Integrated water stop piece construction joint-free inclined pile bracing device and method of use thereof

By integrating water-stop plates into the inclined pile support device, the problem of water leakage at the construction joint of the inclined pile support was solved, and seamless pouring of the foundation pit bottom slab was achieved, improving the quality and efficiency of the project.

CN122169506APending Publication Date: 2026-06-09湖北道泽勘测设计院有限公司 +2

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
湖北道泽勘测设计院有限公司
Filing Date
2026-04-04
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

Existing inclined pile bracing cannot achieve integrated water stop in foundation pit construction, leading to the formation of construction joints and the risk of water leakage. Furthermore, traditional water stop measures have problems such as difficulty in treating the joint surface and insufficient compaction.

Method used

A construction-joint-free inclined pile support device integrating waterstop plates was designed, including inclined pile supports, cap beams, retaining piles and waterstop components. Through the cooperation of assembly frames, support components, locking columns and positioning seats, the waterstop plates are integrated and fixed, ensuring seamless construction of the foundation pit bottom slab in one pour.

Benefits of technology

This method enables jointless pouring of the foundation pit slab, improving the overall integrity and waterproofing of the project, reducing the risk of water leakage, and increasing construction efficiency and ease of post-construction handling.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses a jointless inclined pile support device with integrated water-stop plates and its usage method, relating to the field of inclined pile support. It includes an inclined pile support, a capping beam, retaining piles, and a water-stop component. The inclined pile support consists of a main body and multiple support frames, with the support frames fixedly fitted onto the outside of the main body. One end of the inclined pile support is fixed to the capping beam. The retaining piles are vertically mounted on the capping beam and located on the side of the inclined pile support. The water-stop component is located outside the inclined pile support. This invention utilizes a combination of an assembly frame, support members, a first water-stop plate, and a second water-stop plate. The assembly frame supports the support members, and the first and second water-stop plates are integrated onto the inclined pile support. Locking columns and fixing caps lock and fix adjacent mating parts, which facilitates the inclined pile support's water-stopping function for direct water-stopping protection. This allows for one-time pouring of the foundation slab, achieving jointless construction and facilitating subsequent processing.
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Description

Technical Field

[0001] This invention relates to the field of inclined pile bracing, and in particular to a construction-joint-free inclined pile bracing device with integrated water-stop plates and its usage method. Background Technology

[0002] A foundation pit typically refers to a pit excavated at the foundation design location according to the base elevation and foundation plane dimensions. During the construction of a foundation pit, inclined pile bracing is usually used for support operations. Inclined pile bracing usually refers to a cement-mixed solidified body formed below the foundation slab through high-pressure jet grouting or forced grouting, which is inclined and simultaneously implanted with precast piles to form a complete force-bearing system to resist the horizontal force transmitted by the support piles. Inclined pile bracing usually includes lattice inclined bracing.

[0003] Existing lattice bracing typically includes a support body composed of multiple L-shaped frames and a support sleeve frame fitted outside the support body. When constructing inclined pile bracing, the foundation pit is usually protected first. After the protection is completed, inclined mixing piles are constructed. Then, the lattice bracing is placed in the guide groove and the capping beam is constructed. Then, the land is excavated and the foundation pit structure is constructed. The foundation slab is poured. After the pouring is completed, the lattice bracing exposed on the foundation slab is cut and removed.

[0004] However, when pouring the foundation slab, the lattice bracing is usually not convenient for integrated water-stop protection, so it is usually not possible to pour it in one go, which will result in a construction joint. Water-stop steel plates or water-stop strips are usually pre-embedded at the construction joint in the later stage. However, this method has the risk of water leakage due to the long interval between concrete pouring, the difficulty in treating the joint surface, and the lack of compaction. Therefore, it is necessary to use a sloping pile bracing that can combine water-stopping and support. Summary of the Invention

[0005] The purpose of this invention is to provide a jointless inclined pile support device with integrated water-stop sheet and its usage method to solve the problems mentioned in the background art.

[0006] To achieve the above objectives, the present invention provides the following technical solution: a jointless inclined pile support device integrating a water-stop plate, comprising: An inclined pile brace, which consists of an inclined brace body and multiple support frames, wherein the support frames are fixedly sleeved on the outside of the inclined brace body; The capping beam, with one end of the inclined pile brace fixed to the capping beam; Retaining piles, which are vertically installed on the capping beam and located on the side of the inclined pile brace; A water-stopping component is located outside the inclined pile brace and is used to cooperate with the inclined pile brace to perform jointless support operation.

[0007] Preferred options also include: A pre-positioning mechanism is located on the water-stopping component, and the pre-positioning mechanism is used to pre-position the water-stopping component and the inclined pile brace. A storage mechanism located on the water-stopping component.

