Fly ash treatment equipment for water-resistant putty powder production

By combining design frameworks and components, flexible adaptation and automated operation of fly ash treatment equipment for water-resistant putty powder production were achieved, solving the problem of poor adaptability of baghouse dust collectors and improving the working efficiency and protective performance of the equipment.

CN122377832APending Publication Date: 2026-07-14JIANGSU OUXIDUN TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Applications(China)
Current Assignee / Owner
JIANGSU OUXIDUN TECH CO LTD
Filing Date
2026-04-17
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Existing baghouse dust collectors suffer from poor adaptability, poor adjustability, and low automation in the production of water-resistant putty powder, resulting in high equipment costs and low efficiency.

Method used

A fly ash treatment device including a frame, a dust collection component, an adjustment component, a drive component, and a shielding device is designed. The device uses a signal transmitter to control a fan to generate high-pressure suction, and combines an adjustable clamping and drive mechanism to achieve flexible adaptation and automated operation.

Benefits of technology

It improved the adaptability and automation level of the equipment, reduced production costs, and enhanced the working efficiency and protective performance of the equipment.

✦ Generated by Eureka AI based on patent content.

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Abstract

The present application relates to dust removal equipment technical field, more specifically, it relates to a kind of fly ash treatment equipment for water putty powder production, the lifting frame is rotatably connected with positioning shaft, the lifting frame is equipped with knob one, the bolt is threadedly connected on the positioning shaft, the one end of the bolt is provided with clamping block, the one end of the clamping block is provided with magnetic attraction;In the process of clamping equipment, rotating positioning shaft makes it drive bolt and clamping block to adjust angle, after adjusting, rotate knob one to threadedly tighten, the angle of positioning shaft is fixed, in this process, rotate bolt to make it threadedly slide on positioning shaft, in the process of sliding, the spacing between the two groups of opposite clamping blocks is shrunk, so as to drive equipment and different areas to be clamped, cooperate with magnetic attraction to be adsorbed, so as to improve the clamping adjustable performance of equipment, thereby improve the working efficiency of equipment.
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Description

Technical Field

[0001] This invention relates to the field of dust removal equipment technology, and more specifically, to a fly ash treatment device for the production of water-resistant putty powder. Background Technology

[0002] In the production process of water-resistant putty powder, fly ash treatment is a crucial step. It not only meets mandatory environmental regulations but is also a key link in ensuring product quality, production safety, and the sustainable development of the enterprise. Putty powder production involves the mixing and packaging of large quantities of powdery raw materials, generating significant amounts of dust. Direct emission of untreated dust-laden waste gas will severely pollute the atmosphere. Therefore, a highly efficient fly ash treatment system is essential to ensure that the dust concentration in the waste gas meets national and local emission standards. This is a fundamental prerequisite for legal production. The chemical composition of the dust recovered by the fly ash treatment system is precisely that of the raw materials used in production. Reusing these recovered materials in the production line can directly... Improving raw material utilization, reducing waste, and lowering production costs are crucial. Effective fly ash treatment also prevents different types of dust from cross-falling and mixing within the workshop, thus preventing product quality instability caused by impurities. This is essential for ensuring a uniform and smooth surface on the final product (such as wall coatings). The principle is similar in some ways to the stringent impurity control requirements of the chemical mechanical polishing (CMP) process, which pursues ultimate surface smoothness and purity. The most common existing fly ash treatment equipment for water-based putty powder is the baghouse dust collector. However, existing baghouse dust collectors have certain problems and defects that can affect their use.

[0003] First, baghouse dust collectors are relatively large, which leads to higher production costs when used in small production areas. This results in poor adaptability and thus poor practicality of the equipment.

[0004] Secondly, the fixed size of the equipment during clamping results in poor adjustability when facing different production areas, leading to low working efficiency.

[0005] Furthermore, the equipment is mostly adjusted manually, which makes the adjustment process cumbersome and results in a low degree of automation, thus leading to low work efficiency. Summary of the Invention

[0006] Technical problems to be solved To address the problems existing in the prior art, the present invention provides a fly ash treatment device for the production of water-resistant putty powder, thereby solving the technical problem of poor adaptability mentioned in the background art.

