Telegraph pole with anti-toppling function
By designing segmented support components and anti-tipping components, the problem of reduced strength and tipping of utility poles under harsh weather conditions has been solved, achieving higher installation strength and stability, extending service life and reducing replacement costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Applications(China)
- Current Assignee / Owner
- HUNAN XIANGDIAN HENGYUAN POWER EQUIPMENT CO LTD
- Filing Date
- 2026-04-20
- Publication Date
- 2026-06-05
AI Technical Summary
The cement material of existing utility poles is prone to cracking after being subjected to high temperatures and severe cold. Rainwater and snowmelt seep in and corrode the steel bars, leading to a decrease in strength. Regular replacement is necessary, which is costly and labor-intensive.
The system employs segmented support components and anti-tipping components. The segmented support components connect the upper and lower sections of the rod with fastening tie rods to increase installation strength. The anti-tipping components expand the support area through a stabilizing base and load-bearing helical tubes to prevent tipping. The internal drying helical tubes keep the system dry, while the outer protective plate provides protection.
It improves the overall strength and stability of utility poles, extends their service life, reduces replacement costs, and prevents loosening and corrosion caused by ground shaking.
Smart Images

Figure CN122148116A_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of utility pole technology, specifically to a utility pole with an anti-tipping function. Background Technology
[0002] Utility poles are pole-shaped structures that support power and communication lines. They are mainly divided into wooden poles, cement poles, and metal poles. Cement utility poles have become the mainstream due to their economy and durability. They can be divided into ordinary reinforced concrete poles, prestressed concrete poles, and partially prestressed concrete poles. Prestressed poles can effectively prevent cracks and are more widely used. In nuclear power transmission equipment, utility poles are also required as supporting structures for power cables.
[0003] The patent application number CN201521095180.2 mentions "a safety utility pole with a transformer". The device inflates the airbag on the ground, and then the system automatically pops out the burst airbag, which throws unrelated personnel onto the inflated airbag on the ground to ensure the safety of unrelated personnel.
[0004] However, the cement used for utility poles on the market is a brittle material. After years of high and low temperatures, cracks easily appear on the surface, and rainwater and snowmelt can seep into the pole, corroding the internal steel bars, causing the pole to lose strength or even collapse. It has poor weather resistance and needs to be replaced or repaired regularly, but replacing the entire pole is costly and laborious. Summary of the Invention
[0005] This invention provides a utility pole with an anti-tipping function, which can effectively solve the problems mentioned in the background art. The cement of utility poles is a brittle material. After years of high temperature and severe cold, cracks easily appear on the surface. Rainwater and snow water will seep into the pole body and corrode the internal steel bars, leading to a decrease in the strength of the utility pole or even collapse. It has poor weather resistance and needs to be replaced or repaired regularly, but replacing the entire utility pole is costly and laborious.
[0006] To achieve the above objectives, the present invention provides the following technical solution: a utility pole with anti-tipping function, comprising a stable base, wherein a segmented support assembly is installed on the top surface of the stable base, and the segmented support assembly comprises a lower bottom tube; The top surface of the stable base is equipped with a lower bottom tube, and bottom connecting screws are evenly installed on the edge of the lower bottom tube. A lower rod is installed at the top of the lower bottom tube, and a lower top tube is snapped onto the top of the lower rod. An upper bottom tube is installed at the top of the lower top tube through a top connecting screw, and an upper rod is snapped onto the top of the upper bottom tube. The bottom ends of the lower jacking pipe and the upper bottom pipe are evenly provided with limit slots. A fastening rod is movably engaged inside the limit slot. A limit block is welded to the top of the fastening rod. A rotating seat is hinged to the bottom of the fastening rod. The rotating seat is rotatably embedded in the top of the fastening inner threaded tube. The fastening inner threaded tube is connected to the top of the screw rod through a threaded connection. A protective plate is attached to the outer side of the lower section rod at the fastening tie rod location; A sealing cap is snapped onto the top of the upper section of the rod.
[0007] According to the above technical solution, the fastening rod is symmetrically slidably sleeved on the outside, and a sliding pressure block is slidably installed inside the sliding sleeve. The two opposite ends of the sliding pressure block and the sliding sleeve are respectively welded to the two ends of the compression spring, and the sliding pressure block is welded to the middle of one side of the arc-shaped card.