[0008] Preferably, the water-stopping component includes: An assembly frame, which is fitted over the outside of a support frame; A support member, located on the assembly frame, comprising: A docking body, which is located on the side of the assembly frame; The positioning part is located at the top of the docking body; A reinforcing part is attached to the side of the diagonal brace body, and a connecting part is provided between the reinforcing part and the positioning part; A connecting part, which is located at the bottom of the reinforcing part, is fixedly connected to the side of the assembly frame; An extension portion, located between the serial portion and the docking body; A socket portion, wherein the socket portion is located between two mating bodies; The docking part is located on the side of the positioning part; The first water-stopping plate and the second water-stopping plate are respectively fixedly sleeved on the outside of the adjacent sleeve portion.

[0009] Preferably, the water-stopping component further includes: The locking post has a first T-shaped hole and a second T-shaped hole on the side adjacent to the docking body, and the locking post is slidably inserted into the inner cavity of the first T-shaped hole and the second T-shaped hole; A fixing cap is fixedly embedded inside the second T-shaped hole, and the end of the locking pin is threadedly connected to the inner cavity of the fixing cap; The positioning seat is fixedly connected to the side of the diagonal brace body, and the docking part is slidably inserted into the inner cavity of the positioning seat.

[0010] Preferably, the predetermined mechanism includes: The positioning column is fixedly connected to the side of the diagonal brace body, and the side of the reinforcement part is symmetrically provided with a first sliding groove that cooperates with the positioning column; A limiting member, located on the side of the positioning post, comprising: The insertion part has a second groove on the side of the inner wall of the first groove that mates with the insertion part, and the positioning post has a first slot on the side that mates with the insertion part. A movable body is located on the side of the insertion part, and a sliding groove that cooperates with the movable body is provided on the side of the inner wall of the second sliding groove. An auxiliary part is located at the bottom of the movable body, and a through groove that mates with the auxiliary part is provided at the bottom end of the sliding groove. The driving part is located at the bottom of the auxiliary part, and a third sliding groove that cooperates with the driving part is provided at the bottom end of the inner wall of the through groove. A pushing part, which is located on the side of the inner wall of the driving part.

[0011] Preferably, the predetermined mechanism further includes: A traction plate is fixedly connected to the side of the moving body, and the inner wall of the sliding groove has a groove that matches the traction plate. A first spring is located inside the sliding groove. One end of the first spring is fixedly connected to the side of the inner wall of the sliding groove, and the other end of the first spring is fixedly connected to the moving body. An operating component is located on the side of the reinforcement part and is used to push the traction plate.

[0012] Preferably, the operating element includes: An operating frame, which is fixedly connected to the side of the traction plate; A limiting sleeve is fitted onto an adjacent operating frame.

[0013] Preferably, the storage mechanism includes: A storage frame is located on the side of the extension and is used to store the locking pin and carry it with the water-stop assembly. A sealing plate, which is located on the side of the storage frame; The mounting bracket is fixedly connected to the side of the inner wall of the storage frame. The mounting bracket is slidably inserted into the sealing plate. The top of the mounting bracket is provided with a second slot. The sides of the extension are symmetrically provided with mounting slots that cooperate with the mounting bracket. A limiting rod is provided, which is slidably engaged with the inner cavity of the second slot. A fourth slot is provided at the bottom end of the inner wall of the third slot to cooperate with the limiting rod.

[0014] Preferably, the storage mechanism further includes: Guide ring, the guide ring being fixedly connected inside the fourth slide groove; A driving block is fixedly connected to the top of the limiting rod. The driving block cooperates with the interior of the driving part and is slidably inserted into the inner cavity of the fourth sliding groove. The side of the driving block is provided with an inclined surface, which cooperates with the pushing part. A movable ring, which is fixedly sleeved on the outside of the limiting rod, and the movable ring is slidably disposed inside the fourth sliding groove; The second spring is sleeved on the outside of the limiting rod. One end of the second spring is fixedly connected to one of the guide rings, and the other end of the second spring is fixedly connected to the moving ring.

[0015] This invention also provides a method for using a jointless inclined pile support device with integrated water-stop plates, including the following specific steps: Step 1: After the inclined pile support is completed and the soil excavation is finished, determine the installation height of the water-stop component according to the pouring height of the foundation slab. Then, place the assembly frame on the outside of the support frame at the designated position. The assembly frame drives the docking body to connect, and the docking body drives the positioning part to move. Then, the positioning part drives the docking part to insert into the inside of the positioning seat. At the same time, the assembly frame drives the reinforcement part to insert into the positioning column. In addition, the assembly frame drives the sleeve part to move, and the sleeve part drives the first water-stop plate and the second water-stop plate to move. Step 2: Then remove the limiting sleeve from the adjacent operating frame. At this time, the first spring, which is under compression, releases its elastic force, thereby pushing the moving body to move. The moving body drives the insertion part to move, and the insertion part is inserted into the positioning post. At this time, the relative position of the reinforcing part and the diagonal brace body is locked. In addition, while the moving body is moving, the moving body drives the auxiliary part to slide inside the through groove. The auxiliary part drives the drive part to slide. When the inside of the drive part corresponds to the drive block, the second spring, which is under compression, releases its elastic force to push the moving ring to move upward. The moving ring drives the limiting rod to move upward. The limiting rod drives the drive block to move upward and enter the inside of the drive part. At this time, the end of the limiting rod is disengaged from the mounting frame, thereby releasing the position limitation of the mounting frame. Then, pull the storage frame outward. The storage frame drives the sealing plate to disengage from the mounting frame, so that the sealing plate is removed from the mounting frame. Then, take the locking post out from the inside of the storage frame. Step 3: Insert the locking pin into the mating body, and thread one end of the locking pin into the inner cavity of the fixing cap to ensure a tight fit between the adjacent mating bodies and the assembly frame. Install the inclined pile support and the water-stop component. Then, perform a one-time pouring operation on the foundation plate, with the first and second water-stop plates inside for water-stop protection. After pouring, cut off the exposed part of the inclined pile support. Then, separate the upper assembly frame from the inclined pile support, and the upper assembly frame and its components can be recycled.

