hydrophones; 18PPR manages.

Detailed description of the invention

In order to understand the present invention better, below in conjunction with specific embodiment, the present invention is explained in detail, but, obviously can carry out different modification and remodeling to the present invention and not exceed the wider spirit and scope of the present invention of appended claims.Therefore, following examples have exemplary and hard-core implication.

Embodiment 1:

As shown in figs 1 to 6, the jockey of a kind of capillary network and water collecting and diversifying device, comprise the capillary network 2 in the special water collecting and diversifying device 1 of capillary network and each room, the special water collecting and diversifying device 1 of described capillary network is equipped with water inlet and water return outlet with the capillary network 2 in each room, PE-RT water inlet pipe 3 is adopted to be connected between the water inlet of the special water collecting and diversifying device 1 of described capillary network and the water inlet of the capillary network 2 in each room, PE-RT return pipe 4 is adopted to be connected between the water return outlet of the capillary network 2 in each room described and the water return outlet of the special water collecting and diversifying device 1 of capillary network, the water inlet of the special water collecting and diversifying device 1 of capillary network is connected by articulation with between PE-RT water inlet pipe 3, the water inlet of the capillary network 2 in each room is connected by crossover sub 5 with between PE-RT water inlet pipe 3, the water return outlet of the capillary network 2 in each room is connected by crossover sub 5 with between PE-RT return pipe 4, the water return outlet of the special water collecting and diversifying device 1 of capillary network is connected by articulation with between PE-RT return pipe 4, the special water collecting and diversifying device of capillary network 1 comprises the main thick stick 9 of water collecting and diversifying device, the main thick stick 9 of water collecting and diversifying device is provided with water inlet and water return outlet, described water inlet and water return outlet are equipped with described articulation, described articulation comprises connector 10, tight loop 11 and clamp nut 12, capillary network 2 in each room comprises capillary network PPR and is responsible for 8, capillary network PPR is responsible for 8 and is provided with water inlet and water return outlet, all be connected by crossover sub 5 between described water inlet with PE-RT water inlet pipe 3 and between water return outlet with PE-RT return pipe 4, crossover sub 5 comprises PE-RT pipe joint 13, copper crossover sub 14 and PPR pipe joint, PE-RT pipe joint 13 is connected with PE-RT water inlet pipe 3 or PE-RT return pipe 4 by PE-RT hot melt straight-through 6, PPR pipe joint leads directly to 7 by PPR hot melt and is responsible for water inlet on 8 with capillary network PPR or water return outlet is connected, described PPR pipe joint comprises PPR90 degree elbow 15 and PPR free flow coupling 16, PE-RT water inlet pipe 3 and PE-RT return pipe 4 all adopt caliber to be De20, wall thickness is 2.0mm, material is the tubing of PE-RT, the material of the special water collecting and diversifying device 1 of capillary network adopts engineering plastics, described engineering plastics adopt polyimides, described polyimides adopts aliphatic polyimide, the caliber of the main thick stick 9 of water collecting and diversifying device is DN25, the material of the capillary network 2 in each room adopts PPR pipe, copper crossover sub 14 adopts hot melt and extrusion process to make, the special water collecting and diversifying device 1 of capillary network comprises flowmeter and valve switch executing agency, described valve switch executing agency adopts paraffin thermometer bulb electrical actuator, described flowmeter adopts target type meter, connector 10, the material of tight loop 11 and clamp nut 12 is copper.

