A type of anti-curing and anti-clogging pipe

CN121897787BActive Publication Date: 2026-06-30FUJIAN SHENGZE BIOLOGICAL TECH DEV CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
FUJIAN SHENGZE BIOLOGICAL TECH DEV CO LTD
Filing Date
2026-03-26
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing pipeline systems are prone to material clumping and blockage in high humidity environments, and the independent installation of suspension cables leads to complex installation, low efficiency, and difficult maintenance.

Method used

The pipe is secured with an auxiliary support frame to prevent curing, and the water supply pipe is fixed with a height-adjustable support frame and a locking cap. The pipe is scraped and supplied with water simultaneously through magnetic sliders and magnetic sliding blocks. The pipe is hoisted uniformly and no secondary installation is required.

Benefits of technology

It effectively prevents materials from solidifying and clogging, improves installation efficiency, reduces maintenance workload, and ensures that material and water supply are synchronized.

✦ Generated by Eureka AI based on patent content.

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Abstract

This invention discloses an anti-curing and clogging pipe, comprising an anti-curing pipe, several pipe-mounted auxiliary support frames installed on the anti-curing pipe, each of which is connected to a lifting cable, a water supply pipe placed on the pipe-mounted auxiliary support frames, a pipe body installed inside the anti-curing pipe, a pipe-mounted magnetic slider fixed at the center of the outer surface of the pipe body, several drip connectors installed on the water supply pipe, an auxiliary sliding track opened in the pipe-mounted magnetic slider, and a first magnetic slider installed in the auxiliary sliding track; a sleeve frame is set inside the pipe-mounted auxiliary support frames. This invention embeds the pipe-mounted auxiliary support frames into the anti-curing pipe, adjusts the height using height-adjusting supports within the sleeve frame, and then erects the water supply pipe via a pipe-mounting platform on a side support rod, securing it with a locking cap to prevent movement, so that the water supply pipe is located on one side of the anti-curing pipe, supplying water while supplying material, and finally hoisting it uniformly using the lifting cables of the pipe-mounted auxiliary support frames, eliminating the need for secondary hoisting work.
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Description

Technical Field

[0001] This invention relates to the field of pipeline technology, specifically to a pipeline designed to prevent solidification and blockage. Background Technology

[0002] This pipeline system precisely distributes granular / powder materials from the material tower to multiple target areas. It is made of food-grade plastic or stainless steel, which reduces the cost of manual delivery and ensures the timeliness and hygiene of material supply.

[0003] However, the existing technology still has the following shortcomings: Currently, most of the pipelines used as material distribution pipes are installed in a suspended manner. However, the factory environment generally has a high humidity problem. After the machine is shut down, the residual material in the pipe is easily exposed to the humid air and becomes damp and deteriorates, which then solidifies and clumps. In addition, water pipes need to be laid next to the material supply pipes, resulting in multiple suspension cables being installed in the factory. Each suspension cable is set up independently and runs in an intersecting manner, which not only causes visual confusion and space congestion, but also requires each pipe and its lifting equipment to be positioned, fixed and leveled separately during the installation process, which consumes a lot of time and makes it difficult to ensure the relative position accuracy. When maintaining or replacing any pipe later, it is also necessary to operate one by one, which is inefficient. Summary of the Invention

[0004] Other features and advantages of the invention will be set forth in the description which follows, and will be apparent in part from the description, or may be learned by practicing the invention. The objects and other advantages of the invention may be realized and obtained by means of the structures particularly pointed out in the description and other accompanying drawings.

[0005] The purpose of this invention is to overcome the above-mentioned shortcomings and provide a pipe that prevents curing and blockage. The anti-curing pipe is fixed by an auxiliary support frame on the pipe, and the height is adjusted by a height adjustment support frame. A water supply pipe with a locking cap is installed on the side frame pipe platform and placed on one side of the anti-curing pipe for simultaneous material and water supply. Finally, the pipe is hoisted by the support frame cable to avoid secondary installation.

