Glass steel composite fluoroplastic tile for anticorrosion engineering

By setting up a pressure-relief support structure and a water-cooling system between the fluoroplastic tile body and the strip base plate, the problems of inconvenient fixing, insufficient wind resistance and cooling of composite fluoroplastic tiles are solved, achieving the effects of rapid installation and efficient cooling.

CN116025113BActive Publication Date: 2026-06-26江苏金盛建设集团有限公司

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
江苏金盛建设集团有限公司
Filing Date
2022-12-13
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Currently, the fixing method of composite fluoroplastic roofing sheets is not ideal, their wind resistance is weak, they lack effective pressure relief support structures, and they lack water cooling function, which makes installation inconvenient and indoor temperature difficult to regulate in summer.

Method used

A pressure-relief support structure is set between the fluoroplastic tile body and the strip base plate. The damping rod and damping spring enable quick installation and wind protection. A water-cooling structure is installed on the fluoroplastic tile, and a temperature detection mechanism controls the water pump to cool it down.

Benefits of technology

It enables rapid installation of composite fluoroplastic roofing sheets and improves wind resistance, effectively reducing indoor temperature in high-temperature environments, thus improving user experience and construction efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN116025113B_ABST
    Figure CN116025113B_ABST
Patent Text Reader

Abstract

The application belongs to the technical field of composite fluoroplastic tile and specifically discloses a glass fiber reinforced plastic composite fluoroplastic tile for anticorrosion engineering, which comprises a fluoroplastic tile body and water flow grooves which are distributed on the fluoroplastic tile body at intervals, wherein the fluoroplastic tile body is fixedly connected to a corresponding strip-shaped bottom plate, one end of the strip-shaped bottom plate extends to the outside of the fluoroplastic tile body and is provided with a groove, and the other end of the strip-shaped bottom plate is provided with a clearance opening which is matched with the extended part of the strip-shaped bottom plate. The application can realize the quick installation and protection of the composite fluoroplastic tile, has good wind resistance, and solves the problems of poor wind resistance, inconvenient installation and lack of water cooling function of the composite fluoroplastic tile by arranging a pressure buffering support structure between the composite fluoroplastic tile body and the strip-shaped bottom plate and arranging a positioning structure between the strip-shaped bottom plate and the roof.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention relates to the field of composite fluoroplastic roofing sheet technology, specifically to a fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering. Background Technology

[0002] Plastics containing fluorine atoms in their molecular structure are collectively called fluoroplastics. Fluoroplastics are produced by homopolymerization or copolymerization of fluorinated monomers such as tetrafluoroethylene, hexafluoropropylene, trifluorochloroethylene, vinylidene fluoride, and vinyl fluoride. With the continuous development of polymer technology, the variety of fluoroplastics is gradually increasing, and their application range is expanding. Because fluoroplastics contain fluorine atoms in their molecular structure, they possess many excellent properties, such as excellent electrical insulation, high heat resistance, outstanding oil resistance, solvent resistance, abrasion resistance, good moisture resistance, and low-temperature resistance. Therefore, fluoroplastics occupy an important position in industries such as national defense, electromechanical engineering, metallurgy, and petrochemicals. Composite fluoroplastic roofing tiles are a new type of building material made from fluoroplastics. They are lightweight, have good performance, and are widely favored. They can be used in guesthouses and factories, and with the advancement of technology, the application space for composite fluoroplastic roofing tiles will continue to expand.

[0003] The current composite fluoroplastic roofing sheets have the following shortcomings:

[0004] First, the fixing method of composite fluoroplastic tiles is not ideal, and it cannot be quickly fixed to the roof. In addition, the wind resistance of composite fluoroplastic tiles is not strong enough, and there is a lack of effective pressure relief support structure. Strong winds will put composite fluoroplastic tiles to the test. Second, composite fluoroplastic tiles lack a water-cooling structure, and cannot guarantee a cool indoor environment in summer. There are some shortcomings, so improvements are needed. Summary of the Invention

[0005] (a) Technical problems to be solved

[0006] To address the shortcomings of existing technologies, this invention provides a fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering. By setting a pressure-relieving support structure between the composite fluoroplastic roofing sheet body and the strip base plate, and setting a positioning structure between the strip base plate and the roof, the composite fluoroplastic roofing sheet can be quickly installed and protected, with good wind resistance. At the same time, by installing a water-cooling structure on the composite fluoroplastic roofing sheet, the problems of weak wind resistance, inconvenient installation, and lack of water-cooling function of the current composite fluoroplastic roofing sheet are solved.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, the present invention specifically adopts the following technical solution:

[0009] A fiberglass composite fluoroplastic tile for corrosion protection engineering includes a fluoroplastic tile body and water channels spaced apart on the fluoroplastic tile body. The fluoroplastic tile body is fixedly connected to a corresponding strip base plate. One end of the strip base plate extends to the outside of the fluoroplastic tile body and has a groove. The other end of the strip base plate has a clearance opening that matches the extension of the strip base plate. The strip base plate has multiple arrayed insertion holes at the groove, and positioning structures are adapted on the insertion holes and the groove. The strip base plate has multiple equally spaced screw holes. The fluoroplastic tile body has guide holes at the corresponding screw holes. The fluoroplastic tile body is threadedly connected to a damping rod extending to the strip base plate at the guide hole. A protective cap is fixedly connected to the top of the damping rod, and a damping spring sleeved on the damping rod abuts between the protective cap and the fluoroplastic tile body.

[0010] It also includes a water-cooling structure installed on the fluoroplastic tile body, and a positioning bracket fixedly connected to the wall. The positioning bracket is equipped with a water pump and a controller, and the drain port of the water pump is connected to a flexible hose. The water-cooling structure includes a support plate set on the fluoroplastic tile body, and a water-cooling pipe fixedly connected to the support plate through a pipe positioning component. The water-cooling pipe is provided with multiple nozzles evenly distributed, and the end of the flexible hose is connected to one end of the water-cooling pipe.

[0011] Furthermore, the positioning structure includes a positioning piece adapted to the groove, and a protrusion fixedly connected to the upper surface of the positioning piece. The lower surface of the positioning piece is provided with a plug rod adapted to the plug hole at the corresponding insertion hole, and the plug rod extends to the positioning hole on the roof.

[0012] Furthermore, the fluoroplastic tile body includes a substrate, and a flame-retardant layer is fixedly connected to the upper surface of the substrate. The flame-retardant layer is filled with a flame retardant agent. A heat insulation layer is fixed to the other side of the flame-retardant layer. The heat insulation layer is sandwiched between the flame-retardant layer and the fiberglass protective layer. An external waterproof membrane is provided on the outer surface of the fiberglass protective layer.

[0013] Furthermore, a temperature detection mechanism is installed on the fluoroplastic tile body. The temperature detection mechanism includes a base plate fixedly connected to the fluoroplastic tile body and a temperature sensor fixedly connected to a mounting base on the upper surface of the base plate. The output end of the temperature sensor is electrically connected to the input end of the controller, and the output end of the controller is electrically connected to the input end of the water pump.

[0014] Furthermore, a support frame is fixedly connected to the upper surface of the substrate outside the mounting base, and a protective cover is provided on the top of the support frame, which covers the outside of the temperature sensor.

[0015] Furthermore, a damping pad is provided at the connection between the strip base plate and the fluoroplastic tile body, and the damping pad has a through hole adapted to the damping rod at the corresponding position of the damping rod.

[0016] Furthermore, the bottom of the damping rod is provided with an external thread structure that is adapted to the screw hole of the strip base plate.

[0017] Furthermore, an inner waterproof membrane is compositely provided on the lower surface of the fluoroplastic tile body.

[0018] (III) Beneficial Effects

[0019] Compared with the prior art, the present invention provides a fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering, which has the following beneficial effects:

[0020] 1. This invention, by fixing the fluoroplastic tile body to a strip base plate and setting a damping pad and damping rod between the strip base plate and the fluoroplastic tile body, can achieve pressure relief support and protection for the fluoroplastic tile body, enhance its wind resistance, absorb a certain amount of swaying, and thus form protection for the fluoroplastic tile body. The damping rod is threaded onto the strip base plate, and a protective cap is set on the top of the damping rod. A damping spring is set between the protective cap and the fluoroplastic tile body, which can form pressure relief support for the fluoroplastic tile body, thus forming protection for the fluoroplastic tile body. By setting a groove and a hole on one side of the strip base plate, and fitting a positioning structure at the groove and hole, the insertion rod on the positioning structure can extend to the roof through the insertion hole, thereby achieving direct fixing of the strip base plate. The fixing method is convenient and can quickly realize the installation of the strip base plate and the fluoroplastic tile body, saving construction time.