[0016] The technical effects and advantages of this invention are as follows: (1) The present invention utilizes the assembly frame, support member, first water-stop plate, second water-stop plate, locking column, fixing cap and positioning seat in a coordinated manner. The assembly frame supports the support member and integrates the first water-stop plate and the second water-stop plate on the inclined pile support, so that the inclined pile support can provide water-stop support. The locking column and fixing cap lock and fix the adjacent docking body, so that the adjacent assembly frame can be locked and fixed, and the prefabricated water-stop component can be directly integrated and fixed on the inclined pile support. This makes it easier for the inclined pile support to have water-stop support function, so as to provide direct water-stop protection, facilitate the one-time pouring operation of the foundation slab, achieve no construction joint, and facilitate the later treatment. (2) The present invention utilizes a combination of support, positioning column, limiting member, traction plate, first spring, through groove, operating frame and limiting sleeve. The reinforcing part is connected to the diagonal brace body, the reinforcing part supports the predetermined mechanism, the positioning column connects the reinforcing part to the diagonal brace body, so as to perform a pre-positioning operation for the installation of the assembly frame. The elastic force of the first spring pushes the moving body to move, so that the moving body drives the plug-in part to lock the positioning column and the reinforcing part, which is conducive to the pre-fixing operation of the assembly frame and facilitates the docking assembly operation. (3) The present invention utilizes a combination of a storage frame, a sealing plate and a limiting rod. The storage frame stores the locking pins, the sealing plate protects the inside of the storage frame, and the limiting rod fixes the storage frame to the extension. This allows the storage frame to be carried along with the water-stopping component, which is beneficial for carrying and storing the locking pins in one piece. It is easy to take them out and use them directly, and is convenient to operate. (4) The present invention utilizes a combination of a driving part, a driving block, a limiting rod, a second spring, a moving ring, and a pushing part. When the driving part moves with the moving body, the driving block corresponds to the interior of the driving part. The elastic force of the second spring pushes the moving ring to move the limiting rod, causing the limiting rod to disengage from the mounting frame. In addition, when the driving part returns to its original position with the moving body, it drives the pushing part to push the driving block downward, so that the driving block pushes the limiting rod to lock the mounting frame. This facilitates the automatic release of the position limitation on the storage frame when the reinforcement part pre-positions and fixes the assembly frame, making it easy to directly remove the locking pin inside the storage frame for use, which is convenient for operation. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the front structure of the present invention; Figure 2 This is a schematic diagram of the inclined pile support structure of the present invention; Figure 3 This is a schematic diagram of the structure at the docking point of the present invention; Figure 4 This is a schematic diagram of the structure of the reinforced part of the present invention; Figure 5 This is a schematic diagram of the front structure of the reinforced part of the present invention; Figure 6 This is a front cross-sectional view of the reinforced part of the present invention; Figure 7 This is a front cross-sectional view of the drive section of the present invention; Figure 8 This is a front sectional view of the mounting bracket of the present invention. Figure 9 This is a schematic diagram of the sealing plate structure of the present invention; Figure 10 This is a schematic diagram of the structure of the storage frame in this invention.

[0018] In the diagram: 1. Inclined pile brace; 11. Inclined brace main body; 12. Brace frame; 2. Crown beam; 3. Retaining pile; 4. Waterstop component; 41. Assembly frame; 42. Support component; 421. Connecting body; 422. Positioning part; 423. Connecting part; 424. Reinforcing part; 425. Connecting part; 426. Extension part; 427. Sleeve part; 428. Connecting part; 43. First waterstop plate; 44. Second waterstop plate; 45. Locking column; 46. Fixing cap; 47. Positioning seat; 5. Pre-set mechanism; 51. Positioning post; 52. Limiting component; 521. Insertion part; 522. Moving body; 523. Auxiliary part; 524. Drive part; 525. Pushing part; 53. Traction plate; 54. First spring; 55. Through groove; 56. Operating frame; 57. Limiting sleeve; 6. Storage mechanism; 61. Storage frame; 62. Sealing plate; 63. Mounting frame; 64. Limiting rod; 65. Guide ring; 66. Drive block; 67. Moving ring; 68. Second spring. Detailed Implementation

[0019] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.

