Electric boiler pipeline descaling device

By designing a support platform, cleaning rollers, and filter components, the electric boiler pipe descaling device solves the problems of water flowing to the ground and inconvenient cleaning, enabling convenient cleaning of dirt and water recycling, thus improving cleaning efficiency and water utilization.

CN224498765UActive Publication Date: 2026-07-14SHENYANG LIDEXUN TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHENYANG LIDEXUN TECH CO LTD
Filing Date
2025-04-24
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing descaling devices for electric boiler pipes have problems such as water flowing to the ground, causing the ground to become damp, people to slip and fall, and high water consumption, and are also inconvenient to clean.

Method used

A device comprising a support platform, a cleaning roller, a filter assembly, and a water tank is designed. It separates dirt from water through an inclined guide plate and a filter cloth, and collects dirt using the filter cloth and a U-frame structure, thereby achieving convenient dirt cleaning and water recycling.

Benefits of technology

It effectively prevents water from flowing to the ground, reduces water consumption, improves the efficiency of dirt removal, and realizes convenient dirt removal and water recycling.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224498765U_ABST
    Figure CN224498765U_ABST
Patent Text Reader

Abstract

The utility model discloses a kind of electric boiler pipeline descaling devices, it is related to electric boiler pipeline cleaning technical field including support platform, the top of the support platform is fixed with the storage platform for clamping pipeline, the top of the storage platform is fixed with top plate in four corner positions, the top of the top plate is equipped with water tank for the water source conveying in pipeline, the side of the storage platform is fixed with L plate in the top of the support platform. The utility model concentrates collection to the water and dirt discharged by filtering component, avoids any flow to ground and causes environmental pollution, dirt is separated to water box by the cooperation of deflector and filter cloth, so that water can be recycled, thereby saving the water amount used for pipeline flushing, and the dirt filtered is located at the included angle of filter cloth and water storage frame, and artificial manual lifting triangular plate can quickly remove dirt, and the working efficiency of cleaning pipeline dirt is improved.
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Description

Technical Field

[0001] This utility model relates to the field of electric boiler pipe cleaning technology, specifically to an electric boiler pipe descaling device. Background Technology

[0002] The new type of household electric boiler is a heating device used in daily life that converts electrical energy into heat energy to directly release heat or circulates it in heating pipes through a heat medium to meet heating needs. It has been widely used in the field of electric heating.

[0003] Water-based radiant floor heating is a type of floor heating system and is the most popular heating method. It has certain advantages over electric heating. Water-based heating uses floor coils with circulating hot water that is evenly heated across the entire floor through a heat transfer medium in the floor radiant layer.

[0004] A search of the Chinese Patent Network revealed a descaling device for water heating pipes disclosed in CN218937164 U. This device removes scale accumulated on the pipe walls through a scrubbing device, preventing excessive scale accumulation from affecting the water circulation speed and thus the water heating effect. At the same time, a spraying device sprays descaling liquid into the inside of the pipes to improve the descaling effect of the scrubbing device.

[0005] However, the water transported through the pipe will be discharged from the other end, flowing arbitrarily on the top of the frame and towards the ground. The water cleaned from the pipe will also flow towards the ground due to the water flow, causing the ground around the device to be wet and even causing people to slip and fall. It also requires manual cleaning of the ground and results in a large demand for water. Therefore, an electric boiler pipe descaling device is proposed. Utility Model Content

[0006] Therefore, the purpose of this utility model is to provide a descaling device for electric boiler pipes to solve the technical problems mentioned in the background.

[0007] To achieve the above objectives, this utility model provides the following technical solution: a descaling device for electric boiler pipes, comprising a support platform, a storage platform for clamping the pipes fixed on the top of the support platform, a top plate fixed at four corners of the top of the storage platform, a water tank for conveying water to the pipes installed on the top of the top plate, an L-plate fixed on one side of the storage platform at the top of the support platform, a cleaning roller for cleaning the dirt inside the pipes installed on the inner wall of the L-plate, and a filter assembly for collecting dirt inside the pipes assembled below the cleaning roller;

[0008] The filter assembly includes a water storage frame fixed to the top of the support platform. Inclined guide plates are fixed to the front and rear inner walls of the water storage frame. U-frames are fixed to the top of the guide plates in an alternating manner. Filter cloth is fixed inside each set of U-frames and to the top of the guide plates. A triangular groove is reserved on one side of the top of each set of guide plates located on the U-frame. A triangular plate that slides on the inner wall of the water storage frame is installed in the triangular groove. A handle that slides on the inner wall of the water storage frame is provided on the top of the triangular plate.

