A wall construction device for green construction
By using the pin slot connection of the baffle unit and the magnetic plate support frame design, the problem of unstable substrate splicing is solved, achieving a stable connection and aesthetics, making it a wall construction device suitable for green construction.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- 江苏悦达绿色建筑科技有限公司
- Filing Date
- 2024-02-21
- Publication Date
- 2026-06-23
AI Technical Summary
In traditional wall construction, the splicing between substrates is not firm, and they are prone to breakage when pouring concrete. In addition, the lack of clamping parts leads to unstable fixation.
The design employs baffle unit design, which uses a pin and slot to engage and connect, combined with a magnetic plate and support frame structure to ensure a stable connection between baffle units. Elastic elements and vibration devices are used to prevent concrete splashing and air bubbles from forming.
It enables rapid installation and secure fixing of the baffle unit, avoids concrete splashing and air bubble formation, increases the stability and aesthetics of construction, and meets the requirements of green construction.
Smart Images

Figure CN117868473B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of wall construction technology, and in particular relates to a green construction wall construction device. Background Technology
[0002] In traditional construction of apartment or high-rise building walls, the inner and outer panels are arranged vertically facing each other. To maintain the separation, cement is poured while the panels are firmly fixed by connectors. However, in traditional construction, the panels are composed of multiple base plates, and the splicing between the base plates is not firm, making them easy to break when pouring concrete.
[0003] For example, patent application number CN202310707622.7 describes a wall construction device for green construction, which includes a vertical panel assembly. The vertical panel assembly consists of two sets of axisymmetric vertical panel mechanisms. The vertical panel mechanisms are continuously installed along the horizontal direction. The vertical panel mechanism includes a base plate, a controllable sliding component, and a thermal insulation pouring component. However, the disadvantage of this technical solution is that there are no locking components such as pins between the base plates, which results in the base plates not being firmly spliced together and easily breaking apart when pouring concrete. Summary of the Invention
[0004] The purpose of this invention is to provide a green construction wall device to solve the problems in the prior art. The specific technical solution is as follows:
[0005] A green construction wall construction device includes a baffle assembly, which consists of two rows of vertically symmetrical baffles. Each row of baffles consists of multiple baffle units. One side of each baffle unit has a groove, and the other side of each baffle unit has a protrusion with a slot. A pin is slidably connected to the baffle unit near the groove. A spring is fixed between the baffle unit and the pin. A support frame is provided on the outside of each baffle unit.
[0006] Furthermore, a magnet is fixed inside the baffle unit, and the magnet magnetically attracts and fixes the magnetic plate to the baffle unit. The magnetic plate is provided with functional areas.
[0007] Furthermore, an elastic plate is fixed to the lower end of the baffle unit.
[0008] Furthermore, the support frame includes an inner support frame and an outer support frame, the inner support frame and the outer support frame are slidably connected, the baffle unit is fixed on the inner support frame, the inner support frame is slidably connected to the impact pin, and a spring is fixed between the inner support frame and the impact pin.
[0009] Furthermore, a level is vertically mounted on the inner support frame.
[0010] Furthermore, the bottom of the outer support frame is fixed to the ground, the outer support frame is rotatably connected to the first support leg, the first support leg is slidably connected to the second support leg, the first support leg is rotatably connected to the first gear, the first gear is fixedly connected to the crank rod, the crank rod is rotatably connected to the outer shaft, the first gear and the second support leg mesh for transmission, the first support leg is rotatably connected to the limiting rod, one end of the limiting rod is connected to the first gear, the other end of the limiting rod is fixedly connected to the third spring, the third spring is fixed on the first support leg, the second support leg is rotatably connected to the fixing plate, and the fixing plate is fixed to the ground by a pin.
[0011] Furthermore, a bracket is fixed on the outer support frame, the bracket is rotatably connected to a rotating shaft, the rotating shaft is fixedly connected to a rotating rod, the rotating shaft is fixedly connected to one end of a pull rope, the other end of the pull rope is fixed on the inner support frame, the pull rope is rotatably connected to a rotating shaft, and the rotating shaft rotates on the upper end of the outer support frame.