[0006] To achieve the above objectives, the present invention provides the following technical solution: an anti-curing and clogging pipe, comprising an anti-curing pipe, wherein a plurality of pipe-mounted auxiliary support frames are installed on the anti-curing pipe, each of the pipe-mounted auxiliary support frames is connected to a suspension cable, a water supply pipe is placed on the pipe-mounted auxiliary support frame, a pipe body is provided inside the anti-curing pipe, a pipe-mounted magnetic slider is fixed at the center of the outer surface of the pipe body, a plurality of drip connectors are provided on the water supply pipe, an auxiliary sliding track is formed inside the pipe-mounted magnetic slider, and a first magnetic slider is installed in the auxiliary sliding track; a sleeve frame is provided inside the pipe-mounted auxiliary support frame, a frame top cable seat is fixed on the top of the sleeve frame, and an opening is formed on the inner wall of the sleeve frame. The frame is equipped with an even number of in-frame slide rails, each with an in-rail slide plate. Several frame-side locking holes are arranged in a straight line on both sides of the sleeve frame. A height-adjusting support is installed between these locking holes. An adjusting block is installed within the height-adjusting support. An embedded telescopic rod is installed at both ends of each adjusting block. An even number of rod-mounted swing blocks are installed on each embedded telescopic rod. An even number of fixing bolts are fixed above the adjusting block. An integrated side frame rod is connected to each of the even number of fixing bolts. A sleeve support platform is fixed to each side frame rod. One side frame rod has an alignment slot at its end, and another side frame rod has an adapter block. A locking cap is installed on the sleeve support platform.

[0007] In a further improvement to the present invention, the locking pipe cover is mounted between an even number of the pipe support platforms, and the pipe support platforms and the locking pipe cover clamp the water supply pipe. The adapter block engages in the alignment slot. The adjusting block is mounted between the sleeve frame frames via the embedded telescopic rod. The embedded telescopic rod needs to pass through the inner slide plate of the rail. After the swing block on the rod swings down, it engages with the outer wall of the sleeve frame frame. The frame top cable seat is connected to one end of the suspension cable.

[0008] In a further improvement to the present invention, an internal slide rail is installed in the center of the upper surface of the tube body, an even number of tube discharge ports are opened on the lower and upper surfaces of the tube body, side sealing blocks are fixed at both ends of the internal slide rail, a linkage support slider is arranged between the side sealing blocks, an even number of top springs are installed on both sides of the linkage support slider, a scraping component is installed inside the internal slide rail, and rail side grooves are opened on both sides of the internal slide rail.

[0009] In a further improvement to the present invention, the scraping assembly is provided with an even array of belt shaft fixing brackets, and each of the even array of belt shaft fixing brackets is equipped with a pipe wall-adhering scraping strip, and each pipe wall-adhering scraping strip has a strip end block fixed at its end.

[0010] In a further improvement to the present invention, an inner slide rail is provided inside the tube slide rail, a second magnetic slider is installed in the inner slide rail, and track-side pulley grooves are provided on both sides of the inner slide rail. Several block-side connecting rods are fixed on both sides of the second magnetic slider, and rollers are installed on the several block-side connecting rods. A linkage slide groove is provided below the inner slide rail.

[0011] In a further improvement to the present invention, the linkage slide groove is provided for the linkage support slider to slide, the two ends of the linkage slide groove are closed by the side sealing blocks, the roller is displaced in the track side pulley groove, and the second magnetic slider is driven by the first magnetic slider and displaces in the track within the rail.

[0012] In a further improvement to the present invention, the block-side connecting rod extends through the rail-side slot, the shaft-mounted fixing bracket is fixed to the outer wall of the second magnetic slider, the outer wall of the strip end block is fixed by one end of the top spring, the tube wall-attaching scraping strip is attached to the inner wall of the tube, and the strip has its own inclined surface.

[0013] In a further improvement to the present invention, a mating nesting disc is installed at one end of the pipe body, a mating flange is installed at the other end of the pipe body, an even number of discharge seats are installed on the outer surface of the pipe body, a sealing component is installed in each discharge seat, a seat threaded groove is opened on the discharge seat, and an interconnecting groove is opened in the discharge seat.

[0014] In a further improvement to the present invention, a base block is provided inside the sealing assembly, a threaded screw sleeve is installed on the base block, a rotary cylinder is fixed on the bottom surface of the base block, a top rod is installed in the rotary cylinder, and a material port adapter block is installed on the top of the top rod.

