A stone anchoring structure and method of use thereof
The combination of anchor rods and legs solves the problems of bulky and non-adjustable bases for rock-attached bonsai, enabling flexible arrangement of bonsai and ample space for plant growth, thus enhancing the expressiveness and practicality of bonsai art.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- HEFEI CEMENT RESEARCH AND DESIGN INSTITUTE CO LTD
- Filing Date
- 2023-10-27
- Publication Date
- 2026-06-05
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Figure CN117549692B_ABST
Abstract
Description
Technical Field
[0001] This invention belongs to the field of bonsai styling technology, and in particular relates to a stone anchoring structure and its usage method. Background Technology
[0002] In a broad sense, any natural stone with ornamental value can be called an ornamental stone. Among them, unusual stones are often processed into ornamental stones for appreciation. These ornamental stones are also called "offering stones" and belong to the category of desk stones. Su Dongpo first proposed the concept of using stones as offerings in his famous essay on appreciating stones, "Strange Stone Offerings". Later generations have referred to them as "offering stones" or "stone offerings". Another major use of ornamental stones is to make bonsai with attached stones.
[0003] Bonsai of trees and rocks, also known as rock bonsai, is a form of bonsai that cleverly combines trees and rocks into one. Sometimes the tree is large and the rock is small, emphasizing the tree and thus falling under the category of tree bonsai; other times the tree is small and the rock is large, emphasizing the rock and thus falling under the category of landscape bonsai. Bonsai of trees and rocks reflects the natural appearance of trees growing on rocks, exaggerating and highlighting the image of trees tenaciously growing in cliff crevices or on mountain peaks. Rich in content and profound in artistic conception, it is a form deeply loved by bonsai enthusiasts. While one only appreciates the rock itself, in a bonsai of trees and rocks, the rock and plant coexist in one pot, as in a traditional bonsai. Figure 5 As shown, its artistic value is clearly higher.
[0004] In 1972, the tomb of Prince Zhanghuai Li Xian of the Tang Dynasty (built in 706 AD) was excavated at Qianling Mausoleum in Shaanxi Province. A vivid painting on the east wall of the corner passage depicts a maidservant holding a bonsai with both hands. The bonsai includes artificial mountains and small trees. According to modern bonsai classification, the bonsai in this painting should belong to the tree-and-rock bonsai or water-and-land bonsai type. This is the earliest known painting of bonsai. During the spread of bonsai art to the world, Japan made technological improvements, leading to the common misconception before the excavation of Qianling that bonsai art originated in Japan.
[0005] When creating a rock-attached bonsai, it is difficult to keep the rocks, whether naturally formed or carved, stable in the pot. Also, because the soil is relatively loose, it is not advisable to place the rocks directly on it. Therefore, a base needs to be made before creating a rock-attached bonsai. In the existing technology, the base is bonded to the rock. Usually, a base is made of cement or concrete at the bottom of the rock, or a base is made of small stones bonded together with glue. The base is then firmly connected to the bottom of the pot to prevent the rock from tipping over.
[0006] Currently, the most widespread method in existing technology is to use cement to solidify the bottom of the stone into a base. The following example illustrates the processing of a base for a bonsai with attached stones: First, determine the standing posture of the stone, then select a wall base that can support the stone. Lay waste newspaper on the ground, pour 2 / 3 of the mixed cement slurry onto the newspaper, then place the stone in the cement slurry, with its back against the wall base and supported on both sides to prevent the stone from wobbling. Then, use bamboo strips to apply cement slurry to the bottom of the stone, and use another 1 / 3 of the cement slurry for repairs, coating the base into a trapezoidal shape. After two days, once the cement has solidified, it can be removed for later use. After placing the stone and the base into the ornamental pot, fill the remaining space in the pot with soil and plant plants.
[0007] In implementing the embodiments of the present invention, the inventors discovered that the prior art has at least the following drawbacks:
[0008] (1) To prevent the stone from tipping over, the base structure is bulky and takes up a lot of space. After the pot is placed in it, there is not much space left for the soil in the pot. The root system is the main factor that determines the growth of the plant. The foundation on which the root system depends for survival is the soil. The soil is the place where the plant roots live. The concept of soil includes soilless cultivation substrate. Therefore, if the space for holding soil is limited, it will make it difficult to cultivate plants. If the base is placed in a large pot, there will be enough soil, but the bonsai will lose the artistic conception of shrinking the dragon into an inch and seeing the big in the small. For example, most bonsai use shallow pots. The shorter the pot, the taller the tree appears. For cliff-style bonsai, this is almost the only exception.
