CN113292773A

CN113292773A - Graphene modified efficient heat-conducting heat source floor heating pipe fitting and preparation method thereof

Info

Publication number: CN113292773A
Application number: CN202110436965.5A
Authority: CN
Inventors: 刘俊峰; 汪进南; 扶银
Original assignee: Anhui Glant New Material Co Ltd
Current assignee: Anhui Glant New Material Co Ltd
Priority date: 2021-04-22
Filing date: 2021-04-22
Publication date: 2021-08-24

Abstract

The invention discloses a graphene modified high-efficiency heat-conducting heat source floor heating pipe fitting and a preparation method thereof.A polyethylene plastic particle, an antibacterial master batch and a graphene functional master batch are poured into a feeding box of processing equipment, a corresponding extrusion pipe is sleeved on a butt joint sleeve according to the processing caliber of the pipe fitting, the extrusion pipe and the butt joint sleeve are fixed by a threaded snap ring, a corresponding inner sleeve rod is inserted into the middle part of the extrusion pipe, one end of the inner sleeve rod is butted with a threaded joint of a fixed clamping frame, the inner sleeve rod is rotated to be sleeved in the extrusion pipe, and a user starts a third motor to drive a driving rod to rotate; the high-efficiency heat-conducting heat source floor heating pipe fitting has the graphene heat dissipation function, so that the using effect of the high-efficiency heat-conducting heat source floor heating pipe fitting is effectively improved, meanwhile, the manufacturing method can be used for randomly adjusting the machining diameter and the machining thickness of the floor heating pipe fitting in the extrusion machining process of the floor heating pipe fitting, and therefore the flexibility of the floor heating pipe fitting in the manufacturing and machining operation process is effectively improved.

Description

Graphene modified efficient heat-conducting heat source floor heating pipe fitting and preparation method thereof

Technical Field

The invention belongs to the technical field of processing of floor heating pipes, and particularly relates to a graphene modified efficient heat-conducting heat source floor heating pipe fitting and a preparation method thereof.

Background

The ground heating pipe is a low-temperature hot water ground radiation heating system, floor heating for short, and is mainly used as a pipe of a low-temperature hot water circulating flow carrier, and the effect of heat transfer of the floor heating can be achieved through the ground heating pipe.

Patent document CN207622124U discloses a prevent spalling ground heating coil, including the ground heating coil body, this internal a plurality of spalling devices of preventing that are equipped with of ground heating coil, spalling device is including fixing the siphonozooid on ground heating coil body inner wall, the external diameter of siphonozooid is less than the internal diameter of ground heating coil body, the siphonozooid includes a blind end and an open end, the open end inlays and is equipped with a sealing slider, is equipped with the spring in the siphonozooid, the blind end at the siphonozooid is fixed to one end of spring, the other end top supports the rear end at the slider, be equipped with the sealing washer between sealing slider and ground heating coil body inner wall, compare with the invention, its heat transfer effect is relatively poor, causes certain heat loss.

The existing graphene modified efficient heat-conducting heat source floor heating pipe fitting has certain disadvantages in the use process, the traditional heat source floor heating pipe fitting is made of a single polyethylene plastic material, the heat conducting effect is poor, when a user utilizes the traditional heat source floor heating pipe fitting to conduct floor heating heat conducting operation, the traditional heat source floor heating pipe fitting is easy to cause heat loss, and the heat conducting efficiency of the heat source floor heating pipe fitting is reduced; meanwhile, in the preparation process of the traditional heat source floor heating pipe fitting, the processing caliber and the processing thickness of the heat source floor heating pipe fitting cannot be adjusted freely according to the processing requirements of a user, so that the flexibility of the heat source floor heating pipe fitting in the preparation and processing operation is reduced; meanwhile, the traditional heat source floor heating pipe fitting needs a large amount of water to carry out cooling operation in the preparation process, cooling water is directly discharged and cannot be recycled, and the processing cost of the heat source floor heating pipe fitting is increased.

