Floor heating module
By installing sealing plates and connecting components between prefabricated underfloor heating modules, the problem of heat loss between modules is solved, achieving sealing and fixing between modules and convenient maintenance, thus improving the heat preservation effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SUZHOU JINSHISHENG ARCHITECTURAL DECORATION ENG CO LTD
- Filing Date
- 2023-02-23
- Publication Date
- 2026-06-26
AI Technical Summary
Existing prefabricated underfloor heating modules lack sealing measures between modules, causing heat to dissipate through gaps in the contact surfaces and reducing the heat retention effect.
Sealing plates and connecting components are set between modules, including a first sealing plate, a second sealing plate, a third sealing plate, a fourth sealing plate, a fifth sealing plate, and a sixth sealing plate. Sealing and fixing between modules are achieved through connecting components such as a first connecting rod, a second connecting rod, and a third connecting rod.
It effectively reduces or avoids heat loss, improves heat retention, and the sealing plate can be quickly disassembled and installed via connecting components, facilitating later maintenance.
Smart Images

Figure CN116164322B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of underfloor heating module technology, specifically an underfloor heating module. Background Technology
[0002] Prefabricated underfloor heating modules and edge underfloor heating modules are prefabricated underfloor heating systems that replace traditional on-site construction underfloor heating. Their advantages include convenient installation, no need for on-site drilling or chiseling, and easy maintenance. Therefore, the use of prefabricated underfloor heating is becoming more and more widespread.
[0003] Chinese patent discloses a floor heating module (authorization announcement number CN217232538U), which solves the problem of cumbersome module replacement after damage in a prefabricated dry floor heating system (publication number CN108571763A). It features a first extraction component and a second extraction component, allowing for easy removal and replacement of the floor heating module. However, the modules are installed together via a first positioning element, a first positioning rod, a second positioning element, and a second positioning rod, without any sealing measures between them. This allows heat to easily escape through the gaps at the contact surfaces between the modules, resulting in heat loss and reduced insulation performance. Therefore, those skilled in the art have provided a floor heating module to address the problems mentioned in the background art. Summary of the Invention
[0004] The purpose of this invention is to provide a floor heating module to solve the problems mentioned in the background art.
[0005] To achieve the above objectives, the present invention provides the following technical solution:
[0006] A floor heating module includes a prefabricated floor heating module and an edge floor heating module. The prefabricated floor heating module includes a plurality of first floor heating modules, and the edge floor heating module includes a plurality of second floor heating modules and a plurality of third floor heating modules. The plurality of second floor heating modules are installed on the outside of the first floor heating modules, and a third floor heating module is installed at the corner between adjacent second floor heating modules. The first floor heating module includes a prefabricated module body, and a plurality of first columns are evenly installed on the upper surface of the prefabricated module body. First sealing plates are installed on both the left and right sides of the prefabricated module body. The second floor heating module includes a first edge module body, a plurality of second columns are evenly installed on the upper surface of the first edge module body, and a third sealing plate is installed on both the front and rear surfaces of the first edge module body. A fourth sealing plate is installed on the right side surface of the first edge module body. The third floor heating module includes a second edge module body, a plurality of third columns are evenly installed on the upper surface of the second edge module body, a fifth sealing plate is installed on the left side surface of the second edge module body, and a sixth sealing plate is installed on the rear surface of the second edge module body.
[0007] Two connecting components are symmetrically arranged at the connection points of the first sealing plate and the prefabricated module body, the second sealing plate and the prefabricated module body, the third sealing plate and the first edge module body, the fourth sealing plate and the first edge module body, the fifth sealing plate and the second edge module body, and the sixth sealing plate and the second edge module body.
[0008] As a further embodiment of the present invention: the connecting assembly includes a first connecting seat and a first connecting rod. A fixing plate is installed on the inner right side surface of the first connecting seat. A first fixing bolt is movably connected through both the upper and lower ends of the fixing plate. A first Velcro fastener is installed on the left side surface of the fixing plate. A first sealing block is installed on the outside of the first connecting rod. A first fixing block is installed on the right end of the first connecting rod. A second Velcro fastener is installed on the right side surface of the first fixing block.
[0009] As a further embodiment of the present invention: the connecting assembly includes a second connecting seat and a second connecting rod. A fixing iron ring is installed on the inner right side surface of the second connecting seat. A second sealing block is installed on the outside of the second connecting rod. A second fixing block is installed on the right end of the second connecting rod. A second fixing bolt is movably connected to both the upper and lower ends of the second fixing block. A magnetic block is installed on the right side surface of the second fixing block.