[0009] (2) Furthermore, as the ancient poem says: "Looking at it from the side, it is a ridge; looking at it from the front, it is a peak; the view is different from near and far, high and low..." Even if the stone is made into a bonsai, no matter how unique the stone is, after a long time of viewing, it is inevitable to experience aesthetic fatigue. At that time, if you want to adjust the viewing angle of the stone, under the current technology, you need to destroy the original base and remake the base, which is difficult and inconvenient.
[0010] my country boasts abundant ornamental stone resources. Besides the traditional four famous stones—Lingbi stone, Taihu stone, Kunshan stone, and Ying stone—the ornamental stone family has seen a surge in new members with the development of new varieties, such as Taishan stone, Fengling stone, Dahua stone, and Caitao stone. According to the latest statistics, there are currently 95 types of ornamental stones in my country with clearly defined origins and varieties. However, the aforementioned deficiencies have caused a considerable number of ornamental stones to stagnate, remaining merely as available stones. Therefore, the shortcomings of existing bonsai base technology limit the development of the art of attached stone bonsai.
[0011] In summary, there is an urgent need to provide a stone anchoring structure and its usage method to solve the problems of the bulky and non-adjustable base structure of stone-attached bonsai. Summary of the Invention
[0012] The purpose of this invention is to provide a stone anchoring structure and its usage method, which solves the problems of bulky and non-adjustable base structures for stone-attached bonsai.
[0013] To achieve the above objectives, the present invention provides the following technical solution:
[0014] A stone anchoring structure includes: an anchor rod and a support leg, wherein the support leg is fixedly connected to the stone via the anchor rod, the support leg is fixedly connected to a flower pot, and the support leg has a shape structure for adjusting the height or angle of the stone.
[0015] Furthermore, the support leg is made of a metal sheet, the thickness of which is less than a preset thickness, and the shape structure is a curved part on the support leg.
[0016] Furthermore, the end of the support leg is divided into two pieces, one of which has multiple rows of connecting holes and the other has a single row of connecting holes. The two pieces are connected by fasteners through the connecting holes, and the connection point can be adjusted to form the aforementioned shape structure.
[0017] Furthermore, the anchor bolt includes a stud and a nut or bolt, one end of which is inserted into the stone and bonded to the stone with an adhesive.
[0018] Furthermore, the support legs are made of stainless steel.
[0019] Furthermore, the stone anchoring structure also includes a suction cup, which includes a cup body, a connecting rod, and a button. The upper end of the connecting rod is connected to the button, and the lower end is connected to the cup body. The cup body is made of rubber, and the lower end of the cup body is recessed inward.
[0020] The support leg also has a positioning hole at its end, and the connecting rod is engaged in the positioning hole;
[0021] The support leg is fixedly connected to the flowerpot via a suction cup.
[0022] Furthermore, the positioning hole is a flat, elongated hole, allowing the suction cup to move back and forth.
[0023] A method for using a stone anchoring structure includes the following steps:
[0024] Step S1: Drill holes in the stone;
[0025] Step S2: Inject adhesive into the hole, insert the anchor rod, and fix the anchor rod to the support leg.
[0026] Step S3: Adjust the height or angle of the stone by adjusting the shape structure;
[0027] Step S4: Connect the support leg to the flowerpot.
[0028] Furthermore, the support leg is made of a thin metal sheet, and the shape structure is a curved part on the support leg. In step S3, the shape structure is adjusted, that is, the curved part is bent.
[0029] Furthermore, the end of the support leg is divided into two pieces, one of which has multiple rows of connecting holes and the other has a single row of connecting holes. The method for adjusting the shape structure in step S3 is to change the position of the connection point and connect the two pieces with fasteners through the connecting holes.
