Integrated floor module and method of assembling the same
By using integrated floor module installation and support components, adjusting and fixing the angle of the installation beams, the problem of keeping the formwork level is solved, ensuring the levelness of the floor pouring and construction efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- SHANGHAI NEW CONSTR ARCHITECTURAL DESIGN CO LTD
- Filing Date
- 2023-11-28
- Publication Date
- 2026-07-03
Smart Images

Figure CN117403816B_ABST
Abstract
Description
[0001] Technology
[0002] This application relates to the field of building construction technology, and in particular to an integrated floor module and its assembly method. Background Technology
[0003] Prefabricated houses consist of a structural system, a ground system, a floor system, a wall system, and a roof system. Each system is composed of several unit modules. The unit modules are manufactured in the factory, and the houses are assembled on-site from the unit modules. A large number of building components are produced and processed in the workshop. The main types of components include: exterior wall panels, interior wall panels, composite slabs, balconies, air conditioning panels, stairs, precast beams, precast columns, etc.
[0004] After the house frame structure is completed, the floor slab needs to be poured in place. After the floor slab is poured, the house continues to be assembled. Generally, the floor slab module includes support components and formwork components. The support components include scaffolding and support frames. The scaffolding is erected inside the house frame to support the support frames. The support frames are used to support the formwork components. The formwork components include multiple formworks, which are laid flat on the upper surface of the support frames, with the upper surfaces of the multiple formworks flush with the lower surface of the floor slab to be poured. After the formworks are placed, the reinforcing cage is placed, and the crossbeam formwork is set up around the reinforcing cage. Then, concrete is poured for the crossbeams and the floor slab of the house. After the concrete solidifies, the floor slab is formed, and the house continues to be assembled on the floor slab surface.
[0005] Regarding the aforementioned technologies, when erecting scaffolding, it is necessary to repeatedly adjust the scaffolding to keep the support frame in a horizontal state, so that the template components supported by the support frame are in a horizontal state as a whole. Otherwise, the floor may tilt after pouring. Summary of the Invention
[0006] To facilitate the horizontal laying of the template on the floor surface to be poured, this application provides an integrated floor module and its assembly method.
[0007] Firstly, this application provides an integrated floor module, which adopts the following technical solution:
[0008] An integrated floor module includes an installation component and a receiving component. An even number of installation components are symmetrically arranged within the floor structure. Each installation component includes a first installation block, a second installation block, and a mounting beam detachably connected to both the first and second installation blocks. The first and second installation blocks are both embedded in the inner side of the wall on the same side and spaced apart along the upper edge of the wall. One end of the mounting beam is rotatably connected to the first installation block, and the other end is slidably connected to the second installation block. The sliding direction of the mounting beam to the second installation block is the same as the rotation direction of the mounting beam along the first installation block. A fixing element is provided at the second installation block to fix the mounting beam. The receiving component includes multiple receiving rods spanning between two mounting beams. Each mounting beam has a groove on the side near the receiving rod, extending along the length of the mounting beam. Both ends of the receiving rods are located within the grooves and can slide along them.
[0009] By adopting the above technical solution, when installing multiple support rods, two installation beams are installed on the first installation block and the second installation block respectively. Then, the end of the installation beam closest to the second installation block is slid downward to make the installation beam tilted. Then, multiple support rods are slid into the grooves of the installation beam in sequence. After the support rods are installed, the installation beam is pushed up to make the installation beam horizontal. The installation beam is then fixed with fasteners. Finally, the spacing between the multiple support rods is adjusted, and the template is laid on the multiple support rods, which makes it easy to lay the template horizontally on the floor surface to be poured.
[0010] Optionally, the mounting beam is provided with a first insert rod near the first mounting block, and the first mounting block has a slot, in which the first insert rod is rotatably inserted; the mounting beam is provided with a second insert rod near the second mounting block, and the second mounting block has a sliding arc groove, in which the second insert rod is located and can slide along the sliding arc groove.
[0011] By adopting the above technical solution, when installing the crossbeam, the first insert rod is inserted into the slot, and the second insert rod is located in the sliding arc groove, which facilitates the connection between the crossbeam and the first and second mounting blocks.