[0008] According to the above technical solution, the other side of the arc-shaped card is attached to the protective plate, and the arc-shaped card is a quarter-circular ring; The lower section of the rod is a cylinder with equal diameters at the top and bottom, while the upper section of the rod is a truncated pyramid with a larger diameter at the bottom and a smaller diameter at the top.
[0009] According to the above technical solution, the outer side of the upper rod is coated with a protective layer, the four protective plates are combined into a cylindrical shape, and the edges of the protective plates are inlaid with sealing rubber strips.
[0010] According to the above technical solution, a drying spiral tube is welded through the middle of the top surface of the sealing cover, a drying mesh cage is connected inside the drying spiral tube by threads, a sealing top cover is welded to the top of the drying mesh cage, and bagged desiccant is filled inside the drying mesh cage. The edge of the sealing cap is aligned with the top edge of the upper rod.
[0011] According to the above technical solution, an anti-slip groove is provided near the limiting pull block of the lower section jacking pipe, and the limiting pull block is movably engaged in the anti-slip groove.
[0012] According to the above technical solution, an anti-tipping component is installed inside the stable base, and the anti-tipping component includes an inner tube; The stable base has an inner tube welded to the center, and a horizontal tube is uniformly welded between the inner wall of the stable base and the inner tube. A side plate tube is symmetrically welded through the outer side of the horizontal tube. A load-bearing screw tube is slidably installed inside the horizontal tube. A load-bearing side plate is welded to the outer side of the load-bearing screw tube inside the side plate tube. A drive screw is threadedly connected inside the load-bearing screw tube. One end of the drive screw rotates through the bottom end of the inner tube, and the other end of the drive screw inside the inner tube is rotated and sleeved with a limiting shaft seat. The limiting shaft seat is welded to the bottom surface of the inner tube. A driven bevel gear is fixedly sleeved on the drive screw near the limiting shaft seat. All four driven bevel gears mesh with the driving bevel gear through threads. A transmission rod is welded to the middle of the top surface of the driving bevel gear. An isolation plate is rotated and sleeved on the transmission rod near the driving bevel gear. The isolation plate is welded to the inner tube. A rotating sleeve is welded to the top of the transmission rod.
[0013] According to the above technical solution, the top end of the transmission rod is flush with the top end of the inner tube, and the rotating sleeve is a cylinder with a circular hole in the middle and a horizontal axis. The load-bearing side plate has a chamfered edge, and the outer side of the load-bearing side plate is attached to the inner side of the side plate tube.
[0014] According to the above technical solution, the top surface of the isolation plate is uniformly provided with sealing holes, and sealing tubes are uniformly embedded in the sealing holes. Several of the sealing tubes are connected to the bottom surface of the glue bag, and the glue bag is filled with sealant.
[0015] According to the above technical solution, an end cap is snapped between the top of the stable base and the inner tube. The top surface of the end cap is evenly provided with casting holes. The bottom connecting screws are all welded through the end cap, and the bottom ends of the bottom connecting screws are all welded to the bottom surface of the casting bottom ring.
[0016] Compared with the prior art, the beneficial effects of the present invention are as follows: 1. It is equipped with a segmented support assembly. The lower section rod is connected to the stable base, and the upper section rod is directly connected to the lower section rod. At the same time, it is also connected to the stable base through a fastening tie rod. The upper section rod is more firmly installed and the overall strength is higher. During the rotation of the fastening rod, the arc-shaped clamp holds and fixes the protective plate, ensuring that the protective plate fits tightly against the outside of the lower pole section. The protective plate is made of weather-resistant plastic. After the utility pole is installed, a drying mesh cage is installed inside the drying screw tube of the sealed cover to ensure that the relatively enclosed interior of the utility pole remains dry. With the interior kept dry and the exterior protected by the protective plate, the lower pole section has strong protective capabilities. After prolonged use, the upper pole section can be directly replaced. The lower pole section only requires loosening the fastening screw tube, rotating and removing the fastening rod to replace the protective plate. By utilizing the long-life stable base and lower pole section, as well as the replaceable upper pole section and protective plate, the service life of the utility pole in harsh climate areas is greatly extended. Moreover, compared to replacing the entire utility pole, partial replacement also reduces costs.