[0020] This invention provides, for example Figures 1-10 The diagram shows a jointless inclined pile support device with integrated waterstop, comprising an inclined pile support 1, a capping beam 2, retaining piles 3, and a waterstop component 4. The inclined pile support 1 is used for the support of the foundation pit. The specific application location of the inclined pile support 1 is shown in the diagram. Figure 1As shown, the inclined pile support 1 is driven into the interior of the foundation pit. The capping beam 2 fixes the inclined pile support 1 to the retaining pile 3. The retaining pile 3 is conducive to the enclosure operation of the foundation pit. The inclined pile support 1 is composed of an inclined support body 11 and multiple support frames 12. The support frames 12 are fixedly sleeved on the outside of the inclined support body 11. One end of the inclined pile support 1 is fixed on the capping beam 2. The retaining pile 3 is vertically set on the capping beam 2. The retaining pile 3 is located on the side of the inclined pile support 1. The water-stop component 4 is located outside the inclined pile support 1. The water-stop component 4 is used to cooperate with the inclined pile support 1 to carry out jointless support operation.

[0021] Furthermore, it also includes a pre-positioning mechanism 5 and a storage mechanism 6. The pre-positioning mechanism 5 is located on the water-stopping component 4 and is used to pre-position the water-stopping component 4 with the inclined pile brace 1. The storage mechanism 6 is located on the water-stopping component 4.

[0022] Furthermore, the water-stopping component 4 includes an assembly frame 41, a support member 42, a first water-stopping plate 43, and a second water-stopping plate 44. The assembly frame 41 is U-shaped, which facilitates its fitting onto the outside of a support frame 12. The integrated fixing position of the assembly frame 41 and the inclined pile support 1 depends on the pouring position of the base plate and the usage position of the first water-stopping plate 43 and the second water-stopping plate 44. The upper assembly frame 41 needs to be positioned above the base plate pouring, so that after the base plate pouring is completed, the components on the upper assembly frame 41 can be cut and recycled for subsequent use. The first water-stopping plate 43 and the second water-stopping plate 44 are spliced ​​together, and the first water-stopping plate 43 and the second water-stopping plate 44 are connected by a waterproof bonding method, and the connection between them and at the bottom can be... Integrating flexible materials such as water-swellable rubber waterstop strips enhances waterproof sealing performance. The first waterstop plate 43 and the second waterstop plate 44 facilitate the integrated waterproofing function of the inclined pile brace 1 during support, actively sealing water channels and achieving waterproofing at the penetration points of the inclined pile brace 1. This eliminates construction joints left by traditional methods while completing the support, improving the overall integrity, waterproofing, and construction efficiency of the project, and facilitating subsequent processing. The first waterstop plate 43 and the second waterstop plate 44 are cast inside the top slab of the foundation pit. The assembly frame 41 is fitted onto the outside of the support frame 12, and the support member 42 is located on the assembly frame 41. The support member 42 includes a connecting body 421, a positioning part 422, a reinforcing part 424, a connecting part 425, an extension part 426, a sleeve part 427, and a connecting part 428. The docking body 421 is L-shaped, which facilitates connection with the locking post 45 and achieves a close fit between the two docking bodies 421. The positioning part 422 supports the docking part 428. The reinforcing part 424 connects to the positioning part 422 via the connecting part 423 and fits against the diagonal brace body 11 to position and reinforce the assembly frame 41. The connecting part 425 connects to the assembly frame 41 and facilitates support of the reinforcing part 424. The extension part 426 is fixed to the outside of the assembly frame 41 and facilitates the installation of the storage mechanism 6. The sleeve part 427 connects and fixes the first waterstop plate 43 and the second waterstop plate 44, and the first waterstop plate 43 or The connection between the second waterstop plate 44 and the sleeve part 427 can be fixed by welding or other methods, which facilitates the support of the first waterstop plate 43 and the second waterstop plate 44. The mating part 428 is conducive to the connection with the positioning seat 47, which in turn facilitates the positioning of the positioning part 422 and increases the stability of the assembly frame 41. The mating body 421 is located on the side of the assembly frame 41, the positioning part 422 is located on the top of the mating body 421, the reinforcing part 424 is attached to the side of the diagonal brace body 11, a connecting part 423 is provided between the reinforcing part 424 and the positioning part 422, the connecting part 425 is located at the bottom of the reinforcing part 424 and is fixedly connected to the side of the assembly frame 41, and the extension part 426 is located between the connecting part 425 and the mating body 421.The connecting part 427 is located between the upper and lower mating bodies 421, the mating part 428 is located on the side of the positioning part 422, and the first water-stopping plate 43 and the second water-stopping plate 44 are respectively fixedly sleeved on the outside of the adjacent connecting parts 427.