[0012] Optionally, multiple limiting members are detachably connected to the inner wall of the slide, and the multiple limiting members are spaced apart along the slide, with at least one of the limiting members distributed between adjacent receiving rods.
[0013] By adopting the above technical solution, the limiting component is used to limit the position of the receiving rod, which facilitates the placement of the installation beam at intervals.
[0014] Optionally, the slide groove has multiple positioning grooves on the side wall below the receiving rod, and the multiple positioning grooves are distributed at intervals along the slide groove. The slide groove also has a limiting groove on the side wall below the receiving rod. The extending direction of the limiting groove is the same as the extending direction of the slide groove, and the limiting groove connects to the multiple positioning grooves.
[0015] The limiting component includes a limiting post and a limiting boss. The limiting boss is located on the top of the limiting post, one end of the limiting post is located in the limiting groove, the limiting boss is inserted into the positioning groove, and the limiting boss protrudes from the side wall of the sliding groove.
[0016] By adopting the above technical solution, when installing the limiting component, the limiting post is placed into the limiting groove, and the limiting boss is inserted into the positioning groove, so that the side wall of the receiving rod abuts against the side wall of the limiting boss, thereby limiting the receiving rod.
[0017] Optionally, the mounting beam has a placement groove in the sliding groove near the limiting groove. Both the limiting groove and the placement groove are open at the top. The placement groove is connected to multiple positioning grooves. A tie rod is slidably connected in the placement groove. The upper surface of the tie rod is flush with the side wall of the sliding groove.
[0018] By adopting the above technical solution, the tie rod fills the positioning groove, exposing the positioning groove near the second mounting block in sequence, and the limiting member is installed in the positioning groove in sequence. When installing the limiting member, the limiting post is placed in the limiting groove near the first mounting block. Due to the inclination of the mounting beam, the limiting post slides down toward the end of the mounting beam near the second mounting block, and the limiting boss falls into the exposed positioning groove to limit the receiving rod.
[0019] Optionally, the end of the pull rod away from the mounting beam is provided with a positioning element, and a groove is formed on the pull rod near the positioning element. The positioning element is located in the groove and includes an elastic element and a positioning pin. The positioning pin is located in the groove and is slidably connected to the pull rod. The elastic element is located between the positioning pin and the pull rod. One end of the elastic element is connected to the pull rod, and the other end is connected to the end of the positioning pin located in the groove. The mounting beam is provided with a snap-fit groove in the placement slot, and the snap-fit groove is adapted to the end of the positioning pin protruding from the pull rod.
[0020] By adopting the above technical solution, when the pull rod is pulled, the positioning pin is squeezed into the groove. When the positioning pin approaches the locking groove, under the action of the elastic element, the positioning pin enters the locking groove to position the pull rod, reducing the possibility that the pull rod will be exposed in multiple positioning grooves at the same time.
[0021] Optionally, the fixing member is a fixing block adapted to the sliding arc groove, and the top surface of the fixing block is an inward arc surface with the same curvature as the second insertion rod.
[0022] By adopting the above technical solution, after the installation beam is rotated to a horizontal state, the fixing block enters the sliding arc groove, and the top surface of the fixing block supports the second insert rod, so that the installation beam is fixed to the inside of the wall in a horizontal state.
[0023] Optionally, a plurality of the receiving rods are provided with receiving plates.
[0024] By adopting the above technical solution, after installing the support plate, the template is placed on the upper surface of the support plate, and the upper surface of the template is flush with the floor surface to be poured.
[0025] Optionally, the diameters of the plurality of limiting bosses gradually decrease from near to far from the second mounting block, and the plurality of positioning grooves are adapted to the plurality of limiting bosses with gradually decreasing diameters.
[0026] By adopting the above technical solution, when placing the limiting components, the limiting bosses with diameters from large to small are directly placed into the positioning grooves in sequence. The limiting bosses with larger diameters will not enter the positioning grooves with smaller diameters, thus completing the one-to-one correspondence between the positioning grooves and the limiting bosses, which is convenient and quick.