Disclosure of Invention

In order to overcome the defects that the traditional heat source floor heating pipe fitting is made of a single polyethylene plastic material, the heat conduction effect is poor, when a user utilizes the traditional heat source floor heating pipe fitting to conduct floor heating heat conduction operation, the traditional heat source floor heating pipe fitting is easy to cause heat loss, and the heat conduction efficiency of the heat source floor heating pipe fitting is reduced; meanwhile, in the preparation process of the traditional heat source floor heating pipe fitting, the processing caliber and the processing thickness of the heat source floor heating pipe fitting cannot be adjusted freely according to the processing requirements of a user, so that the flexibility of the heat source floor heating pipe fitting in the preparation and processing operation is reduced; meanwhile, the traditional heat source floor heating pipe fitting needs a large amount of water to carry out cooling operation in the preparation process, cooling water is directly discharged and cannot be recycled, and the processing cost of the heat source floor heating pipe fitting is increased.

The purpose of the invention is realized by the following technical scheme:

the graphene modified efficient heat-conducting heat source floor heating pipe fitting comprises the following raw materials in parts by weight: 50-70 parts of polyethylene plastic particles, 6-10 parts of antibacterial master batches, 6-8 parts of graphene functional master batches and 10-15 parts of cross-linking agents;

the graphene modified efficient heat-conducting heat source floor heating pipe fitting is prepared by the following steps:

pouring polyethylene plastic particles, antibacterial master batches and graphene functional master batches into a feeding box of processing equipment, sleeving a corresponding extrusion pipe on a butt joint sleeve according to the processing caliber of a pipe fitting, fixing the extrusion pipe and the butt joint sleeve by using a threaded snap ring, simultaneously inserting a corresponding inner sleeve rod into the middle of the extrusion pipe, butting one end of the inner sleeve rod with a threaded joint of a fixing clamp frame, rotating the inner sleeve rod to enable the inner sleeve rod to be sleeved in the extrusion pipe, starting a third motor by a user to enable the third motor to drive a driving rod to rotate, driving the driving rod to drive a conveying belt to move, and enabling the conveying belt to convey the polyethylene plastic particles, the antibacterial master batches and the graphene functional master batches in the feeding box to the inside of the feeding box by using a material conveying plate;

starting a first motor, driving the rotating rod by the first motor, driving the rotating plate to rotate by the rotating rod, mixing the polyethylene plastic particles, the antibacterial master batches and the graphene functional master batches into raw material particles in the material conveying box, starting a sealing plate of the material conveying box, filling a cross-linking agent into the material conveying box, simultaneously guiding the cross-linking agent and the raw material particles into an extruding box by the rotating plate, raising the temperature in the extruding box to 190 ℃, melting the cross-linking agent and the raw material particles in the extruding box, starting a second motor, driving a screw rod by the second motor, and extruding the melted cross-linking agent and the raw material particles out from the space between an inner sleeve rod and the extruding pipe by the rotation of the screw rod to form the floor heating pipe fitting;

and step three, starting the pump body on the side of the water storage tank, increasing the pressure in the water storage tank, injecting water in the water storage tank into the arc-shaped connecting pipe through the communicating pipe, spraying out the atomizing nozzle of the arc-shaped connecting pipe, cooling extruded floor heating pipe fittings by using the sprayed water, storing the used water in a water storage tank of the object placing plate, starting the material conveying rod, and moving out the cooled floor heating pipe fittings by using the material conveying rod.

According to a further technical scheme, the processing equipment comprises a feeding box, a box body base and an extrusion box, the feeding box is fixedly installed on the outer surface of the side edge of the box body base, an object placing plate is fixedly installed on the outer surface of the upper end of the box body base, the extrusion box is fixedly installed on the outer surface of the upper end of the object placing plate, an extrusion pipe is fixedly installed in the middle of one end of the extrusion box, a fixing clamp frame is fixedly installed on the inner surface of one end of the extrusion box, an inner sleeve rod is fixedly installed at one end of the fixing clamp frame, the fixing clamp frame and the inner sleeve rod are fixedly connected through a threaded connector, a butt joint sleeve is arranged at one end of the extrusion pipe, the extrusion box and the extrusion pipe are in butt joint fixation through the butt joint sleeve, and a positioning bolt is sleeved on the inner side of the fixing clamp frame.

As a further technical scheme of the invention, a threaded snap ring is sleeved between the extruding pipe and the butt joint sleeve, and a butt joint clamping groove is formed in the middle of one end of the inner sleeve rod.

As a further technical scheme, a sealing cover is fixedly mounted on one side, close to the material squeezing box, of the outer surface of the upper end of the object placing plate, a water storage tank is fixedly mounted on the inner side of a box body base, a pump body is fixedly mounted on the outer surface of the side edge of the water storage tank, a communicating pipe is mounted between the water storage tank and the sealing cover, an arc-shaped connecting pipe is fixedly mounted in the middle of the inner side of the sealing cover, and a plurality of groups of atomizing nozzles are fixedly sleeved on the outer surface of the side edge of the arc-shaped connecting pipe.