[0007] (II) Technical Solution To achieve the above objectives, the present invention provides the following technical solution: a fly ash treatment device for the production of water-resistant putty powder, comprising: A frame, the top of which is provided with a mounting slot; A vacuuming assembly, comprising a top plate passing through a mounting slot and a frame fixing assembly, a cover plate fitted onto the top plate, a vent connected to the top of the cover plate, a connecting pipe at the bottom of the vent, a vacuum chamber at the bottom of the connecting pipe, a fan at one end of the vacuum chamber, a cloth bag at the other end of the vacuum chamber, a suction pipe connected to the bottom of the vacuum chamber, a fixing slot at the bottom of the frame, a module plate fitted into the fixing slot, a main control box and a signal transmitter at the top of the module plate, a slot on the module plate, and a suction pipe passing through the slot and the module plate fixing assembly. An adjustment assembly is provided, the base end of which is connected to the left and right ends of the frame. The adjustment assembly includes a connecting plate. The left and right ends of the frame are provided with connecting grooves. Two sets of connecting plates pass through the corresponding connecting grooves and are fixedly fitted to the frame. One end of the connecting plate is rotatably connected to a crank rod. A curved groove is provided through the crank rod. An adjustment rod is slidably connected in the curved groove. One end of the adjustment rod is rotatably connected to the connecting plate. The bottom end of the crank rod is slidably connected to a lifting frame. A drive assembly, one end of which is connected to one end of a connecting plate; A shielding device, wherein the base end of the shielding device and the front and rear ends of the frame are fixedly fitted together.

[0008] According to one or more embodiments of the present invention: a positioning shaft is rotatably connected to the lifting frame, and a knob is provided on the lifting frame. A bolt is threaded onto the positioning shaft, and a clamping block is provided at one end of the bolt. A magnetic attraction is fitted onto one end of the clamping block. During the clamping process, the positioning shaft is rotated to adjust the angle of the bolt and the clamping block. After adjustment, the knob is rotated to tighten the threaded connection, fixing the angle of the positioning shaft. During this process, the bolt is rotated to slide threadedly on the positioning shaft. During the sliding process, the distance between the two sets of opposing clamping blocks is reduced, thereby clamping the equipment to different areas. Combined with magnetic attraction, this improves the adjustable clamping performance of the equipment, thereby improving the working efficiency of the equipment.

[0009] According to one or more embodiments of the present invention: the drive assembly includes a base, the base end of the base and one end of a connecting plate are connected, a motor is mounted on the base, a drive gear is mounted on the output end of the motor, a drive rack is meshed with the drive gear, a limit rod is slidably connected to one end of the drive rack, one end of the limit rod is connected to one end of the connecting plate, a driven gear is meshed on the drive rack, and the driven gear and an adjusting rod are fixedly mounted; when driving the equipment, the motor on the base is started to rotate, which drives the drive gear to rotate. Through the meshing relationship between the drive gear and the drive rack, the drive rack slides along the trajectory of the limit rod. During sliding, through the meshing relationship between the drive rack and the driven gear, the adjusting rod rotates, thereby improving the automation level of equipment adjustment and thus improving the working efficiency of the equipment.

[0010] According to one or more embodiments of the present invention: one end of the lifting frame is provided with an electric push rod, and the output end of the electric push rod is provided with a connector. The base end of the connector is connected to one end of the crank rod. When the lifting frame is raised or lowered, the electric push rod is activated to raise or lower its output end. When the electric push rod drives the connector to raise or lower, since the connector and the crank rod are fixedly connected, the lifting frame is driven to raise or lower itself, thereby improving the convenience of equipment adjustment and thus improving the working efficiency of the equipment.

[0011] According to one or more embodiments of the present invention: the shielding device includes a side cover, the connecting end of the side cover being connected to the front and rear ends of a frame, a hinge seat being provided on the side cover, a rotating shaft being rotatably connected to the hinge seat, connecting rods being provided at the left and right ends of the rotating shaft, a lifting rod being slidably connected to the connecting rod, a long groove being provided on the connecting rod, a second knob being threaded through the long groove on the lifting rod, a protective shell being hinged to one end of the lifting rod, an electric push rod being hinged to the bottom end of the protective shell, and a second electric push rod being rotatably connected to the base end of the second electric push rod and the lifting rod; when shielding the production equipment, the rotating shaft is rotated to make it rest on the hinge seat The upper part is rotated, and the support angle of the connecting rod is adjusted by rotating it. During this process, the sliding lifting rod is raised and lowered on the connecting rod, and the second knob slides in the long groove accordingly. After sliding to the appropriate position, the screw is tightened. This is to adjust the equipment according to different installation positions. After adjustment, the electric push rod is activated to extend and slide on the lifting rod. When sliding, it drives the protective shell to open and close. In the normally closed state, the protective shell shields the production equipment, preventing the dust of water-based putty powder from leaking out. The dust is kept in a closed area, thereby improving the protective performance of the equipment and thus improving the working efficiency of the equipment.

