Method of applying a drip device for easy dismountable installation on a building

Abstract

The application discloses a kind of application methods for the drip device of building convenient to disassemble installation, the method is embedded by a plurality of fixed units and connecting blocks in construction process, and between adjacent fixed unit and connecting block, it is detachably installed drip plate, so as to be detachably installed multiple drip plates, individual drip plate can be disassembled and replaced when later maintenance, reduce later maintenance cost, and compared with the disassembly mode of eradication, reduce the possibility of additional damage to wall body, while water can be guided away from wall body by drip plate coated outside eave, protect eave and wall body, reduce the possibility of eave and wall body being eroded by rainwater.

Description

Technical Field

[0001] This invention relates to the field of building construction technology, and in particular to a method for applying a dripping device for buildings that is easy to disassemble and install. Background Technology

[0002] In the field of building construction, dripping devices are required at the bottom of window sills, balcony beams, parapet walls, and eaves. Existing dripping devices mainly include prefabricated drip lines and drip lines made of mortar. The drip lines guide water away from the wall, reducing the aging and cracking of the wall caused by water immersion during rainfall.

[0003] However, drip lines made of mortar are easily washed away by rainwater during use, causing the mortar to be lost and the exposed fine sand to become "exposed," resulting in a loss of mortar strength and easy detachment, which greatly shortens the service life. Pre-made drip lines are often fixed to the wall edge by adhesive, and they are also prone to loosening and falling off with the erosion of rainwater. Moreover, when mortar drip lines and pre-made drip lines are damaged and can no longer be used, they must be completely removed and replaced, resulting in high maintenance costs. The removal operation itself is also time-consuming and laborious, and may cause additional damage to the wall.

[0004] Secondly, see Figure 1 As shown in the figure, the figure includes a wall 1, an eaves 2, and a drip line 3. The eaves 2 is located on one side of the top of the wall 1. Although the drip line 3 can make the water flow down along its sharp corner, so that the water does not flow directly along the eaves 2 to the wall 1 and thus protects the wall 1, it cannot protect the eaves 2 itself, making the eaves 2 susceptible to water erosion and aging. Summary of the Invention

[0005] In view of this, the purpose of the present invention is to provide an application method for a dripping device that is easy to disassemble and install in buildings, which can reduce the later maintenance cost and cover the eaves to protect it.

[0006] The method of applying the dripping device for easy disassembly and installation in buildings according to the present invention includes the following steps:

[0007] Step 1: During the wall construction process, reserve an installation groove near the bottom of the wall edge;

[0008] Step 2: Pre-embed several connecting blocks at the top of the wall, and then fix several fixing units in the installation groove by pre-embedding the bottom of the fixing unit into the wall.

[0009] Step 3: Install several drip plates, which are used to guide water away from the wall, in a detachable manner between adjacent fixed units and connecting blocks.

[0010] Furthermore, in step three, the drip plate is composed of an upper mounting plate segment, a connecting plate segment, a lower inclined plate segment, and a lower mounting plate segment connected sequentially from top to bottom. The upper mounting plate segment is detachably connected between adjacent connecting blocks, and the lower mounting plate segment is detachably connected between adjacent fixing units, thereby completing the detachable installation of the drip plate. The lower inclined plate segment is inclined downward away from the wall, and the connection between the connecting plate segment and the lower inclined plate segment forms an angle that can guide water away from the wall, so that the drip plate can guide water away from the wall.

[0011] Furthermore, in step two, the fixing unit includes a base, and a top column is fixedly connected to the top of the base. The base and the part of the top column close to the base are pre-embedded into the wall for fixing, so that the top of the top column is located in the mounting groove.

[0012] Furthermore, in step three, the top of the top column is slidably connected to a clamping member that can move up and down to fix the lower mounting plate segment. The clamping member is located in the mounting groove. After the lower mounting plate segment is placed between the clamping member and the side of the mounting groove away from the edge, the lower mounting plate segment can be clamped and fixed between the clamping member and the side wall of the mounting groove by moving the clamping member downward. Then, the lower mounting plate segment can be released and disassembled by moving the clamping member upward.