[0021] 2. This invention, by installing a water-cooling structure on the fluoroplastic roofing sheet, and controlling the water-cooling structure through a temperature detection mechanism, can cool the roof when the temperature is too high, thereby reducing the indoor temperature and making the indoor environment cooler in summer. This enhances the functionality of the fluoroplastic roofing sheet. By setting a temperature sensor in the temperature detection mechanism, when the temperature reaches a certain value, the controller controls the water pump to work, and cooling water is introduced into the water-cooling pipes in the water-cooling structure. The cooling water is then sprayed through nozzles to cool the surface of the fluoroplastic roofing sheet, thereby reducing the indoor temperature in a timely manner, effectively improving the performance and user experience of the fluoroplastic roofing sheet. Attached Figure Description

[0022] Figure 1 This is a schematic diagram of the structure of the present invention;

[0023] Figure 2 For the present invention Figure 1 Enlarged view of the structure at point A in the middle;

[0024] Figure 3 This is a schematic diagram of the positioning structure in this invention;

[0025] Figure 4This is a schematic diagram of the water-cooled cooling structure in this invention;

[0026] Figure 5 This is a schematic diagram of the temperature detection mechanism in this invention;

[0027] Figure 6 This is a schematic diagram of the structure of the fluoroplastic tile body in this invention.

[0028] In the diagram: 1. Fluoroplastic tile body; 101. Inner waterproof membrane; 102. Substrate; 103. Flame retardant layer; 104. Heat insulation layer; 105. Fiberglass protective layer; 106. Outer waterproof membrane; 2. Water channel; 3. Water-cooled cooling structure; 301. Support plate; 302. Pipe positioning component; 303. Water-cooled pipe; 304. Nozzle; 4. Damping rod; 5. Damping spring; 6. Protective cap; 7. Water pump; 8. Positioning bracket; 9. Controller; 10. Hose; 11. Temperature detection mechanism; 1101. Base plate; 1102. Support frame; 1103. Protective cover; 1104. Temperature sensor; 1105. Mounting base; 12. Damping pad; 13. Strip base plate; 14. Insertion hole; 15. Groove; 16. Positioning structure; 1601. Positioning piece; 1602. Protrusion; 1603. Insert rod. Detailed Implementation

[0029] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0030] Example

[0031] like Figure 1 , Figure 2 and Figure 4As shown in the figure, an embodiment of the present invention proposes a fiberglass composite fluoroplastic tile for anti-corrosion engineering, including a fluoroplastic tile body 1 and drainage channels 2 spaced apart on the fluoroplastic tile body 1 for guiding rainwater. The fluoroplastic tile body 1 is fixedly connected to a corresponding strip base plate 13 to realize the installation of the fluoroplastic tile body 1. One end of the strip base plate 13 extends to the outside of the fluoroplastic tile body 1 and has a groove 15. The other end of the strip base plate 13 is provided with a relief opening, which is adapted to the extended portion of the strip base plate 13. By extending one end of the strip base plate 13 to the outside of the fluoroplastic tile body 1 and having a groove 15 on the strip base plate 13, a relief opening is provided. The other end is provided with a clearance opening to facilitate the installation of the strip base plate 13 on the roof and the splicing between fluoroplastic tile bodies 1. A groove 15 is provided on the strip base plate 13 to achieve its fixing function. Multiple arrayed insertion holes 14 are provided on the strip base plate 13 at the groove 15, and positioning structures 16 are adapted to the insertion holes 14 and grooves 15. The positioning structures 16 directly fix the strip base plate 13 on the roof. During use, the positioning structures 16 are directly adapted to the insertion holes 14 and grooves 15, resulting in high assembly convenience, ease of use for construction workers, reduced operational difficulty, and shorter installation time. The construction cycle is shortened, improving the performance of the fluoroplastic tile body 1. Multiple equally spaced screw holes are provided on the strip-shaped base plate 13, and guide holes are provided at the corresponding screw holes on the fluoroplastic tile body 1. A damping rod 4 extending to the strip-shaped base plate 13 is threadedly connected to the fluoroplastic tile body 1 at the guide hole. The bottom of the damping rod 4 is threadedly connected to the screw hole on the strip-shaped base plate 13, fixing the damping rod 4 to the strip-shaped base plate 13. The damping rod 4 is also slidably connected to the guide hole on the fluoroplastic tile body 1, allowing the fluoroplastic tile body 1 to slide on the damping rod 4. A protective cap 6 is fixedly connected to the top of the damping rod 4, and the protective cap 6 and the fluoroplastic tile body 1... A damping spring 5 sleeved on a damping rod 4 is abutted between the fluoroplastic tile body 1. The damping spring 5 can form a pressure relief support for the fluoroplastic tile body 1, realizing the extension and contraction limit of the fluoroplastic tile body 1. The protective cap 6 is fixed to the top of the damping rod 4 to realize the positioning of the top position of the damping spring 5, thereby realizing the low pressure support of the fluoroplastic tile body 1. This method can realize the pressure relief support of the fluoroplastic tile body 1. When strong wind impacts, it forms a certain pressure relief effect. The damping spring 5 absorbs a certain amount of fluctuation, thereby forming wind resistance protection for the fluoroplastic tile body 1, extending the service life of the fluoroplastic tile body 1, avoiding damage due to strong wind, and enhancing the use effect.