[0010] As a further embodiment of the present invention: the connecting assembly includes a third connecting seat and a third connecting rod. Two deformation plates are symmetrically installed inside the third connecting seat. Limiting holes are formed inside the deformation plates, and a first ball is installed on one side surface of the deformation plate. Mounting rods are installed on both the upper and lower surfaces of the third connecting rod. A second ball is installed at one end of the mounting rod. Two deformation blocks are installed on both the upper and lower surfaces of the third connecting rod on the right side of the mounting rod. A locking block is installed at one end of each deformation block.
[0011] As a further embodiment of the present invention: the first column, the second column, and the third column are the same size and shape, and the first sealing plate, the second sealing plate, the third sealing plate, the fourth sealing plate, the fifth sealing plate, and the sixth sealing plate are all components made of nitrile rubber.
[0012] As a further embodiment of the present invention: a plurality of first connecting seats are respectively embedded and installed inside the assembled module body, the first edge module body and the second edge module body; one end of a plurality of first connecting rods is respectively installed on one side surface of the first sealing plate, the second sealing plate, the third sealing plate, the fourth sealing plate, the fifth sealing plate and the sixth sealing plate; one end of the first fixing bolt is threaded to the inside of the first connecting seat; the first sealing block slides inside the first connecting seat; and the second Velcro is adhered to the first Velcro.
[0013] As a further embodiment of the present invention: a plurality of second connecting seats are respectively embedded and installed inside the assembled module body, the first edge module body and the second edge module body; one end of a plurality of second connecting rods is respectively installed on one side surface of the first sealing plate, the second sealing plate, the third sealing plate, the fourth sealing plate, the fifth sealing plate and the sixth sealing plate; the second sealing block slides inside the second connecting seat; one end of the second fixing bolt is threadedly connected to the inside of the magnetic block; the magnetic block is attracted to the fixing iron ring.
[0014] As a further embodiment of the present invention: a plurality of the third connecting seats are respectively embedded and installed inside the assembled module body, the first edge module body and the second edge module body, and one end of the plurality of the third connecting rods is respectively installed on one side surface of the first sealing plate, the second sealing plate, the third sealing plate, the fourth sealing plate, the fifth sealing plate and the sixth sealing plate.
[0015] As a further embodiment of the present invention: the first ball is located on the right side of the limiting hole, the second ball is movably located inside the limiting hole, and the first ball is located between the two locking blocks.
[0016] Compared with the prior art, the beneficial effects of the present invention are:
[0017] This invention provides a first and second sealing plate on the main body of the prefabricated module, a third and fourth sealing plate on the main body of the first edge module, and a fifth and sixth sealing plate on the second edge module. These sealing plates ensure that the contact surfaces between the main body of the prefabricated module, the main body of the first edge module, and the main body of the second edge module remain sealed, reducing or preventing heat loss. Furthermore, the sealing plates can be quickly assembled and disassembled via connecting components, facilitating future maintenance. The main body of the prefabricated module, the main body of the first edge module, and the main body of the second edge module are respectively provided with a first column, a second column, and a third column. These columns can be used for laying pipes and can also be used to quickly remove the module by pulling the columns upwards during later maintenance. Attached Figure Description
[0018] Figure 1 This is a structural schematic diagram of a floor heating module;
[0019] Figure 2 This is a structural schematic diagram of the first underfloor heating module in an underfloor heating system.
[0020] Figure 3 This is a structural schematic diagram of the second underfloor heating module in a type of underfloor heating system;
[0021] Figure 4 This is a structural diagram of the third underfloor heating module in an underfloor heating system.
[0022] Figure 5 This is an installation diagram of a first embodiment of a floor heating module;
[0023] Figure 6 This is an installation diagram of a second embodiment of a floor heating module;
[0024] Figure 7 This is an installation diagram of a third embodiment of a floor heating module;
[0025] Figure 8 A schematic diagram of the structure of a first embodiment of a floor heating module;
[0026] Figure 9 This is a structural schematic diagram of a second embodiment of a floor heating module;
[0027] Figure 10 A schematic diagram of the structure of the second fixing bolt in a floor heating module;
[0028] Figure 11 This is a structural schematic diagram of a third embodiment of a floor heating module;
[0029] Figure 12 for Figure 11 A magnified view of A in the middle.