[0013] Furthermore, in step three, the clamping component includes a clamping block with a cavity inside. The top end of the top post extends into the cavity through the bottom of the clamping block, and the top post is slidably connected to the clamping block. A wedge is slidably connected to the top of the cavity, and the wedge engages with and is slidably connected to the top wedge surface of the top post. One side of the clamping block is provided with a drive bolt for driving the wedge to reciprocate along the length of the cavity. One end of the drive bolt passes through the clamping block and is rotatably connected to the wedge. The drive bolt is threadedly connected to the clamping block. After the lower mounting plate segment is placed between the clamping component and the side of the mounting groove away from the edge, the drive bolt is turned to drive the wedge to reciprocate along the length of the cavity, causing the wedge to slide relative to the top post. At the same time, the wedge and the clamping block move upward or downward together. When the clamping block moves downward, it can engage with the mounting groove to clamp and fix the lower mounting plate segment. When the clamping block moves upward, it releases the lower mounting plate segment, allowing the lower mounting plate segment to be disassembled.

[0014] Furthermore, in step three, a support rod is fixedly connected to the clamping block on the same side as the driving bolt. Support blocks are fixedly connected to both ends of the top of the lower mounting plate segment. The support block has a support rod groove for accommodating the support rod. The support block has an opening on the side facing the support rod for the support rod to enter the support rod groove. The lower mounting plate segment has two top column grooves on the side facing the top column for accommodating the top column. When the lower mounting plate segment is placed between the clamping member and the side of the mounting groove away from the edge, the top column enters the top column groove, and the support rod is positioned above the support rod groove. Then, the clamping block is moved downward to clamp and fix the lower mounting plate segment, so that the support rod moves downward with the clamping block into the support rod groove.

[0015] Furthermore, in step three, one side of the clamping block extends out of the mounting groove, and a limiting block is fixedly connected to the part of the bottom of the clamping block that extends out of the mounting groove. The lower mounting plate segment has a limiting hole for the limiting block to pass through. When the clamping block is moved downward to clamp and fix the lower mounting plate segment, the limiting block moves downward with the clamping block and enters the limiting hole.

[0016] The beneficial effects of this invention are as follows: The application method of the drip device for buildings, which is easy to disassemble and install, effectively guides water flow to drip directly downwards from the corner along the connecting plate section of the drip plate by installing multiple drip plates covering the eaves. At the same time, it protects the eaves and walls, reducing the possibility of water erosion of the walls and eaves. Since the drip plates are installed in a detachable manner, when the drip plates are damaged, only the damaged drip plates need to be replaced, instead of removing them all, reducing the later maintenance costs. Moreover, the detachable connection design eliminates the need for time-consuming and laborious removal during disassembly, improving the convenience of operation and reducing the possibility of additional damage to the wall caused by removal operations. Attached Figure Description

[0017] The present invention will be further described below with reference to the accompanying drawings and embodiments:

[0018] Figure 1 This is a schematic diagram of the existing technology;

[0019] Figure 2 This is a schematic diagram illustrating the steps of the application method of the dripping device for easy disassembly and installation in buildings according to the present invention;

[0020] Figure 3 This is a schematic diagram of the dripping device.

[0021] Figure 4 for Figure 3 Left side view;

[0022] Figure 5 This is a structural diagram of the drip plate and fixing unit;

[0023] Figure 6This is a structural schematic diagram of the lower mounting plate segment;

[0024] Figure 7 A schematic diagram of the structure when the fixed unit is in state one;

[0025] Figure 8 This is a structural diagram of the fixed unit in state two.

[0026] Figure 9 This is a schematic diagram of the structure when three drip plates are installed.