[0012] Furthermore, the outer support frame is provided with a scale, and the slide plate and the outer support frame surround the outer side of the inner support frame, with the upper edge of the slide plate corresponding to the scale.
[0013] Furthermore, the rotating rod is fixedly connected to the functional block, the functional block is rotatably connected to the functional block outer frame, the functional block outer frame is fixed on the outer support frame, the functional block is fixedly connected to one end of the elastic plate, the other end of the elastic plate is fixed to the functional block by spring four, the elastic plate is connected to the limiting plate, the limiting plate slides inside the functional block outer frame, the functional block outer frame and the limiting plate can be fixed by pin two, the two inner support frames are arranged vertically and symmetrically, and the two inner support frames are connected to the curved measuring ruler.
[0014] Furthermore, the curved measuring ruler includes a first curved frame and a second curved frame. The first curved frame and the second curved frame are slidably connected. The first curved frame is rotatably connected to an inner support frame, and the second curved frame is rotatably connected to the inner support frame on the other side. The first curved frame is provided with a second scale, the end of which is perpendicular to the magnetic plate. The second curved frame is provided with a pointer protrusion, the tip of which is perpendicular to the magnetic plate on the other side. The second curved frame is threadedly connected to a screw, which presses the first curved frame tightly between the extrusion plate and the second curved frame. A rubber sheet is provided between the extrusion plate and the first curved frame.
[0015] The advantages of this invention are:
[0016] 1. By engaging the pins and slots of two adjacent baffle units, quick installation can be achieved without easy loosening. The baffles are firmly fixed, and the concrete is poured between the two rows of baffles, preventing it from splashing everywhere, which meets the requirements of green construction.
[0017] 2. The magnetic plate can be equipped with a patterned area, that is, the surface in contact with the concrete has a raised or recessed pattern. When pouring the concrete wall, different shapes of patterns can be poured to increase the aesthetics. Since the wall and the pattern are molded as one piece, the pattern is more secure and less likely to fall off.
[0018] 3. The baffles, assembled from multiple baffle units, are fixed in a single row on the inner support frame. When pouring concrete into the two sets of baffles, the impact pin can be pulled outward, which stretches the second spring. When the impact pin is released, the spring recovers its elasticity and causes the impact pin to retract quickly, striking the inner support frame. This causes the inner support frame and the baffles to vibrate slightly, which in turn causes the concrete to vibrate, preventing air bubbles from forming during concrete pouring. Attached Figure Description
[0019] Figure 1 This is a schematic diagram of the overall structure of the present invention. Figure 1 ;
[0020] Figure 2 This is a schematic diagram of the overall structure of the present invention. Figure 2 ;
[0021] Figure 3 This is a schematic diagram of the single-row baffle structure of the present invention. Figure 1 ;
[0022] Figure 4 This is a schematic diagram of the single-row baffle structure of the present invention. Figure 2 ;
[0023] Figure 5 This is a schematic diagram of the single-row baffle structure of the present invention. Figure 3 ;
[0024] Figure 6 This is a schematic diagram of the baffle unit structure of the present invention;
[0025] Figure 7 for Figure 6 A magnified view of a portion of the image;
[0026] Figure 8 This is a schematic diagram of the support frame structure of the present invention. Figure 1 ;
[0027] Figure 9 This is a schematic diagram of the support frame structure of the present invention. Figure 2 ;
[0028] Figure 10 This is a schematic diagram of the support frame structure of the present invention. Figure 3 ;
[0029] Figure 11 This is a schematic diagram of the support frame structure of the present invention. Figure 4 ;
[0030] Figure 12 for Figure 10 Enlarged view of part B;
[0031] Figure 13 for Figure 11 A magnified view of a portion of the image, C;
[0032] Figure 14 This is a schematic diagram of the curved measuring scale structure of the present invention. Figure 1 ;
[0033] Figure 15 This is a schematic diagram of the curved measuring scale structure of the present invention. Figure 2 ;
[0034] Explanation of markings in the diagram:
[0035] 1. Baffle unit; 2. Magnetic plate; 3. Magnet; 4. Groove; 5. Protrusion; 6. Slot; 7. Pin 1; 8. Spring 1; 9. Elastic plate; 10. Inner support frame; 11. Impact pin; 12. Spring 2; 13. Level; 14. Outer support frame; 15. Leg frame 1; 16. Outer shaft; 17. Curved rod; 18. Gear 1; 19. Leg frame 2; 20. Limiting rod; 21. Spring 3; 22. Fixing piece; 23. Pin; 24. Rotating rod; 25. Rotating shaft 1; 26. Pull rope; 27. Rotating shaft 2; 28. Scale 1; 29. Slide plate; 30. Functional block; 31. Spring 4; 32. Elastic piece; 33. Functional block outer frame; 34. Limiting piece; 35. Pin 2; 36. Bend frame 1; 37. Bend frame 2; 38. Scale 2; 39. Pointer protrusion; 40. Extrusion piece; 41. Rubber piece; 42. Screw; 43. Bracket. Detailed Implementation
[0036] The technical solution of the present invention will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only some, not all, of the embodiments of the present invention. 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.