[0030] In the diagram: 1. First underfloor heating module; 2. Second underfloor heating module; 3. Third underfloor heating module; 4. Prefabricated module body; 5. First column; 6. First sealing plate; 7. Second sealing plate; 8. First edge module body; 9. Second column; 10. Third sealing plate; 11. Fourth sealing plate; 12. Second edge module body; 13. Third column; 14. Fifth sealing plate; 15. Sixth sealing plate; 16. Connecting assembly; 17. First connecting seat; 18. First connecting rod; 19. Fixing plate; 2 0. First fixing bolt; 21. First hook and loop fastener; 22. First sealing block; 23. First fixing block; 24. Second hook and loop fastener; 25. Second connecting seat; 26. Second connecting rod; 27. Fixing iron ring; 28. Second sealing block; 29. Second fixing block; 30. Second fixing bolt; 31. Magnetic block; 32. Third connecting seat; 33. Third connecting rod; 34. Deformation plate; 35. Limiting hole; 36. First sphere; 37. Mounting rod; 38. Second sphere; 39. Deformation block; 40. Locking block. Detailed Implementation
[0031] Please see Figures 1-12A type of underfloor heating module includes a prefabricated underfloor heating module and an edge underfloor heating module. The prefabricated underfloor heating module includes several first underfloor heating modules 1, and the edge underfloor heating module includes several second underfloor heating modules 2 and several third underfloor heating modules 3. Several second underfloor heating modules 2 are installed on the outside of the first underfloor heating modules 1, and third underfloor heating modules 3 are installed at the corners between adjacent second underfloor heating modules 2. The first underfloor heating module 1 includes a prefabricated module body 4, several first columns 5 are evenly installed on the upper surface of the prefabricated module body 4, and first sealing plates 6 are installed on the left and right sides of the prefabricated module body 4. Second sealing plates 7 are installed on the front and rear sides of the prefabricated module body 4. The second underfloor heating module 2 includes a first edge module body 8, several second columns 9 are evenly installed on the upper surface of the first edge module body 8, and third sealing plates 10 are installed on the front and rear sides of the first edge module body 8. A fourth sealing plate 11 is installed on the right side of the first edge module body 8. The third underfloor heating module 3 includes a second edge module body 8. The main body 12 and the upper surface of the second edge module main body 12 are uniformly equipped with several third columns 13. The first column 5, the second column 9 and the third column 13 are the same size and shape, which can be used to lay pipelines and also facilitate the removal of the module. The left side surface of the second edge module main body 12 is equipped with a fifth sealing plate 14 and the rear surface of the second edge module main body 12 is equipped with a sixth sealing plate 15. The first sealing plate 6, the second sealing plate 7, the third sealing plate 10, the fourth sealing plate 11, the fifth sealing plate 14 and the sixth sealing plate 15 are all components made of nitrile rubber. At the connection between the first sealing plate 6 and the assembled module main body 4, the connection between the second sealing plate 7 and the assembled module main body 4, the connection between the third sealing plate 10 and the first edge module main body 8, the connection between the fourth sealing plate 11 and the first edge module main body 8, the connection between the fifth sealing plate 14 and the second edge module main body 12, and the connection between the sixth sealing plate 15 and the second edge module main body 12, two connecting components 16 are symmetrically arranged.
[0032] Figures 1-5 and Figure 8The first embodiment is shown: the connecting component 16 includes a first connecting seat 17 and a first connecting rod 18. A plurality of first connecting seats 17 are respectively embedded in the interior of the prefabricated module body 4, the first edge module body 8 and the second edge module body 12. One end of a plurality of first connecting rods 18 is respectively installed on one side surface of the first sealing plate 6, the second sealing plate 7, the third sealing plate 10, the fourth sealing plate 11, the fifth sealing plate 14 and the sixth sealing plate 15. A fixing plate 19 is installed on the inner right side surface of the first connecting seat 17. The upper and lower ends of the fixing plate 19 are movably connected to the first fixing bolts 20. One end of the first fixing bolts 20 is threaded to the interior of the first connecting seat 17. A first Velcro 21 is installed on the left side surface of the fixing plate 19. A first sealing block 22 is installed on the outside of the first connecting rod 18. The first sealing block 22 slides inside the first connecting seat 17. A first fixing block 23 is installed on the right end of the first connecting rod 18. A second Velcro 24 is installed on the right side surface of the first fixing block 23. The second Velcro 24 is adhered to the first Velcro 21.