[0027] Figure label:

[0028] 1. Wall, 2. Edge, 3. Drip line, 4. Mounting groove, 5. Fixing unit, 6. Drip plate, 7. Connecting block, 8. Upper mounting plate segment, 9. Connecting plate segment, 10. Lower inclined plate segment, 11. Lower mounting plate segment, 12. Base, 13. Top column, 14. Clamping block, 15. Cavity, 16. Wedge, 17. Drive bolt, 18. Support rod, 19. Limiting block, 20. Top column groove, 21. Limiting hole, 22. Support block, 23. Support rod groove, 24. Through. Detailed Implementation

[0029] like Figure 1-9 As shown: The application method of the dripping device for easy disassembly and installation in buildings according to this embodiment includes the following steps:

[0030] Step 1: During the construction of wall 1, a mounting groove 4 is reserved at the bottom of wall 1 near the edge 2;

[0031] Step 2: Pre-embed several connecting blocks 7 at the top of wall 1, and then fix several fixing units 5 in the mounting groove 4 by pre-embedding the bottom of the fixing unit 5 into wall 1.

[0032] Step 3: Install several drip plates 6, which are used to guide water away from the wall 1, in sequence between adjacent fixing units 5 and connecting blocks 7 in a detachable manner.

[0033] Because the connecting block 7 and the fixing unit 5 are pre-embedded in the wall 1 during the construction process, the stability of the connection between the connecting block 7 and the fixing unit 5 and the wall 1 can be significantly improved. This provides a more stable support for the drip plate 6, which can be detachably installed between adjacent fixing units 5 and connecting blocks 7, reducing the possibility of the drip plate 6 loosening and falling off. Since the connecting block 7 is located at the top of the wall 1 and the fixing unit 5 is located in the mounting groove 4 near the bottom of the edge 2, and the edge 2 is located on one side of the top of the wall 1, it can be detachably installed between adjacent fixing units 5 and connecting blocks 7. The drip plate 6 can cover the edge 2, guiding water away from the wall 1 while protecting the edge 2, reducing the possibility of water erosion of the wall 1 and the edge 2. Since the drip plate 6 can be detachably installed between the adjacent fixing unit 5 and the connecting block 7, when some drip plates 6 are damaged, only the damaged drip plates 6 need to be replaced, instead of replacing all of them, reducing the later maintenance cost. Moreover, the detachable installation design does not require time-consuming and laborious removal during disassembly, improving the convenience of operation and reducing the possibility of causing additional damage to the wall 1.

[0034] In this embodiment, in step three, the drip plate 6 is composed of an upper mounting plate segment 8, a connecting plate segment 9, a lower inclined plate segment 10, and a lower mounting plate segment 11 connected sequentially from top to bottom. The upper mounting plate segment 8 is detachably connected between adjacent connecting blocks 7, and the lower mounting plate segment 11 is detachably connected between adjacent fixing units 5, thereby completing the detachable installation of the drip plate 6. The lower inclined plate segment 10 is inclined downward away from the wall 1, and the connection between the connecting plate segment 9 and the lower inclined plate segment 10 forms an angle that can guide water away from the wall 1, so that the drip plate 6 can guide water away from the wall 1.

[0035] Specifically, the top of the connecting block 7 has a threaded hole for the upper mounting plate segment 8 to be detachably connected to it via bolts and nuts. The upper mounting plate segment 8 is detachably connected to the connecting block 7 at the top of the wall 1, and the lower mounting plate segment 11 is detachably connected to the fixing unit 5, forming a double fixation for the entire drip plate 6 from top to bottom, which enhances the overall stability of the connection and realizes the detachable installation of the drip plate 6. The detachable installation method improves the convenience of disassembling and assembling the drip plate 6, and compared with the method of disassembling by scraping, it saves time and effort while reducing the possibility of additional damage to the wall 1 during the disassembly of the drip plate 6.