[0023] Furthermore, the water-stopping assembly 4 also includes a locking post 45, a fixing cap 46, and a positioning seat 47. The locking post 45 facilitates the series connection of adjacent mating bodies 421. The fixing cap 46 facilitates the threaded fixing of the locking post 45, which in turn facilitates the installation of the assembly frame 41 on the inclined pile support 1 to integrate and fix the first water-stop plate 43 and the second water-stop plate 44 with the inclined pile support 1. The positioning seat 47 facilitates the connection with the mating part 428. The sides of the adjacent mating bodies 421 are provided with a first T-shaped hole and a second T-shaped hole. The locking post 45 is slidably inserted into the cavities of the first T-shaped hole and the second T-shaped hole. The fixing cap 46 is fixedly embedded in the interior of the second T-shaped hole. The end of the locking post 45 is threadedly inserted into the cavity of the fixing cap 46. The positioning seat 47 is fixedly connected to the side of the inclined support body 11. The mating part 428 is slidably inserted into the cavity of the positioning seat 47.

[0024] Specifically, the pre-positioning mechanism 5 includes a positioning post 51 and a limiting member 52. The positioning post 51 facilitates connection with the reinforcing part 424 and is fixedly connected to the side of the diagonal brace body 11. The side of the reinforcing part 424 is symmetrically provided with first sliding grooves that cooperate with the positioning post 51. The limiting member 52 is located on the side of the positioning post 51 and includes a plug-in part 521, a moving body 522, an auxiliary part 523, a driving part 524, and a pushing part 525. The plug-in part 521 facilitates the limitation of the relative position of the reinforcing part 424 and the positioning post 51 to restrict the position of the reinforcing part. 424 is fixed to the diagonal brace body 11, achieving pre-fixation of the assembly frame 41, which facilitates operations such as docking the locking column 45. It also improves the stability of the positioning column 51 installation. The limiting member 52 is only present on the upper reinforcing part 424, not on the lower cast-in-place reinforcing part 424. The moving body 522 supports the insertion part 521, facilitating horizontal sliding of the insertion part 521. The auxiliary part 523 is preferably arranged in a Z-shape, facilitating connection between the moving body 522 and the driving part 524, and enabling the moving body 522 to... During movement, the drive unit 524 moves synchronously. The bottom of the drive unit 524 helps to press down the drive block 66, which in turn facilitates the insertion of the end of the limiting rod 64 into the interior of the second slot. This locks and secures the storage mechanism 6 when the reinforcing part 424 is not connected to the positioning post 51 and is being carried, allowing the storage mechanism 6 to follow along. When the insertion part 521 is inserted into the positioning post 51, the movement of the drive unit 524 causes its interior to align with the drive block 66, and the compressed second spring 68 releases its elasticity, pushing the moving ring 67 to move. The limiting rod 64 moves upward, pushing the drive block 66 into the interior of the drive unit 524. At this time, the end of the limiting rod 64 disengages from the interior of the second slot, thus automatically releasing the position restriction of the storage frame 61 when the water-stop component 4 is connected to the inclined pile support 1. The storage frame 61 can then be removed for use, and the locking pin 45 inside can be taken out. The pushing part 525 facilitates pushing the inclined surface of the drive block 66 when the drive unit 524 moves to the right, causing the drive block 66 to move downward, so that the limiting rod 64 can be inserted into the interior of the second slot. Figure 7 As shown, the side of the inner wall of the first sliding groove is provided with a second sliding groove that mates with the insertion part 521, the side of the positioning post 51 is provided with a first slot that mates with the insertion part 521, the moving body 522 is located on the side of the insertion part 521, the side of the inner wall of the second sliding groove is provided with a sliding groove that mates with the moving body 522, the auxiliary part 523 is located at the bottom of the moving body 522, the bottom end of the sliding groove is provided with a through groove 55 that mates with the auxiliary part 523, which facilitates the sliding of the auxiliary part 523 inside, the driving part 524 is located at the bottom of the auxiliary part 523, the bottom end of the inner wall of the through groove 55 is provided with a third sliding groove that mates with the driving part 524, and the pushing part 525 is located on the side of the inner wall of the driving part 524.

[0025] More specifically, the predetermined mechanism 5 also includes a traction plate 53, a first spring 54, and an operating member. The traction plate 53 facilitates the movement of the movable body 522 and enables the driving operation of the movable body 522. The elastic force of the first spring 54 facilitates the movement of the movable body 522 so that the insertion part 521 can be inserted and fixed with the positioning post 51. At the same time, it facilitates the elastic support of the movable body 522 so that the movable body 522 returns to its original position after moving the positioning post 51. The traction plate 53 is fixedly connected to the side of the movable body 522. The side of the inner wall of the sliding groove is provided with a slot that cooperates with the traction plate 53. The first spring 54 is located inside the sliding groove. One end of the first spring 54 is fixedly connected to the side of the inner wall of the sliding groove, and the other end of the first spring 54 is fixedly connected to the movable body 522. The operating member is located on the side of the reinforcing part 424 and is used to push the traction plate 53.