[0017] 2. An anti-tipping component is provided. The stabilizing base is buried in the pit. After the stabilizing base is placed horizontally, the steel rod passing through the rotating sleeve rotates. The rotation is driven by the transmission rod to drive the active bevel gear to rotate. The active bevel gear drives the drive screw connected to the driven bevel gear to rotate. The drive screw pushes the load-bearing spiral tube and the load-bearing side plate to move horizontally along the tube and penetrate into the soil. After filling the sealant into the glue bladder, the sealing hole and sealing tube are aligned and snapped together. The end cap is then snapped between the stabilizing base and the top of the inner tube. Concrete is poured in through the pouring hole, with the top surface of the end cap horizontal and aligned with the top of the stabilizing base. The glue bladder is squeezed, and the sealant enters the space between the bottom of the inner tube and the isolation plate to prevent water from seeping into the bottom of the inner tube through the horizontal pipe and causing corrosion damage to the inside of the stabilizing base. The counterweight of the concrete inside the stabilizing base and the protective plate expand the support area, further improving the stability of the subsequent installation of the utility pole and preventing it from tipping over. In summary, the segmented support assembly improves the weather resistance of part of the utility pole structure, while the other part serves as a replaceable component, extending the overall service life. Furthermore, the stabilizing base acts directly on the upper section of the pole through the fastening rod, resulting in higher installation strength. The anti-tipping assembly enhances support stability by expanding the support area of the stabilizing base, preventing loosening at the connection points of the segmented support assembly due to ground swaying. The two components work together to achieve higher overall strength for the utility pole. Attached Figure Description
[0018] The accompanying drawings are provided to further illustrate the invention and form part of the specification. They are used together with the embodiments of the invention to explain the invention and do not constitute a limitation thereof.
[0019] In the attached diagram: Figure 1 This is a three-dimensional structural schematic diagram of the present invention; Figure 2 This is a schematic diagram of the segmented support component of the present invention; Figure 3 This is a schematic diagram of the installation structure of the upper bottom pipe of the present invention; Figure 4 This is the present invention. Figure 3 A schematic diagram of the structure of region A; Figure 5 This is the present invention. Figure 3 A schematic diagram of the structure of region B; Figure 6 This is a schematic diagram of the anti-tipping component of the present invention; Figure 7 This is a schematic diagram of the installation structure of the transmission rod of the present invention; Figure 8 This is the present invention. Figure 7 A schematic diagram of the C region structure; Numbered in the diagram: 1. Stabilizing base; 2. Segmented support assembly; 201. Lower section bottom tube; 202. Bottom connecting screw; 203. Lower section rod; 204. Lower section top tube; 205. Top connecting screw; 206. Upper section bottom tube; 207. Upper section rod; 208. Limiting slot; 209. Fastening pull rod; 210. Limiting pull block; 211. Anti-slip groove; 212. Rotating seat; 213. Fastening inner threaded tube; 214. Protective plate; 215. Sealing cover; 216. Sliding sleeve; 217. Sliding pressure block; 218. Compression spring; 219. Arc-shaped clip; 220. Drying threaded tube; 221. Drying mesh cage; 222. Sealing top cover; 3. Anti-tipping assembly; 301. Inner tube; 302. Horizontal tube; 303. Side plate tube; 304. Load-bearing screw tube; 305. Load-bearing side plate; 306. Drive screw; 307. Limiting shaft seat; 308. Driven bevel gear; 309. Driven bevel gear; 310. Transmission rod; 311. Isolation plate; 312. Rotating sleeve; 313. Sealing hole; 314. Sealing tube; 315. Glue bladder; 316. End cap; 317. Casting hole; 318. Casting bottom ring. Detailed Implementation
[0020] The preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood that the preferred embodiments described herein are for illustration and explanation only and are not intended to limit the present invention.