[0036] Meanwhile, since the connecting block 7 is located at the top of the wall 1 and the fixing unit 5 is located in the mounting groove 4 near the bottom of the eaves 2, the drip plate 6 after installation can cover the eaves 2 to protect the eaves 2, reduce the possibility of water erosion of the eaves 2, and effectively guide the water flow along the connecting plate section 9 to drip directly down from the corner, reducing the possibility of water contact with the wall 1 and causing erosion. In addition, since the downward inclined plate section 10 is inclined downward away from the wall 1, it can prevent water from flowing to the wall 1 along the downward inclined plate section 10 and the lower mounting plate section 11 to a certain extent, further protecting the wall 1 and reducing the wall 1 from water erosion.

[0037] In this embodiment, in step two, the fixing unit 5 includes a base 12, and a top column 13 is fixedly connected to the top of the base 12. The base 12 and the part of the top column 13 close to the base 12 are pre-embedded into the wall 1 for fixing, so that the top of the top column 13 is located in the mounting groove 4.

[0038] After placing the lower mounting plate segment 11 between the clamping member and the mounting groove 4 on the side away from the edge 2, the lower mounting plate segment 11 is clamped and fixed by moving the clamping member downwards. Then, the lower mounting plate segment 11 can be released and disassembled by moving the clamping member upwards, thus achieving a detachable connection of the lower mounting plate segment 11. Combined with the detachable connection between the mounting plate segment 8 and the connecting block 7, the drip plate 6 is detachably installed as a whole. The detachable installation method improves the convenience of installing and disassembling the drip plate 6. Compared with the method of disassembling by scraping, it saves time and effort while reducing the possibility of additional damage to the wall 1 during the disassembly of the drip plate 6. At the same time, by directly embedding the base 12 and the part of the top column 13 close to the base 12 into the wall 1 during the construction of the wall 1, the stability of the connection between the base 12 and the top column 13 and the wall 1 is significantly improved, thereby improving the stability of the drip plate 6 installation.

[0039] The base 12 and the top column 13 are integrally formed, and during the construction of the wall 1, the part of the base 12 and the top column 13 close to the base 12 are pre-embedded in the wall 1 for fixation.

[0040] In this embodiment, in step three, the top of the top column 13 is slidably connected to a clamping member that can move up and down to fix the lower mounting plate segment 11, so that the clamping member is located in the mounting groove 4. After the lower mounting plate segment 11 is placed between the clamping member and the side of the mounting groove 4 away from the edge 2, by moving the clamping member downward, the lower mounting plate segment 11 can be clamped and fixed between the clamping member and the side wall of the mounting groove 4. Then, by moving the clamping member upward, the lower mounting plate segment 11 can be released and disassembled.

[0041] In this embodiment, in step three, the clamping member includes a clamping block 14, which has a cavity 15. The top end of the top post 13 extends into the cavity 15 through the bottom of the clamping block 14. The top post 13 is slidably connected to the clamping block 14. A wedge 16 is slidably connected to the top of the cavity 15. The wedge 16 engages with and is slidably connected to the wedge surface at the top end of the top post 13. One side of the clamping block 14 is provided with a driving bolt 17 for driving the wedge 16 to reciprocate along the length of the cavity 15. One end of the driving bolt 17 passes through the clamping block 14 and is rotatably connected to the wedge 16. The moving bolt 17 is threadedly connected to the clamping block 14. After the lower mounting plate segment 11 is placed between the clamping member and the side of the mounting groove 4 away from the edge 2, the wedge block 16 is moved back and forth along the length of the cavity 15 by turning the driving bolt 17, so that the wedge block 16 slides relative to the top column 13. At the same time, the wedge block 16 and the clamping block 14 move up or down together. When the clamping block 14 moves down, the clamping block 14 can cooperate with the mounting groove 4 to clamp and fix the lower mounting plate segment 11. When the clamping block 14 moves up, the clamping block 14 releases the lower mounting plate segment 11, so that the lower mounting plate segment 11 can be disassembled.