PE-RT water inlet pipe 3 of the present invention and PE-RT return pipe 4 adopt PE-RT tubing, it has following features: 1. good pliability, this makes it more convenient, economical when laying, by the use amount of method minimizing pipe fittings such as coiling and bend, thus construction cost can also be reduced when constructing simultaneously; 2. the loss of pipe internal friction is little; 3. embrittlement temperature is low, and PE-RT tubing has superior resistance to low temperature, has excellent impact resistance simultaneously, is suitable for winter construction, and when bending pipeline without the need to preheating; 4. can carry out hot-melt adhesive paste and mechanical connection, and connect reliable, non-leakage; 5. good environmental suitability; 6. quality is light, is easy to transport, installs and construction; 7. belong to Green Product, the recyclable recycling of heat-fusible materials, has environmental benefit; 8. good resist chemical performance, non-corrosive, long service life; 9. heat-resisting quantity is good, is 70 degrees Celsius in operating temperature, under pressure is the condition of work of 0.4MPa, can uses more than 50 years safely; 10. PE-RT tubing does not add any poisonous auxiliary agent in process of production, inner wall smooth, non-scaling, not breed bacteria, and therefore it is nontoxic, tasteless, sanitation performance is good, can safety applications in fields such as drinking water conveyings; During 11. PE-RT bending pipes, can be relaxed very soon at the stress of sweep, there will not be " resilience " phenomenon, constructability operates; 12. heat-resistant pressure-resistants are good.

Use a method of attachment for the jockey of capillary network described in claim 1 and water collecting and diversifying device, comprising:

Step 1, one end of PE-RT water inlet pipe 3 and PE-RT return pipe 4 is set in the articulation of water collecting and diversifying device main thick stick 9 water inlet and water return outlet, one end by PE-RT water inlet pipe 3 and PE-RT return pipe 4 is set on the periphery of connector 10 of described articulation, tight loop 11 and clamp nut 12 to be sleeved on successively subsequently on connector 10 and to lock.

Step 2, synchronously to carry out with step 1, the water inlet that PE-RT water inlet pipe 3 and the other end of PE-RT return pipe 4 are responsible for 8 with capillary network PPR is respectively connected with water return outlet, PPR pipe joint by crossover sub 5 leads directly on 7 water inlets being sleeved on capillary network PPR supervisor 8 and water return outlet periphery by PPR hot melt, be connected with PE-RT water inlet pipe 3 or PE-RT return pipe 4 by PE-RT hot melt straight-through 6 by the PE-RT pipe joint 13 of crossover sub 5 subsequently, described pipeline connects employing sweat soldering technique.

Be illustrated in figure 7 the jockey of existing capillary network and water collecting and diversifying device, adopt PPR pipe 18 to be connected between the water inlet of capillary network ordinary diversity hydrophone 17 and the water inlet of the capillary network 2 in each room, between the water return outlet of the capillary network 2 in each room described and the water return outlet of capillary network ordinary diversity hydrophone 17, the same PPR pipe 18 that adopts is connected.Obviously, a large amount of connected nodes is there is in the jockey of existing capillary network and water collecting and diversifying device in the installation process of actual pipeline, this connected node needs to install a large amount of PPR90 degree elbows 15 and PPR free flow coupling 16, therefore can cause the technological deficiency that the heat fusion joint of pipeline is too much and workload is huge, there is too much connected node in pipe-line system simultaneously and also significantly add leakage hidden trouble; In addition, there is the arranged crosswise between each pipeline when stringing being installed at the scene owing to adopting the pipe-line system of PPR material, thus can bring very big inconvenience to in-site installation.

Embodiment 2:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described polyimides adopts semi-aromatic polyimides.

Embodiment 3:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described polyimides adopts aromatic polyimide.

Embodiment 4:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described polyimides adopts TPI.

Embodiment 5:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described polyimides adopts Thermocurable polyimide.

Embodiment 6:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, the material of the special water collecting and diversifying device 1 of capillary network adopts PPR pipe.

Embodiment 7:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, the caliber of the main thick stick 9 of water collecting and diversifying device is DN32.

Embodiment 8:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, the caliber of the main thick stick 9 of water collecting and diversifying device is DN40.

Embodiment 9:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described valve switch executing agency adopts YE, and described YE comprises gear structure.

Embodiment 10:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts volumetric flowmeter.

Embodiment 11:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts turbine flowmeter.

Embodiment 12:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts differential pressure flowmeter.

Embodiment 13:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts variable area formula flowmeter.