[0015] In a further improvement to the present invention, the material outlet adapter block is adapted to the discharge port on the pipe, the push rod drives the material outlet adapter block to rise through the threaded engagement of the rotary cylinder, the threaded connecting sleeve is threadedly connected to the threaded groove on the seat, the docking flange is used to connect to the docking nesting disc on another pipe body, and the interconnecting groove is positioned opposite to the discharge port on the pipe.

[0016] Compared with the prior art, the present invention has the following beneficial effects;

[0017] 1. This invention embeds the auxiliary support frame on the pipe onto the anti-curing pipe, and adjusts the height between the pipe frame and the height adjustment frame with the height adjustment frame. After adjustment, the water supply pipe is erected on the pipe support platform on the side frame rod and fixed by the pipe lock cover to prevent movement, so that the water supply pipe is located on one side of the anti-curing pipe. Water is supplied at the same time as the material is supplied. Finally, the pipe is hoisted by the hoisting cable of the auxiliary support frame, without the need for secondary hoisting work.

[0018] 2. In this invention, the first magnetic slider is moved on the auxiliary sliding track by the inspector, and the second magnetic slider is moved synchronously through magnetic connection. When the second magnetic slider moves, it drives the fixed brackets on both sides and the wall-mounted scraper to move together. The top block of the scraper is fixed by the top spring, and the scraper always adheres to the inner wall of the tube. During the displacement, the solidified material on the inner wall of the tube is scraped and detached, and finally discharged from the open discharge seat, avoiding problems such as reduced tube diameter, decreased supply pressure, insufficient flow, or even tube blockage and machine shutdown. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the structure of an anti-curing and clogging pipe according to the present invention;

[0020] Figure 2 This is a top view of the anti-curing pipe in an anti-curing blockage pipe according to the present invention;

[0021] Figure 3 This is a schematic diagram of the right side structure of the pipe body in an anti-curing and clogging pipe according to the present invention;

[0022] Figure 4 This is a schematic diagram of the left side structure of the pipe body in an anti-curing and clogging pipe according to the present invention;

[0023] Figure 5 This is a cross-sectional internal structure diagram of the slide rail inside a pipe in an anti-curing and clogging pipeline according to the present invention;

[0024] Figure 6 This is a bottom view of the pipe body in an anti-curing and clogging pipe according to the present invention;

[0025] Figure 7 This is an exploded structural diagram of a sealing component in a pipe designed to prevent curing and clogging, according to the present invention.

[0026] Figure 8 This is a three-dimensional structural diagram of an auxiliary support frame on a pipe for preventing solidification and blockage according to the present invention;

[0027] Figure 9 This is a top view schematic diagram of the height-adjustable support structure in an anti-curing and clogging pipe according to the present invention.

[0028] In the diagram: Anti-curing pipe-1, pipe auxiliary support frame-2, lifting cable-3, water supply pipe-4, pipe body-11, pipe magnetic slider-12, mating nesting plate-13, mating flange-14, discharge seat-15, sealing assembly-16, sleeve frame-21, frame top cable seat-22, frame inner slide rail-23, rail inner slide plate-24, frame side locking hole-25, height adjustment support frame-26, drip connector-41, pipe inner slide rail-111, pipe discharge port-112, side sealing block-113, linkage support slider-114, top spring-115, scraping assembly-116, rail side slot-117, auxiliary sliding track-121, first magnetic slider-122, seat threaded groove-1 51. Interconnecting groove - 152. Threaded screw sleeve - 161. Material port adapter block - 162. Seat block - 163. Rotating rod cylinder - 164. Top rod - 165. Adjusting block - 261. Embedded telescopic rod - 262. Rod swing block - 263. Fixing bolt block - 264. Side frame rod - 265. Pipe support platform - 266. Alignment slot - 267. Adapter block - 268. Locking pipe cover - 269. Rail inner slide - 1111. Second magnetic slider - 1112. Track side pulley groove - 1113. Block side connecting rod - 1114. Roller - 1115. Linkage slide groove - 1116. Shaft-fixed bracket - 1161. Pipe wall scraping strip - 1162. Strip end top block - 1163. Detailed Implementation

[0029] To make the objectives, technical solutions, and advantages of this invention clearer, the invention will be further described in detail below with reference to specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

[0030] Furthermore, in the description of this invention, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "axial," "radial," and "circumferential" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this invention and simplifying the description, and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this invention.