[0042] By using a tool to tighten and rotate the drive bolt 17, the drive bolt 17 can be moved into or out of the cavity 15. The drive bolt 17 drives the wedge block 16 to move along the length of the cavity 15. Since the top column 13 is fixedly connected to the base 12 and the wall 1, and the wedge block 16 engages with the wedge surface at the top of the top column 13, the position of the top column 13 remains unchanged during the movement of the wedge block 16, while the wedge block 16 slides relative to the top of the top column 13. During the sliding process of the wedge block 16, the wedge block... 16 drives the clamping block 14 to move downward or upward relative to the top column 13, thereby enabling the clamping block 14 to move up and down, thus clamping and fixing or releasing the lower mounting plate segment 11, and making the lower mounting plate segment 11 detachably connected, thereby realizing the detachable installation of the drip plate 6. The detachable installation method improves the convenience of disassembling and assembling the drip plate 6, and compared with the method of disassembling by scraping, it saves time and effort while reducing the possibility of causing additional damage to the wall 1 during the disassembly of the drip plate 6.

[0043] The top of the cavity 15 has a first T-shaped groove. The wedge block 16 is welded to the side facing the top of the cavity 15 with a first T-shaped slider that matches the first T-shaped groove. The first T-shaped slider is slidably connected in the first T-shaped groove. The wedge surface of the wedge block 16 has a second T-shaped groove. The top of the top column 13 is welded with a second T-shaped slider that matches the second T-shaped groove. The second T-shaped slider is slidably connected in the second T-shaped groove. One side of the clamping block 14 is provided with a drive bolt 17 for driving the wedge block 16 to reciprocate along the length of the cavity 15. One end of the drive bolt 17 passes through the clamping block 14 and is rotatably connected to the wedge block 16 through a bearing. The drive bolt 17 is threadedly connected to the clamping block 14. A support rod 18 is welded on the clamping block 14 on the same side as the drive bolt 17. One side of the clamping block 14 extends out of the mounting groove 4. Two limit blocks 19 are welded to the bottom of the clamping block 14 where it extends out of the mounting groove 4.

[0044] In this embodiment, in step three, a support rod 18 is fixedly connected to the clamping block 14 on the same side as the driving bolt 17. Support blocks 22 are fixedly connected to both ends of the top of the lower mounting plate section 11. The support block 22 has a support rod groove 23 for accommodating the support rod 18. The support block 22 has a through opening 24 on the side facing the support rod 18 for the support rod 18 to enter the support rod groove 23. The lower mounting plate section 11 has two top column grooves 20 for accommodating the top column 13 on the side facing the top column 13. When the lower mounting plate section 11 is placed between the clamping member and the side of the mounting groove 4 away from the edge 2, the top column 13 enters the top column groove 20, and the support rod 18 is positioned above the support rod groove 23. Then, the clamping block 14 is moved downward to clamp and fix the lower mounting plate section 11, so that the support rod 18 moves downward with the clamping block 14 and enters the support rod groove 23.

[0045] When the clamping block 14 clamps and fixes the lower mounting plate segment 11, the top column 13, in conjunction with the top column groove 20 and the support rod 18, in conjunction with the support rod groove 23, limits the lower mounting plate segment 11, reducing the possible shaking that may occur after the lower mounting plate segment 11 is clamped, and achieving a more stable connection.

[0046] In this embodiment, in step three, one side of the clamping block 14 extends out of the mounting groove 4, and the part of the bottom of the clamping block 14 extending out of the mounting groove 4 is fixedly connected to the limiting block 19. The lower mounting plate segment 11 has a limiting hole 21 for the limiting block 19 to pass through. When the clamping block 14 is moved downward to clamp and fix the lower mounting plate segment 11, the limiting block 19 moves downward with the clamping block 14 and enters the limiting hole 21.

[0047] See Figure 1 and Figure 9 As shown, the specific implementation method for installing three drip plates 6 in this embodiment is as follows:

[0048] Step 1: During the construction of wall 1, a mounting groove 4 is reserved at the bottom of wall 1 near the edge 2.

