A cutting device for thermal insulation board used in anticorrosion thermal insulation engineering
By designing an insulation board cutting device with fixed components, cutting components, and dust collection components, the safety hazards and low cutting accuracy caused by manual operation in the existing technology are solved, achieving efficient and accurate cutting and environmental cleaning.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- YUCHENG CONSTR GRP CO LTD
- Filing Date
- 2025-08-01
- Publication Date
- 2026-06-19
AI Technical Summary
Existing insulation board cutting equipment relies on manual operation, which puts operators under constant strain, poses safety hazards, and results in low cutting accuracy, waste pollution, and health risks.
A cutting device comprising a fixing component, a cutting component, and a dust collection component is designed. The fixing component achieves stability and precise positioning of the insulation board through a conveyor belt, a sliding seat, and bolts. The cutting component achieves efficient and precise cutting by driving the cutting blade with an electric push rod and a motor. The dust collection component removes waste debris through a dust collection box and a dust collection fan.
It improves cutting efficiency and precision, reduces human error risks, keeps the working environment clean, and protects the health of operators.
Smart Images

Figure CN224374207U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of cutting device technology, and more specifically, it relates to a cutting device for insulation boards used in anti-corrosion and thermal insulation engineering. Background Technology
[0002] In existing technologies, firstly, existing insulation board cutting devices usually rely on manual operation, that is, the operator needs to push the insulation board while holding it down to complete the cutting operation. This operation method not only requires the operator to have certain skills and experience, but also, because the insulation board needs to be continuously pressured during the cutting process, it will cause the operator's body to be under a long-term burden, thereby increasing the safety hazards in the operation process.
[0003] Secondly, existing equipment typically lacks sufficient flexibility when cutting insulation boards. Traditional equipment designs are often fixed, requiring manual experience to determine and adjust the cutting position. This method is not only inefficient but also prone to errors, resulting in insulation boards that do not meet size requirements and affecting the construction quality of subsequent projects. For insulation boards requiring high-precision cutting, existing equipment cannot achieve accurate positioning and flexible adjustment, leading to repetitive processes and waste.
[0004] In addition, the cutting process of insulation boards often generates a large amount of waste. This waste not only pollutes the environment, but also easily enters the respiratory tract of operators when it flies in the air. Long-term exposure to this waste may harm the health of operators. Existing cutting equipment is usually not equipped with an effective dust collection device, which causes waste to fly everywhere, increasing the difficulty of cleaning and maintenance. Utility Model Content
[0005] (a) Technical problems to be solved
[0006] To address the problems existing in the prior art, this utility model provides a cutting device for insulation boards used in anti-corrosion and thermal insulation engineering, thereby solving the technical problem mentioned in the background art that existing insulation board cutting devices usually rely on manual operation, which will cause the operator's body to be under long-term strain, thus increasing the safety hazards during the operation process.
[0007] (II) Technical Solution
[0008] To achieve the above objectives, this utility model provides the following technical solution: a cutting device for insulation boards used in anti-corrosion and thermal insulation engineering, comprising an operating table, a fixing component on the operating table, the fixing component comprising a conveyor belt, a sliding seat, a sliding plate and bolts, the conveyor belt being mounted on the operating table and connected to an external power source, the sliding seat being mounted on the conveyor belt, the sliding plate being slidably connected to the sliding seat, and the bolts being detachably mounted between the sliding seat and the sliding plate, and a cutting component on the operating table, the cutting component comprising a housing, an electric push rod and a movable seat, the housing being mounted on the operating table, the electric push rod being mounted on the housing, and the movable seat being mounted on the output end of the electric push rod.
[0009] The present invention is further configured such that the sliding seat is provided with uniformly spaced fixing holes, the fixing holes are adapted to bolts, the sliding plate is threadedly connected with a threaded rod, one end of the threaded rod is connected to a clamping plate, and one end of the operating table is equipped with an mounting seat. The rotation process of the threaded rod is completed through the cooperation of the various components.
[0010] The present invention is further configured such that an electric telescopic rod is installed on the mounting base, a movable plate is connected to the output end of the electric telescopic rod, a baffle is installed at the other end of the operating table, and guide wheels are evenly installed on the baffle and the movable plate. The movement of the movable plate is completed through the coordinated use of the various components.