[0037] In the description of this invention, it should be noted that the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," and "outer," etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are used only for the convenience of describing the invention and for simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on the invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and should not be construed as indicating or implying relative importance.
[0038] Example 1
[0039] like Figure 1-15As shown, a green construction wall construction device includes a baffle assembly, which consists of two rows of vertically symmetrical baffles. Each row of baffles consists of multiple baffle units 1. One side of each baffle unit 1 has a groove 4, and the other side of each baffle unit 1 has a protrusion 5. The protrusion 5 has a slot 6. A pin 7 is slidably connected to the side of the baffle unit 1 near the groove 4. A spring 8 is fixed between the baffle unit 1 and the pin 7. A support frame is provided on the outside of the baffle unit 1.
[0040] The working principle of the above technical solution is as follows: the protrusion 5 of one baffle unit 1 is inserted into the groove 4 of another baffle unit 1, the pin 7 is squeezed and retracted, and the spring 8 is compressed. When the pin 7 is aligned with the slot 6, under the restoring force of the spring 8, the pin 7 extends and inserts into the slot 6, thereby fixing the two adjacent baffle units 1. Multiple baffle units 1 are fixedly connected to form a single row of baffles. Two single rows of baffles are placed vertically, parallel and symmetrically to form a baffle group. The baffle group is fixed to the ground by a support frame. Concrete is poured between the two single rows of baffles. After the concrete solidifies, the support frame and the baffle group are removed to complete the wall construction.
[0041] Because the pin 7 engages with the slot 6, the two adjacent baffle units 1 are not easy to loosen, and the fixation is more secure. The concrete is poured between the two rows of baffles and will not splash everywhere, which meets the requirements of green construction.
[0042] Example 2
[0043] like Figure 1-15 As shown, a magnet 3 is fixed inside the baffle unit 1, and the magnet 3 magnetically fixes the magnetic plate 2 to the baffle unit 1. The magnetic plate 2 is provided with functional areas.
[0044] The working principle of the above technical solution is as follows: The side of the baffle unit 1 that is in direct contact with the concrete is provided with a magnetic plate 2. The magnetic plate 2 is magnetically attracted to the baffle unit 1 by a magnet 3, making it easy to remove or replace the magnetic plate 2.
[0045] The magnetic plate 2 has functional areas. When the functional area is a planar functional area, that is, the contact surface between the magnetic plate 2 and the concrete is a whole plane, the cast wall is a vertical wall without raised patterns. When the functional area is a patterned functional area, that is, the contact surface between the magnetic plate 2 and the concrete has raised or recessed patterns, different shapes of patterns can be cast when the concrete wall is cast to increase the aesthetics. Since the wall and the pattern are formed as one piece, the firmness of the pattern is increased and it is not easy to fall off.
[0046] There are multiple magnetic plates 2, and the functional areas on the magnetic plates 2 are also diverse. Therefore, a suitable magnetic plate 2 can be selected according to the needs and directly magnetically attached to the baffle unit 1.