[0031] In this invention, unless otherwise explicitly specified and limited, the terms "installation," "connection," "linking," and "fixing," etc., should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral unit; they can refer to a direct connection or an indirect connection through an intermediate medium; they can refer to the internal communication of two components or the interaction between two components. However, specifying a direct connection indicates that the two main bodies are not connected through a transitional structure, but rather formed as a whole through a connecting structure. Those skilled in the art can understand the specific meaning of the above terms in this invention according to the specific circumstances.

[0032] In this invention, unless otherwise expressly specified and limited, the first feature "on" or "below" the second feature may be in direct contact with the first and second features, or indirect contact through an intermediate medium. In the description of this specification, references to terms such as "one embodiment," "some embodiments," "example," "specific example," or "some examples," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0033] The present invention will be further described below with reference to the accompanying drawings:

[0034] Example 1

[0035] As attached Figure 1 To be continued Figure 5 As shown:

[0036] This embodiment provides an anti-curing and blockage-preventing pipe, including an anti-curing pipe 1, a plurality of pipe-mounted auxiliary support frames 2 installed on the anti-curing pipe 1, each of the pipe-mounted auxiliary support frames 2 being connected to a suspension cable 3, a water supply pipe 4 being placed on the pipe-mounted auxiliary support frames 2, a pipe body 11 being provided inside the anti-curing pipe 1, a pipe-mounted magnetic slide bar 12 being fixed at the center of the outer surface of the pipe body 11, a docking nesting plate 13 being installed at one end of the pipe body 11, a docking flange 14 being installed at the other end of the pipe body 11, an even number of discharge seats 15 being installed on the outer surface of the pipe body 11, each of the discharge seats 15 being equipped with a sealing component 16, an auxiliary sliding track 121 being opened inside the pipe-mounted magnetic slide bar 12, and a first magnetic suction slider 122 being installed inside the auxiliary sliding track 121.

[0037] Furthermore, the mating nesting plate 13 is mainly used to nest and connect with the mating flange 14 on another connected pipe body 11. After the two are nested, they are locked and fixed by bolts to adapt to different pipeline layout requirements.

[0038] Furthermore, the magnetic slider 12 on the tube is mainly installed at the center above the outer surface of the tube body 11, and the auxiliary sliding track 121 opened inside is mainly used for the first magnetic slider 122 to move, so as to move the built-in components of the tube slide rail 111 together.

[0039] The pipe body 11 has an inner slide rail 111 installed in the center of the upper inner surface, an even number of upper discharge ports 112 opened on the lower inner surface, a side sealing block 113 fixed at both ends of the inner slide rail 111, a linkage support slider 114 arranged between the side sealing blocks 113, an even number of top springs 115 installed on both sides of the linkage support slider 114, a scraping component 116 installed inside the inner slide rail 111, and a rail side groove 117 opened on both sides of the inner slide rail 111.

[0040] Furthermore, the inner slide rail 111 is mainly used for the displacement of the scraping assembly 116. It is installed at the center of the upper part of the inner wall of the tube body 11, and directly below the discharge port 112 on the tube.

[0041] Furthermore, the linkage support slider 114 is an inverted "conical block" with sliders on both sides to facilitate subsequent linkage displacement.

[0042] Furthermore, the rail side slot 117 is mainly used to connect the scraping assembly 116 to the internal drive component of the tube slide rail 111, so that the scraping assembly 116 moves along with the drive component inside the tube slide rail 111 as the drive component moves.

[0043] The slide rail 111 has an inner slide rail 1111, a second magnetic slider 1112 is installed in the inner slide rail 1111, and track-side pulley grooves 1113 are provided on both sides of the inner slide rail 1111. Several block-side connecting rods 1114 are fixed on both sides of the second magnetic slider 1112, and rollers 1115 are installed on the several block-side connecting rods 1114. A linkage slide groove 1116 is provided below the inner slide rail 1111.

[0044] Furthermore, the inner track 1111 mainly provides space for the displacement of the second magnetic slider 1112, and the second magnetic slider 1112 is displaced in the track-side pulley groove 1113 by the rollers 1115 on the block-side connecting rods 1114 fixed on both sides.