[0012] According to one or more embodiments of the present invention: a base two is provided on the side cover, a motor two is provided on the base two, a positioning gear is provided at the output end of the motor two, and an adjusting gear is meshed with the positioning gear. The adjusting gear and the positioning gear are fixedly fitted together. When adjusting the rotating shaft, the motor two on the base two is started to rotate, which drives the positioning gear to rotate. Through the meshing relationship between the positioning gear and the adjusting gear, the rotating shaft is driven to rotate, thereby improving the automation level of the equipment and thus improving the working efficiency of the equipment.

[0013] According to one or more embodiments of the present invention: a pin hole is provided on the module plate, a positioning pin is fitted in the pin hole, a fixed seat is rotatably connected to the positioning pin, the bottom end of the fixed seat is connected to the top end of the frame, a pull rod is hinged to the top end of the positioning pin, a drive rod is hinged to one end of the pull rod, a through hole is provided through the frame, the drive rod passes through the through hole and is slidably connected to the frame, a spring is fitted on the drive rod, and the bottom end of the spring is connected to the top end of the frame; when the module plate is fitted, the drive rod is pulled to make the pull rod rotate. During rotation, the pull rod pulls the positioning pin to rotate on the fixed seat, thereby separating the positioning pin from the pin hole. After separation, the drive rod is released, and the positioning pin is reset under the action of the spring, thereby improving the modularity of the equipment and thus improving the working efficiency of the equipment.

[0014] According to one or more embodiments of the present invention: a circular tube is provided at the bottom end of the protective shell, a support frame is slidably connected inside the circular tube, a curved block is provided at the bottom end of the support frame, and an insertion hole is provided through the circular tube and the support frame, with a pin being fitted into the insertion hole; during the protective shell's protective function, the sliding support frame slides within the circular tube, adjusting the support length by sliding, and during this process, the curved rod provides support for different terrains, while the pin is inserted into the insertion hole, thereby improving the equipment's support stability and thus improving the equipment's working efficiency.

[0015] (III) Beneficial Effects Compared with the prior art, the present invention provides a fly ash treatment device for the production of water-resistant putty powder, which has the following beneficial effects: When vacuuming production equipment, the frame is installed at the top of the dust-generating area of ​​the production equipment. During this process, the signal transmitter on the module board is activated to transmit signals, and the main control box is activated to control the equipment. The fan is activated to rotate, and the fan drives the air in the vacuum chamber out through the ventilation port to create high-pressure suction. During this process, the dust is absorbed through the suction pipe and sucked into the cloth bag for storage. This real-time absorption method improves the equipment's adaptability to equipment of different sizes, thereby improving the equipment's working efficiency.

[0016] When adjusting the clamping position of the equipment, rotate the adjusting rod to make it rotate on the connecting plate. By rotating it, the angle can be adjusted within the curved groove. The adjustment drives the curved rod to rotate, thereby adjusting the clamping angle. In conjunction with the sliding lifting frame, the length can be adjusted, thus improving the adjustment performance of the equipment and improving its working efficiency.

[0017] When driving the equipment, the motor on the base is started to rotate, which drives the drive gear to rotate. Through the meshing relationship between the drive gear and the drive rack, the drive rack slides along the trajectory of the limit rod. During the sliding, through the meshing relationship between the drive rack and the driven gear, the adjusting rod is rotated, thereby improving the automation level of equipment adjustment and thus improving the working efficiency of the equipment.

[0018] When shielding the production equipment, rotate the shaft to make it rotate on the hinge seat. Adjust the support angle of the connecting rod by rotating it. During this process, slide the lifting rod to make it rise and fall on the connecting rod. The second knob slides in the long groove accordingly. After sliding to the appropriate position, tighten the thread. This is to adjust the equipment according to different installation positions. After adjustment, start the electric push rod to make it slide on the lifting rod. When sliding, it drives the protective shell to open and close. In the normally closed state, the protective shell shields the production equipment, preventing the dust of water-based putty powder from leaking out. It keeps the dust in a closed area, thereby improving the protective performance of the equipment and thus improving the working efficiency of the equipment. Attached Figure Description