[0030] Compared with the prior art, the present invention has the following beneficial effects:
[0031] Existing bonsai bases are rigid structures. This invention improves them into flexible metal structures. The improved base structure is lightweight and has sufficient support strength, making it easy to elevate the stone. The space originally occupied by the stone is utilized, and the legs of the base are small in volume. The remaining space inside the pot after deducting the legs can be used entirely for soil filling, so the soil filling space is ample and can meet the needs of plant growth. Furthermore, the placement height and angle of the stone can be adjusted arbitrarily as needed.
[0032] This invention has a simple structure, reasonable design, and is easy to implement. It solves the problems of bulky and non-adjustable structures of existing stone-attached bonsai bases, achieving the effect of resisting stone displacement and preventing overturning, while also being easy to adjust, and providing sufficient soil space for plant growth. Attached Figure Description
[0033] Figure 1 This is an overall structural diagram of a preferred embodiment of the present invention;
[0034] Figure 2 This is an exploded view of a preferred embodiment of the present invention;
[0035] Figure 3 This is a schematic diagram of an adjustment according to a preferred embodiment of the present invention;
[0036] Figure 4 This is an assembly diagram of a preferred embodiment of the present invention;
[0037] Figure 5 This is a rendering of a preferred embodiment of the present invention after completion;
[0038] Figure 6 This is a partially enlarged view of the anchoring portion according to another embodiment of the present invention;
[0039] Figure 7 This is a schematic diagram of the support leg connection according to another embodiment of the present invention;
[0040] Figure 8 yes Figure 7 View from direction A;
[0041] Figure 9 This is a process flow diagram of a preferred embodiment of the present invention.
[0042] The components represented by the serial numbers in the attached diagram are as follows:
[0043] 1-Anchor rod; 11-Nut; 12-Stud; 13-Nut; 2-Leg; 21-Mounting hole; 22-Positioning hole; 23-Connecting hole; 24-Fastener; 3-Suction cup; 31-Disc body; 32-Connecting rod; 33-Button; 4-Flower pot; 5-Stone. Detailed Implementation
[0044] To enable those skilled in the art to better understand the present invention, the technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. 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 should fall within the scope of protection of the present invention.
[0045] In the embodiments of the present invention, a variety of optional implementation methods are provided, which can be selected according to actual needs. Regardless of which method is adopted, the existing technology is no longer used for the production of the bonsai base, and the problems in the existing technology can be solved and the corresponding effects can be achieved. The following embodiments can be applied to the production of bonsai bases and can also be applied to other industries. For example, the anchoring flexible support leg of the present invention can be applied to glass curtain wall installation and can also be applied to equipment that can be foreseen in the future. Therefore, the application of the present invention includes, but is not limited to, the production and use of bonsai bases.
[0046] The embodiments of the present invention will be described in detail below with reference to the accompanying drawings. However, the present invention can be implemented in many different ways as defined and covered by the claims. It should be noted that, unless otherwise specified, the embodiments and features in the embodiments of this application can be combined with each other.
[0047] Example 1
[0048] A stone anchoring structure and its application method include the following steps:
[0049] Step S1, see Figure 1 , Figure 3 and Figure 9 Select a location and drill a hole in the stone. Do not use an impact drill, as it is too powerful and can easily crack the stone. You can use an electric grinder, which is commonly used in the jade carving industry. An electric grinder is a jade carving tool. When it is working, the drill bit needs to be cooled with water, hence the name "water drill". You can use the water drill to drill a small hole first, and then enlarge the hole.
[0050] Step S2, see Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 9 Adhesive is injected into the hole, and then the anchor rod 1 is inserted to complete the anchoring. The anchor rod 1 can be a bolt, which has at least two parts: a nut 11 and a stud 12. If the stud 12 has threads, it increases the bonding area and improves the bonding performance. When drilling holes in the stone, the diameter of the hole is slightly larger than the diameter of the stud 12, and the hole depth is determined as needed. During anchoring, the stud 12 is embedded in the hole in the stone, the nut 11 remains outside the hole, and the flat support leg 2 is wedged between the nut 11 and the hole. The gap in the hole is filled with adhesive; common adhesives include AB glue or marble glue.