[0009] As a preferred technical solution, a linear motor is installed on the inner wall of the L-plate above the cleaning roller, and a drive motor for driving the cleaning roller to rotate is installed at the bottom of the linear motor.

[0010] As a preferred technical solution, an output hose is connected to one side of the water tank, and a water pump for drawing water from inside the water tank and connected to the output hose is installed on the outer wall of the water tank. An input pipe is connected to the other side of the water tank, and the end of the input pipe extends through the guide plate into the water storage frame.

[0011] As a preferred technical solution, a constraint groove is reserved at the top of the storage platform and the position aligned with the cleaning roller, and the constraint groove is in an inclined state.

[0012] As a preferred technical solution, the constraint groove is fixed with multiple sets of spacers for supporting the pipeline.

[0013] As a preferred technical solution, the top of the storage platform is slidably provided with two sets of clamping plates within the constraint groove, and the top of the storage platform is equipped with an electric push rod for driving the two sets of storage platforms to move closer to each other. The two sets of clamping plates are slidably provided on the top of the partition strip.

[0014] As a preferred technical solution, the lowest point of the inclination of the constraint groove is fixed to a guide frame on one side of the storage platform, and the guide frame is located above the water storage frame.

[0015] In summary, the present invention has the following main advantages:

[0016] This invention uses a filtration assembly to collect discharged water and dirt, preventing it from flowing arbitrarily to the ground and causing environmental pollution. The dirt in the water box is separated by the combination of the guide plate and the filter cloth, allowing the water to be recycled and saving the amount of water used for flushing the pipes. The filtered dirt is located at the angle between the filter cloth and the water storage frame, and the dirt can be quickly removed by manually lifting the triangular plate, which can improve the efficiency of cleaning pipe dirt. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0018] Figure 2This is a structural diagram of the filter assembly and support platform of this utility model;

[0019] Figure 3 This is a cross-sectional view of the filter assembly and support platform of this utility model;

[0020] Figure 4 This is a schematic diagram of the front planar structure of this utility model;

[0021] Figure 5 This is a structural diagram of the filter assembly of this utility model.

[0022] In the diagram: 100, support platform; 200, filter assembly;

[0023] 110, L-plate; 120, storage platform; 121, constraint groove; 122, partition bar; 123, clamping plate; 130, top plate; 140, water tank; 150, output hose; 160, input pipe; 170, drive motor; 180, linear motor; 190, cleaning roller;

[0024] 210. Water storage frame; 220. Flow guide plate; 221. Triangular groove; 230. U-frame; 240. Filter cloth; 250. Triangular plate; 251. Handle. Detailed Implementation

[0025] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and are only used to explain the present invention, and should not be construed as limiting the present invention.

[0026] The embodiments of this utility model will be described below based on its overall structure.

[0027] A descaling device for electric boiler pipes, such as Figures 1 to 5 As shown, the system includes a support platform 100, a storage platform 120 for clamping pipes fixed to the top of the support platform 100, a top plate 130 fixed at the four corners of the top of the storage platform 120, a water tank 140 for conveying water to the pipes installed on the top of the top plate 130, an L-plate 110 fixed to one side of the storage platform 120 at the top of the support platform 100, a cleaning roller 190 for cleaning the dirt inside the pipes installed on the inner wall of the L-plate 110, and a filter assembly 200 for collecting dirt inside the pipes assembled below the cleaning roller 190.

[0028] The filter assembly 200 includes a water storage frame 210 fixed to the top of the support platform 100. Inclined guide plates 220 are fixed to the front and rear inner walls of the water storage frame 210. U-frames 230 are fixed to the top of the guide plates 220 in an alternating manner. Filter cloth 240 is fixed inside each U-frame 230 and to the top of the guide plate 220. A triangular groove 221 is reserved on one side of the U-frame 230 at the top of each guide plate 220. A triangular plate 250 that slides on the inner wall of the water storage frame 210 is installed in the triangular groove 221. A handle 251 that slides on the inner wall of the water storage frame 210 is provided on the top of the triangular plate 250.