[0049] Step 2: Install four fixing units 5 in the mounting groove 4, and pre-embed six connecting blocks 7 in the top of the wall 1, so that every two connecting blocks 7 are located between two adjacent fixing units 5, and the first two fixing units 5 are set opposite to each other, so that the support rods 18 of these two fixing units 5 are also set opposite to each other. The remaining two fixing units 5 are set in the same direction as the second fixing unit 5. The base 12 of all fixing units 5, along with the top column 13, is pre-embedded in the wall 1 near the base 12 for fixation. All fixing units 5 are in state one (see...). Figure 7 ).

[0050] Step 3: Begin installing the three drip plates 6, which can be divided into the following three steps:

[0051] (1) Start the installation of the first drip plate 6. Place the lower mounting plate section 11 of the first drip plate 6 between the clamping block 14 of the first fixing unit 5 and the second fixing unit 5 and the side of the mounting groove 4 away from the edge 2. Move the lower mounting plate section 11 of the first drip plate 6 toward the top column 13 until the top columns 13 of the two fixing units 5 enter the corresponding top column groove 20. The support rods 18 of the two fixing units 5 are suspended above the corresponding support rod groove 23. The limiting blocks 19 of the two fixing units 5 are suspended above the corresponding limiting holes 21. Then, use tools to turn the drive bolts 17 of the two fixing units 5 respectively.

[0052] In a single fixed unit 5, when the drive bolt 17 is turned, the drive bolt 17 can drive the wedge block 16 to move along the length of the cavity 15 within the cavity 15. Since the top column 13 is fixedly connected to the base 12 and the wall 1, and the wedge block 16 engages with the wedge surface at the top of the top column 13, the position of the top column 13 remains unchanged during the movement of the wedge block 16, while the top of the wedge block 16 slides relative to the top of the top column 13. During the sliding process of the wedge block 16, the wedge block 16 drives the clamping block 14 to move downward or upward relative to the top column 13, realizing the up and down movement of the clamping block 14. When the clamping block 14 moves downward to make the fixed unit 5 in state two (see... Figure 8 The lower mounting plate segment 11 is clamped and fixed between the bottom of the clamping block 14 and the inner wall of the mounting groove 4. The limiting block 19 moves downward with the clamping block 14 until it passes through the limiting hole 21. The support rod 18 moves downward with the clamping block 14 until it enters the support rod groove 23. By the top column cooperating with the top column groove, the support rod 18 cooperating with the support rod groove 23, and the limiting block 19 cooperating with the limiting hole 21, the lower mounting plate segment 11 is limited, making the clamping and fixing of the lower mounting plate segment 11 by the clamping block 14 more stable. When it is necessary to disassemble the lower mounting plate segment 11, the lower mounting plate segment 11 can be released by turning the drive bolt 17 upward to move the clamping block 14 until the fixing unit 5 returns to state one.

[0053] After the clamping blocks 14 of the two fixing units 5 in state two clamp and fix the lower mounting plate segment 11 of the first drip plate 6, the upper mounting plate segment 8 is detachably connected to the connecting block 7 at the top of the edge 2 by bolts and nuts. Finally, the installation of the first drip plate 6 is completed by detachably connecting the upper mounting plate segment 8 and the lower mounting plate segment 11 of the first drip plate 6. After the installation of the first drip plate 6 is completed, the support rod 18 of the second fixing unit 5 passes through the support rod groove 23 of the first drip plate 6 and moves toward the position of the third fixing unit 5.

[0054] (2) Start the installation of the second drip plate 6, so that one side of the second drip plate 6 abuts against the first drip plate 6, and let the support rod 18 of the second fixing unit 5 pass through the support rod groove 23 of the support block 22 located on the side of the second drip plate 6 abutting against the first drip plate 6. Then fix the other side of the lower mounting plate section 11 of the second drip plate 6 by clamping the third fixing unit 5. Then make the upper mounting plate section 8 of the second drip plate 6 detachably connected to the connecting block 7 at the top of the wall 1 to complete the installation of the second drip plate 6.