[0019] Figure 1 This is a schematic diagram of the fly ash treatment equipment for the production of water-resistant putty powder according to the present invention; Figure 2 This is an exploded structural diagram of a fly ash treatment device for the production of water-resistant putty powder according to the present invention. Figure 3 This is a schematic diagram of the frame structure of a fly ash treatment device for the production of water-resistant putty powder according to the present invention; Figure 4 This is a schematic diagram of the connection structure of the module plate and the main control box of a fly ash treatment device for the production of water-resistant putty powder according to the present invention; Figure 5 This is a schematic diagram of the connection structure of the side cover and hinge seat of a fly ash treatment device for the production of water-resistant putty powder according to the present invention. Figure 6 for Figure 5 Enlarged view of point A in the middle; Figure 7 This is a schematic diagram of the connection structure of the adjusting rod and the curved rod of a fly ash treatment device for the production of water-resistant putty powder according to the present invention; Figure 8 for Figure 7 Enlarged view of point B in the middle; Figure 9 This is a schematic diagram of the connection structure of the top plate and connecting pipe of a fly ash treatment device for the production of water-resistant putty powder according to the present invention.

[0020] In the diagram: 1. Frame; 2. Mounting slot; 3. Top plate; 4. Cover plate; 100. Ventilation opening; 5. Connecting pipe; 6. Vacuum box; 7. Fan; 8. Cloth bag; 9. Suction pipe; 10. Fixing slot; 11. Module plate; 12. Main control box; 13. Signal transmitter; 14. Card slot; 15. Connecting plate; 16. Connecting slot; 17. Crank rod; 18. Crank groove; 19. Adjusting rod; 20. Lifting frame; 21. Positioning shaft; 22. Knob 1; 23. Bolt; 24. Clamping block; 25. Magnetic suction; 26. Base 1; 27. Motor 1; 28. Drive gear; 29. ​​Drive rack; 30. Limiting rod; 31. Driven gear; 32. Electric push rod one; 33. Connector one; 34. Side cover; 35. Hinge seat; 36. Rotating shaft; 37. Connecting rod; 38. Lifting rod; 39. Long slot; 40. Knob two; 41. Protective shell; 42. Electric push rod two; 43. Base two; 44. Motor two; 45. Positioning gear; 46. Adjusting gear; 47. Pin hole; 48. Positioning pin; 49. Fixed seat; 50. Pull rod; 51. Drive rod; 52. Through hole; 53. Spring; 54. Round tube; 55. Support frame; 56. Curved block; 57. Insertion hole; 58. Pin. Detailed Implementation

[0021] It should be noted that, unless otherwise specified, the embodiments and features described in this application can be combined with each other. The present invention will now be described in detail with reference to the accompanying drawings and embodiments.

[0022] It should be noted that, unless otherwise specified, all technical and scientific terms used in this application have the same meaning as commonly understood by one of ordinary skill in the art to which this application pertains.

[0023] In this invention, unless otherwise stated, the directional terms such as "up" and "down" generally refer to the directions shown in the accompanying drawings, or to the vertical, perpendicular, or gravitational direction; similarly, for ease of understanding and description, "left" and "right" generally refer to the left and right shown in the accompanying drawings; "inner" and "outer" refer to the inner and outer contours of each component itself, but the above directional terms are not intended to limit this invention.

[0024] Preferred embodiments of the present invention will now be described with reference to the accompanying drawings.

[0025] The core of this invention is to provide a fly ash treatment device for the production of water-resistant putty powder, which can absorb fly ash by being installed on the top of the production equipment without the problem of poor adjustment performance.

[0026] Please see Figure 1-9 In a first specific embodiment, the present invention provides a fly ash treatment device for the production of water-resistant putty powder, including a frame 1, wherein the top of the frame 1 is provided with an installation groove 2. A vacuuming assembly is provided, which is fixedly fitted through the mounting groove 2 and the frame 1. The vacuuming assembly includes a top plate 3, which is fixedly fitted through the mounting groove 2 and the frame 1. A cover plate 4 is fitted on the top plate 3. A vent 100 is connected to the top of the cover plate 4. A connecting pipe 5 is provided at the bottom of the vent 100. A vacuum box 6 is provided at the bottom of the connecting pipe 5. A fan 7 is provided at one end of the vacuum box 6. A cloth bag 8 is provided at the other end of the vacuum box 6. A vacuum suction pipe 9 is connected to the bottom of the vacuum box 6. A fixing groove 10 is provided at the bottom of the frame 1. A module plate 11 is fitted in the fixing groove 10. A main control box 12 and a signal transmitter 13 are provided at the top of the module plate 11. A slot 14 is provided on the module plate 11. The vacuum suction pipe 9 passes through the slot 14 and is fixedly fitted to the module plate 11. An adjustment assembly is provided, with its base end connected to the left and right ends of the frame 1. The adjustment assembly includes a connecting plate 15. The left and right ends of the frame 1 are provided with connecting grooves 16. The two sets of connecting plates 15 pass through the corresponding connecting grooves 16 and are fixedly fitted to the frame 1. One end of the connecting plate 15 is rotatably connected to a crank rod 17. A curved groove 18 is provided through the crank rod 17. An adjustment rod 19 is slidably connected in the curved groove 18. One end of the adjustment rod 19 is rotatably connected to the connecting plate 15. The bottom end of the crank rod 17 is slidably connected to a lifting frame 20. A drive assembly, one end of which is connected to one end of a connecting plate 15; A shielding device, wherein the base end of the shielding device is fixedly fitted to the front and rear ends of the frame 1.