[0045] Furthermore, the linkage slide 1116 is mainly used to install the linkage support slider 114, so that while the second magnetic slider 1112 moves in the upper rail slide 1111, it works in conjunction with the top spring 115 fixed on the outer wall of the linkage support slider 114 and the scraping assembly 116 to form a linkage.

[0046] Furthermore, the block-side connecting rod 1114 partially passes through the rail-side slot 117, while the scraping assembly 116 is fixed between the block-side connecting rods 1114, and both are fixed to the side wall of the second magnetic slider 1112.

[0047] The scraping assembly 116 is provided with an even array of belt shaft fixing brackets 1161, and each even array of belt shaft fixing brackets 1161 is equipped with a pipe wall-adhering scraping strip 1162, and each pipe wall-adhering scraping strip 1162 has a strip end block 1163 fixed at its end.

[0048] Furthermore, the shaft-mounted fixing bracket 1161 is mainly fixed to the side wall of the second magnetic slider 1112. The wall-mounted scraper 1162 is hinged and swings through its own shaft, so that the wall-mounted scraper 1162 always adheres to the inner wall of the tube body 11.

[0049] Furthermore, the wall-mounted scraping strip 1162 is in the shape of a "6" and is hinged to the shaft on the shaft fixing bracket 1161. A strip end block 1163 is fixed on the outer wall of the "6" ring in the wall-mounted scraping strip 1162. When the strip end block 1163 is engaged, the top spring 115 is subjected to force and transmitted to the wall-mounted scraping strip 1162.

[0050] Furthermore, the pipe wall scraping strip 1162 is provided in two sets, both of which are installed on different shaft-mounted fixing brackets 1161 and are staggered, with their ends fitting together to form a ring, so that the solidified material on the inner wall of the pipe body 11 can be scraped more completely.

[0051] Furthermore, the surface of the pipe wall scraper 1162 has a 45° chamfer, which prevents material from getting stuck in front of the pipe wall scraper 1162 during the feeding process.

[0052] The specific working principle is as follows:

[0053] This invention connects multiple anti-curing pipes 1, so that the mating nesting plate 13 on the pipe body 11 and the mating flange 14 on another pipe body 11 are nested together and fastened with bolts. The pipe body 11 is suspended at a designated position by an external pipe-mounted auxiliary support frame 2 and a hanging cable 3. The water supply pipe 4 is set on one side of the anti-curing pipe 1. After the pipe body 11 has been used for a period of time, during the inspection process, the inspector can push the first magnetic slider 122 in the pipe-mounted magnetic slider 12, so that the first magnetic slider 122 moves in the auxiliary sliding track 121. The sealing component 16 under the discharge seat 15 is disassembled. During the movement of the first magnetic slider 122, the magnetic slider 1112 in the pipe slide rail 111 is driven by the magnetism to form a linkage. The second magnetic slider 1112 moves on both sides of the slide rail 1111. The rollers 1115 on the pulley groove 1113 and the side connecting rods 1114 on both sides provide assistance, indirectly driving the scraping assembly 116 between the side connecting rods 1114 to move together. The top block 1163 fixed on the wall-adhering scraping strip 1162 is always held in place by the top spring 115, so that the wall-adhering scraping strip 1162 on the shaft fixing bracket 1161 always adheres to the inner wall of the pipe body 11. The linkage support slider 114 at the end of the top spring 115 moves in conjunction with the linkage slide groove 1116, so that the wall-adhering scraping strip 1162 scrapes off the solidified material on the inner wall of the pipe body 11 and pushes it to the discharge seat 15 for discharge. This effectively avoids problems such as reduced pipe diameter, decreased supply pressure, insufficient flow, or even pipe blockage and shutdown caused by the solidified material generated during the feeding process. At the same time, it is not necessary to disassemble and clean the anti-curing pipe 1 regularly.

[0054] Example 2:

[0055] As attached Figure 1 To be continued Figure 2 Appendix Figure 6 To be continued Figure 9 As shown:

[0056] Among them, the anti-curing pipe 1 is equipped with several pipe-mounted auxiliary support frames 2, each of which is connected to a hanging cable 3. A water supply pipe 4 is placed on the pipe-mounted auxiliary support frame 2. The anti-curing pipe 1 is equipped with a pipe body 11. A magnetic sliding strip 12 is fixed at the center of the outer surface of the pipe body 11. A docking nesting plate 13 is installed at one end of the pipe body 11, and a docking flange 14 is installed at the other end of the pipe body 11. An even number of discharge seats 15 are installed on the outer surface of the pipe body 11. A sealing component 16 is installed in each of the discharge seats 15. Several drip connectors 41 are provided on the water supply pipe 4.