[0051] AB glue is a name for two-component adhesives. Component A is acrylic-modified epoxy resin or epoxy resin, and component B is a modifier or other hardener, or contains catalysts and other additives. The catalyst can control the curing time, and other additives can control properties such as viscosity, rigidity, flexibility, adhesion, etc. They are mixed in a certain proportion when used. Epoxy resin AB glue is suitable for bonding homogeneous and heterogeneous materials such as metals, non-metals, stone, wood, plastics, and ceramics. The properties of commercially available AB glue are usually determined by the formula and generally do not require much modification.
[0052] Marble adhesive is made from epoxy resin and unsaturated resin. It is suitable for bonding various types of stone or repairing cracks and breaks on the stone surface. It is commonly used in various types of paving projects and for repairing, bonding, positioning, and filling joints of various types of stone. However, due to its poor water resistance and durability, and the shrinkage that occurs during curing, general construction specifications stipulate that marble adhesive is generally not used as a structural adhesive. It is usually used for quick positioning or stone repair.
[0053] In addition, chemical anchors can be used. Chemical anchors are a new type of anchor that emerged after expansion anchors. They are composite components that use a special chemical adhesive to bond and fix the screw in a drilled hole in the concrete substrate to achieve anchoring of the fastener. The chemical tube contains vinyl resin, quartz particles and a curing agent. The chemical tube is usually a glass tube. The glass tube is sealed and packaged to facilitate visual inspection of the quality of the agent. After the glass tube is inserted into the pre-drilled hole, the anchor is screwed in. The glass is crushed and acts as fine aggregate.
[0054] All of the above are non-expansion force anchoring methods, which do not generate compressive stress on the stone, thus ensuring structural safety. In contrast, expansion bolts are physically inserted into the stone, and after being forced under force, they expand within the stone's holes and form a tight connection. The disadvantage of expansion bolts is that they are prone to cracking the stone. Therefore, the adhesive anchoring method used in this invention is superior to expansion bolts.
[0055] In this embodiment, the adhesive is used for bonding stone and metal, and since the soil environment for plant maintenance is consistently moist, AB glue is selected. During glue application, the product used in this embodiment is equipped with a mixing and dispensing tube. The dispensing tube is for single use and has winding channels inside. When using it, the dispensing tube is attached to the glue box outlet, and the rear piston is pushed to expel the glue, thus completing the mixing process. The glue is then injected into the holes or spread evenly on the surface of the stud 12. The curing time of AB glue varies depending on the type of adhesive; the product used in this embodiment initially cures in 30 seconds and reaches maturity in 1 hour. The anchor rod 1 should be used until it reaches its ideal strength within 24 hours. Therefore, the above operation, including embedding the stud 12 into the hole in the stone, should be completed within 30 seconds. If there is a delay, the adhesive block should be unscrewed with a screwdriver as soon as possible, or the adhesive block should be removed by soaking in hot water, or the hole should be re-drilled. After inserting the anchor rod 1, it can be tied between the support leg 2 and the stone with aluminum wire for auxiliary fixation. It should be noted that the auxiliary fixation is not necessary and can be selected according to the situation. For example, the stone can be erected and its own weight can be used to press the anchor point. After 24 hours, the anchor rod 1 is firmly bonded to the stone, and any binding can be removed.
[0056] Step S3, see Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 9 The support leg 2 is used to adjust the installation height and angle of the stone.
[0057] The support leg 2 is provided with a mounting hole 21, the diameter of which is larger than the diameter of the stud 12. The anchor rod 1 connects to the support leg 2 through the mounting hole 21, that is, the stud 12 passes through the mounting hole 21 on the support leg 2 to connect to the stone. The support leg 2 is divided into two parts by the mounting hole 21. One part of the support leg 2 is made of a pre-bent metal sheet; that is, part of the support leg 2 is pre-bent. The length and width of the metal sheet are selected as needed. The metal sheet combines plasticity and toughness, allowing it to be stretched, bent, or twisted, facilitating the adjustment of the stone angle; therefore, it is used. In this embodiment, the specifications of the metal sheet are: 40mm wide, 3mm thick, and 350mm long. The material is stainless steel, which prevents rust and has a long service life. Common impact drills cannot drill through the metal sheet; a bench drill can be used to drill holes in the stainless steel sheet. As needed, the installation height and angle of the stone can be adjusted by twisting and bending the support leg 2 to achieve the best viewing effect. For example, refer to... Figure 3 After stretching the pre-bending section, the installation angle can be adjusted, making the operation simpler. If the base is exposed after angle adjustment, it can be covered with soil when planting plants later.