[0021] Example: Figure 1-8 As shown, the present invention provides a utility pole with anti-tipping function, including a stable base 1, a segmented support assembly 2 installed on the top surface of the stable base 1, the segmented support assembly 2 including a lower bottom tube 201, a bottom connecting screw 202, a lower rod 203, a lower top tube 204, a top connecting screw 205, an upper bottom tube 206, an upper rod 207, a limiting slot 208, a fastening pull rod 209, a limiting pull block 210, an anti-slip groove 211, a rotating seat 212, a fastening inner threaded tube 213, a protective plate 214, a sealing cover 215, a sliding sleeve 216, a sliding pressure block 217, a compression spring 218, an arc-shaped clip 219, a drying threaded tube 220, a drying mesh cage 221, and a sealing top cover 222; The top surface of the stable base 1 is equipped with a lower section bottom tube 201. The lower section bottom tube 201 is evenly equipped with bottom connecting screws 202 along its edge. The top of the lower section bottom tube 201 is equipped with a lower section rod 203. The top of the lower section rod 203 is snapped onto a lower section top tube 204. The top of the lower section top tube 204 is connected to an upper section bottom tube 206 via a top connecting screw 205. The top of the upper section bottom tube 206 is snapped onto an upper section rod 207. The lower section jacking pipe 204 and the upper section bottom pipe 206 are evenly provided with limit slots 208 at their bottom ends. A fastening rod 209 is movably engaged inside the limit slot 208. A limit block 210 is welded to the top of the fastening rod 209. An anti-slip groove 211 is provided on the lower section jacking pipe 204 near the limit block 210. The limit block 210 is movably engaged in the anti-slip groove 211. A rotating seat 212 is hinged to the bottom end of the fastening rod 209. The rotating seat 212 is rotatably embedded in the top end of the fastening inner threaded tube 213. The fastening inner threaded tube 213 is connected to the top end of the threaded bottom connecting screw 202. A protective plate 214 is attached to the outer side of the lower section rod 203 corresponding to the fastening rod 209. The outer side of the upper section rod 207 is coated with a protective layer. The four protective plates 214 are combined into a cylindrical shape. The edges of the protective plates 214 are inlaid with sealing rubber strips to improve the service life of the utility pole in harsh environments. A sliding sleeve 216 is symmetrically slidably sleeved on the outer side of the fastening rod 209. A sliding pressure block 217 is slidably installed inside the sliding sleeve 216. The two opposite ends of the sliding pressure block 217 and the sliding sleeve 216 are respectively welded to the two ends of the compression spring 218. The sliding pressure block 217 is welded to the middle of one side of the arc-shaped clip 219 to facilitate the compression and fixation of the protective plate 214. The other side of the arc-shaped clip 219 is attached to the protective plate 214. The arc-shaped clip 219 is a quarter-circular ring. The lower section rod 203 is a cylinder with equal diameter at the top and bottom. The upper section rod 207 is a platform with a larger bottom and a smaller top, which makes the arc-shaped clip 219 fit the protective plate 214 better and improves the support and fixation effect. A sealing cap 215 is snapped onto the top of the upper section rod 207. A drying spiral tube 220 is welded through the middle of the top surface of the sealing cap 215. A drying mesh cage 221 is connected to the inside of the drying spiral tube 220 by threads. A sealing top cover 222 is welded to the top of the drying mesh cage 221. The drying mesh cage 221 is filled with bagged desiccant. The edge of the sealing cap 215 is aligned with the edge of the top of the upper section rod 207.