[0057] Furthermore, the drip connector 41 is mainly used for external drippers, and can be arranged by spacing, or the corresponding number of drippers can be installed to match the number of drip connectors 41, so that water in the water supply pipe 4 flows to the drippers.

[0058] The sleeve frame 21 is installed inside the pipe support frame 2. The top of the sleeve frame 21 is fixed with a frame top cable seat 22. An even number of inner slide rails 23 are opened on the inner wall of the sleeve frame 21. Each inner slide rail 23 is equipped with an inner slide plate 24. Several frame side locking holes 25 are opened on both sides of the sleeve frame 21. A height adjustment support 26 is installed between the frame side locking holes 25.

[0059] Furthermore, the top cable seat 22 is mainly used for the installation of the suspension cable 3. The material supply pipe 1 and the water supply pipe 4 are suspended together at the pipeline layout position through the suspension cable 3 to complete the corresponding material feeding and water supply work.

[0060] Furthermore, the inner rail slide 24 is mainly used to cooperate with the components on the height adjustment support 26 to pass through, allowing them to adjust their height in the sleeve frame 21, while the inner rail slide 24 is always set in the inner rail 23 of the frame to form a sliding fit.

[0061] Furthermore, the frame-side locking holes 25 are all opened on both sides of the sleeve frame 21. With the assistance of the height adjustment support 26 and the sliding plate 24 inside the rail, the frame-side locking holes 25 are nested and fixed to the appropriate height.

[0062] The discharge seat 15 has a threaded groove 151 and an interconnecting groove 152. The sealing assembly 16 has a base block 163, on which a threaded coupling sleeve 161 is installed. A rotating cylinder 164 is fixed to the bottom surface of the base block 163, and a push rod 165 is installed in the rotating cylinder 164. A material port adapter block 162 is installed on the top of the push rod 165.

[0063] Furthermore, the threaded groove 151 on the seat is mainly used for the threaded screw sleeve 161 to be threaded and fixed to form a seal. Then, the push rod 165 in the screw cylinder 164 fixed on the bottom surface of the seat block 163 drives the material port adapter block 162 to adjust the height.

[0064] Furthermore, the feed port adapter block 162 is mainly used to block the discharge port 112 on the pipe, so that one or more discharge seats 15 can be opened during the feeding process according to the length and actual needs.

[0065] The height-adjustable support frame 26 is equipped with an adjusting block 261. Both ends of the adjusting block 261 are fitted with embedded telescopic rods 262. An even number of rod-mounted swing blocks 263 are installed on each embedded telescopic rod 262. An even number of fixing bolts 264 are fixed above the adjusting block 261. An integrated side frame rod 265 is connected to each even number of fixing bolts 264. A support tube platform 266 is fixed on each side frame rod 265. One side frame rod 265 has an alignment slot 267 at its end, and the other side frame rod 265 has an adapter block 268 installed on it. A locking tube cover 269 is installed on the support tube platform 266.

[0066] Furthermore, at least two embedded telescopic rods 262 are provided, which are respectively installed at both ends of the adjusting block 261. By pressing the embedded telescopic rods 262, the embedded telescopic rods 262 can be retracted into the adjusting block 261.

[0067] Furthermore, the swing block 263 on the pole mainly limits the embedded telescopic rod 262 after swinging and unfolding. After passing the side locking hole 25 of the frame at the specified height during the nesting process, it prevents the embedded telescopic rod 262 from being dislodged. After the swing block 263 on the pole swings down, it locks into the outside of the sleeve frame 21.

[0068] Furthermore, the fixing bolt block 264 and the side frame rod 265 are an integrated structure. At least two sets of fixing bolt blocks 264 are installed on each set of adjusting blocks 261, and the two sets of fixing bolt blocks 264 are installed opposite each other and fixed to the surface of the adjusting block 261 by bolts.