[0027] When performing dust extraction on the production equipment, frame 1 is installed at the top of the dust-generating area of ​​the equipment. A signal is then transmitted via signal transmitter 13 on module board 11 to activate the main control box 12 and control the equipment operation. Fan 7 is activated, drawing air from vacuum chamber 6 through vent 100, generating high-pressure suction. Dust particles are sucked into cloth bag 8 through suction pipe 9 for storage, achieving real-time dust extraction. This method can adapt to equipment of different sizes, thereby improving equipment efficiency. When adjusting the clamping position, adjusting rod 19 is rotated to adjust its angle within the curved groove 18 on connecting plate 15, simultaneously rotating curved rod 17 to adjust the clamping angle. Combined with the sliding lifting frame 20 for length adjustment, flexible changes in the clamping position are possible. This adjustment method improves the equipment's adjustability and further enhances work efficiency.

[0028] In the existing treatment of fly ash from water-based putty powder, bag filters are often used for dust removal, which results in high production costs.

[0029] This application solves the aforementioned problem of high production costs by adding a top plate 3 and a vacuum box 6 for top adsorption.

[0030] Please see Figures 1-9 As one embodiment of a fly ash treatment device for the production of water-resistant putty powder: a positioning shaft 21 is rotatably connected to the lifting frame 20, a knob 22 is provided on the lifting frame 20, a bolt 23 is threadedly connected to the positioning shaft 21, a clamping block 24 is provided at one end of the bolt 23, and a magnetic suction 25 is fitted at one end of the clamping block 24.

[0031] Specifically, during the clamping process, the positioning shaft 21 is rotated to drive the bolt 23 and clamping block 24 to adjust their angles. After adjustment, the knob 22 is rotated to tighten the thread and fix the angle of the positioning shaft 21. During this process, the bolt 23 is rotated to slide on the positioning shaft 21. During the sliding process, the distance between the two sets of opposing clamping blocks 24 is reduced, thereby clamping the equipment to different areas and using the magnetic attraction 25 for adsorption.

[0032] Please see Figures 1-9 As one embodiment of a fly ash treatment device for the production of water-resistant putty powder: the drive assembly includes a base 26, the base end of the base 26 is connected to one end of a connecting plate 15, a motor 27 is mounted on the base 26, a drive gear 28 is mounted on the output end of the motor 27, a drive rack 29 is meshed with the drive gear 28, a limit rod 30 is slidably connected to one end of the drive rack 29, one end of the limit rod 30 is connected to one end of the connecting plate 15, a driven gear 31 is meshed on the drive rack 29, and the driven gear 31 and the adjusting rod 19 are fixedly mounted together.

[0033] Specifically, when driving the equipment, the motor 27 on the base 26 is started to rotate, and the motor 27 drives the drive gear 28 to rotate. Through the meshing relationship between the drive gear 28 and the drive rack 29, the drive rack 29 is driven to slide along the trajectory of the limit rod 30. During the sliding, through the meshing relationship between the drive rack 29 and the driven gear 31, the adjusting rod 19 is driven to rotate.

[0034] Please see Figures 1-9As one embodiment of a fly ash treatment device for the production of water-resistant putty powder: one end of the lifting frame 20 is provided with an electric push rod 32, the output end of the electric push rod 32 is provided with a connector 33, and the base end of the connector 33 is connected to one end of the curved rod 17.

[0035] Specifically, when the lifting frame 20 is raised or lowered, the electric push rod 32 is activated to raise or lower its output end. When the electric push rod 32 drives the connector 33 to rise or lower, since the connector 33 and the crank rod 17 are fixedly connected, the lifting frame 20 is driven to rise or lower itself.