[0027] On the other hand, this application also provides an assembly method applicable to one of the above-mentioned integrated floor modules.
[0028] An integrated floor module assembly method is described below:
[0029] Rotate the mounting beam around the first mounting block so that the end of the mounting beam away from the first mounting block tilts downward.
[0030] Multiple support rods slide sequentially into the groove from one end of the mounting beam near the first mounting block;
[0031] After installing all the support rods, rotate the installation beam to make it horizontal, then fix the installation beam with fasteners. Then adjust and fix the spacing between each pair of adjacent support rods.
[0032] The formwork and steel cage are laid along the upper surface of the support rod, and then the concrete is poured after they are fixed.
[0033] By adopting the above technical solution, the inclined installation beam facilitates the placement of multiple support rods. After placing multiple support rods, the installation beam is fixed, so that the installation beam drives the support rods to a horizontal state to support the formwork, thereby making the poured floor surface a horizontal plane.
[0034] In summary, this application includes at least one of the following beneficial technical effects:
[0035] 1. By setting up a first mounting block, a second mounting block, a mounting beam, and fasteners, the mounting beam can be rotated to adjust its angle, facilitating the installation of multiple support rods. After installing the support rods, the mounting beam is adjusted to a horizontal state and fixed with fasteners, so that multiple support rods can be placed horizontally at the floor surface to be poured, making it easy to lay the formwork horizontally between the walls and to lay the formwork horizontally at the floor surface to be poured.
[0036] 2. By setting up tie rods, the tie rods fill the positioning slots. Each time the tie rod is pulled, a positioning slot is exposed, which makes it easy to fix the limiting parts in the corresponding positioning slots. This facilitates the limiting of the supporting rods and ensures that the supporting rods are evenly distributed between the walls, which is convenient for laying the template. Attached Figure Description
[0037] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0038] Figure 1 This is a schematic diagram of the structure of Embodiment 1 of this application.
[0039] Figure 2 This is a structural schematic diagram of the hidden portion of the wall in Embodiment 1 of this application from another perspective.
[0040] Figure 3 This is an exploded view of Embodiment 1 of this application.
[0041] Figure 4 This is a partial perspective sectional view of Embodiment 1 of this application.
[0042] Figure 5 yes Figure 3 Enlarged view of part A in the middle.
[0043] Figure 6 yes Figure 4 Enlarged view of section B.
[0044] Figure 7 This is a partial perspective sectional view of Embodiment 1 of this application.
[0045] Figure 8 yes Figure 7 Enlarged view of section C.
[0046] Figure 9 This is a partial structural schematic diagram of Embodiment 2 of this application.
[0047] Figure 10 This is a partial perspective sectional view of Embodiment 2 of this application.
[0048] Explanation of reference numerals in the attached drawings: 1. Mounting component; 11. First mounting block; 111. Slot; 12. Second mounting block; 121. Sliding arc groove; 13. Mounting beam; 131. First insertion rod; 132. Second insertion rod; 133. Sliding groove; 134. Limiting groove; 135. Positioning groove; 136. Placement groove; 137. Snap-fit groove; 14. Fixing component; 2. Receiving component; 21. Receiving plate; 22. Receiving rod; 221. Slider; 3. Wall; 4. Limiting component; 41. Limiting post; 42. Limiting boss; 43. Guide block; 5. Pull rod; 51. Groove; 52. Positioning component; 521. Elastic component; 522. Positioning pin. Detailed Implementation
[0049] The following is in conjunction with the appendix Figure 1-10 This application will be described in further detail.
[0050] This application discloses an integrated floor module.
[0051] Example 1, referring to Figure 1 , Figure 2 An integrated floor module includes an installation component 1 and a receiving component 2. An even number of installation components 1 are symmetrically arranged within the floor. The number of installation components 1 can be increased or decreased according to the length of the floor. In this embodiment, two installation components 1 are provided. The receiving component 2 is located between the two installation components 1. The installation components 1 install the receiving component 2.