[0069] Furthermore, each of the side support rods 265 is equipped with a pipe support platform 266, and the two pipe support platforms 266 are fixed by a pipe locking cap 269 to complete the fixation of the water supply pipe 4.

[0070] Furthermore, the alignment slot 267 installed at the end of one side of the support rod 265 engages with the adapter block 268 installed on the other side of the support rod 265, thereby making the support platform 266 parallel and better completing the installation of the locking cover 269.

[0071] The specific working principle is as follows:

[0072] This invention embeds the pipe-mounted auxiliary support 2 onto the anti-curing pipe 1. During use, the number of opening discharge seats 15 can be selected according to site requirements or the number of openings. Unused discharge seats 15 are sealed by the sealing component 16, allowing the threaded coupling sleeve 161 to be threaded onto the threaded groove 151 on the seat. The length is adjusted by the rotation of the rotating cylinder 164 on the bottom surface of the seat block 163 in conjunction with the top rod 165, compensating for the length of its interconnecting groove 152. Finally, the material outlet adapter block 162 completes the adaptation and closure of the discharge port 112 on the pipe. At the same time, the adjusting block 261 in the height adjusting support 26 on the sleeve frame 21 can be retracted by the embedded telescopic rod 262, and the frame side locking hole 2 is adjusted to the height with the cooperation of the inner slide plate 24 and the inner slide rail 23. 5. After reaching the appropriate height, the embedded telescopic rod 262 protrudes outward through the side locking hole 25 of the frame. Then, the swing block 263 on the rod is pulled down to unfold and lock onto the outer wall of the sleeve frame 21. The fixing bolt block 264, along with the integrated side frame rod 265, is fixed to the surface of the adjusting block 261. After the side frame rod 265 supports the water supply pipe 4 with the pipe support platform 266, its locking cap 269 works with the pipe support platform 266 to complete the fixation, preventing the water supply pipe 4 from shifting and suspending the water supply pipe 4 on one side of the anti-curing pipe 1. Finally, the anti-curing pipe 1 and the water supply pipe 4 are uniformly hoisted by the frame top cable seat 22 and the hoisting cable 3, without the need for secondary hoisting work. During use, an external dripper can also be installed on the dripper connector 41 to complete the water supply.

[0073] It should be understood that the embodiments disclosed herein are not limited to the specific processing steps or materials disclosed herein, but should be extended to equivalent substitutions of such features as understood by those skilled in the art. It should also be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting.

[0074] The term "embodiment" in this specification means that a specific feature or characteristic described in connection with an embodiment is included in at least one embodiment of the invention. Therefore, phrases or "embodiments" appearing in various places throughout the specification do not necessarily refer to the same embodiment.

[0075] Furthermore, the described features or characteristics can be incorporated into one or more embodiments in any other suitable manner. In the above description, specific details, such as thickness, quantity, etc., are provided to provide a comprehensive understanding of embodiments of the invention. However, those skilled in the art will understand that the invention can be implemented without the aforementioned specific details or may be implemented using other methods, components, materials, etc.