[0022] The stable base 1 is equipped with an anti-tipping component 3, which includes an inner tube 301, a horizontal tube 302, a side plate tube 303, a load-bearing screw tube 304, a load-bearing side plate 305, a drive screw 306, a limit shaft seat 307, a driven bevel gear 308, a driving bevel gear 309, a transmission rod 310, an isolation plate 311, a rotating sleeve 312, a sealing hole 313, a sealing tube 314, a glue bladder 315, an end cap 316, a pouring hole 317, and a pouring bottom ring 318. An inner tube 301 is welded to the center of the stable base 1. A horizontal tube 302 is uniformly welded between the inner wall of the stable base 1 and the inner tube 301. A side plate tube 303 is symmetrically welded through the outer side of the horizontal tube 302. A load-bearing screw tube 304 is slidably installed inside the horizontal tube 302. A load-bearing side plate 305 is welded to the outer side of the load-bearing screw tube 304 inside the side plate tube 303. A drive screw 306 is threadedly connected inside the load-bearing screw tube 304. One end of the drive screw 306 rotates through the bottom end of the inner tube 301. An end cap 316 is snapped between the top of the stabilizing base 1 and the inner tube 301. The top surface of the end cap 316 has evenly spaced pouring holes 317. The bottom connecting screws 202 all pass through and are welded to the end caps 316. The bottom ends of the bottom connecting screws 202 are all welded to the bottom surface of the pouring bottom ring 318, which makes the bottom connecting screws 202 better fixed in the concrete. The drive screw 306 is rotated and sleeved with a limiting shaft seat 307 inside the inner tube 301. The limiting shaft seat 307 is welded to the bottom surface inside the inner tube 301. A driven bevel gear 308 is fixedly sleeved near the limiting shaft seat 307 on the drive screw 306. All four driven bevel gears 308 mesh with the driving bevel gear 309 through threads. A transmission rod is welded to the middle of the top surface of the driving bevel gear 309. 310. A partition plate 311 is rotatably sleeved on the transmission rod 310 near the active bevel gear 309. Sealing holes 313 are evenly opened on the top surface of the partition plate 311. Sealing tubes 314 are evenly embedded in the sealing holes 313. Several sealing tubes 314 are connected to the bottom surface of the glue bag 315. The glue bag 315 is filled with sealant. The partition plate 311 is welded to the inner tube 301. A rotating sleeve 312 is welded to the top of the transmission rod 310. The top of the transmission rod 310 is flush with the top of the inner tube 301. The rotating sleeve 312 is a cylinder with a round hole in the middle and a horizontal axis. The edge of the load-bearing side plate 305 is chamfered, and the outer side of the load-bearing side plate 305 is attached to the inner side of the side plate tube 303 to better drive the rotating sleeve 312 to rotate, so that the load-bearing side plate 305 slides smoothly in the side plate tube 303.
[0023] The working principle and usage process of this invention: When installing a utility pole, a pit is dug at a designated location, the stable base 1 is buried in the pit, and it is ensured that there are no large rocks around the pit that would obstruct the load-bearing side plate 305. After the stable base 1 is placed horizontally, the steel rod passes through the rotating sleeve 312 and rotates. The transmission rod 310 drives the active bevel gear 309 to rotate, and the active bevel gear 309 drives the drive screw 306 connected to the driven bevel gear 308 to rotate. The drive screw 306 pushes the load-bearing screw tube 304 and the load-bearing side plate 305 to move along the horizontal tube 302 and penetrate into the soil. After rotating to a designated number of turns, and ensuring that the horizontal tube 302 has moved a long enough distance, or when the horizontal tube 302 is difficult to move further, the steel rod in the rotating sleeve 312 is pulled out. After filling the sealant into the glue bladder 315, the sealing hole 313 and the sealing tube 314 are aligned and snapped together. The end cap 316 is snapped and installed between the top of the stabilizing base 1 and the top of the inner tube 301. After ensuring that the end cap 316 is horizontal, concrete is poured in through the pouring hole 317. The top surface of the end cap 316 is horizontal and aligned with the top of the stabilizing base 1. After the concrete solidifies, the glue bladder 315 is squeezed, and the sealant enters the space between the bottom of the inner tube 301 and the isolation plate 311 to prevent water from seeping into the bottom of the inner tube 301 through the horizontal pipe 302 and causing corrosion damage to the inside of the stabilizing base 1. The counterweight of the concrete in the stabilizing base 1 and the protective plate 214 expand the support area, further improving the stability of the subsequent installation of the utility pole and preventing it from tipping over. Both the lower section rod 203 and the upper section rod 207 are made of reinforced concrete. The lower bottom pipe 201 and the lower top pipe 204 are firmly fixed to both ends of the lower section rod 