Embodiment 14:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts electromagnetic flowmeter.

Embodiment 15:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts ultrasonic flowmeter.

Embodiment 16:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts vortex-shedding meter.

Embodiment 17:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts coriolis mass flowmeters.

Embodiment 18:

A jockey for capillary network and water collecting and diversifying device, similar to embodiment 1, difference is, described flowmeter adopts plug-in type thermal mass flow sensors.

Claims (10)

1. the jockey of a capillary network and water collecting and diversifying device, comprise the capillary network (2) in the special water collecting and diversifying device of capillary network (1) and each room, capillary network (2) in the special water collecting and diversifying device of described capillary network (1) and each room is equipped with water inlet and water return outlet, it is characterized in that, PE-RT water inlet pipe (3) is adopted to be connected between the water inlet of the special water collecting and diversifying device of described capillary network (1) and the water inlet of the capillary network (2) in each room, PE-RT return pipe (4) is adopted to be connected between the water return outlet of the capillary network (2) in each room described and the water return outlet of the special water collecting and diversifying device of capillary network (1).

2. the jockey of capillary network as claimed in claim 1 and water collecting and diversifying device, it is characterized in that, the water inlet of the special water collecting and diversifying device of capillary network (1) is connected by articulation with between PE-RT water inlet pipe (3), and the water inlet of the capillary network (2) in each room is connected by crossover sub (5) with between PE-RT water inlet pipe (3).

3. the jockey of capillary network as claimed in claim 1 and water collecting and diversifying device, it is characterized in that, the water return outlet of the capillary network (2) in each room is connected by crossover sub (5) with between PE-RT return pipe (4), and the water return outlet of the special water collecting and diversifying device of capillary network (1) is connected by articulation with between PE-RT return pipe (4).

4. the jockey of capillary network as claimed in claim 2 or claim 3 and water collecting and diversifying device, it is characterized in that, the special water collecting and diversifying device of capillary network (1) comprises the main thick stick of water collecting and diversifying device (9), the main thick stick of water collecting and diversifying device (9) is provided with water inlet and water return outlet, described water inlet and water return outlet are equipped with described articulation, and described articulation comprises connector (10), tight loop (11) and clamp nut (12).

5. the jockey of capillary network as claimed in claim 2 or claim 3 and water collecting and diversifying device, it is characterized in that, capillary network (2) in each room comprises capillary network PPR and is responsible for (8), capillary network PPR is responsible for (8) and is provided with water inlet and water return outlet, all be connected by crossover sub (5) between described water inlet with PE-RT water inlet pipe (3) and between water return outlet with PE-RT return pipe (4), crossover sub (5) comprises PE-RT pipe joint (13), copper crossover sub (14) and PPR pipe joint, PE-RT pipe joint (13) is connected with PE-RT water inlet pipe (3) or PE-RT return pipe (4) by PE-RT hot melt straight-through (6), PPR pipe joint to be responsible for water inlet on (8) with capillary network PPR by PPR hot melt straight-through (7) or water return outlet is connected.

6. the jockey of capillary network as claimed in claim 5 and water collecting and diversifying device, it is characterized in that, described PPR pipe joint comprises PPR90 degree elbow (15).

7. the jockey of capillary network as claimed in claim 5 and water collecting and diversifying device, it is characterized in that, described PPR pipe joint comprises PPR free flow coupling (16).

8. the jockey of capillary network as claimed in claim 1 and water collecting and diversifying device, it is characterized in that, PE-RT water inlet pipe (3) and PE-RT return pipe (4) all adopt caliber to be De20, and wall thickness is 2.0mm, and material is the tubing of PE-RT.

9. the jockey of capillary network as claimed in claim 1 and water collecting and diversifying device, is characterized in that, the material of the special water collecting and diversifying device of capillary network (1) adopts engineering plastics.

10. the jockey of capillary network as claimed in claim 9 and water collecting and diversifying device, is characterized in that, described engineering plastics adopt polyimides.