[0026] Specifically, the operating components include an operating frame 56 and a limiting sleeve 57. The operating frame 56 is L-shaped, which is conducive to driving the traction plate 53 to move and facilitates the operation of the traction plate 53. The limiting sleeve 57 can have a certain degree of elasticity. The limiting sleeve 57 is convenient to be fitted on the two operating frames 56 and corresponds to the position where the insertion part 521 is disengaged from the positioning post 51. Then, the driving part 524 can be used to limit the top of the driving block 66 at this time. The operating frame 56 is fixedly connected to the side of the traction plate 53, and the limiting sleeve 57 is fitted on the adjacent operating frame 56.

[0027] Furthermore, the storage mechanism 6 includes a storage frame 61, a sealing plate 62, a mounting bracket 63, and a limiting rod 64. The inside of the storage frame 61 can be lined with a rubber pad, and cardboard spacers can be placed between the locked pins 45 to provide cushioning protection during transport. The storage frame 61 facilitates the storage of multiple locked pins 45 for easy access and use. The sealing plate 62 provides protection to the inside of the storage frame 61, preventing the locked pins 45 from falling out. The mounting bracket 63 connects to the sealing plate 62 and provides positioning and support for the storage frame 61. The limiting rod 64 connects the connecting part 425 and the mounting bracket 63. The relative positions are defined to facilitate the installation and fixation of the storage frame 61. The storage frame 61 is located on the side of the extension 426. The storage frame 61 is used to store the locking post 45 and carry it with the water-stop component 4. The sealing plate 62 is located on the side of the storage frame 61. The mounting bracket 63 is fixedly connected to the side of the inner wall of the storage frame 61. The mounting bracket 63 is slidably inserted into the sealing plate 62. The top of the mounting bracket 63 is provided with a second slot. The side of the extension 426 is symmetrically provided with mounting grooves that cooperate with the mounting bracket 63. The limiting rod 64 is slidably engaged with the inner cavity of the second slot. The bottom of the inner wall of the third groove is provided with a fourth groove that cooperates with the limiting rod 64.

[0028] Furthermore, the storage mechanism 6 also includes a guide ring 65, a drive block 66, a moving ring 67, and a second spring 68. The guide ring 65 vertically guides the sliding of the limiting rod 64. The drive block 66 drives the limiting rod 64 to move. The moving ring 67 drives the limiting rod 64 to move, facilitating traction operations on the limiting rod 64. The elastic force of the second spring 68 pushes the moving ring 67 to move, allowing it to return to its original position after moving the limiting rod 64 and the drive block 66, facilitating repeated operations on the limiting rod 64. The elastic force of the second spring 68 is less than that of the first spring 54. The second spring 68 and the first spring 54... All can be used with a damper to improve stability. The guide ring 65 is fixedly connected to the inside of the fourth slide groove. The drive block 66 is fixedly connected to the top of the limit rod 64. The drive block 66 cooperates with the inside of the drive part 524. The drive block 66 is slidably inserted into the inner cavity of the fourth slide groove. The side of the drive block 66 is provided with an inclined surface, which cooperates with the push part 525. The moving ring 67 is fixedly sleeved on the outside of the limit rod 64. The moving ring 67 is slidably disposed inside the fourth slide groove. The second spring 68 is sleeved on the outside of the limit rod 64. One end of the second spring 68 is fixedly connected to one of the guide rings 65, and the other end of the second spring 68 is fixedly connected to the moving ring 67.

[0029] Working principle of this invention: After the inclined pile support 1 is completed and the soil excavation is finished, the installation height of the water-stop component 4 is determined according to the pouring height of the foundation slab. Then, the assembly frame 41 is fitted onto the outside of the support frame 12 at the designated position. The assembly frame 41 drives the docking body 421 to engage with each other. The docking body 421 drives the positioning part 422 to move. Then, the positioning part 422 drives the docking part 428 to engage with the inside of the positioning seat 47. At the same time, the assembly frame 41 drives the reinforcing part 424 to engage with the positioning column 51. In addition, the assembly frame 41 drives the sleeve part 427 to move, and the sleeve part 427 drives the first water-stop plate 43 and the second water-stop plate 44 to move. Then, the limiting sleeve 57 is removed from the adjacent operating frame 56. At this time, the compressed first spring 54 releases its elastic force, thereby pushing the moving body 522 to move. The moving body 522 drives the insertion part 521 to move, and the insertion part 521 is inserted into the positioning post 51. At this time, the relative position of the reinforcing part 424 and the diagonal brace body 11 is locked. In addition, while the moving body 522 is moving, the moving body 522 drives the auxiliary part 523 to slide inside the through groove 55. The auxiliary part 523 drives the driving part 524 to slide. The driving part 524 slides, and when the inner of the driving part 524... When the part corresponds to the drive block 66, the second spring 68, which is under compression, releases its elastic force to push the moving ring 67 upward. The moving ring 67 drives the limiting rod 64 upward. The limiting rod 64 drives the drive block 66 upward and enters the interior of the drive part 524. At this time, the end of the limiting rod 64 disengages from the mounting bracket 63, thereby releasing the position limitation on the mounting bracket 63. Then, the storage frame 61 is pulled outward. The storage frame 61 drives the sealing plate 62 to disengage from the mounting bracket 63, so that the sealing plate 62 is removed from the mounting bracket 63. Then, the locking pin 45 is removed from the interior of the storage frame 61. The locking pin 45 is inserted into the docking body 421, and one end of the locking pin 45 is threaded into the inner cavity of the fixing cap 46, so that the adjacent docking bodies 421 and the assembly frame 41 are tightly fitted, and the inclined pile support 1 and the water-stop component 4 are installed together. Then, the foundation plate is poured in one go, and the first water-stop plate 43 and the second water-stop plate 44 are inside for water-stop protection. After the pouring is completed, the exposed part of the inclined pile support 1 is cut off and removed. Then, the assembly frame 41 above is separated from the inclined pile support 1, and the assembly frame 41 above and its components can be recycled.