203 during its forming. Similarly, the upper bottom pipe 206 and the sealing cap 215 are fixed to both ends of the upper section rod 207. First, the lower section rod 203 is hoisted to the top surface of the stable base 1. The bottom end of the lower bottom pipe 201 is installed on the top surface of the end cap 316 of the stable base 1 via the bottom connecting screw 202. The nut of the bottom connecting screw 202 is tightened to fix the lower section rod 203. At this time, the inner threaded tube 213 is installed at the threaded end of the bottom connecting screw 202 at the corresponding limit slot 208 position, and the protective plate 214 is initially attached to the outside of the lower section rod 203. Next, the upper section rod 207 is hoisted, and the lower section rod 207 is hoisted to the top surface of the upper section rod 207. The limiting slots 208 of the top pipe 204 and the bottom pipe 206 are aligned with each other. The fastening rod 209 is rotated around the connection between the rotating seat 212 and the fastening tie rod 209, so that the fastening tie rod 209 is engaged in the limiting slot 208. The fastening inner threaded tube 213 is rotated and moves down along the top of the bottom connecting screw 202 until the limiting pull block 210 is engaged in the anti-slip groove 211, thus initially fixing the upper section rod 207. Then, the top connecting screw 205 is installed to reinforce the connection of the upper section rod 207. The lower section rod 203 is connected to the stable base 1. The upper section rod 207 is directly connected to the lower section rod 203, and at the same time, it is also connected to the stable base 1 through the fastening tie rod 209. The upper section rod 207 is more firmly installed and has higher overall strength. During the rotation of the fastening rod 209, the sliding sleeve 216 fitted with the fastening rod 209 approaches the protective plate 214. The compression spring 218 inside the sliding sleeve 216 compresses the sliding block 217, pushing the arc-shaped clip 219 to clamp and fix the protective plate 214, so that the protective plate 214 fits tightly against the outside of the lower section pole 203. The protective plate 214 is made of weather-resistant plastic, while the lower bottom tube 201, lower top tube 204, upper bottom tube 206, and sealing cover 215 are all made of stainless steel. After the utility pole is installed, a drying mesh cage 221 is installed inside the drying screw tube 220 of the sealing cover 215. The drying mesh cage 221 is filled with bagged desiccant to ensure that the relatively sealed interior of the utility pole is kept warm. The pole is kept dry, both internally and externally, and protected by a protective plate 214. The lower pole 203 has strong protective capabilities, while the upper pole 207 is easily damaged and unsuitable for protection due to the need to install electrical fittings such as crossbars. Its weather resistance is slightly weaker than that of the lower pole 203. After prolonged use, the upper pole 207 can be directly replaced. The lower pole 203 can be replaced by simply loosening the fastening inner threaded tube 213, rotating and removing the fastening pull rod 209. The protective plate 214 can be replaced by using the long-life stable base 1 and the lower pole 203, as well as the replaceable upper pole 207 and the protective plate 214. This greatly extends the service life of the utility pole in harsh climate areas, and partial replacement also reduces costs compared to replacing the entire utility pole.
[0024] Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention and are 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 utility pole with anti-tipping function, comprising a stable base (1), characterized in that: The top surface of the stable base (1) is equipped with a segmented support assembly (2), which includes a lower bottom tube (201). The top surface of the stable base (1) is equipped with a lower bottom tube (201), and bottom connecting screws (202) are evenly installed on the edge of the lower bottom tube (201). A lower rod (203) is installed at the top of the lower bottom tube (201), and a lower top tube (204) is snapped onto the top of the lower rod (203). An upper bottom tube (206) is installed at the top of the lower top tube (204) through a top connecting screw (205), and an upper rod (207) is snapped onto the top of the upper bottom tube (206). The bottom ends of the lower top pipe (204) and the upper bottom pipe (206) are evenly provided with limit slots (208). A fastening rod (209) is movably engaged inside the limit slot (208). A limit block (210) is welded to the top of the fastening rod (209). A rotating seat (212) is hinged to the bottom of the fastening rod (209). The rotating seat (212) is rotatably embedded in the top of the fastening inner threaded tube (213). The fastening inner threaded tube (213) is connected to the top of the threaded bottom connecting screw (202) through a threaded connection. A protective plate (214) is attached to the outer side of the lower section rod (203) at the location corresponding to the fastening tie rod (209); A sealing cap (215) is snapped onto the top of the upper section rod (207).