As a further technical scheme, the arc-shaped connecting pipe is communicated with the water storage tank through a communicating pipe, a heat dissipation disc is fixedly mounted above the water storage tank, a heat dissipation pipe is fixedly mounted on the inner side of the heat dissipation disc, a drain pipe is fixedly mounted on the outer surface of one end of the heat dissipation pipe, the heat dissipation pipe is communicated with the object placing plate through the drain pipe, a water storage tank is formed in the inner side of the upper portion of the object placing plate, a heat dissipation fan is fixedly mounted on the outer surface of the upper portion of the heat dissipation disc, and a material conveying rod is movably mounted at the upper position of one end of the object placing plate.

As a further technical scheme, the outer surface of the side edge of the feeding box is of a trapezoidal structure, the material conveying box is fixedly mounted on the outer surface of the upper end of the object placing plate close to the other side of the material extruding box, the material conveying frame is fixedly mounted on the inner side of the feeding box, a driving rod is movably sleeved on the inner side of the material conveying frame, a conveying belt is movably mounted in the middle of the inner side of the material conveying frame, the material conveying frame and the conveying belt are movably connected through the driving rod, a third motor is mounted at the upper portion of the side edge of the material conveying frame, and a plurality of groups of material conveying plates are fixedly mounted on the outer surface of the conveying belt.

As a further technical scheme of the invention, a second motor is fixedly arranged in the middle of the other end of the material extruding box, a screw rod is movably arranged in the middle of the inner side of the material extruding box, and the material extruding groove is formed in the inner side of the material extruding box.

As a further technical scheme of the invention, the middle part of one end of the material conveying box is fixedly provided with a first motor, the middle part of the inner side of the material conveying box is movably provided with a rotating rod, the outer surface of the side edge of the rotating rod is fixedly provided with a rotating plate, and the upper part of the material conveying box is provided with a sealing plate.

The preparation method of the graphene modified high-efficiency heat-conducting heat source floor heating pipe fitting comprises the following steps:

The invention has the beneficial effects that:

1. through adding graphite alkene function master batch in this heat source ground heating pipe spare, utilize the heat conductivity that graphite alkene self possessed, mix into graphite alkene function master batch in this heat source ground heating pipe spare's raw and other materials, make the ground heating pipe spare that its processed have good heat conductivity, when the heat source gets into ground heating pipe spare, utilize the graphite alkene material in the ground heating pipe spare, can discharge the heat fast, avoid ground heating pipe spare to appear the heat loss phenomenon, thereby required time when shortening ground heating pipe spare ground heating, utilize the setting of graphite alkene function master batch, make this high-efficient heat conduction heat source ground heating pipe spare have graphite alkene heat dissipation function, thereby effectively promote its result of use.

2. Through arranging the extruding pipes and the inner loop bars, when a user carries out preparation processing operation on the graphene modified efficient heat-conducting heat source floor heating pipe fitting, the user can sleeve the corresponding extruding pipes on the butt joint sleeve according to the processing caliber of the pipe fitting, the extruding pipes and the butt joint sleeve are fixed through the thread snap rings, the processing caliber of the floor heating pipe fitting can be adjusted according to the requirement of the user through a combined fixing structure formed between the extruding pipes and the butt joint sleeve, meanwhile, the corresponding inner loop bars are inserted into the middle parts of the extruding pipes, one ends of the inner loop bars are butted with the thread joints of the fixing clamp frames, the inner loop bars are rotated to be sleeved in the extruding pipes, the inner loop bars with different diameters can be installed according to the processing requirement of the floor heating pipe fitting through the combined installation of the inner loop bars, and therefore, the distance between the inner loop bars and the extruding pipes can be adjusted, the floor heating pipe fitting with different thicknesses can be extruded between the inner sleeve rod and the extrusion pipe, and the machining diameter and the machining thickness of the floor heating pipe fitting can be adjusted randomly by means of the arrangement of the extrusion pipe and the inner sleeve rod in the extrusion machining process of the floor heating pipe fitting, so that the flexibility of the floor heating pipe fitting in the manufacturing operation process is effectively improved.