[0047] Example 3
[0048] like Figure 1-15 As shown, an elastic plate 9 is fixed to the lower end of the baffle unit 1;
[0049] The working principle of the above technical solution is as follows: the baffle unit 1 stands vertically on the ground, the elastic plate 9 is in direct contact with the ground, the elastic plate 9 is squeezed and deformed, and the function of the elastic plate 9 is to prevent concrete from flowing out from the bottom of the baffle unit 1 during concrete pouring, thus preventing concrete waste.
[0050] Example 4
[0051] like Figure 1-15 As shown, the support frame includes an inner support frame 10 and an outer support frame 14. The inner support frame 10 and the outer support frame 14 are slidably connected. The baffle unit 1 is fixed on the inner support frame 10. The inner support frame 10 is slidably connected to the impact pin 11. A spring 12 is fixed between the inner support frame 10 and the impact pin 11.
[0052] The working principle of the above technical solution is as follows: The baffles assembled by multiple baffle units 1 are fixed on the inner support frame 10. When pouring concrete into the two sets of baffles, the impact pin 11 can be pulled outward, which will stretch the second spring 12. When the impact pin 11 is released, under the action of the spring 12 restoring its elasticity, the impact pin 11 will be quickly retracted, which will cause the impact pin 11 to strike the inner support frame 10, so that the inner support frame 10 and the baffles will vibrate slightly, which will cause the concrete to vibrate and avoid the generation of air bubbles during pouring.
[0053] An outer support frame 14 is provided on the outside of the inner support frame 10. The bottom of the outer support frame 14 is fixed to the ground. When the functional area on the magnetic suction plate 2 is a planar functional area, after the concrete has solidified, a pry tool is used to separate the magnetic suction plate 2 from the concrete. The magnetic suction plate 2 is made of metal, and its surface does not easily adhere to the concrete. Gently prying the edge of the magnetic suction plate 2 with a pry tool can separate the magnetic suction plate 2 from the concrete. The inner support frame 10 lifts two sets of baffles in a single row, allowing for continued support on the solidified wall. Continue pouring concrete to increase the height of the wall. When the functional area is the pattern functional area, after the concrete solidifies and the magnetic plate 2 separates from the concrete, since the pattern part of the wall protrudes, it is necessary to separate the outer support frame 14 from the ground. Then move the outer support frame 14, the inner support frame 10 and the baffle in a single row. After the inner support frame 10 lifts the two sets of baffles in a single row, move the outer support frame 14, the inner support frame 10 and the baffle in a single row to the wall. Continue pouring concrete on the solidified wall to increase the height of the wall.
[0054] Example 5
[0055] like Figure 1-15As shown, the bottom of the outer support frame 14 is fixed to the ground. The outer support frame 14 is rotatably connected to the first support leg 15. The first support leg 15 is slidably connected to the second support leg 19. The first support leg 15 is rotatably connected to the first gear 18. The first gear 18 is fixedly connected to the crank rod 17. The crank rod 17 is rotatably connected to the outer shaft 16. The first gear 18 and the second support leg 19 are gear meshed and driven. The first support leg 15 is rotatably connected to the limiting rod 20. One end of the limiting rod 20 is connected to the first gear 18. The other end of the limiting rod 20 is fixedly connected to the third spring 21. The third spring 21 is fixed on the first support leg 15. The second support leg 19 is rotatably connected to the fixing plate 22. The fixing plate 22 is fixed to the ground by the pin 23.