[0036] Please see Figures 1-9 As one embodiment of a fly ash treatment device for the production of water-resistant putty powder: the shielding device includes a side cover 34, the connecting end of the side cover 34 is connected to the front and rear ends of the frame 1, a hinge seat 35 is provided on the side cover 34, a rotating shaft 36 is rotatably connected to the hinge seat 35, connecting rods 37 are provided at the left and right ends of the rotating shaft 36, a lifting rod 38 is slidably connected to the connecting rod 37, a long groove 39 is provided on the connecting rod 37, a second knob 40 is threaded through the long groove 39 on the lifting rod 38, a protective shell 41 is hinged to one end of the lifting rod 38, an electric push rod 42 is hinged to the bottom end of the protective shell 41, and the base end of the electric push rod 42 is rotatably connected to the lifting rod 38.

[0037] Specifically, when shielding the production equipment, the rotating shaft 36 is rotated to make it rotate on the hinge seat 35. The support angle of the connecting rod 37 is adjusted by rotating the shaft. During this process, the sliding lifting rod 38 is raised and lowered on the connecting rod 37. The knob 40 slides in the long groove 39. After sliding to the appropriate position, the screw is tightened. This is used to adjust the equipment according to different installation positions. After adjustment, the electric push rod 42 is activated to make it slide on the lifting rod 38. When sliding, it drives the protective shell 41 to open and close. In the normally closed state, the protective shell 41 shields the production equipment, preventing the dust of the water putty powder from leaking out and keeping the dust flying in a closed area.

[0038] Please see Figures 1-9 As one embodiment of a fly ash treatment device for the production of water-resistant putty powder: a machine base 43 is provided on the side cover 34, a motor 44 is provided on the machine base 43, a positioning gear 45 is provided at the output end of the motor 44, an adjusting gear 46 is meshed with the positioning gear 45, and the adjusting gear 46 and the positioning gear 45 are fixedly fitted together.

[0039] Specifically, when adjusting the rotating shaft 36, the motor 44 on the base 43 is started to rotate, and the positioning gear 45 is rotated by the motor 44. Through the meshing relationship between the positioning gear 45 and the adjusting gear 46, the rotating shaft 36 is rotated.

[0040] Please see Figures 1-9 As one embodiment of a fly ash treatment device for the production of water-resistant putty powder: the module plate 11 is provided with a pin hole 47, a positioning pin 48 is fitted in the pin hole 47, a fixed seat 49 is rotatably connected to the positioning pin 48, the bottom end of the fixed seat 49 is connected to the top end of the frame 1, a pull rod 50 is hinged to the top end of the positioning pin 48, a drive rod 51 is hinged to one end of the pull rod 50, a through hole 52 is provided through the frame 1, the drive rod 51 passes through the through hole 52 and is slidably connected to the frame 1, a spring 53 is fitted on the drive rod 51, and the bottom end of the spring 53 is connected to the top end of the frame 1.

[0041] Specifically, when the module plate 11 is clamped, the drive rod 51 is pulled to make the pull rod 50 rotate. When rotating, the pull rod 50 pulls the positioning pin 48 to rotate on the fixed seat 49, thereby separating the positioning pin 48 from the pin hole 47. After separation, the drive rod 51 is released, and the positioning pin 48 is reset under the action of the spring 53.

[0042] Please see Figures 1-9 As one embodiment of a fly ash treatment device for the production of water-resistant putty powder: a round tube 54 is provided at the bottom end of the protective shell 41, a support frame 55 is slidably connected inside the round tube 54, a curved block 56 is provided at the bottom end of the support frame 55, an insertion hole 57 is provided through the round tube 54 and the support frame 55, and a pin 58 is fitted inside the insertion hole 57.

[0043] Specifically, during the protective process of the protective shell 41, the sliding support frame 55 slides within the circular tube 54, and the support length is adjusted by sliding. During this process, the curved rod 17 provides support for different terrains, and the pin 58 is inserted into the socket 57 to improve the support stability of the equipment.

[0044] In summary, the overall equipment is in use: When vacuuming the production equipment, the frame 1 is installed at the top of the dust-generating area of ​​the production equipment. During this process, the signal transmitter 13 on the module board 11 is activated to transmit signals, and the main control box 12 is activated to control the equipment. During this process, the fan 7 is activated to rotate, and the air in the vacuum box 6 is discharged through the vent 100 by the fan 7 to create high-pressure suction. During this process, the dust is absorbed by the suction pipe 9 and sucked into the cloth bag 8 for storage. This improves the adaptability of the equipment to equipment of different sizes through real-time absorption.