3. Through the arrangement of the heat dissipation fan and the heat dissipation pipe, when a user cools and processes the graphene modified high-efficiency heat conduction heat source floor heating pipe fitting, the user can start the pump body on the side edge of the water storage tank, so that the pressure in the water storage tank is increased, water in the water storage tank can be injected into the arc connection pipe through the communication pipe and is sprayed out by the atomizing nozzle of the arc connection pipe, the extruded floor heating pipe fitting is cooled by the sprayed water, the used water can be stored in the water storage tank of the object placing plate, the cooled floor heating pipe fitting is moved out by the user through starting the material conveying rod, the water in the water storage tank is guided into the heat dissipation pipe of the heat dissipation plate through the drain pipe, the water in the heat dissipation pipe is cooled by the air cooling fan, the cooled water is discharged into the water storage tank again through the heat dissipation pipe, the circulation operation is completed, and the extruded floor heating pipe fitting can be repeatedly cooled, the use effect of the preparation method is improved.

Drawings

The invention will be further described with reference to the accompanying drawings.

Fig. 1 is an overall configuration diagram of a processing apparatus of the present invention.

FIG. 2 is a view showing the internal structure of the extruding tank of the present invention.

Fig. 3 is a plan view of the extruding pipe of the present invention.

Fig. 4 is a plan view of the seal cap of the present invention.

FIG. 5 is an overall configuration diagram of the material-feeding frame in the present invention.

In the figure: 1. a material conveying frame; 2. a base of the box body; 3. a water storage tank; 4. a communicating pipe; 5. a material conveying rod; 6. a sealing cover; 7. extruding a material pipe; 8. a material extruding box; 9. a material conveying box; 10. a sealing plate; 11. a first motor; 12. a second motor; 13. a conveyor belt; 14. a material conveying plate; 15. a feeding box; 16. rotating the rod; 17. a rotating plate; 18. a screw rod; 19. an inner loop bar; 20. fixing the clamp frame; 21. positioning bolts; 22. butting a sleeve; 23. a threaded joint; 24. a material extruding groove; 25. butting the clamping grooves; 26. a threaded snap ring; 27. a drain pipe; 28. a heat dissipation plate; 29. an atomizing spray head; 30. an arc-shaped connecting pipe; 31. a heat dissipation fan; 32. a radiating pipe; 33. a drive rod; 34. a third motor; 35. an object placing plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to 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.

As shown in fig. 1-5, a graphene modified efficient heat-conducting heat source floor heating pipe fitting comprises the following raw materials in parts by weight: 50-70 parts of polyethylene plastic particles, 6-10 parts of antibacterial master batches, 6-8 parts of graphene functional master batches and 10-15 parts of cross-linking agents;

pouring polyethylene plastic particles, antibacterial master batches and graphene functional master batches into a feeding box 15 of processing equipment, sleeving a corresponding extrusion pipe 7 on a butt joint sleeve 22 according to the pipe fitting processing caliber, fixing the extrusion pipe 7 and the butt joint sleeve 22 by using a threaded snap ring 26, simultaneously inserting a corresponding inner loop bar 19 into the middle of the extrusion pipe 7, butting one end of the inner loop bar 19 with a threaded joint 23 of a fixing clamp frame 20, rotating the inner loop bar 19, sleeving the inner loop bar 19 in the extrusion pipe 7, starting a third motor 34 by a user, driving the driving rod 33 to rotate by the third motor 34, driving the conveying belt 13 to move by the driving rod 33, and conveying the polyethylene plastic particles, the antibacterial master batches and the graphene functional master batches in the feeding box 15 into the feeding box 9 by the conveying plate 14 by the conveying belt 13;

step two, starting a first motor 11, enabling the first motor 11 to drive a rotating rod 16, enabling the rotating rod 16 to drive a rotating plate 17 to rotate, enabling polyethylene plastic particles, antibacterial master batches and graphene functional master batches to be mixed into raw material particles in a material conveying box 9, starting a sealing plate 10 of the material conveying box 9, filling a cross-linking agent into the material conveying box 9, simultaneously guiding the cross-linking agent and the raw material particles into an extruding box 8 by using the rotating plate 17, raising the temperature in the extruding box 8 to 190 degrees, enabling the cross-linking agent and the raw material particles to be melted in the extruding box 8, starting a second motor 12, enabling the second motor 12 to drive a spiral rod 18, and extruding the melted cross-linking agent and raw material particles out from a position between an inner sleeve rod 19 and an extruding pipe 7 through rotation of the spiral rod 18 to form a floor heating pipe fitting;

step three, start the pump body of 3 sides in the water storage tank, increase the pressure in the water storage tank 3 for the water in the water storage tank 3 pours into arc through communicating pipe 4 and takes over 30, is taken over 30 atomizer 29 blowout by the arc, utilizes spun water to carry out cooling operation to the ground heating pipe fitting of extruding, and the water after the use is stored in the catch basin of putting thing board 35, starts material conveying pole 5, utilizes material conveying pole 5 to shift out the ground heating pipe fitting after cooling.