[0056] A level 13 is vertically mounted on the inner support frame 10;
[0057] The working principle of the above technical solution is as follows: The bottom of the outer support frame 14 is fixed to the ground. The first outrigger 15 is rotated to form a certain angle with the outer support frame 14. The outer shaft 16 is rotated, causing the crank rod 17 to rotate, which in turn causes the gear 18 to rotate, leading to the extension of the second outrigger 19. This causes the fixing plate 22 to contact the ground, and the fixing plate 22 is fixed to the ground by the pin 23. Stepping on the left outer shaft 16 downwards causes the crank rod 17 to rotate. After the left outer shaft 16 goes down, it causes the right outer shaft 16 to come up. Then, stepping on the right... The outer shaft 16 on the side exerts downward force, causing the crank rod 17 to rotate. Then, by stepping on the outer shaft 16, the crank rod 17 can be rotated, causing the second support frame 19 to slide against the first support frame 15. The combined support of the first support frame 15 and the second support frame 19 supports the inner support frame 10 to tilt inward, causing the single row of baffles to tilt inward, thereby changing the angle of the single row of baffles. Observe the level 13 on the inner support frame 10. When the level 13 shows a horizontal state, the stepping on the outer shaft 16 can be stopped. At this time, the single row of baffles is in a vertical state, thus ensuring that the poured wall is in a vertical state.
[0058] The function of the limiting rod 20 is to prevent gear 18 from automatically reversing. When the outrigger 2 19 extends outward, gear 18 slides against the front end of the limiting rod 20. When gear 18 reverses, the front end of the limiting rod 20 gets stuck between the teeth of gear 18, preventing gear 18 from automatically reversing. When the construction is completed and outrigger 15 and outrigger 2 19 need to be retracted, press one end of the limiting rod 20 connected to the spring 3 21, causing the contact end between the limiting rod 20 and gear 18 to lift up. At this time, the limiting rod 20 can no longer limit gear 18, causing outrigger 2 19 to retract. Outrigger 2 19 slides against outrigger 15, and gear 18 reverses. After outrigger 2 19 is retracted, release the pressing of the limiting rod 20. Under the restoring elasticity of the spring 3 21, the limiting rod 20 rotates with the outer support frame 14, and the front end of the limiting rod 20 gets stuck between the teeth of gear 18 again.
[0059] Example 6
[0060] like Figure 1-15 As shown, a bracket 43 is fixed on the outer support frame 14. The bracket 43 is rotatably connected to the first rotating shaft 25. The first rotating shaft 25 is fixedly connected to the rotating rod 24. The first rotating shaft 25 is fixedly connected to one end of the pull rope 26. The other end of the pull rope 26 is fixed on the inner support frame 10. The pull rope 26 is rotatably connected to the second rotating shaft 27. The second rotating shaft 27 rotates on the upper end of the outer support frame 14.
[0061] The outer support frame 14 is provided with a scale 28, and the slide plate 29 and the outer support frame 14 surround the outer side of the inner support frame 10. The upper edge of the slide plate 29 corresponds to the scale 28.
[0062] The rotating rod 24 is fixedly connected to the functional block 30, the functional block 30 is rotatably connected to the functional block outer frame 33, the functional block outer frame 33 is fixed on the outer support frame 14, the functional block 30 is fixedly connected to one end of the elastic plate 32, the other end of the elastic plate 32 is fixed on the functional block 30 by spring four 31, the elastic plate 32 is connected to the limiting plate 34, the limiting plate 34 slides in the functional block outer frame 33, the functional block outer frame 33 and the limiting plate 34 can be fixed by pin two 35, the two inner support frames 10 are arranged vertically and symmetrically, and the two inner support frames 10 are connected to the curved measuring ruler;
[0063] The working principle of the above technical solution is as follows: When the functional area on the magnetic suction plate 2 is a planar functional area, after the concrete has solidified, a pry tool is used to separate the magnetic suction plate 2 from the concrete. Rotating the rotating rod 24 causes the rotating shaft 25 to rotate, which in turn causes the pull rope 26 to wind around the rotating shaft 25. The pull rope 26 then wraps around the other end of the rotating shaft 27, pulling up the inner support frame 10 and causing the baffle to rise in a single row. This allows for continued pouring of concrete on the solidified wall, increasing the wall's height. When the functional area is a patterned functional area, after the concrete has solidified, a pry tool is used... The prying tool separates the magnetic plate 2 from the concrete. It is necessary to separate the outer support frame 14 from the ground. Then, move the outer support frame 14, the inner support frame 10 and the baffle in a single row. Rotate the rotating rod 24 to drive the rotating shaft 25 to rotate. This will cause the pull rope 26 to be wound on the rotating shaft 25. The pull rope 26 passes around the other end of the rotating shaft 27 and pulls the inner support frame 10 upward. This will then pull the baffle in a single row to rise. After that, move the outer support frame 14, the inner support frame 10 and the baffle in a single row to the wall. Continue to pour concrete on the solidified wall to increase the height of the wall.