[0052] Reference Figure 2 , Figure 3 The mounting assembly 1 includes a first mounting block 11, a second mounting block 12, and a mounting beam 13 that is detachably connected to both the first mounting block 11 and the second mounting block 12. The first mounting block 11 and the second mounting block 12 are both embedded inside the wall 3 on the same side and close to the top of the wall 3. The first mounting block 11 and the second mounting block 12 are spaced apart in the horizontal direction on the wall 3. The top surfaces of the first mounting block 11 and the second mounting block 12 are located on the same horizontal plane. One end of the mounting beam 13 is rotatably connected to the first mounting block 11, and the other end is slidably connected to the second mounting block 12. The sliding direction of the mounting beam 13 and the second mounting block 12 is the same as the rotation direction of the mounting beam 13 along the first mounting block 11. In order to facilitate observation of the horizontal state of the mounting beam 13, a level bead is embedded on the top right side of the mounting beam 13.
[0053] Specifically, referring to Figure 2 , Figure 3A first insert rod 131 is welded to the side wall of the mounting beam 13 near the first mounting block 11. The first mounting block 11 has a slot 111, which is adapted to the first insert rod 131. The first insert rod 131 is located in the slot 111 and rotatably connected to the slot 111. The outer side wall of the first insert rod 131 is in contact with the inner side wall of the slot 111. A second insert rod 132 is welded to the side wall of the mounting beam 13 near the second mounting block 12. Both the first insert rod 131 and the second insert rod 132 are cylindrical. The second mounting block 12 has a sliding arc groove 121. The center of the sliding arc groove 121 coincides with the rotation axis of the first insert rod 131. The second insert rod 132 is located in the sliding arc groove 121 and can slide along the sliding arc groove 121. That is, as the mounting beam 13 is rotated, the second insert rod 132 moves in an arc along the rotation axis of the first insert rod 131.
[0054] Reference Figure 3 , Figure 4 The second mounting block 12 is provided with a fixing member 14 in the sliding arc groove 121. The fixing member 14 is used to fix the rotation angle of the mounting beam 13. The fixing member 14 is a fixing block adapted to the sliding arc groove 121. The fixing block is inserted into the sliding arc groove 121. The top surface of the fixing block is an inward arc surface with the same arc as the second insertion rod 132. In order to facilitate the removal of the fixing block, two gripping grooves are opened at intervals on the side of the fixing block near the mounting beam 13.
[0055] Reference Figure 3 , Figure 4 and Figure 5 The receiving component 2 includes a receiving plate 21 and multiple receiving rods 22. The receiving plate 21 is erected above the multiple receiving rods 22. In this embodiment, there are six receiving rods 22. The receiving rods 22 span between two mounting beams 13. Each mounting beam 13 has a groove 133 on the side near the receiving rod 22. The groove 133 is a "T" shaped groove rotated 90 degrees counterclockwise. Each end of the receiving rod 22 near the groove 133 is welded with a slider 221, which is adapted to the groove 133. The slider 221 is located in the slide groove 133 and can slide along the slide groove 133. The sliding direction is the same as the long side direction of the installation beam 13. The upper surface of the support plate 21 is lower than the floor surface to be poured. The template is placed on the upper surface of the support plate 21, and the upper surface of the template is flush with the height of the floor surface to be poured. Multiple clips are welded on the lower surface of the support plate 21. Every two clips form a clamping gap. The support rod 22 is located in the clamping gap, thereby fixing the support plate 21 to the top of the support rod 22.
[0056] When laying the formwork, rotate the installation beam 13 to an inclined state, and slide the support rods 22 one by one from the end of the installation beam 13 near the first installation block 11 into the groove 133 of the installation beam 13. Use the fastener 14 to fix the installation beam 13 to a horizontal state. When fixing the installation beam 13, observe the level bead to determine the horizontal state of the installation beam 13. Then adjust the position of the multiple support rods 22 and snap the support plate 21 onto the support rods 22 to lay the formwork, so as to facilitate laying the formwork in a horizontal state on the floor surface to be poured.