The processing equipment includes pay-off box 15, box base 2 and crowded workbin 8, pay-off box 15 fixed mounting is at box base 2's side surface, box base 2's upper end external fixed surface installs and puts thing board 35, crowded workbin 8 fixed mounting is at the upper end surface of putting thing board 35, crowded workbin 8's one end middle part position fixed mounting has crowded material pipe 7, crowded workbin 8's one end internal fixed surface installs fixing clip frame 20, fixing clip frame 20's one end is located crowded material pipe 7's inboard fixed mounting and has interior loop bar 19, through screwed joint 23 fixed connection between fixing clip frame 20 and the interior loop bar 19, crowded material pipe 7's one end is provided with docking sleeve 22, and it is fixed to dock through docking sleeve 22 between crowded workbin 8 and the crowded material pipe 7, locating pin 21 has been cup jointed to fixing clip frame 20's inboard.

A thread snap ring 26 is sleeved between the extruding pipe 7 and the butt joint sleeve 22, and a butt joint clamping groove 25 is formed in the middle of one end of the inner sleeve rod 19.

One side fixed mounting that the upper end surface of putting thing board 35 is close to crowded workbin 8 has a sealed cowling 6, and the inboard fixed mounting of box base 2 has water storage tank 3, and the side fixed surface of water storage tank 3 installs the pump body, installs communicating pipe 4 between water storage tank 3 and the sealed cowling 6, and the inboard middle part fixed mounting of sealed cowling 6 has the arc to take over 30, and the side fixed surface of arc taking over 30 has cup jointed a plurality of groups atomizer 29.

Through connection of communicating pipe 4 between 30 and the water storage tank 3 is taken over to the arc, the top fixed mounting of water storage tank 3 has heat dissipation disc 28, and the inboard fixed mounting of heat dissipation disc 28 has cooling tube 32, the one end external surface fixed mounting of cooling tube 32 has drain pipe 27, cooling tube 32 with put through drain pipe 27 through connection between the thing board 35, and put the upper portion inboard of thing board 35 and seted up the catch basin, the upper portion external surface fixed mounting of heat dissipation disc 28 has heat dissipation fan 31, the one end upper portion position movable mounting who puts thing board 35 has defeated material pole 5.

The side surface of feed box 15 is the trapezium structure, the opposite side fixed mounting who puts the upper end surface of thing board 35 and be close to crowded workbin 8 has defeated workbin 9, the inboard fixed mounting of feed box 15 has defeated work or material rest 1, actuating lever 33 has been cup jointed in the inboard activity of defeated work or material rest 1, the inboard middle part movable mounting of defeated work or material rest 1 has conveyer belt 13, and pass through actuating lever 33 swing joint between defeated work or material rest 1 and the conveyer belt 13, third motor 34 is installed to the side upper portion position of defeated work or material rest 1, conveyer belt 13's fixed surface installs a plurality of defeated flitchs 14 of group, conveyer belt 13 cooperation defeated flitch 14 can accomplish the transport operation to the raw materials.

A second motor 12 is fixedly arranged at the middle position of the other end of the extruding box 8, a screw rod 18 is movably arranged at the middle part of the inner side of the extruding box 8, and an extruding groove 24 is formed in the inner side of the extruding box 8.

The middle of one end of delivery box 9 is fixed with first motor 11, and the inboard middle part movable mounting of delivery box 9 has dwang 16, and the fixed surface mounting of side of dwang 16 has rotor plate 17, and the drive rotor plate 17 of dwang 16 is rotatory, can carry out the mixing operation to the raw materials, and the closing plate 10 is installed on the upper portion of delivery box 9.