[0033] When installing the first sealing plate 6, the second sealing plate 7, the third sealing plate 10, the fourth sealing plate 11, the fifth sealing plate 14, and the sixth sealing plate 15, simply attach them to the prefabricated module body 4, the first edge module body 8, and the second edge module body 12. This allows the first connecting rod 18 to enter the interior of the first connecting seat 17, thereby causing the second Velcro 24 to adhere to the first Velcro 21. In this way, the first sealing plate 6 and the second sealing plate 7 are fixed to the prefabricated module body 4, the third sealing plate 10 and the fourth sealing plate 11 are fixed to the first edge module body 8, and the fifth sealing plate 14 and the sixth sealing plate 15 are fixed to the second edge module body 12.
[0034] Figures 1-4 , Figure 6 , Figure 9 and Figure 10The second embodiment is shown: the connecting assembly 16 includes a second connecting seat 25 and a second connecting rod 26. Several second connecting seats 25 are respectively embedded in the interior of the prefabricated module body 4, the first edge module body 8 and the second edge module body 12. One end of several second connecting rods 26 is respectively installed on one side surface of the first sealing plate 6, the second sealing plate 7, the third sealing plate 10, the fourth sealing plate 11, the fifth sealing plate 14 and the sixth sealing plate 15. A fixing iron ring 27 is installed on the inner right side surface of the second connecting seat 25. A second sealing block 28 is installed on the outside of the second connecting rod 26. The second sealing block 28 slides inside the second connecting seat 25. A second fixing block 29 is installed on the right end of the second connecting rod 26. A second fixing bolt 30 is movably connected to both the upper and lower ends of the second fixing block 29. A magnetic block 31 is installed on the right side surface of the second fixing block 29. One end of the second fixing bolt 30 is threaded into the interior of the magnetic block 31. The magnetic block 31 is attracted to the fixing iron ring 27.
[0035] When installing the first sealing plate 6, the second sealing plate 7, the third sealing plate 10, the fourth sealing plate 11, the fifth sealing plate 14, and the sixth sealing plate 15, simply attach them to the prefabricated module body 4, the first edge module body 8, and the second edge module body 12. This allows the second connecting rod 26 to enter the interior of the second connecting seat 25, thereby driving the magnetic block 31 into the interior of the fixing iron ring 27 and attracting the fixing iron ring 27. In this way, the first sealing plate 6 and the second sealing plate 7 are fixed to the prefabricated module body 4, the third sealing plate 10 and the fourth sealing plate 11 are fixed to the first edge module body 8, and the fifth sealing plate 14 and the sixth sealing plate 15 are fixed to the second edge module body 12.
[0036] Figures 1-4 , Figure 7 , Figure 11 and Figure 12The third embodiment is shown: the connecting assembly 16 includes a third connecting seat 32 and a third connecting rod 33. Several third connecting seats 32 are respectively embedded inside the prefabricated module body 4, the first edge module body 8, and the second edge module body 12. One end of several third connecting rods 33 is respectively installed on one side surface of the first sealing plate 6, the second sealing plate 7, the third sealing plate 10, the fourth sealing plate 11, the fifth sealing plate 14, and the sixth sealing plate 15. Two deformation plates 34 are symmetrically installed inside the third connecting seat 32. The deformation plates 34 have deformation capacity, meaning they deform under pressure and recover when not under pressure. The deformation plates 34 are made of stainless steel sheets, but can also be other materials with deformation capacity. Limiting holes 35 are formed inside the deformation plates 34. A first ball 36 is installed on one side surface of the variable plate 34. The surface of the first ball 36 is smooth. The first ball 36 is located to the right of the limiting hole 35. Mounting rods 37 are installed on both the upper and lower surfaces of the third connecting rod 33. A second ball 38 is installed at one end of the mounting rod 37. The surface of the second ball 38 is smooth. One-third of the second ball 38 is movable inside the limiting hole 35. The second ball 38 is movable inside the limiting hole 35. Two deformation blocks 39 are installed on both the upper and lower surfaces of the third connecting rod 33 to the right of the mounting rod 37. The deformation blocks 39 have deformation capabilities, that is, they will deform when squeezed and recover when not squeezed. They can be made of plastic, rubber, or other materials. A locking block 40 is installed at one end of the deformation block 39. The second ball 38 is movable inside the limiting hole 35.