[0055] At this time, one side of the mounting plate segment 11 under the second drip plate 6 is limited and fixed by the cooperation of the support rod 18 and the support rod groove 23, and the other side is clamped and fixed by the third fixing unit 5. In addition, the support provided by the connection between the mounting plate segment 8 and the connecting block 7 on the second drip plate 6 allows the second drip plate 6 to be stably installed while it is in contact with the first drip plate 6.

[0056] (3) Install the third drip plate 6 in the same way as the second drip plate 6 in (2). The three drip plates 6 after installation can cover the outside of the edge 2, which can protect the edge 2 and reduce the aging of the edge 2 due to water erosion. They can also effectively guide the water flow to drip directly down from the corner along the connecting plate section 9 of the drip plate 6, reducing the possibility of water contacting the wall 1. Since the downward inclined plate section 10 is inclined downward away from the wall 1, it can prevent water from flowing to the wall 1 along the downward inclined plate section 10 and the lower installation plate section 11 to a certain extent, which can further protect the wall 1 and reduce the wall 1 from water erosion.

[0057] When a drip plate 6 is damaged, it needs to be disassembled sequentially from the third drip plate 6 to the first drip plate 6. When the damaged drip plate 6 is disassembled, it should be replaced and reinstalled. Then, the other intact drip plates 6 that were removed should be installed back in their original positions. This disassembly and assembly method only requires the replacement of the damaged drip plate 6, without the need to remove all of them for replacement, which reduces the later maintenance cost. In addition, the detachable connection design eliminates the need for time-consuming and laborious removal during disassembly. While improving the convenience of operation, it also reduces the possibility of causing additional damage to the wall 1 compared to the method of disassembly by removal.

[0058] By following the above steps, multiple drip plates 6 can be installed. When a drip plate 6 is damaged, it is necessary to disassemble it sequentially from the last installed drip plate 6 to the first installed drip plate 6. When the damaged drip plate 6 is disassembled, it should be replaced and reinstalled. Then, the other intact drip plates 6 that have been removed should be installed back in their original positions. This disassembly and assembly method only requires the replacement of the damaged drip plate 6, without the need to remove all of them, which reduces the later maintenance cost. Moreover, the detachable installation design eliminates the need for time-consuming and laborious removal during disassembly, improving the convenience of operation and reducing the possibility of additional damage to the wall 1 compared to the method of removal.

[0059] In this embodiment, the drip plate 6 is made of aluminum. The aluminum drip plate 6 has high strength and corrosion resistance, which can meet the needs of long-term exposure to humid outdoor environments. Secondly, in the existing mortar-laid drip lines 3 and prefabricated plastic drip lines 3, the mortar cannot be recycled after construction and the prefabricated plastic drip lines 3 will expand in volume and become moldy and damaged when soaked in rainwater, making them difficult to recycle. However, after the aluminum drip plate 6 is damaged and replaced, the old drip plate 6 can be recycled and reprocessed, thereby reducing the later maintenance costs to a certain extent.

[0060] Finally, it should be noted that the above embodiments are only used to illustrate the technical solutions of the present invention and are not intended to limit it. Although the present invention has been described in detail with reference to preferred embodiments, those skilled in the art should understand that modifications or equivalent substitutions can be made to the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, and all such modifications or substitutions should be covered within the scope of the claims of the present invention.

Claims

1. A method for applying a dripping device for easy disassembly and installation in buildings, characterized in that: Includes the following steps: Step 1: During the wall construction process, reserve an installation groove near the bottom of the wall edge; Step 2: Pre-embed several connecting blocks at the top of the wall, and then fix several fixing units in the installation groove by pre-embedding the bottom of the fixing unit into the wall. Step 3: Install several drip plates, which are used to guide water away from the wall, in a detachable manner between adjacent fixed units and connecting blocks.