[0064] After the inner support frame 10 rises, it drives the slide plate 29 to rise. The upper edge of the slide plate 29 corresponds to the scale 28 on the outer support frame 14, so that the height of the inner support frame 10 and the single row of baffles can be viewed. At the same time, the height of the two sets of single rows of baffles can be compared to keep them consistent.
[0065] When the inner support frame 10 rises, the rotating rod 24 rotates, causing the functional block 30 to rotate. This causes the spring 31 and the elastic plate 32 to rotate together with the functional block 30. During rotation, the limiting plate 34 presses the front end of the elastic plate 32, causing the spring 31 to be compressed. If the functional block 30 reverses, the front end of the elastic plate 32 is stuck on the limiting plate 34, preventing the functional block 30 from reversing and thus preventing the inner support frame 10 from falling unexpectedly. When construction is completed and the inner support frame 10 needs to be lowered, the pin 35 is pulled out and the limiting plate 34 is pulled out. Without the limiting plate 34 limiting the elastic plate 32, the functional block 30 can reverse, and the inner support frame 10 and the baffle can be lowered in a single row.
[0066] Example 7
[0067] like Figure 1-15 As shown, the curved measuring ruler includes a first curved frame 36 and a second curved frame 37. The first curved frame 36 and the second curved frame 37 are slidably connected. The first curved frame 36 is rotatably connected to an inner support frame 10. The second curved frame 37 is rotatably connected to the other inner support frame 10. The first curved frame 36 is provided with a second scale 38. The end of the second scale 38 is perpendicularly corresponding to the magnetic suction plate 2. The second curved frame 37 is provided with a pointer protrusion 39. The tip of the pointer protrusion 39 is perpendicularly corresponding to the magnetic suction plate 2 on the other side. The second curved frame 37 is threadedly connected to a screw 42. The screw 42 presses the first curved frame 36 tightly between the extrusion plate 40 and the second curved frame 37. A rubber sheet 41 is provided between the extrusion plate 40 and the first curved frame 36.
[0068] The working principle of the above technical solution is as follows: The position of the protrusion of the pointer protrusion 39 corresponds to the position of the scale 38, which is the thickness of the wall. The thickness of the wall can be set in advance by the positions of the bending frame 36 and the bending frame 37. At the same time, the thickness of the wall can be monitored in real time. By rotating the screw 42, the extrusion plate 40 and the bracket 43 are tightly pressed together by the rubber plate 41 to prevent the bending frame 37 and the scale 38 from sliding. This fixes the bending frame 37 and the scale 38 into a whole, and activates the support for the inner support frame 10 and the upper end of the single row of baffles to prevent the upper end of the single row of baffles from expanding outward due to excessive pressure during concrete pouring.
[0069] It is understood that the present invention has been described through some embodiments, and those skilled in the art will recognize that various changes or equivalent substitutions can be made to these features and embodiments without departing from the spirit and scope of the invention. Furthermore, under the teachings of the present invention, these features and embodiments can be modified to adapt to specific situations and materials without departing from the spirit and scope of the invention. Therefore, the present invention is not limited to the specific embodiments disclosed herein, and all embodiments falling within the scope of the claims of this application are within the protection scope of the present invention.