Claims

1. A pipe designed to prevent solidification and blockage, characterized in that, The system includes an anti-curing pipe (1), on which several auxiliary support frames (2) are installed. Each auxiliary support frame (2) is connected to a suspension cable (3). A water supply pipe (4) is placed on the auxiliary support frame (2). A pipe body (11) is installed inside the anti-curing pipe (1). A magnetic slider (12) is fixed at the center of the outer surface of the pipe body (11). Several drip connectors (41) are installed on the water supply pipe (4). An auxiliary sliding track (121) is opened inside the magnetic slider (12). A first magnetic slider (122) is installed inside the auxiliary sliding track (121). The pipe support bracket (2) is provided with a sleeve frame (21). A frame top cable seat (22) is fixed on the top of the sleeve frame (21). An even number of inner slide rails (23) are opened on the inner wall of the sleeve frame (21). An inner slide plate (24) is installed in each of the inner slide rails (23). Several frame side holes (25) are opened on both sides of the sleeve frame (21). A height adjustment bracket (26) is installed between the frame side holes (25). The height adjustment support (26) is provided with an adjustment block (261). Both ends of the adjustment block (261) are equipped with embedded telescopic rods (262). An even number of rod swing blocks (263) are installed on each embedded telescopic rod (262). An even number of fixing bolt blocks (264) are fixed above the adjustment block (261). An integrated side frame rod (265) is connected to each of the even number of fixing bolt blocks (264). A support tube platform (266) is fixed on each of the side frame rods (265). One of the side frame rods (265) has an alignment slot (267) at its end. Another side frame rod (265) is equipped with an adapter block (268). A locking tube cover (269) is installed on the support tube platform (266). An inner slide rail (111) is installed in the center of the upper inner surface of the tube body (11). An even number of upper discharge ports (112) are opened on the lower inner surface of the tube body (11). Side sealing blocks (113) are fixed at both ends of the inner slide rail (111). A linkage support slider (114) is arranged between the side sealing blocks (113). An even number of top springs (115) are installed on both sides of the linkage support slider (114). A scraping assembly (116) is installed inside the inner slide rail (111). A rail side groove (117) is opened on both sides of the inner slide rail (111). The scraping assembly (116) is provided with an even array of belt shaft fixing brackets (1161), and each of the even array of belt shaft fixing brackets (1161) is equipped with a pipe wall-adhering scraping strip (1162), and each of the pipe wall-adhering scraping strips (1162) has a strip end block (1163) fixed at its end. The inner slide rail (111) is provided with an inner slide track (1111), and a second magnetic slider (1112) is installed in the inner slide track (1111). Both sides of the inner slide track (1111) are provided with track-side pulley grooves (1113). Several block-side connecting rods (1114) are fixed on both sides of the second magnetic slider (1112). Rollers (1115) are installed on the several block-side connecting rods (1114). A linkage slide groove (1116) is provided below the inner slide track (1111). One end of the tube body (11) is equipped with a mating nesting plate (13), and the other end of the tube body (11) is equipped with a mating flange (14). An even number of discharge seats (15) are installed on the outer surface of the tube body (11). Each discharge seat (15) is equipped with a sealing component (16). The discharge seat (15) has a seat thread groove (151) and an inter-slot (152) is provided inside the discharge seat (15). The sealing assembly (16) is provided with a base block (163), a threaded screw sleeve (161) is installed on the base block (163), a screw cylinder (164) is fixed on the bottom surface of the base block (163), a top rod (165) is installed in the screw cylinder (164), and a feed port adapter block (162) is installed on the top of the top rod (165).

2. The anti-clogging pipe according to claim 1, characterized in that: The locking cap (269) is installed between an even number of the pipe support platforms (266). The pipe support platforms (266) and the locking cap (269) clamp the water supply pipe (4). The adapter block (268) is engaged in the alignment slot (267). The adjusting block (261) is installed between the sleeve frame (21) through the embedded telescopic rod (262). The embedded telescopic rod (262) needs to pass through the inner slide plate (24). After the rod swing block (263) swings down, it is engaged on the outer wall of the sleeve frame (21). The top cable seat (22) of the frame is connected to one end of the hoisting cable (3).

3. The anti-curing and anti-clogging pipe according to claim 1, characterized in that: The linkage groove (1116) allows the linkage support slider (114) to slide. Both ends of the linkage groove (1116) are closed by the side sealing block (113). The roller (1115) moves in the track side pulley groove (1113). The second magnetic slider (1112) is driven by the first magnetic slider (122) and moves in the inner track slide (1111).

4. The anti-curing and anti-clogging pipe according to claim 1, characterized in that: The block-side connecting rod (1114) passes through the rail-side slot (117), the shaft-mounted fixing bracket (1161) is fixed on the outer wall of the second magnetic slider (1112), the outer wall of the strip end block (1163) is fixed by one end of the top spring (115), the tube wall-adhering scraping strip (1162) is attached to the inner wall of the tube body (11), and the strip body has its own inclined surface.

5. The anti-curing and anti-clogging pipe according to claim 1, characterized in that: The feed port adapter block (162) is adapted to the discharge port (112) on the pipe. The push rod (165) drives the feed port adapter block (162) to rise through the threaded engagement of the swivel cylinder (164). The threaded screw sleeve (161) is threadedly screwed into the threaded groove (151) on the seat. The docking flange (14) is used to connect with the docking nesting disc (13) on another pipe body (11). The interconnecting groove (152) is positioned opposite to the discharge port (112) on the pipe.