[0058] In addition, the end of the support leg 2 has a positioning hole 22, through which the support leg 2 is connected to the suction cup 3.
[0059] Step S4, see Figure 1 , Figure 2 , Figure 3 , Figure 4 and Figure 9 Using suction cup 3, initial fixation is completed.
[0060] The suction cup 3 includes a disc body 31, a connecting rod 32, and a button 33, which are connected as one unit. The disc body 31 is made of rubber and has a concave lower end for easy operation. The suction cup 3 is used for positioning and vibration reduction.
[0061] Furthermore, the positioning hole 22 is a flat and elongated hole, in which the connecting rod 32 is inserted, so the suction cup 3 can move back and forth to facilitate position adjustment.
[0062] After confirming the bonsai base is positioned inside the pot, press button 33 on suction cup 3. The air inside the lower part of the plate 31 is expelled, creating a negative pressure state and a pressure difference with the outside. The suction cup 3 is then pressed firmly against the bottom of the pot by the atmospheric pressure, thus initially securing it along with the stone. However, the airtightness of the plate 31 is difficult to achieve 100%. As outside air is slowly drawn in, the suction cup 3 will eventually loosen; it's just a matter of time. Therefore, to ensure a secure and lasting connection, the next step is required.
[0063] Step S5, see Figure 4 and Figure 9 Connect to the bottom of the basin to complete the final fixation.
[0064] Finally, aluminum wire is threaded through the drainage hole at the bottom of the pot to bind the support leg 2 to the bottom of the pot. Then, the aluminum wire is tightened to complete the stone fixing. Generally, bonsai pots are divided into high-end and low-end grades. In addition to the drainage hole, high-end pots also have small holes at the bottom, also called binding holes, specifically for threading aluminum wire. Iron wire is too rigid and lacks plasticity; if the tightening force is not controlled properly, the iron wire can easily damage the pot. Furthermore, the soil environment for plant care is constantly moist, making iron wire prone to rusting and having poor weather resistance. Therefore, it is best not to use iron wire.
[0065] The key technical point of this embodiment is that the existing bonsai base is a rigid structure, while this embodiment improves it into a flexible metal structure. The improved base structure is lightweight and has sufficient support strength. The metal sheet has good ductility. To increase ductility, this embodiment also has an additional bend allowance, which can easily raise the stone. Because of the above-mentioned technical means, compared with the existing technology, the stone anchoring structure and its usage method provided in this embodiment are new methods.
[0066] (1) The space originally occupied by the stone is utilized, and the support leg 2 of the base is small in volume. The remaining space in the pot after deducting the support leg 2 can be used for soil filling. Therefore, the soil filling space is sufficient to meet the needs of plant growth.
[0067] Similar to "The Crow and the Pitcher," an Aesop fable about a crow finding a pitcher with little water but unable to drink it, the crow devises a clever plan: it uses its beak to drop pebbles into the pitcher. Because the pebbles take up some space, as more pebbles are added, the water level rises, allowing the crow to drink. However, here, the principle is reversed: if the pebbles are removed (equivalent to raising the pitcher), the bottom of the pitcher will be filled with water (water is like soil; although the pitcher is limited in height, there is enough space to fill it with soil).
[0068] (2) The support leg 2 is made of a pre-reserved curved metal sheet, which can be stretched, bent or twisted, so the height and angle of the stone can be adjusted as needed.
[0069] In summary, this embodiment features a simple structure, reasonable design, and convenient implementation. It solves the problems of bulky and non-adjustable structures in existing rock-attached bonsai bases, achieving the effect of resisting stone displacement and preventing overturning while being easily adjustable, and providing sufficient soil space for plant growth. This invention improves the load transfer mechanism of rock-attached bonsai bases, greatly enhancing the scientific and advanced nature of base design, and creating conditions for the development of rock-attached bonsai art.