[0030] Finally, it should be noted that the above description is only a preferred embodiment of the present invention and is not intended to limit the present invention. Although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of the present invention should be included within the protection scope of the present invention.

Claims

1. A jointless inclined pile support device with integrated water-stopping plate, characterized in that: include: Inclined pile bracing (1), the inclined pile bracing (1) is composed of an inclined bracing body (11) and multiple support frames (12), the support frames (12) being fixedly sleeved on the outside of the inclined bracing body (11); The cap beam (2) has one end of the inclined pile brace (1) fixed to the cap beam (2); Retaining piles (3), the retaining piles (3) are vertically set on the cap beam (2), and the retaining piles (3) are located on the side of the inclined pile support (1); Water-stopping component (4) is located outside the inclined pile brace (1) and is used to cooperate with the inclined pile brace (1) to carry out jointless support operation.

2. The construction joint-free inclined pile support device with integrated water-stop plate according to claim 1, characterized in that: Also includes: A pre-positioning mechanism (5) is located on the water-stopping component (4) and is used to pre-position the water-stopping component (4) with the inclined pile brace (1). Storage mechanism (6) is located on the water-stopping component (4).

3. The construction-joint-free inclined pile support device with integrated water-stop plate according to claim 2, characterized in that: The water-stopping component (4) includes: Assembly frame (41), which is sleeved on the outside of support frame (12); Support member (42), said support member (42) is located on assembly frame (41), said support member (42) includes: A docking body (421) is located on the side of the assembly frame (41); A positioning part (422) is located on top of the docking body (421); A reinforcing part (424) is attached to the side of the diagonal brace body (11), and a connecting part (423) is provided between the reinforcing part (424) and the positioning part (422). A connecting part (425) is located at the bottom of the reinforcing part (424) and is fixedly connected to the side of the assembly frame (41). An extension (426) is located between the connecting part (425) and the docking body (421); A socket (427) is located between two mating bodies (421); The docking part (428) is located on the side of the positioning part (422); The first water-stopping piece (43) and the second water-stopping piece (44) are respectively fixedly sleeved on the outside of the adjacent sleeve part (427).

4. The construction joint-free inclined pile support device with integrated water-stop plate according to claim 3, characterized in that: The water-stopping component (4) also includes: The locking post (45) has a first T-shaped hole and a second T-shaped hole on the side adjacent to the docking body (421). The locking post (45) is slidably inserted into the inner cavity of the first T-shaped hole and the second T-shaped hole. A fixing cap (46) is fixedly embedded inside the second T-shaped hole, and the end of the locking pin (45) is threadedly connected to the inner cavity of the fixing cap (46). Positioning seat (47) is fixedly connected to the side of the diagonal brace body (11), and the docking part (428) is slidably inserted into the inner cavity of the positioning seat (47).

5. The construction-joint-free inclined pile support device with integrated water-stop plate according to claim 4, characterized in that: The pre-booking agency (5) includes: The positioning post (51) is fixedly connected to the side of the diagonal brace body (11), and the side of the reinforcing part (424) is symmetrically provided with a first sliding groove that cooperates with the positioning post (51). A limiting member (52) is located on the side of the positioning post (51), and the limiting member (52) includes: The insertion part (521) has a second groove that mates with the insertion part (521) on the side of the inner wall of the first groove, and a first slot that mates with the insertion part (521) on the side of the positioning post (51). The movable body (522) is located on the side of the plug-in part (521), and the side of the inner wall of the second sliding groove is provided with a sliding groove that cooperates with the movable body (522). The auxiliary part (523) is located at the bottom of the moving body (522), and the bottom end of the sliding groove is provided with a through groove (55) that cooperates with the auxiliary part (523). The drive unit (524) is located at the bottom of the auxiliary unit (523), and the bottom end of the inner wall of the through groove (55) is provided with a third sliding groove that cooperates with the drive unit (524). The pushing part (525) is located on the side of the inner wall of the driving part (524).