The invention aims to provide a graphene modified efficient heat-conducting heat source floor heating pipe fitting and a preparation method thereof, wherein the graphene functional master batch is added into the heat source floor heating pipe fitting, and the graphene functional master batch is mixed into the raw material of the heat source floor heating pipe fitting by utilizing the heat conduction performance of graphene, so that the processed floor heating pipe fitting has good heat conduction performance;

by arranging the extruding pipes 7 and the inner loop bars 19, when a user carries out preparation and processing operations on the graphene modified efficient heat conduction heat source floor heating pipe fitting, the user can sleeve the corresponding extruding pipes 7 on the butt joint sleeve 22 according to the processing caliber of the pipe fitting, the extruding pipes 7 and the butt joint sleeve 22 are fixed by the thread snap rings 26, the processing caliber of the floor heating pipe fitting can be adjusted freely according to the requirements of the user by the combined fixing structure formed between the extruding pipes 7 and the butt joint sleeve 22, meanwhile, the corresponding inner loop bars 19 are inserted into the middle parts of the extruding pipes 7, one ends of the inner loop bars 19 are butted with the thread joints 23 of the fixing clamp frames 20, the inner loop bars 19 are rotated to sleeve the inner loop bars 19 in the extruding pipes 7, the inner loop bars 19 with different diameters can be installed according to the processing requirements of the floor heating pipe fitting by the combined installation of the inner loop bars 19, the distance between the inner loop bar 19 and the extrusion pipe 7 is adjusted, so that floor heating pipe fittings with different thicknesses can be extruded between the inner loop bar 19 and the extrusion pipe 7, and the machining diameter and the machining thickness of the floor heating pipe fitting can be adjusted randomly by the aid of the arrangement of the extrusion pipe 7 and the inner loop bar 19 in the extrusion machining process of the floor heating pipe fitting, so that the flexibility of the floor heating pipe fitting in the machining operation process is effectively improved;

by arranging the heat dissipation fan 31 and the heat dissipation pipe 32, when a user cools the graphene modified high-efficiency heat conduction heat source floor heating pipe fitting, the user can start a pump body at the side of the water storage tank 3, so as to increase the pressure in the water storage tank 3, so that the water in the water storage tank 3 can be injected into the arc connection pipe 30 through the communication pipe 4, the atomization nozzle 29 of the arc connection pipe 30 is sprayed out, the extruded floor heating pipe fitting is cooled by the sprayed water, the used water can be stored in a water storage tank of the object placing plate 35, the user can move out the cooled floor heating pipe fitting by starting the material conveying rod 5, the water in the water storage tank is guided into the heat dissipation pipe 32 of the heat dissipation disc 28 through the drain pipe 27, the heat dissipation fan 31 is used for air cooling the water in the heat dissipation pipe 32, the cooled water is discharged into the water storage tank 3 through the heat dissipation pipe 32 again, and the circulation operation is completed, so that the extruded floor heating pipe fitting can be subjected to repeated heat dissipation operation, and the using effect of the preparation method is improved.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. Preferred embodiments are not exhaustive of all the details of the embodiments. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims

1. The graphene modified efficient heat-conducting heat source floor heating pipe fitting is characterized by comprising the following raw materials in parts by weight: 50-70 parts of polyethylene plastic particles, 6-10 parts of antibacterial master batches, 6-8 parts of graphene functional master batches and 10-15 parts of cross-linking agents;

pouring polyethylene plastic particles, antibacterial master batches and graphene functional master batches into a feeding box (15) of processing equipment, enabling a third motor (34) to drive a driving rod (33) to rotate according to the processing caliber of a pipe fitting, and driving a conveying belt (13) to move by utilizing the driving rod (33), so that the conveying belt (13) conveys the polyethylene plastic particles, the antibacterial master batches and the graphene functional master batches in the feeding box (15) to the inside of a conveying box (9) by utilizing a conveying plate (14);

step two, starting a first motor (11), enabling the first motor (11) to drive a rotating rod (16), enabling the rotating rod (16) to drive a rotating plate (17) to rotate, enabling the cross-linking agent and the raw material particles to be melted in an extrusion box (8), starting a second motor (12), enabling the second motor (12) to drive a spiral rod (18), and extruding the melted cross-linking agent and the raw material particles out of a space between an inner sleeve rod (19) and an extrusion pipe (7) through rotation of the spiral rod (18) to form a floor heating pipe fitting;

step three, starting the pump body on the side of the water storage tank (3), increasing the pressure in the water storage tank (3), cooling the extruded floor heating pipe fitting by utilizing the sprayed water body, storing the used water body in a water storage tank of the object placing plate (35), starting the material conveying rod (5), and moving out the cooled floor heating pipe fitting by utilizing the material conveying rod (5).