[0037] When installing the first sealing plate 6, the second sealing plate 7, the third sealing plate 10, the fourth sealing plate 11, the fifth sealing plate 14, and the sixth sealing plate 15, simply attach them to the prefabricated module body 4, the first edge module body 8, and the second edge module body 12, so that the third connecting rod 33 enters the interior of the third connecting seat 32. At this time, the second ball 38 will squeeze the deformation plate 34. After the second ball 38 moves into the limiting hole 35, the deformation plate 34 will return to its original state. At the same time, the first ball 36 will also be stuck between the two locking blocks 40. In this way, the first sealing plate 6 and the second sealing plate 7 are fixed to the prefabricated module body 4, the third sealing plate 10 and the fourth sealing plate 11 are fixed to the first edge module body 8, and the fifth sealing plate 14 and the sixth sealing plate 15 are fixed to the second edge module body 12.
[0038] The working principle of this invention is as follows: When installing the prefabricated underfloor heating modules and edge modules, workers can lay the third underfloor heating modules 3 at the two corners of the room, and then lay the second underfloor heating modules 2 in between. Subsequently, the remaining first underfloor heating modules 1, second underfloor heating modules 2, and third underfloor heating modules 3 are laid along the laid third and second underfloor heating modules 3. The first underfloor heating modules 1 can be sealed to each other using a first sealing plate 6 and a second sealing plate 7. The first underfloor heating modules 1 and second underfloor heating modules 2 can be sealed to each other using a fourth sealing plate 11, a first sealing plate 6, and a second sealing plate 7. The second underfloor heating modules 2 and second underfloor heating modules 3 can be sealed to each other using a fourth sealing plate 11, a first sealing plate 6, and a second sealing plate 7. The modules 2 can be sealed with the third sealing plate 10. The second floor heating module 2 and the third floor heating module 3 can be sealed with the third sealing plate 10, the fifth sealing plate 14 and the sixth sealing plate 15. These seals can prevent heat from escaping through the contact gaps between the prefabricated module body 4, the first edge module body 8 and the second edge module body 12 and contacting the bottom layer of the floor, thus preventing heat loss. Then, the workers can lay heating pipes around the first column 5, the second column 9 and the third column 13. Finally, heat-conducting plates, decorative flooring, etc. can be laid on the upper surfaces of the first column 5, the second column 9 and the third column 13.
[0039] It will be apparent to those skilled in the art that the present invention is not limited to the details of the exemplary embodiments described above, and that the invention can be implemented in other specific forms without departing from its spirit or essential characteristics. Therefore, the embodiments should be considered in all respects as exemplary and non-limiting, and the scope of the invention is defined by the appended claims rather than the foregoing description. Thus, all variations falling within the meaning and scope of equivalents of the claims are intended to be included within the present invention. No reference numerals in the claims should be construed as limiting the scope of the claims.
[0040] Furthermore, it should be understood that although this specification describes embodiments, not every embodiment contains only one independent technical solution. This narrative style is merely for clarity. Those skilled in the art should consider the specification as a whole, and the technical solutions in each embodiment can also be appropriately combined to form other embodiments that can be understood by those skilled in the art.
Claims
1. A floor heating module, comprising a prefabricated floor heating module and an edge floor heating module, wherein the prefabricated floor heating module comprises a plurality of first floor heating modules (1), and the edge floor heating module comprises a plurality of second floor heating modules (2) and a plurality of third floor heating modules (3), wherein the plurality of second floor heating modules (2) are installed on the outside of the first floor heating modules (1), and a third floor heating module (3) is installed at the corner between adjacent second floor heating modules (2), characterized in that, The first floor heating module (1) includes a prefabricated module body (4), a plurality of first columns (5) are uniformly installed on the upper surface of the prefabricated module body (4), and a first sealing plate (6) is installed on both the left and right sides of the prefabricated module body (4), and a second sealing plate (7) is installed on both the front and rear sides of the prefabricated module body (4). The second floor heating module (2) includes a first edge module body (8), a plurality of second columns (9) are uniformly installed on the upper surface of the first edge module body (8), and a third sealing plate (10) is installed on both the front and rear sides of the first edge module body (8), and a fourth sealing plate (11) is installed on the right side of the first edge module body (8). The third floor heating module (3) includes a second edge module body (12), a plurality of third columns (13) are uniformly installed on the upper surface of the second edge module body (12), and a fifth sealing plate (14) is installed on the left side of the second edge module body (12), and a sixth sealing plate (15) is installed on the rear surface of the second edge module body (12). Two connecting components (16) are symmetrically arranged at the connection points of the first sealing plate (6) and the prefabricated module body (4), the second sealing plate (7) and the prefabricated module body (4), the third sealing plate (10) and the first edge module body (8), the fourth sealing plate (11) and the first edge module body (8), the fifth sealing plate (14) and the second edge module body (12), and the sixth sealing plate (15) and the second edge module body (12).