Claims
1. A green construction wall installation device, characterized in that, Includes a baffle assembly, which consists of two rows of vertically symmetrical baffles. Each baffle row consists of multiple baffle units (1). One side of the baffle unit (1) is provided with a groove (4), and the other side of the baffle unit (1) is fixed with a protrusion (5). The protrusion (5) is provided with a slot (6). A pin (7) is slidably connected to the side of the baffle unit (1) near the groove (4). A spring (8) is fixed between the baffle unit (1) and the pin (7). A support frame is provided on the outside of the baffle unit (1). The support frame includes an inner support frame (10) and an outer support frame (14), the inner support frame (10) and the outer support frame (14) are slidably connected, and the baffle unit (1) is fixed on the inner support frame (10); A bracket (43) is fixed on the outer support frame (14). The bracket (43) is rotatably connected to the first rotating shaft (25). The first rotating shaft (25) is fixedly connected to the rotating rod (24). The first rotating shaft (25) is fixedly connected to one end of the pull rope (26). The other end of the pull rope (26) is fixed on the inner support frame (10). The pull rope (26) is rotatably connected to the second rotating shaft (27). The second rotating shaft (27) rotates on the upper end of the outer support frame (14). The outer support frame (14) is provided with a scale ruler (28), and the slide plate (29) and the outer support frame (14) surround the outer side of the inner support frame (10), with the upper edge of the slide plate (29) corresponding to the scale ruler (28). The rotating rod (24) is fixedly connected to the functional block (30), the functional block (30) is rotatably connected to the functional block outer frame (33), the functional block outer frame (33) is fixed on the outer support frame (14), the functional block (30) is fixedly connected to one end of the elastic plate (32), the other end of the elastic plate (32) is fixed on the functional block (30) by spring four (31), the elastic plate (32) is connected to the limiting plate (34), the limiting plate (34) slides in the functional block outer frame (33), the functional block outer frame (33) and the limiting plate (34) can be fixed by pin two (35), the two inner support frames (10) are vertically symmetrically arranged, and the two inner support frames (10) are connected to the curved measuring ruler.
2. The green construction wall construction device according to claim 1, characterized in that, The baffle unit (1) is fixed with a magnet (3), which magnetically attaches the magnetic plate (2) to the baffle unit (1). The magnetic plate (2) is provided with a functional area.
3. The green construction wall construction device according to claim 1, characterized in that, An elastic plate (9) is fixed at the lower end of the baffle unit (1).
4. The green construction wall construction device according to claim 1, characterized in that, The inner support frame (10) is slidably connected to the impact pin (11), and a spring (12) is fixed between the inner support frame (10) and the impact pin (11).
5. A green construction wall construction device according to claim 4, characterized in that, A level (13) is vertically mounted on the inner support frame (10).
6. A green construction wall construction device according to claim 5, characterized in that, The bottom of the outer support frame (14) is fixed on the ground. The outer support frame (14) is rotatably connected to the first support leg (15). The first support leg (15) is slidably connected to the second support leg (19). The first support leg (15) is rotatably connected to the first gear (18). The first gear (18) is fixedly connected to the crank (17). The crank (17) is rotatably connected to the outer shaft (16). The first gear (18) and the second support leg (19) are gear meshed and driven. The first support leg (15) is rotatably connected to the limiting rod (20). One end of the limiting rod (20) is connected to the first gear (18). The other end of the limiting rod (20) is fixedly connected to the third spring (21). The third spring (21) is fixed on the first support leg (15). The second support leg (19) is rotatably connected to the fixing plate (22). The fixing plate (22) is fixed on the ground by the pin (23).
7. A green construction wall construction device according to claim 2, characterized in that, The curved measuring ruler includes a first curved frame (36) and a second curved frame (37). The first curved frame (36) and the second curved frame (37) are slidably connected. The first curved frame (36) is rotatably connected to an inner support frame (10). The second curved frame (37) is rotatably connected to the inner support frame (10) on the other side. The first curved frame (36) is provided with a second scale (38). The end of the second scale (38) is perpendicular to the magnetic plate (2). The second curved frame (37) is provided with a pointer protrusion (39). The tip of the pointer protrusion (39) is perpendicular to the magnetic plate (2) on the other side. The second curved frame (37) is threadedly connected to a screw (42). The screw (42) presses the first curved frame (36) tightly between the extrusion plate (40) and the second curved frame (37). A rubber sheet (41) is provided between the extrusion plate (40) and the first curved frame (36).