[0011] The present invention is further configured such that a motor is installed on the movable base, and the motor promotes the rotation process of the cutting blade.
[0012] The present invention is further configured such that a cutting blade is connected to the output end of the motor, thereby enabling the cutting process of the insulation board to be completed.
[0013] The present invention is further configured such that a dust collection assembly is provided on the outer shell, the dust collection assembly including a dust collection box, a dust collection fan and a filter plate, the dust collection box is installed on the top of the outer shell, the dust collection fan is installed on the outer shell and is connected to an external power supply, and the filter plate is slidably connected to the dust collection box, so that the dust adsorption process is completed through the cooperative use of each component.
[0014] The present invention is further configured such that a dust removal hose is connected to one end of the dust removal box, thereby enabling the dust absorption process to be completed by setting up the dust removal hose.
[0015] The present invention is further configured such that a dust removal cover is connected to one end of the dust removal hose, and the dust removal cover is connected to the movable base, thereby enabling the adsorption process of dust.
[0016] (III) Beneficial Effects
[0017] Compared with the prior art, this utility model provides a cutting device for insulation boards used in anti-corrosion and thermal insulation engineering, which has the following beneficial effects:
[0018] 1. The fixing components mainly consist of a conveyor belt, sliding seat, sliding plate and bolts. Its core function is to ensure the stability and precise positioning of the insulation board during the cutting process. The combination of the sliding seat and sliding plate can realize the smooth movement of the insulation board, and the bolt fixing ensures that the insulation board will not shift during the cutting process.
[0019] 2. The cutting assembly consists of a housing, electric actuator, moving base, motor, and cutting blade, designed for precise cutting of insulation boards. During use, the electric actuator drives the moving base to move horizontally or vertically, thereby adjusting the cutting position of the cutting blade. The high-speed rotation of the cutting blade driven by the motor enables efficient and precise cutting. Compared with traditional manual cutting, this cutting assembly significantly improves production efficiency and reduces the risks and errors caused by human operation.
[0020] 3. The dust collection assembly includes components such as a dust collection box, a dust collection fan, a filter plate, and a dust collection hood. Its main function is to remove the waste generated during the cutting process in a timely manner, thereby maintaining a clean working environment and reducing the harm of waste to human health. During the cutting process, the cutting blade will generate a large amount of debris. If this debris is not dealt with in time, it will not only pollute the environment, but may also damage the respiratory system of the operators. Attached Figure Description
[0021] Figure 1 This is a schematic diagram of the overall structure of a heat insulation board cutting device for anti-corrosion and heat insulation engineering according to the present invention;
[0022] Figure 2 This is a cross-sectional view of the structure of this utility model;
[0023] Figure 3 This is a partial structural schematic diagram of the present invention;
[0024] Figure 4 This is a schematic diagram of the fixing component in this utility model;
[0025] Figure 5 This is a partial structural diagram of the fixing component in this utility model.
[0026] In the diagram: 1. Operating platform; 2. Conveyor belt; 3. Sliding seat; 4. Sliding plate; 5. Bolt; 6. Housing; 7. Electric actuator; 8. Moving seat; 9. Fixing hole; 10. Threaded rod; 11. Pressure plate; 12. Mounting seat; 13. Electric telescopic rod; 14. Moving plate; 15. Baffle; 16. Guide wheel; 17. Motor; 18. Cutting knife; 19. Dust collection box; 20. Dust collection fan; 21. Filter plate; 22. Dust collection hose; 23. Dust collection hood. Detailed Implementation
[0027] 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.
[0028] 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.
[0029] In this utility model, unless otherwise stated, the orientations used, such as "up" and "down", usually refer to the direction shown in the accompanying drawings, or to the vertical, perpendicular, or gravitational direction; similarly, for ease of understanding and description, "left" and "right" usually 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 used to limit this utility model.