6. The construction joint-free inclined pile support device with integrated water-stop plate according to claim 5, characterized in that: The pre-booking agency (5) also includes: The traction plate (53) is fixedly connected to the side of the moving body (522), and the inner wall of the sliding groove has a groove that cooperates with the traction plate (53). The first spring (54) is located inside the sliding groove. One end of the first spring (54) is fixedly connected to the side of the inner wall of the sliding groove, and the other end of the first spring (54) is fixedly connected to the moving body (522). An operating element is located on the side of the reinforcement (424) and is used to push the traction plate (53).

7. The construction joint-free inclined pile support device with integrated water-stop plate according to claim 6, characterized in that: The operating element includes: Operating frame (56), the operating frame (56) is fixedly connected to the side of the traction plate (53); A limiting sleeve (57) is fitted onto an adjacent operating frame (56).

8. The construction-joint-free inclined pile support device with integrated water-stop plate according to claim 7, characterized in that: The storage mechanism (6) includes: Storage frame (61), located on the side of extension (426), is used to store locking pin (45) and carry it with water-stop assembly (4); A sealing plate (62) is located on the side of the storage frame (61); Mounting bracket (63), which is fixedly connected to the side of the inner wall of the storage frame (61), and the mounting bracket (63) is slidably inserted into the sealing plate (62). The top of the mounting bracket (63) is provided with a second slot, and the side of the extension (426) is symmetrically provided with mounting slots that cooperate with the mounting bracket (63). The limiting rod (64) is slidably engaged with the inner cavity of the second slot, and the bottom end of the inner wall of the third slot is provided with a fourth slot that cooperates with the limiting rod (64).

9. The construction joint-free inclined pile support device with integrated water-stop plate according to claim 8, characterized in that: The storage mechanism (6) also includes: Guide ring (65), the guide ring (65) is fixedly connected to the inside of the fourth slide groove; The driving block (66) is fixedly connected to the top of the limiting rod (64). The driving block (66) cooperates with the interior of the driving part (524). The driving block (66) is slidably inserted into the inner cavity of the fourth slide groove. The side of the driving block (66) is provided with an inclined surface, which cooperates with the pushing part (525). The movable ring (67) is fixedly sleeved on the outside of the limiting rod (64), and the movable ring (67) is slidably disposed inside the fourth sliding groove; The second spring (68) is sleeved on the outside of the limiting rod (64). One end of the second spring (68) is fixedly connected to one of the guide rings (65), and the other end of the second spring (68) is fixedly connected to the moving ring (67).

10. The method of using the integrated water-stop plate-based jointless inclined pile support device according to claim 9, characterized in that: The specific usage steps are as follows: Step 1: After the inclined pile support (1) is completed and the soil is excavated, determine the installation height of the water-stop component (4) according to the pouring height of the foundation slab. Then, put the assembly frame (41) on the outside of the support frame (12) at the designated position. The assembly frame (41) drives the docking body (421) to connect. The docking body (421) drives the positioning part (422) to move. Then, the positioning part (422) drives the docking part (428) to insert into the inside of the positioning seat (47). At the same time, the assembly frame (41) drives the reinforcement part (424) to insert into the positioning column (51). In addition, the assembly frame (41) drives the sleeve part (427) to move, and the sleeve part (427) drives the first water-stop plate (43) and the second water-stop plate (44) to move. Step 2: Then remove the limiting sleeve (57) from the adjacent operating frame (56). At this time, the compressed first spring (54) releases its elastic force, thereby pushing the moving body (522) to move. The moving body (522) drives the insertion part (521) to move. The insertion part (521) is inserted into the positioning post (51). At this time, the relative position of the reinforcing part (424) and the diagonal brace body (11) is locked. In addition, while the moving body (522) is moving, the moving body (522) drives the auxiliary part (523) to slide inside the through groove (55). The auxiliary part (523) drives the driving part (524) to slide. The driving part (524) slides. When the driving part (524) When the inner part corresponds to the drive block (66), the second spring (68) which is under compression releases its elastic force to push the moving ring (67) upward. The moving ring (67) drives the limit rod (64) upward. The limit rod (64) drives the drive block (66) upward and enters the interior of the drive part (524). At this time, the end of the limit rod (64) disengages from the mounting bracket (63), thereby releasing the position limitation on the mounting bracket (63). Then, the storage frame (61) is pulled outward. The storage frame (61) drives the sealing plate (62) to disengage from the mounting bracket (63), so that the sealing plate (62) is removed from the mounting bracket (63). Then, the locking pin (45) is taken out from the interior of the storage frame (61). Step 3: Insert the locking pin (45) into the docking body (421), and thread one end of the locking pin (45) into the inner cavity of the fixing cap (46) so that the adjacent docking bodies (421) and the assembly frame (41) fit tightly together, so that the inclined pile support (1) and the water-stop component (4) are installed together. Then, the foundation plate is poured in one go, and the first water-stop plate (43) and the second water-stop plate (44) are inside for water-stop protection. After the pouring is completed, the exposed part of the inclined pile support (1) is cut off and removed. Then, the assembly frame (41) above is separated from the inclined pile support (1), and the assembly frame (41) above and its components can be recycled.