[0045] When adjusting the clamping position of the equipment, rotate the adjusting rod 19 to rotate it on the connecting plate 15. This rotation allows for angle adjustment within the curved groove 18, which in turn rotates the curved rod 17, thus adjusting the clamping angle. This is combined with the length adjustment of the sliding lifting frame 20. During the protection process of the protective shell 41, the sliding support frame 55 slides within the circular tube 54, adjusting the support length. During this process, the curved rod 17 provides support for different terrains. This is combined with inserting the pin 58 into the insertion hole 57. When clamping the module plate 11, pull the drive rod 51 to rotate the pull rod 50. During rotation, the pull rod 50 pulls the fixed... The positioning pin 48 rotates on the fixed seat 49 to separate the positioning pin 48 from the pin hole 47. After separation, the drive rod 51 is released, and the positioning pin 48 is reset under the action of the spring 53. During the clamping process of the equipment, the positioning shaft 21 is rotated to drive the bolt 23 and the clamping block 24 to adjust the angle. After adjustment, the knob 22 is rotated to tighten the thread and fix the angle of the positioning shaft 21. During this process, the bolt 23 is rotated to slide on the positioning shaft 21. During the sliding process, the distance between the two sets of opposing clamping blocks 24 is reduced, thereby clamping the equipment and different areas, and adsorbing with the magnetic attraction 25.

[0046] When driving the equipment, the motor 27 on the base 26 is started to rotate, which drives the drive gear 28 to rotate. Through the meshing relationship between the drive gear 28 and the drive rack 29, the drive rack 29 slides along the trajectory of the limit rod 30. During the sliding, through the meshing relationship between the drive rack 29 and the driven gear 31, the adjusting rod 19 is driven to rotate. When raising or lowering the lifting frame 20, the electric push rod 32 is started to raise or lower its output end. When the electric push rod 32 drives the connector 33 to raise or lower, since the connector 33 and the crank rod 17 are fixedly connected, the lifting frame 20 is driven to raise or lower itself.

[0047] When shielding the production equipment, rotate the shaft 36 to make it rotate on the hinge seat 35. Adjust the support angle of the connecting rod 37 by rotating it. During this process, slide the lifting rod 38 to make it rise and fall on the connecting rod 37. The knob 40 slides in the long groove 39 accordingly. After sliding to the appropriate position, tighten the thread to adjust the equipment according to different installation positions. After adjustment, start the electric push rod 42 to make it slide on the lifting rod 38. When sliding, it drives the protective shell 41 to open and close. In the normally closed state, the protective shell 41 shields the production equipment, preventing the dust of water putty powder from leaking out and keeping the dust in a closed area, thereby improving the protective performance of the equipment and thus improving the working efficiency of the equipment. When adjusting the shaft 36, start the motor 44 on the base 43 to rotate. The motor 44 drives the positioning gear 45 to rotate. Through the meshing relationship between the positioning gear 45 and the adjusting gear 46, the shaft 36 is driven to rotate.

[0048] In all the solutions mentioned above, for connections between two components, welding, bolt and nut connection, bolt or screw connection, or other known connection methods can be selected according to the actual situation. These will not be elaborated here. For all fixed connections mentioned above, welding is preferred. The above are merely preferred embodiments of this application and are not intended to limit the invention. Although this application has been described in detail with reference to examples, those skilled in the art can still modify the technical solutions described in the foregoing examples or make equivalent substitutions for some of the technical features. However, any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this application should be included within the protection scope of this application.

Claims

1. A fly ash treatment device for the production of water-resistant putty powder, characterized in that: include: A frame (1) is provided with a mounting slot (2) at its top. A vacuuming assembly is fixedly fitted through a mounting slot (2) and a frame (1). The vacuuming assembly includes a top plate (3), which is fixedly fitted through the mounting slot (2) and the frame (1). A cover plate (4) is fitted on the top plate (3). A vent (100) is connected to the top of the cover plate (4). A connecting pipe (5) is provided at the bottom of the vent (100). A vacuum box (6) is provided at the bottom of the connecting pipe (5). A fan is provided at one end of the vacuum box (6). (7) A cloth bag (8) is provided at the other end of the vacuum box (6). A suction pipe (9) is connected to the bottom end of the vacuum box (6). A fixing groove (10) is provided at the bottom end of the frame (1). A module plate (11) is installed in the fixing groove (10). A main control box (12) and a signal transmitter (13) are provided at the top of the module plate (11). A card slot (14) is provided on the module plate (11). The suction pipe (9) passes through the card slot (14) and the module plate (11) and is fixedly fitted. An adjustment assembly is provided, the base end of which is connected to the left and right ends of the frame (1). The adjustment assembly includes a connecting plate (15). The left and right ends of the frame (1) are provided with connecting grooves (16). The two sets of connecting plates (15) pass through the corresponding connecting grooves (16) and are fixedly fitted to the frame (1). One end of the connecting plate (15) is rotatably connected to a crank rod (17). A curved groove (18) is provided through the curved rod (17). An adjustment rod (19) is slidably connected in the curved groove (18). One end of the adjustment rod (19) is rotatably connected to the connecting plate (15). The bottom end of the curved rod (17) is slidably connected to a lifting frame (20). A drive assembly, one end of which is connected to one end of a connecting plate (15); A shielding device, wherein the base end of the shielding device and the front and rear ends of the frame (1) are fixedly fitted together.