[0057] Reference Figure 4 , Figure 5 Multiple limiting members 4 are detachably connected to the mounting beam 13 near the slide groove 133. In this embodiment, there are six limiting members 4, the same number as the number of receiving rods 22, and the six limiting members 4 are evenly spaced. A limiting groove 134 is also provided on the mounting beam 13 near the slide groove 133. The limiting groove 134 is cuboid in shape, and the long side of the limiting groove 134 is in the same direction as the long side of the slide groove 133 and is connected to the slide groove 133.
[0058] Reference Figure 4 , Figure 5 The limiting component 4 includes a limiting post 41 and a limiting boss 42, both of which are cylindrical. The diameter of the limiting boss 42 is larger than that of the limiting post 41. The diameter of the limiting post 41 is the same as the width of the limiting groove 134. The limiting post 41 is vertically placed in the limiting groove 134. The limiting boss 42 is welded to the top of the limiting post 41, and the top surface of the limiting boss 42 is higher than the limiting groove 134. The mounting beam 13 has multiple positioning grooves 135 near the sliding groove 133. The diameter of the positioning grooves 135 is adapted to the limiting boss 42. The positioning grooves 135 are connected to both the limiting groove 134 and the sliding groove 133. One end of the limiting boss 42 near the sliding groove 133 is inserted into the positioning groove 135. To facilitate the sliding of the limiting post 41 along the limiting groove 134, guide blocks 43 are welded to the periphery of the limiting boss 42.
[0059] Furthermore, referring to Figure 5 , Figure 6 The mounting beam 13 is provided with placement slots 136 on the left and right sides of the limiting slot 134. Both the placement slot 136 and the limiting slot 134 are open at the top. The placement slot 136 is also connected to multiple positioning slots 135. A pull rod 5 is slidably connected in the placement slot 136. The pull rod 5 is cuboid in shape, and the upper surface of the pull rod 5 is flush with the top surface of the placement slot 136.
[0060] When the limiting member 4 needs to be placed in the rightmost positioning groove 135, the remaining positioning grooves 135 are filled with the pull rod 5, leaving only the positioning groove 135 where the limiting member 4 needs to be placed. The limiting member 4 is slid into the limiting groove 134. When the limiting boss 42 slides above the positioning groove 135, it falls into the positioning groove 135. Then, the receiving rod 22 is placed into the sliding groove 133, so that the receiving rod 22 abuts against the limiting boss 42, thus fixing the receiving rod 22. Pull the pull rod 5 to install the limiting member 4 into the positioning groove 135 in sequence. Each time a limiting member 4 is placed, a receiving rod 22 needs to be placed to facilitate the placement of multiple receiving rods 22 between the mounting beams 13.
[0061] Specifically, refer to Figure 6 , Figure 7 and Figure 8 The end of the pull rod 5 away from the mounting beam 13 is provided with a positioning element 52. The pull rod 5 is provided with a groove 51 near the positioning element 52. The positioning element 52 is located in the groove 51. The positioning element 52 includes an elastic element 521 and a positioning pin 522. The positioning pin 522 is located in the groove 51 and is slidably connected to the pull rod 5. The elastic element 521 is located between the positioning pin 522 and the pull rod 5. One end of the elastic element 521 is welded to the pull rod 5, and the other end is welded to the bottom surface of the positioning pin 522 located in the groove 51. The mounting beam 13 is provided with a snap-fit groove 137 in the placement groove 136. The snap-fit groove 137 is adapted to the end of the positioning pin 522 that protrudes from the pull rod 5.
[0062] When the lever 5 is pulled, the positioning pin 522 engages with the locking groove 137 from right to left in sequence, then disengages, then engages again, and then disengages again, which facilitates the placement of multiple limiting parts 4 in sequence.
[0063] The implementation principle of an integrated floor module in this application embodiment is as follows: Rotate the installation beam 13 to tilt it. Then, use the tie rod 5 in conjunction with the limiting member 4. Place a supporting rod 22 in the positioning groove 135 for each limiting member 4. After placing the supporting rod 22, pull the tie rod 5 once to make the positioning pin 522 engage with the snap-fit groove 137. Place the limiting member 4 and the supporting rod 22 again until all six supporting rods 22 are placed. Place the fixing member 14 in the sliding arc groove 121 to make the installation beam 13 horizontal. Finally, lay the template to make it easy to lay the template horizontally on the floor surface to be poured.