2. The graphene modified efficient heat-conducting heat source floor heating pipe fitting as claimed in claim 1, wherein the processing equipment comprises a feeding box (15), a box body base (2) and a material extruding box (8), the feeding box (15) is fixedly installed on the outer surface of the side edge of the box body base (2), and a storage plate (35) is fixedly installed on the outer surface of the upper end of the box body base (2).

3. The graphene modified efficient heat-conducting heat source floor heating pipe fitting as claimed in claim 2, wherein a threaded snap ring (26) is sleeved between the extruding pipe (7) and the butt joint sleeve (22), and a butt joint clamping groove (25) is formed in the middle of one end of the inner sleeve rod (19).

4. The graphene-modified efficient heat-conducting heat source floor heating pipe fitting as claimed in claim 2, wherein a sealing cover (6) is fixedly mounted on one side, close to the material squeezing box (8), of the outer surface of the upper end of the object placing plate (35), and a water storage tank (3) is fixedly mounted on the inner side of the box body base (2).

5. The graphene-modified efficient heat-conducting heat source floor heating pipe fitting as claimed in claim 4, wherein a heat dissipation disc (28) is fixedly mounted above the water storage tank (3), a heat dissipation pipe (32) is fixedly mounted on the inner side of the heat dissipation disc (28), and a drain pipe (27) is fixedly mounted on the outer surface of one end of the heat dissipation pipe (32).

6. The graphene modified efficient heat-conducting heat source floor heating pipe fitting as claimed in claim 1, wherein the outer surface of the side edge of the feeding box (15) is of a trapezoidal structure, a material conveying box (9) is fixedly installed on the outer surface of the upper end of the object placing plate (35) close to the other side of the material extruding box (8), and a material conveying frame (1) is fixedly installed on the inner side of the feeding box (15).

7. The preparation method of the graphene modified efficient heat-conducting heat source floor heating pipe fitting is characterized by comprising the following steps of:

pouring polyethylene plastic particles, antibacterial master batches and graphene functional master batches into a feeding box (15) of processing equipment, sleeving a corresponding extrusion pipe (7) on a butt joint sleeve (22) according to the processing caliber of a pipe fitting, fixing the extrusion pipe (7) and the butt joint sleeve (22) by using a threaded snap ring (26), simultaneously inserting a corresponding inner loop bar (19) into the middle of the extrusion pipe (7), butting one end of the inner loop bar (19) with a threaded joint (23) of a fixed clamp frame (20), rotating the inner loop bar (19), sleeving the inner loop bar (19) in the extrusion pipe (7), starting a third motor (34) by a user, driving the driving rod (33) to rotate by the third motor (34), driving a conveying belt (13) to move by using the driving rod (33), and enabling the conveying belt (13) to use a material conveying plate (14) to convey the polyethylene plastic particles, antibacterial master batches and graphene functional master batches in the feeding box (15), Conveying the antibacterial master batches and the graphene functional master batches to the interior of a conveying box (9);

step two, starting a first motor (11), enabling the first motor (11) to drive a rotating rod (16), enabling the rotating rod (16) to drive a rotating plate (17) to rotate, enabling polyethylene plastic particles, antibacterial master batches and graphene functional master batches to be mixed into raw material particles in a material conveying box (9), starting a sealing plate (10) of the material conveying box (9), filling a cross-linking agent into the material conveying box (9), simultaneously guiding the cross-linking agent and the raw material particles into an extrusion box (8) by utilizing the rotating plate (17), raising the temperature in the extrusion box (8) to 190 degrees, enabling the cross-linking agent and the raw material particles to be melted in the extrusion box (8), starting a second motor (12), enabling the second motor (12) to drive a screw rod (18), and extruding the melted cross-linking agent and raw material particles out from a position between an inner sleeve rod (19) and an extrusion pipe (7) through rotation of the screw rod (18), forming a floor heating pipe fitting;

step three, start the pump body of water storage tank (3) side, increase the pressure in water storage tank (3), make the water in water storage tank (3) pour into to arc through communicating pipe (4) and take over (30), by atomizer (29) blowout of arc takeover (30), utilize the spun water to carry out cooling operation to the pipe fitting that warms up who extrudes, the water after the use is stored in the catch basin of putting thing board (35), start defeated material pole (5), utilize defeated material pole (5) to shift out the pipe fitting that warms up after the cooling.