[0029] One end of the guide plate 220 has a drain outlet reserved on the inner wall of the water storage frame 210.

[0030] Water and dirt flowing from the cleaned pipe port enter the filter assembly 200. Due to the inclined baffle 220, the water and dirt tend to flow to one side (the dirt flows synchronously due to the impact of the water flow). The U-frame 230 and filter cloth 240 located at the top of the baffle 220 block the dirt, while the water can continue to flow to one side through the filter cloth 240. Because the U-frame 230 and filter cloth 240 are inclined at the top of the baffle 220, the dirt slides along the filter cloth 240 under the impact of the water flow and is eventually retained. The angle formed by the U-frame 230, filter cloth 240, and water storage frame 210 will not cause blockage of the filter cloth 240. Water flows through multiple sets of filter cloths 240 and finally enters the interior of the water storage frame 210 through the drain. It can then be used to flush the pipe again through the inlet pipe 160. Afterwards, manually applying an upward force to the handle 251 will simultaneously raise the triangular plate 250 and manually push the dirt on the top to slide outwards, thus easily completing the purpose of cleaning the dirt. This achieves the purpose of water recycling and convenient dirt cleaning.

[0031] Please refer to this carefully. Figure 2 A linear motor 180 is installed on the inner wall of the L plate 110 above the cleaning roller 190, and a drive motor 170 for driving the cleaning roller 190 to rotate is installed at the bottom of the linear motor 180.

[0032] The linear motor 180 drives the drive motor 170 to move towards the side closer to the pipe, while the cleaning roller 190 extends into the pipe and rotates under the drive of the drive motor 170 to clean the inner wall of the pipe.

[0033] Please refer to this carefully. Figure 1 and Figure 2One side of the water tank 140 is connected to an output hose 150. A water pump for drawing water from the inside of the water tank 140 and connected to the output hose 150 is installed on the outer wall of the water tank 140. The other side of the water tank 140 is connected to an input pipe 160. The end of the input pipe 160 extends through the guide plate 220 into the water storage frame 210.

[0034] The top of the water tank 140 is equipped with a water inlet, and the water inlet is fitted with a threaded sealing plug.

[0035] A one-way valve is installed at the end of the inlet pipe 160 that connects to the water tank 140.

[0036] The water pump draws water from inside the water tank 140 into the output hose 150, and finally delivers it into the pipeline for flushing. When the water in the water tank 140 is completely drawn out, the water tank 140 can be regarded as a pipeline. The one-way valve between the water tank 140 and the input pipe 160 will open due to the negative pressure inside the water tank 140. At this time, water can be drawn from inside the water storage frame 210 through the input pipe 160 to flush the pipeline.

[0037] Please refer to this carefully. Figure 3 A constraint groove 121 is reserved at the top of the storage platform 120 and the position aligned with the cleaning roller 190. The constraint groove 121 is in an inclined state.

[0038] The constraint groove 121 is fixed with multiple sets of spacers 122 for supporting the pipe;

[0039] The top of the storage platform 120 is slidably provided with two sets of clamping plates 123 within the constraint groove 121. The top of the storage platform 120 is equipped with an electric push rod for driving the two sets of storage platforms 120 to move closer to each other. The two sets of clamping plates 123 are slidably provided on the top of the partition strip 122.

[0040] Water flows out from both ends of the flushed pipe. The water flowing out from the end of the pipe away from the water storage box 210 will be located in the constraint groove 121 and flow into the water storage box 210 along the inclined constraint groove 121. The partition 122 creates space between the pipe and the constraint groove 121, so that the flow of water is unrestrained.

[0041] Before the pipe is cleaned, two sets of electric push rods are controlled to push the two sets of clamps 123 closer to each other, thereby positioning the pipe to be cleaned and preventing it from rotating synchronously with the cleaning roller 190, thus achieving the purpose of cleaning the dirt on the inner wall of the pipe.

[0042] Please refer to this carefully. Figure 2 , Figure 3 and Figure 4 The lowest point of the inclination of the constraint groove 121 is located on one side of the storage platform 120 and a guide frame is fixed thereon, and the guide frame is located above the water storage frame 210.

[0043] This causes the water and dirt flowing out of the constraint groove 121 to form a running line, so that the water and dirt fall precisely into the filter assembly 200.