[0032] It also includes a water-cooling structure 3 installed on the fluoroplastic tile body 1, and a positioning bracket 8 fixedly connected to the wall. A water pump 7 and a controller 9 are installed on the positioning bracket 8, and the drain port of the water pump 7 is connected to a flexible hose 10. The water-cooling structure 3 includes a support plate 301 installed on the fluoroplastic tile body 1, and a water-cooling pipe 303 fixedly connected to the support plate 301 via a pipe positioning component 302. Multiple nozzles 304 are evenly distributed on the water-cooling pipe 303, and the end of the flexible hose 10 is connected to one end of the water-cooling pipe 303. By installing the water-cooling structure 3 on the fluoroplastic tile body 1, the water-cooling structure 3 can achieve water-cooling of the fluoroplastic tile body 1, reducing the fluorine content. The surface temperature of the fluoroplastic tile body 1 is adjusted to increase the comfort of the indoor environment. A water pump 7 and a controller 9 are installed on the positioning bracket 8 on the wall. The controller 9 is used to control the operation of the water pump 7. A hose 10 is installed between the drain port of the water pump 7 and the water cooling structure 3 to allow cooling water to be introduced into the water cooling pipe 303 of the water cooling structure 3. Equally spaced nozzles 304 are installed on the water cooling pipe 303. The cooling water is sprayed out through the nozzles 304 to form water cooling of the fluoroplastic tile body 1. This method is simple to operate, has good functionality, and can achieve timely cooling of the fluoroplastic tile body 1, avoiding excessively high temperatures in hot summers that affect indoor comfort and improving the performance of the fluoroplastic tile body 1.

[0033] like Figure 2 and Figure 3 As shown, in some embodiments, the positioning structure 16 includes a positioning piece 1601 adapted to the groove 15, and a protrusion 1602 fixedly connected to the upper surface of the positioning piece 1601. The lower surface of the positioning piece 1601 is provided with a plug rod 1603 adapted to the plug hole 14, and the plug rod 1603 extends to the positioning hole on the roof. By providing the protrusion 1602 on the upper surface of the positioning piece 1601, it is convenient to operate the positioning piece 1601 by hand. By providing the plug rod 1603 on the lower surface of the positioning piece 1601, and by providing the plug rod 1603 adapted to the plug hole 14, there are many contact surfaces and the positioning effect is good. The bottom of the plug rod 1603 extends to the positioning hole on the roof, realizing the positioning effect of the positioning structure 16 between the strip base plate 13 and the roof. This method can directly form the fixing of the strip base plate 13 on the roof. It is easy to operate and has good stability, which is convenient for construction personnel to operate on site and reduces time and labor costs.

[0034] like Figure 6As shown, in some embodiments, the fluoroplastic tile body 1 includes a substrate 102, and a flame-retardant layer 103 is fixedly connected to the upper surface of the substrate 102. The flame-retardant layer 103 is filled with a flame retardant, and a heat insulation layer 104 is fixed to the other side of the flame-retardant layer 103. The heat insulation layer 104 is sandwiched between the flame-retardant layer 103 and the fiberglass protective layer 105, and an outer waterproof membrane 106 is provided on the outer surface of the fiberglass protective layer 105. By providing the flame-retardant layer 103 and the heat insulation layer 104 on the substrate 102, the flame-retardant and heat-insulating properties can be increased. The flame-retardant layer 103 is filled with a flame retardant, resulting in a good flame-retardant effect. By providing the fiberglass protective layer 105 on the outside of the heat insulation layer 104, the structural strength of the fluoroplastic tile body 1 can be increased, making the fluoroplastic tile body 1 less prone to damage and aesthetically pleasing, thus enhancing the viewing experience. By providing the outer waterproof membrane 106 on the surface of the fiberglass protective layer 105, the fluoroplastic tile body 1 has certain waterproof properties, preventing rainwater from seeping in.