2. The fly ash treatment equipment for the production of water-resistant putty powder according to claim 1, characterized in that: The lifting frame (20) is rotatably connected to a positioning shaft (21), and the lifting frame (20) is equipped with a knob (22). The positioning shaft (21) is threaded with a bolt (23), and one end of the bolt (23) is provided with a clamping block (24). One end of the clamping block (24) is fitted with a magnetic suction (25).

3. The fly ash treatment equipment for the production of water-resistant putty powder according to claim 2, characterized in that: The drive assembly includes a base (26), the base end of the base (26) is connected to one end of the connecting plate (15), a motor (27) is provided on the base (26), a drive gear (28) is provided at the output end of the motor (27), a drive rack (29) is meshed with the drive gear (28), a limit rod (30) is slidably connected to one end of the drive rack (29), one end of the limit rod (30) is connected to one end of the connecting plate (15), a driven gear (31) is meshed on the drive rack (29), and the driven gear (31) and the adjusting rod (19) are fixedly fitted together.

4. The fly ash treatment equipment for the production of water-resistant putty powder according to claim 1, characterized in that: One end of the lifting frame (20) is provided with an electric push rod (32), and the output end of the electric push rod (32) is provided with a connector (33). The base end of the connector (33) is connected to one end of the crank rod (17).

5. The fly ash treatment equipment for producing water-resistant putty powder according to claim 4, characterized in that: The shielding device includes a side cover (34), the connecting end of the side cover (34) is connected to the front and rear ends of the frame (1), a hinge seat (35) is provided on the side cover (34), a rotating shaft (36) is rotatably connected on the hinge seat (35), a connecting rod (37) is provided on the left and right ends of the rotating shaft (36), a lifting rod (38) is slidably connected on the connecting rod (37), a long groove (39) is provided on the connecting rod (37), a second knob (40) is threaded through the long groove (39) of the lifting rod (38), a protective shell (41) is hinged to one end of the lifting rod (38), an electric push rod (42) is hinged to the bottom end of the protective shell (41), and the base end of the electric push rod (42) is rotatably connected to the lifting rod (38).

6. A fly ash treatment device for the production of water-resistant putty powder according to any one of claims 1-5, characterized in that: The side cover (34) is provided with a base two (43), and the base two (43) is provided with a motor two (44). The output end of the motor two (44) is provided with a positioning gear (45), and the positioning gear (45) is meshed with an adjusting gear (46). The adjusting gear (46) and the positioning gear (45) are fixedly fitted together.

7. A fly ash treatment device for the production of water-resistant putty powder according to any one of claims 2 or 4, characterized in that: The module plate (11) is provided with a pin hole (47), and a positioning pin (48) is installed in the pin hole (47). A fixed seat (49) is rotatably connected to the positioning pin (48). The bottom end of the fixed seat (49) is connected to the top end of the frame (1). A pull rod (50) is hinged to the top end of the positioning pin (48). A drive rod (51) is hinged to one end of the pull rod (50). A through hole (52) is provided through the frame (1). The drive rod (51) passes through the through hole (52) and is slidably connected to the frame (1). A spring (53) is fitted on the drive rod (51). The bottom end of the spring (53) is connected to the top end of the frame (1).

8. The fly ash treatment equipment for producing water-resistant putty powder according to claim 7, characterized in that: The bottom end of the protective shell (41) is provided with a round tube (54), and a support frame (55) is slidably connected inside the round tube (54). A curved block (56) is provided at the bottom end of the support frame (55). An insertion hole (57) is provided through the round tube (54) and the support frame (55). A pin (58) is installed in the insertion hole (57).