2. A utility pole with anti-tipping function according to claim 1, characterized in that, The fastening rod (209) is symmetrically slidably sleeved with a sliding sleeve (216), and a sliding pressure block (217) is slidably installed inside the sliding sleeve (216). The two opposite ends of the sliding pressure block (217) and the sliding sleeve (216) are respectively welded to the two ends of the compression spring (218). The sliding pressure block (217) is welded to the middle of one side of the arc-shaped clip (219).
3. A utility pole with anti-tipping function according to claim 2, characterized in that, The other side of the arc-shaped card (219) is attached to the protective plate (214), and the arc-shaped card (219) is a quarter-circular ring; The lower section rod (203) is a cylinder with equal diameter at the top and bottom, and the upper section rod (207) is a platform with a larger bottom and a smaller top.
4. A utility pole with anti-tipping function according to claim 3, characterized in that, The upper rod (207) is coated with a protective layer on the outside, and the four protective plates (214) are combined into a cylindrical shape. The edges of the protective plates (214) are inlaid with sealing rubber strips.
5. A utility pole with anti-tipping function according to claim 1, characterized in that, A drying spiral tube (220) is welded through the middle of the top surface of the sealing cap (215). A drying mesh cage (221) is connected inside the drying spiral tube (220) by threads. A sealing top cap (222) is welded to the top of the drying mesh cage (221). The drying mesh cage (221) is filled with bagged desiccant. The edge of the sealing cap (215) is aligned with the top edge of the upper rod (207).
6. A utility pole with anti-tipping function according to claim 5, characterized in that, The lower section of the jacking pipe (204) has an anti-slip groove (211) near the limiting pull block (210), and the limiting pull block (210) is movably engaged in the anti-slip groove (211).
7. A utility pole with anti-tipping function according to claim 1, characterized in that, The stable base (1) is equipped with an anti-tipping component (3), which includes an inner tube (301). The stable base (1) has an inner tube (301) welded in the middle. A horizontal tube (302) is uniformly welded between the inner wall of the stable base (1) and the inner tube (301). A side plate tube (303) is symmetrically welded through the outer side of the horizontal tube (302). A load-bearing screw tube (304) is slidably installed inside the horizontal tube (302). A load-bearing side plate (305) is welded to the outer side of the load-bearing screw tube (304) inside the side plate tube (303). A drive screw (306) is connected to the inside of the load-bearing screw tube (304) by a thread. One end of the drive screw (306) rotates through the bottom end of the inner tube (301), and the end of the drive screw (306) inside the inner tube (301) is rotated and sleeved with a limiting bearing (307). The limiting bearing (307) is welded to the bottom surface inside the inner tube (301). A driven bevel gear (308) is fixedly sleeved near the limiting bearing (307) of the drive screw (306). All four driven bevel gears (308) mesh with the driving bevel gear (309) through threads. A transmission rod (310) is welded to the middle of the top surface of the driving bevel gear (309). An isolation plate (311) is rotated and sleeved near the driving bevel gear (309) of the transmission rod (310). The isolation plate (311) is welded to the inner tube (301). A rotating sleeve (312) is welded to the top of the transmission rod (310).
8. A utility pole with anti-tipping function according to claim 7, characterized in that, The top end of the transmission rod (310) is flush with the top end of the inner tube (301), and the rotating sleeve (312) is a cylinder with a circular hole in the middle and a horizontal axis. The edge of the load-bearing side plate (305) is chamfered, and the outer side of the load-bearing side plate (305) is attached to the inner side of the side plate tube (303).
9. A utility pole with anti-tipping function according to claim 7, characterized in that, The top surface of the isolation plate (311) is uniformly provided with sealing holes (313), and sealing tubes (314) are uniformly embedded inside the sealing holes (313). Several of the sealing tubes (314) are connected to the bottom surface of the glue bag (315), and the glue bag (315) is filled with sealant.
10. A utility pole with anti-tipping function according to claim 7, characterized in that, An end cap (316) is snapped between the top of the stable base (1) and the inner tube (301). The top surface of the end cap (316) is evenly provided with casting holes (317). The bottom connecting screws (202) are all welded through the end cap (316). The bottom ends of the bottom connecting screws (202) are all welded to the bottom surface of the casting bottom ring (318).