[0030] Please see Figures 1-5 A cutting device for insulation boards used in anti-corrosion and thermal insulation engineering includes an operating table 1. A fixing component is provided on the operating table 1. The fixing component includes a conveyor belt 2, a sliding seat 3, a sliding plate 4, and bolts 5. The conveyor belt 2 is installed on the operating table 1 and is connected to an external power source. The sliding seat 3 is installed on the conveyor belt 2, and the sliding plate 4 is slidably connected to the sliding seat 3. The bolts 5 are detachably installed between the sliding seat 3 and the sliding plate 4. A cutting component is provided on the operating table 1. The cutting component includes a housing 6, an electric push rod 7, and a movable seat 8. The housing 6 is installed on the operating table 1, the electric push rod 7 is installed on the housing 6, and the movable seat 8 is installed on the output end of the electric push rod 7.
[0031] The sliding seat 3 has evenly spaced fixing holes 9, which are matched with bolts 5. The sliding plate 4 is threaded with a threaded rod 10, and one end of the threaded rod 10 is connected to a clamping plate 11. One end of the operating table 1 is equipped with an installation seat 12.
[0032] An electric telescopic rod 13 is installed on the mounting base 12. A movable plate 14 is connected to the output end of the electric telescopic rod 13. A baffle 15 is installed at the other end of the operating table 1. Guide wheels 16 are evenly installed on the baffle 15 and the movable plate 14.
[0033] A motor 17 is installed on the movable base 8.
[0034] A cutting blade 18 is connected to the output end of the motor 17.
[0035] In this embodiment, during use, the insulation board is placed below the sliding plate 4 on the conveyor belt 2. The sliding plate 4 then slides along the sliding seat 3. After sliding to a suitable position, the bolt 5 is fixed to the sliding seat 3 and the sliding plate 4 along the fixing hole 9 on the sliding seat 3. Simultaneously, the threaded rod 10 rotates along the sliding plate 4. With continuous rotation, the pressing plate 11 and the insulation board are brought into close contact, thus completing the fixing process. The conveyor belt 2 is then activated, causing the insulation board to move. During the conveying process of the conveyor belt 2, the electric telescopic rod 13 on the mounting base 12 is activated to drive the moving plate 14 at its output end to move. This allows the guide wheels 16 on the moving plate 14 and the baffle 15 to facilitate the conveying of the insulation board. During the conveying process, the electric push rod 7 is activated to drive the moving seat 8 at the output end to move. During the movement, the motor 17 is activated to rotate the cutting blade 18 at the output end. During the conveying of the insulation board, the rotating cutting blade 18 is used to cut the insulation board during transportation.
[0036] Please see Figure 3 As an embodiment of a dust collection component for cutting insulation board for anti-corrosion and heat preservation engineering: A dust collection component is provided on the outer shell 6. The dust collection component includes a dust collection box 19, a dust collection fan 20 and a filter plate 21. The dust collection box 19 is installed on the top of the outer shell 6. The dust collection fan 20 is installed on the outer shell 6 and is connected to an external power supply. The filter plate 21 is slidably connected to the dust collection box 19.
[0037] A dust removal hose 22 is connected to one end of the dust collection box 19.
[0038] One end of the dust removal hose 22 is connected to a dust removal cover 23, which is connected to the movable base 8.
[0039] More specifically, during use, when the cutting blade 18 cuts the insulation board, a large amount of debris is generated. By activating the dust collector fan 20 on the dust collector box 19, the dust is drawn out. During the suction process, the debris generated during the cutting process is absorbed along the dust collector hood 23 and flows into the dust collector box 19 along the dust collector hose 22, and then leaks out from one end. The debris is filtered out by the filter plate 21 on the dust collector box 19. When cleaning is required, the filter plate 21 is removed along the dust collector box 19 to facilitate the cleaning process.
[0040] In summary, during the use or operation of the overall equipment: The insulation board is placed below the sliding plate 4 on the conveyor belt 2. The sliding plate 4 then slides along the sliding seat 3. After sliding to the appropriate position, the bolts 5 are fixed to the sliding seat 3 and the sliding plate 4 along the fixing holes 9 on the sliding seat 3. Simultaneously, the threaded rod 10 rotates along the sliding plate 4. This continuous rotation ensures that the pressure plate 11 is tightly pressed against the insulation board, thus completing the fixing process. Finally, the conveyor belt 2 is started, causing it to move the insulation board. Furthermore, during the conveying process of the conveyor belt 2, the electric telescopic rod 13 on the mounting base 12 is activated to drive the moving plate 14 at its output end to move, thereby using the guide wheels 16 on the moving plate 14 and the baffle 15 to facilitate the conveying process of the insulation board. During the conveying process, the electric push rod 7 is activated to drive the moving seat 8 at the output end to move. During the movement, the motor 17 is activated to rotate the cutting blade 18 at the output end. During the conveying process of the insulation board, the rotating cutting blade 18 is used to complete the cutting process of the insulation board during transportation.