[0044] During use, water and dirt flowing from the pipe being cleaned enter the filter assembly 200. Due to the inclined baffle 220, the water and dirt tend to flow to one side (the dirt flows synchronously due to the impact of the water flow). The U-frame 230 and filter cloth 240 located at the top of the baffle 220 block the dirt, while the water can continue to flow to one side through the filter cloth 240. Because the U-frame 230 and filter cloth 240 are inclined at the top of the baffle 220, the dirt slides along the filter cloth 240 under the impact of the water flow and is eventually stored. The water is positioned at the angle formed by the U-frame 230, filter cloth 240, and water storage frame 210, preventing blockage of the filter cloth 240. Water flows through multiple filter cloths 240 and finally enters the water storage frame 210 through the drain. It can then be used to flush the pipe again via the inlet pipe 160. Subsequently, manual application of upward force to the handle 251 can simultaneously raise the triangular plate 250, and manually push the dirt on top to slide outwards, thus easily completing the purpose of cleaning the dirt. This achieves the purpose of water recycling and convenient dirt cleaning.

[0045] Although embodiments of the present invention have been shown and described, these specific embodiments are merely explanations of the present invention and are not intended to limit the invention. The specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples. After reading this specification, those skilled in the art may make modifications, substitutions, and variations to the embodiments as needed without departing from the principles and spirit of the present invention, provided that such modifications, substitutions, and variations are within the scope of the claims of the present invention and are protected by patent law.

Claims

1. A descaling device for electric boiler pipes, comprising a support platform (100), characterized in that: The top of the support platform (100) is fixed with a storage platform (120) for clamping the pipe. The top of the storage platform (120) is fixed with a top plate (130) at the four corners. The top of the top plate (130) is equipped with a water tank (140) for conveying water to the pipe. One side of the storage platform (120) is fixed with an L plate (110) at the top of the support platform (100). The inner wall of the L plate (110) is equipped with a cleaning roller (190) for cleaning the dirt inside the pipe. The bottom of the cleaning roller (190) is equipped with a filter assembly (200) for collecting dirt inside the pipe. The filter assembly (200) includes a water storage frame (210) fixed to the top of the support platform (100). Inclined guide plates (220) are fixed to the front and rear inner walls of the water storage frame (210). U-frames (230) are fixed to the top of the guide plates (220) in an alternating manner. Filter cloth (240) is fixed inside each set of U-frames (230) and to the top of the guide plates (220). A triangular groove (221) is reserved on one side of the U-frame (230) at the top of each set of guide plates (220). A triangular plate (250) that slides on the inner wall of the water storage frame (210) is installed in the triangular groove (221). A handle (251) that slides on the inner wall of the water storage frame (210) is provided on the top of the triangular plate (250).

2. The descaling device for electric boiler pipes according to claim 1, characterized in that: A linear motor (180) is mounted on the inner wall of the L plate (110) above the cleaning roller (190), and a drive motor (170) for driving the cleaning roller (190) to rotate is mounted at the bottom of the linear motor (180).

3. The descaling device for electric boiler pipes according to claim 1, characterized in that: One side of the water tank (140) is connected to an output hose (150). A water pump for drawing water from the inside of the water tank (140) and connected to the output hose (150) is installed on the outer wall of the water tank (140). The other side of the water tank (140) is connected to an input pipe (160). The end of the input pipe (160) extends through the guide plate (220) into the water storage frame (210).

4. The descaling device for electric boiler pipes according to claim 1, characterized in that: The top of the storage platform (120) is provided with a constraint groove (121) at the position aligned with the cleaning roller (190), and the constraint groove (121) is in an inclined state.

5. The descaling device for electric boiler pipes according to claim 4, characterized in that: The constraint groove (121) is fixed with multiple sets of spacers (122) for supporting the pipe.

6. The descaling device for electric boiler pipes according to claim 5, characterized in that: The top of the storage platform (120) is slidably provided with two sets of clamping plates (123) in the constraint groove (121). The top of the storage platform (120) is equipped with an electric push rod for driving the two sets of storage platforms (120) to move closer to each other. The two sets of clamping plates (123) are slidably provided on the top of the partition strip (122).

7. The descaling device for electric boiler pipes according to claim 6, characterized in that: The lowest point of the inclination of the constraint groove (121) is located on one side of the storage platform (120) and a guide frame is fixed thereon, and the guide frame is located above the water storage frame (210).