[0035] like Figure 1 and Figure 5 As shown, in some embodiments, a temperature detection mechanism 11 is installed on the fluoroplastic tile body 1. The temperature detection mechanism 11 includes a substrate 1101 fixedly connected to the fluoroplastic tile body 1, and a temperature sensor 1104 fixedly connected to a mounting base 1105 on the upper surface of the substrate 1101. The output end of the temperature sensor 1104 is electrically connected to the input end of the controller 9, and the output end of the controller 9 is electrically connected to the input end of the water pump 7. By installing the temperature detection mechanism 11 on the fluoroplastic tile body 1, real-time monitoring of the outdoor temperature environment can be achieved. The temperature sensor 1104 is set on the mounting base 1105 to protect the temperature sensor 1104, making temperature monitoring more accurate. The temperature sensor 1104 can monitor the real-time outdoor temperature. The output end of the temperature sensor 1104 is electrically connected to the input end of the controller 9, and the output end of the controller 9 is electrically connected to the input end of the water pump 7. This method realizes the automatic control of the water pump 7. When the temperature sensor 1104 detects that the temperature reaches a certain value, the water pump 7 can work automatically to achieve water cooling of the fluoroplastic tile body 1.

[0036] like Figure 5 As shown, in some embodiments, a support frame 1102 is fixedly connected to the upper surface of the substrate 1101 outside the mounting base 1105, and a protective cover 1103 is provided on the top of the support frame 1102, which covers the outside of the temperature sensor 1104. By setting the support frame 1102 and the protective cover 1103 on the top of the support frame 1102, the protective cover 1103 can protect the temperature sensor 1104, reduce the influence of rain, dust and other factors, and at the same time, it does not affect the real-time monitoring of temperature by the temperature sensor 1104, resulting in good performance.

[0037] like Figure 1and Figure 2 As shown, in some embodiments, a damping pad 12 is provided at the connection between the strip base plate 13 and the fluoroplastic tile body 1, and the damping pad 12 has a through hole adapted to the damping rod 4 at the corresponding position of the damping rod 4; by providing the damping pad 12 at the connection between the strip base plate 13 and the fluoroplastic tile body 1, the damping pad 12 can achieve the damping protection function of the fluoroplastic tile body 1, with good pressure relief effect, and together with the damping spring 5, it can achieve pressure relief protection of the fluoroplastic tile body 1. The damping pad 12 is made of rubber material.

[0038] like Figure 1 As shown, in some embodiments, the bottom of the damping rod 4 is provided with an external thread structure that is adapted to the screw hole of the strip base plate 13, so as to realize the threaded connection between the bottom of the damping rod 4 and the screw hole of the strip base plate 13.

[0039] like Figure 6 As shown, in some embodiments, an inner waterproof membrane 101 is compositely provided on the lower surface of the fluoroplastic tile body 1 to enhance the waterproof protection of the fluoroplastic tile body 1.

[0040] In this invention, the temperature sensor 1104 is model number 1K0907543E and the controller 9 is model number S7-400, both of which are known prior art.

[0041] The working principle and usage steps of this invention are as follows: When installing the fluoroplastic tile body 1, firstly, the strip base plate 13 is fixed at the top of the house. The insertion hole 14 on the strip base plate 13 is aligned with the positioning hole on the roof. Then, the positioning structure 16 is fitted into the groove 15, so that the insertion rod 1603 is positioned and inserted into the insertion hole 14 and the positioning hole on the roof, thereby achieving the positioning of the strip base plate 13 on the roof. Then, a damping rod 4 is installed between the guide hole of the fluoroplastic tile body 1 and the screw hole of the strip base plate 13. A damping spring 5 is sleeved on the damping rod 4. The threaded structure at the bottom of the damping rod 4 is threaded into the screw hole of the strip base plate 13, thereby achieving the positioning of the damping rod 4 at the strip base plate 13. The damping spring 5 is positioned such that its top abuts against the protective cap 6, thereby providing pressure relief support for the fluoroplastic tile body 1. This, combined with the damping pad 12, provides pressure relief protection for the fluoroplastic tile body 1 and allows for wind protection. A temperature detection mechanism 11 is then installed on the fluoroplastic tile body 1. When the outdoor temperature reaches a certain level, the temperature sensor 1104 detects the temperature signal and transmits it to the controller 9. The controller 9 controls the water pump 7 to operate, which guides cooling water through the hose 10 into the water-cooling pipe 303. The coolant is then sprayed out through the nozzle 304, cooling the surface of the fluoroplastic tile body 1 and increasing the comfort of the indoor environment.