[0064] Example 2, refer to Figure 9 , Figure 10The difference between this embodiment and embodiment 1 lies in the placement of the limiting member 4. In this embodiment, the diameter of the multiple limiting protrusions 42 gradually decreases from the direction of approaching to moving away from the second mounting block 12. At the same time, the multiple positioning grooves 135 are adapted to the multiple limiting protrusions 42 with gradually decreasing diameters and also gradually decrease in size. Thus, the diameter of the limiting protrusion 42 closest to the second mounting block 12 is the largest, and the diameters of the other limiting protrusions 42 decrease accordingly. This makes it convenient and quick to place the limiting protrusion 42 into the matching positioning groove 135.
[0065] The implementation principle of an integrated floor module in this application embodiment is as follows: when placing the limiting member 4, the limiting boss 42 with the largest diameter is placed first. The limiting boss 42 will not enter the positioning groove 135 with a smaller diameter than its own, which makes it easy to place the limiting member 4 and the supporting rod 22, and thus makes it easy to lay the template horizontally on the floor surface to be poured.
[0066] In addition, this application also discloses an assembly method for an integrated floor module assembly method:
[0067] Rotate the mounting beam 13 around the first mounting block 11 so that the end of the mounting beam 13 away from the first mounting block 11 tilts downward.
[0068] Multiple support rods 22 are slid into the slide groove 133 sequentially from one end of the mounting beam 13 near the first mounting block 11;
[0069] After installing all the support rods 22, rotate the installation beam 13 to make it horizontal. Then, fix the installation beam 13 with the fastener 14. After that, adjust and fix the spacing between each pair of adjacent support rods 22.
[0070] The template and steel cage are laid along the upper surface of the support rod 22, and after fixing, the concrete is poured. After pouring, the installation component 1, the support component 2 and the template are removed.
[0071] Unless otherwise defined, the technical or scientific terms used in this application shall have the ordinary meaning understood by one of ordinary skill in the art to which this application pertains. The terms "first," "second," "third," and similar terms used in this application specification and claims do not indicate any order, quantity, or importance, but are merely used to distinguish different components. The terms "an" or "a" and similar terms do not indicate a quantity limitation, but rather indicate the presence of at least one. The terms "comprising" or "including" and similar terms mean that the elements or objects preceding "comprising" or "including" encompass the elements or objects listed following "comprising" or "including" and their equivalents, and do not exclude other elements or objects. "Above," "below," "left," "right," etc., are used only to indicate relative positional relationships; when the absolute position of the described object changes, the relative positional relationship may also change accordingly.
[0072] The above are all optional embodiments of this application and are not intended to limit the scope of protection of this application. Therefore, all equivalent changes made in accordance with the structure, shape and principle of this application should be covered within the scope of protection of this application.
Claims
1. An integrated floor module, characterized by: The system includes an installation component (1) and a receiving component (2). The installation component (1) is symmetrically arranged in an even number within the building. The installation component (1) includes a first installation block (11), a second installation block (12), and an installation beam (13) that can be detachably connected to both the first installation block (11) and the second installation block (12). The first installation block (11) and the second installation block (12) are both pre-embedded inside the wall (3) on the same side and are spaced apart along the upper edge of the wall (3). One end of the installation beam (13) is rotatably connected to the first installation block (11), and the other end is slidably connected to the second installation block (12). The installation beam (13) and the second installation block... The sliding direction of (12) is the same as the rotation direction of the mounting beam (13) along the first mounting block (11). A fixing part (14) is provided at the second mounting block (12). The fixing part (14) is used to fix the mounting beam (13). The receiving component (2) includes multiple receiving rods (22). The receiving rods (22) span between the two mounting beams (13). The mounting beams (13) are provided with grooves (133) on the side near the receiving rods (22). The grooves (133) extend along the length of the mounting beams (13). The two ends of the receiving rods (22) are located in the grooves (133) and can slide along the grooves (133).