[0070] The inventors discovered that in rock-attached bonsai, the larger the base volume, the more stable the stone stands; however, the smaller the soil filling space, the less conducive it is to plant growth, creating a contradiction between the base volume and the soil filling space. Simultaneously, the structural stability is related to the size of the support area; note that the support surface is not the same as the contact surface. Compared to metal materials, concrete's disadvantages include low tensile strength, approximately 1 / 10 of its compressive strength and 1 / 100 of that of steel reinforcement. Concrete is a brittle material with poor ductility and deformation capacity, only able to withstand a small amount of tensile deformation (approximately 0.003), otherwise it will crack due to insufficient strength. While ensuring mechanical properties, these factors result in concrete components being heavy and bulky; this is why related technologies cannot achieve the desired beneficial effects. With the emergence of new materials and processes, it is essential to apply them to and improve traditional rock-attached bonsai art.
[0071] Example 2
[0072] See Figure 6Furthermore, based on Embodiment 1, the nut 11 is replaced with a nut 13, which is connected to the stud 12. That is, the stud 12 has threads that match the nut 13. Thus, when installing the base, the stud 12 can first be anchored to the holes in the stone. After anchoring, the support leg 2 is then fitted through the mounting hole 21 and tightened with the nut 13. Therefore, this embodiment facilitates installation and removal.
[0073] Example 3
[0074] See Figure 7 and Figure 8 Optionally, based on Embodiment 1 or Embodiment 2, the reserved bend of the support leg 2 is removed, and the end of the support leg 2 is divided into two pieces. One piece has multiple rows of connecting holes 23, and the other piece has a single row of connecting holes 23. The two pieces are connected by fasteners 24 through the connecting holes 23. When the stone is heavy, the support leg 2 cannot be too thin, making it difficult to bend. This embodiment provides another adjustment method: the height of the support leg 2 can also be adjusted by changing the position of the connection point. This embodiment is suitable for heavy stone.
[0075] The above descriptions are merely some embodiments of the present invention. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principles of the present invention, and these improvements and modifications should also be considered within the scope of protection of the present invention.
Claims
1. A stone anchoring structure, characterized in that: Applied to rock-attached bonsai, it includes anchor rods and legs. The legs are fixedly connected to the rock through the anchor rods and to the flowerpot. The legs have a shape structure, which is used to adjust the height or angle of the rock. It also includes a suction cup, which comprises a plate body, a connecting rod, and a button. The upper end of the connecting rod is connected to the button, and the lower end is connected to the plate body. The plate body is made of rubber, and the lower end of the plate body is recessed inward. The support leg is fixedly connected to the flowerpot via the suction cup. The support leg is made of a metal sheet, the thickness of which is less than a preset thickness, and the shape structure is a curved part on the support leg; Alternatively, the end of the support leg may be divided into two pieces, one of which has multiple rows of connecting holes and the other has a single row of connecting holes. The two pieces are connected by fasteners through the connecting holes, and the shape structure is formed by changing the position of the connection point.
2. The stone anchoring structure as described in claim 1, characterized in that: The anchor bolt includes a stud and a nut or bolt, one end of which is inserted into the stone and bonded to the stone with an adhesive.
3. The stone anchoring structure as described in claim 1, characterized in that: The support legs are made of stainless steel.
4. The stone anchoring structure as described in any one of claims 1-3, characterized in that: The support leg also has a positioning hole at its end, and the connecting rod is engaged in the positioning hole.
5. The stone anchoring structure as described in claim 4, characterized in that: The positioning hole is a flat, elongated hole, and its position can be adjusted by moving it back and forth using a suction cup.
6. A method of using the stone anchoring structure according to claim 1, characterized in that: Includes the following steps: Step S1: Drill holes in the stone; Step S2: Inject adhesive into the hole, insert the anchor rod, and fix the anchor rod to the support leg. Step S3: Adjust the height or angle of the stone by adjusting the shape structure; Step S4: Connect the support leg to the flowerpot.
7. The method of using the stone anchoring structure as described in claim 6, characterized in that: The support leg is made of a thin metal sheet with the following specifications: 40mm wide, 3mm thick, and 350mm long. The shape structure is the curved part on the support leg. In step S3, the shape structure is adjusted, that is, the curved part is bent.
8. The method of using the stone anchoring structure as described in claim 6, characterized in that: The end of the support leg is divided into two pieces, one of which has multiple rows of connecting holes and the other has a single row of connecting holes. The method for adjusting the shape structure in step S3 is to change the position of the connection point and connect the two pieces with fasteners through the connecting holes.