[0042] Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering, comprising a fluoroplastic roofing sheet body (1) and drainage channels (2) spaced apart on the fluoroplastic roofing sheet body (1), characterized in that: The fluoroplastic tile body (1) is fixedly connected to the corresponding strip base plate (13). One end of the strip base plate (13) extends to the outside of the fluoroplastic tile body (1) and has a groove (15). The other end of the strip base plate (13) has a clearance opening that fits into the extended portion of the strip base plate (13). The strip base plate (13) has multiple arrayed insertion holes (14) at the groove (15), and the insertion holes (14) and the groove (15) are connected. The upper is equipped with a positioning structure (16), and the strip base plate (13) is provided with multiple equally spaced screw holes. The fluoroplastic tile body (1) is provided with a guide hole corresponding to the screw hole. The fluoroplastic tile body (1) is threadedly connected to a damping rod (4) extending to the strip base plate (13) at the guide hole. A protective cap (6) is fixedly connected to the top of the damping rod (4), and a damping spring (5) sleeved on the damping rod (4) abuts between the protective cap (6) and the fluoroplastic tile body (1). It also includes a water-cooled cooling structure (3) installed on the fluoroplastic tile body (1) and a positioning bracket (8) fixedly connected to the wall. The positioning bracket (8) is equipped with a water pump (7) and a controller (9), and the drain port of the water pump (7) is connected to a hose (10). The water-cooled cooling structure (3) includes a support plate (301) set on the fluoroplastic tile body (1) and a water-cooled pipe (303) fixedly connected to the support plate (301) by a pipe positioning component (302). The water-cooled pipe (303) is provided with multiple nozzles (304) evenly distributed, and the end of the hose (10) is connected to one end of the water-cooled pipe (303).

2. The fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering according to claim 1, characterized in that: The positioning structure (16) includes a positioning piece (1601) adapted to the groove (15) and a protrusion (1602) fixedly connected to the upper surface of the positioning piece (1601). The lower surface of the positioning piece (1601) is provided with a plug rod (1603) adapted to the plug hole (14) at the corresponding position. The plug rod (1603) extends to the positioning hole on the roof.

3. The fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering according to claim 1, characterized in that: The fluoroplastic tile body (1) includes a substrate (102), and a flame retardant layer (103) is fixedly connected to the upper surface of the substrate (102). The flame retardant layer (103) is filled with a flame retardant agent. A heat insulation layer (104) is fixed on the other side of the flame retardant layer (103). The heat insulation layer (104) is sandwiched between the flame retardant layer (103) and the fiberglass protective layer (105). An external waterproof membrane (106) is provided on the outer surface of the fiberglass protective layer (105).

4. The fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering according to claim 1, characterized in that: A temperature detection mechanism (11) is installed on the fluoroplastic tile body (1). The temperature detection mechanism (11) includes a substrate (1101) fixedly connected to the fluoroplastic tile body (1) and a temperature sensor (1104) fixedly connected to a mounting base (1105) on the upper surface of the substrate (1101). The output end of the temperature sensor (1104) is electrically connected to the input end of the controller (9), and the output end of the controller (9) is electrically connected to the input end of the water pump (7).

5. A fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering according to claim 4, characterized in that: The upper surface of the substrate (1101) is fixedly connected to the support frame (1102) on the outside of the mounting base (1105), and a protective cover (1103) is provided on the top of the support frame (1102), which covers the outside of the temperature sensor (1104).

6. A fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering according to claim 1, characterized in that: A damping pad (12) is provided at the connection between the strip base plate (13) and the fluoroplastic tile body (1), and the damping pad (12) has a through hole that matches the damping rod (4) at the damping rod (4).

7. A fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering according to claim 1, characterized in that: The bottom of the damping rod (4) is provided with an external thread structure that is compatible with the screw hole of the strip base plate (13).

8. A fiberglass composite fluoroplastic roofing sheet for corrosion protection engineering according to claim 1, characterized in that: The lower surface of the fluoroplastic tile body (1) is provided with an inner waterproof membrane (101).