2. The method of applying the dripping device for easy disassembly and installation in buildings according to claim 1, characterized in that: In step three, the drip plate is composed of an upper mounting plate segment, a connecting plate segment, a lower inclined plate segment, and a lower mounting plate segment connected sequentially from top to bottom. The upper mounting plate segment is detachably connected between adjacent connecting blocks, and the lower mounting plate segment is detachably connected between adjacent fixing units, thereby completing the detachable installation of the drip plate. The lower inclined plate segment is inclined downward away from the wall, and the connection between the connecting plate segment and the lower inclined plate segment forms an angle that can guide water away from the wall, so that the drip plate can guide water away from the wall.

3. The method of applying the dripping device for easy disassembly and installation in buildings according to claim 2, characterized in that: In step two, the fixing unit includes a base, and a top column is fixedly connected to the top of the base. The base and the part of the top column close to the base are pre-embedded into the wall for fixing, so that the top of the top column is located in the mounting groove.

4. The method of applying the dripping device for easy disassembly and installation in buildings according to claim 3, characterized in that: In step three, the top of the top column is slidably connected to a clamping member that can move up and down to fix the lower mounting plate segment. The clamping member is located in the mounting groove. After the lower mounting plate segment is placed between the clamping member and the side of the mounting groove away from the edge, the lower mounting plate segment can be clamped and fixed between the clamping member and the side wall of the mounting groove by moving the clamping member downward. Then, the lower mounting plate segment can be released and disassembled by moving the clamping member upward.

5. The method of applying the dripping device for easy disassembly and installation in buildings according to claim 4, characterized in that: In step three, the clamping component includes a clamping block with a cavity inside. The top end of the top post extends into the cavity through the bottom of the clamping block, and the top post is slidably connected to the clamping block. A wedge is slidably connected to the top of the cavity, and the wedge engages with and is slidably connected to the wedge surface at the top end of the top post. One side of the clamping block is provided with a drive bolt for driving the wedge to reciprocate along the length of the cavity. One end of the drive bolt passes through the clamping block and is rotatably connected to the wedge. The drive bolt is threadedly connected to the clamping block. After the lower mounting plate segment is placed between the clamping component and the side of the mounting groove away from the edge, the drive bolt is turned to drive the wedge to reciprocate along the length of the cavity, causing the wedge to slide relative to the top post. At the same time, the wedge and the clamping block move upward or downward together. When the clamping block moves downward, it can engage with the mounting groove to clamp and fix the lower mounting plate segment. When the clamping block moves upward, it releases the lower mounting plate segment, allowing the lower mounting plate segment to be disassembled.

6. The method of applying the dripping device for easy disassembly and installation in buildings according to claim 5, characterized in that: In step three, a support rod is fixedly connected to the clamping block on the same side as the drive bolt. Support blocks are fixedly connected to both ends of the top of the lower mounting plate section. The support block has a support rod groove for accommodating the support rod. The side of the support block facing the support rod has an opening for the support rod to enter the support rod groove. The side of the lower mounting plate section facing the top column has two top column grooves for accommodating the top column. When the lower mounting plate section is placed between the clamping device and the side of the mounting groove away from the edge, the top column enters the top column groove, and the support rod is positioned above the support rod groove. Then, the clamping block is moved downward to clamp and fix the lower mounting plate section, so that the support rod moves downward with the clamping block into the support rod groove.

7. The method of applying the dripping device for easy disassembly and installation in buildings according to claim 6, characterized in that: In step three, one side of the clamping block extends out of the mounting groove, and a limiting block is fixedly connected to the part of the bottom of the clamping block that extends out of the mounting groove. The lower mounting plate segment has a limiting hole for the limiting block to pass through. When the clamping block is moved downward to clamp and fix the lower mounting plate segment, the limiting block moves downward with the clamping block and enters the limiting hole.

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