[0041] During use, when the cutting blade 18 cuts the insulation board, a large amount of debris is generated. The dust removal fan 20 on the dust removal box 19 is activated to draw out the debris. During the suction process, the debris generated during the cutting process is absorbed along the dust removal hood 23 and flows into the dust removal box 19 along the dust removal hose 22. It then leaks out from one end. The debris is filtered out by the filter plate 21 on the dust removal box 19. When cleaning is required, the filter plate 21 is removed along the dust removal box 19 to facilitate the cleaning process.
[0042] Of all the solutions mentioned above, those involving the connection between two components can be selected according to the actual situation, such as welding, bolt and nut connection, bolt or screw connection, or other known connection methods, which will not be elaborated here. For all the fixed connections mentioned above, welding is preferred. Although embodiments of this utility model have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and variations can be made to these embodiments without departing from the principles and spirit of this utility model. The scope of this utility model is defined by the appended claims and their equivalents.
Claims
1. A cutting device for insulation boards used in anti-corrosion and thermal insulation engineering, comprising an operating table (1), characterized in that: The operating table (1) is provided with a fixing component, which includes a conveyor belt (2), a sliding seat (3), a sliding plate (4), and a bolt (5). The conveyor belt (2) is installed on the operating table (1) and is connected to an external power source. The sliding seat (3) is installed on the conveyor belt (2). The sliding plate (4) is slidably connected to the sliding seat (3). The bolt (5) is detachably installed between the sliding seat (3) and the sliding plate (4). The operating table (1) is provided with a cutting component, which includes a housing (6), an electric push rod (7), and a moving seat (8). The housing (6) is installed on the operating table (1). The electric push rod (7) is installed on the housing (6). The moving seat (8) is installed at the output end of the electric push rod (7).
2. The insulation board cutting device for anti-corrosion and thermal insulation engineering according to claim 1, characterized in that: The sliding seat (3) is provided with uniformly spaced fixing holes (9), which are compatible with bolts (5). The sliding plate (4) is threaded with a threaded rod (10), and one end of the threaded rod (10) is connected to a clamping plate (11). One end of the operating table (1) is equipped with an installation seat (12).
3. The insulation board cutting device for anti-corrosion and thermal insulation engineering according to claim 2, characterized in that: An electric telescopic rod (13) is installed on the mounting base (12). A movable plate (14) is connected to the output end of the electric telescopic rod (13). A baffle (15) is installed at the other end of the operating table (1). Guide wheels (16) are evenly installed on the baffle (15) and the movable plate (14).
4. The insulation board cutting device for anti-corrosion and thermal insulation engineering according to claim 3, characterized in that: A motor (17) is installed on the movable base (8).
5. The insulation board cutting device for anti-corrosion and thermal insulation engineering according to claim 4, characterized in that: The output end of the motor (17) is connected to a cutting blade (18).
6. A cutting device for insulation boards used in anti-corrosion and thermal insulation engineering according to any one of claims 1-5, characterized in that: The outer casing (6) is provided with a dust collection assembly, which includes a dust collection box (19), a dust collection fan (20) and a filter plate (21). The dust collection box (19) is installed on the top of the outer casing (6), the dust collection fan (20) is installed on the outer casing (6), the dust collection fan (20) is connected to an external power supply, and the filter plate (21) is slidably connected to the dust collection box (19).
7. The insulation board cutting device for anti-corrosion and thermal insulation engineering according to claim 6, characterized in that: One end of the dust collection box (19) is connected to a dust collection hose (22).
8. The insulation board cutting device for anti-corrosion and thermal insulation engineering according to claim 7, characterized in that: One end of the dust removal hose (22) is connected to a dust removal cover (23), which is connected to the movable base (8).