2. The underfloor heating module according to claim 1, characterized in that, The connecting assembly (16) includes a first connecting seat (17) and a first connecting rod (18). A fixing plate (19) is installed on the inner right side surface of the first connecting seat (17). A first fixing bolt (20) is movably connected to both the upper and lower ends of the fixing plate (19). A first Velcro (21) is installed on the left side surface of the fixing plate (19). A first sealing block (22) is installed on the outside of the first connecting rod (18). A first fixing block (23) is installed on the right end of the first connecting rod (18). A second Velcro (24) is installed on the right side surface of the first fixing block (23).
3. A floor heating module according to claim 1, characterized in that, The connecting assembly (16) includes a second connecting seat (25) and a second connecting rod (26). A fixing ring (27) is installed on the inner right side surface of the second connecting seat (25). A second sealing block (28) is installed on the outside of the second connecting rod (26). A second fixing block (29) is installed on the right end of the second connecting rod (26). A second fixing bolt (30) is movably connected to both the upper and lower ends of the second fixing block (29). A magnetic block (31) is installed on the right side surface of the second fixing block (29).
4. A floor heating module according to claim 1, characterized in that, The connecting assembly (16) includes a third connecting seat (32) and a third connecting rod (33). Two deformation plates (34) are symmetrically installed inside the third connecting seat (32). Limiting holes (35) are opened inside the deformation plates (34), and a first ball (36) is installed on one side surface of the deformation plates (34). Mounting rods (37) are installed on both the upper and lower surfaces of the third connecting rod (33). A second ball (38) is installed at one end of the mounting rod (37). Two deformation blocks (39) are installed on both the upper and lower surfaces of the third connecting rod (33) on the right side of the mounting rod (37). A locking block (40) is installed at one end of the deformation block (39).
5. A floor heating module according to claim 1, characterized in that, The first column (5), the second column (9) and the third column (13) are the same size and shape. The first sealing plate (6), the second sealing plate (7), the third sealing plate (10), the fourth sealing plate (11), the fifth sealing plate (14) and the sixth sealing plate (15) are all components made of nitrile rubber.
6. A floor heating module according to claim 2, characterized in that, Several first connecting seats (17) are respectively embedded in the interior of the prefabricated module body (4), the first edge module body (8) and the second edge module body (12). One end of several first connecting rods (18) is respectively installed on one side surface of the first sealing plate (6), the second sealing plate (7), the third sealing plate (10), the fourth sealing plate (11), the fifth sealing plate (14) and the sixth sealing plate (15). One end of the first fixing bolt (20) is threaded to the interior of the first connecting seat (17). The first sealing block (22) slides inside the first connecting seat (17). The second Velcro (24) is adhered to the first Velcro (21).
7. A floor heating module according to claim 3, characterized in that, Several second connecting seats (25) are respectively embedded in the interior of the prefabricated module body (4), the first edge module body (8) and the second edge module body (12). One end of several second connecting rods (26) is respectively installed on one side surface of the first sealing plate (6), the second sealing plate (7), the third sealing plate (10), the fourth sealing plate (11), the fifth sealing plate (14) and the sixth sealing plate (15). The second sealing block (28) slides inside the second connecting seat (25). One end of the second fixing bolt (30) is threaded to the interior of the magnetic block (31). The magnetic block (31) is attracted to the fixing iron ring (27).
8. A floor heating module according to claim 4, characterized in that, Several third connecting seats (32) are respectively embedded in the interior of the assembled module body (4), the first edge module body (8) and the second edge module body (12), and one end of several third connecting rods (33) is respectively installed on one side surface of the first sealing plate (6), the second sealing plate (7), the third sealing plate (10), the fourth sealing plate (11), the fifth sealing plate (14) and the sixth sealing plate (15).
9. A floor heating module according to claim 4, characterized in that, The first ball (36) is located to the right of the limiting hole (35), the second ball (38) is movably located inside the limiting hole (35), and the first ball (36) is located between the two locking blocks (40).