2. An integrated floor module according to claim 1, characterized in that: The mounting beam (13) is provided with a first insert rod (131) near the first mounting block (11). The first mounting block (11) has a slot (111) and the first insert rod (131) is rotatably inserted into the slot (111). The mounting beam (13) is provided with a second insert rod (132) near the second mounting block (12). The second mounting block (12) has a sliding arc groove (121) and the second insert rod (132) is located in the sliding arc groove (121) and can slide along the sliding arc groove (121).
3. An integrated floor module according to claim 1, characterized in that: Multiple limiting members (4) are detachably connected to the inner wall of the slide (133). The multiple limiting members (4) are spaced apart along the slide (133), and at least one of the limiting members (4) is distributed between adjacent receiving rods (22).
4. An integrated floor module according to claim 3, characterized in that: The slide (133) has multiple positioning grooves (135) on the side wall below the receiving rod (22). The multiple positioning grooves (135) are distributed at intervals along the slide (133). The slide (133) also has a limiting groove (134) on the side wall below the receiving rod (22). The extending direction of the limiting groove (134) is the same as the extending direction of the slide (133), and the limiting groove (134) connects to the multiple positioning grooves (135). The limiting component (4) includes a limiting post (41) and a limiting boss (42). The limiting boss (42) is located on the top of the limiting post (41). One end of the limiting post (41) is located in the limiting groove (134). The limiting boss (42) is inserted into the positioning groove (135). The limiting boss (42) protrudes from the side wall of the sliding groove (133).
5. An integrated floor module according to claim 4, characterized in that: The mounting beam (13) has a placement groove (136) in the sliding groove (133) near the limiting groove (134). Both the limiting groove (134) and the placement groove (136) are open at the top. The placement groove (136) is connected to multiple positioning grooves (135). A pull rod (5) is slidably connected in the placement groove (136). The upper surface of the pull rod (5) is flush with the side wall of the sliding groove (133).
6. An integrated floor module according to claim 5, characterized in that: The pull rod (5) has a groove (51) near the positioning member (52). The end of the pull rod (5) away from the mounting beam (13) has a positioning member (52). The positioning member (52) is located in the groove (51). The positioning member (52) includes an elastic member (521) and a positioning pin (522). The positioning pin (522) is located in the groove (51) and is slidably connected to the pull rod (5). The elastic member (521) is located between the positioning pin (522) and the pull rod (5). One end of the elastic member (521) is connected to the pull rod (5), and the other end is connected to the end of the positioning pin (522) located in the groove (51). The mounting beam (13) has a snap-fit groove (137) in the placement groove (136). The snap-fit groove (137) is adapted to the end of the positioning pin (522) protruding from the pull rod (5).
7. An integrated floor module according to claim 2, characterized in that: The fixing member (14) is a fixing block adapted to the sliding arc groove (121), and the top surface of the fixing block is an inward arc surface with the same curvature as the second insert rod (132).
8. An integrated floor module according to claim 1, characterized in that: Each of the aforementioned support rods (22) is provided with a support plate (21).
9. An integrated floor module according to any one of claims 4-6, characterized in that: The diameters of the plurality of limiting bosses (42) gradually decrease from near to far from the second mounting block (12), and the plurality of positioning grooves (135) are adapted to the plurality of limiting bosses (42) with gradually decreasing diameters.
10. A method for assembling integrated floor modules, used to install the integrated floor module according to any one of claims 1-9, characterized in that, The assembly method is as follows: Rotate the mounting beam (13) around the first mounting block (11) so that the end of the mounting beam (13) away from the first mounting block (11) tilts downward; Multiple support rods (22) are slid into the slide groove (133) from one end of the mounting beam (13) near the first mounting block (11); After installing all the support rods (22), rotate the installation beam (13) to make the installation beam (13) horizontal. Then, fix the installation beam (13) with the fastener (14). Then, adjust and fix the spacing between each pair of adjacent support rods (22). The template and steel cage are laid along the upper surface of the support rod (22), and then the concrete is poured after fixing.