A metal insulation board cutting device
By adjusting the cutting depth and angle using lifting and rotating components, the problem of inconvenient adjustment in existing equipment is solved, enabling efficient and precise cutting of metal insulation boards and reducing costs.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI BEIHENG CONSTR ENG CO LTD
- Filing Date
- 2025-06-20
- Publication Date
- 2026-06-19
AI Technical Summary
Existing metal insulation board cutting equipment has a simple structure and is inconvenient to adjust the cutting depth and angle, resulting in low cutting efficiency, difficulty in guaranteeing accuracy, and increased processing costs.
The height of the saw blade and the angle of the processing table are adjusted by using lifting and rotating components. The cutting depth and angle are flexibly adjusted by servo geared motors and rotating components. Rubber shock absorption, wear-resistant protective sleeves and ball bearing structure are combined to improve equipment performance.
It enables precise cutting of metal insulation boards of different thicknesses, improves the versatility and efficiency of cutting equipment, reduces board waste, and lowers processing costs.
Smart Images

Figure CN224372928U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of metal insulation board processing equipment, specifically to a metal insulation board cutting device that can adjust the cutting depth and angle. Background Technology
[0002] In the construction and industrial insulation industries, metal insulation boards are widely used due to their excellent thermal insulation performance and mechanical strength. Cutting is an essential step in the processing of metal insulation boards. Most existing metal insulation board cutting equipment has a relatively simple structure, making it inconvenient to adjust the cutting depth and angle. For example, some cutting equipment can only perform cuts at a fixed depth, failing to meet the processing requirements of metal insulation boards of different thicknesses and different cutting needs. Furthermore, when performing multi-angle cuts, manual adjustment of the board position is often required, which is not only inefficient but also makes it difficult to guarantee cutting accuracy, easily leading to material waste and increased processing costs. Therefore, there is an urgent need to design a metal insulation board cutting device that can flexibly adjust the cutting depth and angle. Utility Model Content
[0003] The purpose of this utility model is to provide a metal insulation board cutting device. By adjusting the height of the saw blade extending from the through hole of the processing table through the lifting component, the device can cut the metal insulation board to different depths. By rotating the processing table through the rotating component, the device can cut the metal insulation board at different angles, thereby improving the flexibility and accuracy of metal insulation board cutting and meeting diverse processing needs.
[0004] A metal insulation board cutting device includes a support, a lifting assembly on the support, a cutting mechanism on the lifting assembly, and a processing table on the support via a rotating assembly, the processing table having through holes.
[0005] Furthermore, the lifting assembly includes a pair of guide rails fixed to the support, with connecting rods at the bottom ends of the two guide rails. Guide blocks that slide up and down are engaged on the guide rails, and a mounting base is fixed between the two guide blocks. A servo reduction motor is fixed to the bottom of the connecting rod, and a lead screw is installed through the output shaft of the servo reduction motor passing through the connecting rod. A threaded hole is provided on the mounting base, and the lead screw is screwed into the threaded hole. The mounting base and the connecting rod are connected by a pair of springs. The servo reduction motor drives the lead screw to rotate, causing the mounting base to move up and down along the guide rails, thereby adjusting the height of the saw blade extending from the processing table through hole in the cutting mechanism, achieving different depths of cutting the metal insulation board.
[0006] Furthermore, the rotating assembly includes a pair of brackets fixed to a support, with an arc-shaped guide rail fixed on each bracket. A fixing seat for fixing a processing table is engaged on the arc-shaped guide rail. The fixing seat has an arc-shaped guide groove, and it is engaged with the arc-shaped guide rail via the groove. The fixing seat rotates counterclockwise on the arc-shaped guide rail. The fixing seat and the arc-shaped guide rail are limited by a locking bolt on the fixing seat. By loosening the locking bolt and rotating the fixing seat, the processing table can be rotated on the arc-shaped guide rail, thereby enabling the cutting of metal insulation boards at different angles. After cutting, the locking bolt is tightened to fix the position of the processing table.
[0007] Furthermore, the cutting mechanism includes a rotating shaft fixed on a mounting base and a motor fixed via a motor bracket. A toothed disc is fixed to one end of the rotating shaft, and a driven wheel is fixed to the other end. A driving wheel is fixed to the output shaft of the motor, and the driving wheel and the driven wheel are connected by a belt. The motor drives the rotating shaft to rotate via belt drive, thereby causing the toothed disc to rotate at high speed to cut the metal insulation board.
[0008] To further optimize equipment performance, the following structures are also included: a rubber damping pad is installed between the servo geared motor and the connecting rod to reduce the impact of vibration generated by the servo geared motor during operation on the overall equipment; a limit block is installed at the top of the guide rail to limit the sliding range of the guide block and prevent the guide block from detaching from the guide rail; a wear-resistant plastic protective sleeve is installed on the edge of the through hole of the processing table to prevent the metal insulation board from being damaged by friction with the edge of the through hole during cutting; ball bearings are installed in the arc-shaped guide groove of the fixed seat, and the ball bearings roll in contact with the arc-shaped guide rail to reduce the friction when the fixed seat rotates on the arc-shaped guide rail; the belt is a toothed belt that meshes with the tooth grooves on the driving pulley and driven pulley to prevent the belt from slipping during transmission.
[0009] Compared with the prior art, the beneficial effects of this utility model are:
[0010] This invention allows for precise adjustment of the height of the saw blade extending from the processing table via a lifting assembly, enabling the cutting of metal insulation boards of different thicknesses to different depths, thus greatly improving the versatility and processing adaptability of the cutting equipment.
[0011] The rotating component allows for easy rotation of the processing table, enabling multi-angle cutting of metal insulation panels without the need for frequent manual adjustments to the panel position. This improves cutting efficiency and accuracy, reduces panel waste, and lowers processing costs. Attached Figure Description
[0012] The accompanying drawings are provided to further illustrate the present invention and form part of the specification. They are used together with the embodiments of the present invention to explain the present invention, but do not constitute a limitation thereof. In the drawings:
[0013] Figure 1 This is a schematic diagram of the structure of this utility model;
[0014] Figure 2 This is a cross-sectional structural diagram of the present invention;
[0015] Figure 3 This is a schematic diagram of the lifting component structure of this utility model;
[0016] Figure 4 This is a schematic diagram of the rotating component structure of this utility model;
[0017] Figure 5 This is a schematic diagram of the cutting mechanism structure of this utility model;
[0018] In the picture:
[0019] Support 1, Lifting assembly 2, Guide rail 21, Connecting rod 22, Guide block 23, Mounting base 24, Servo geared motor 25, Lead screw 26, Threaded hole 27, Spring 28, Cutting mechanism 3, Rotating shaft 31, Motor 32, Sawtooth disc 33, Driven wheel 34, Drive wheel 35, Belt 36, Rotating assembly 4, Processing table 5, Through hole 6, Bracket 41, Arc-shaped guide rail 42, Fixed base 43, Arc-shaped guide groove 44, Locking bolt 45. Detailed Implementation
[0020] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model. Example
[0021] like Figure 1-5 As shown;
[0022] A metal insulation board cutting device.
[0023] This implementation plan addresses the technical problems existing in the prior art, as disclosed in the background section above: "In the construction industry and industrial insulation field, metal insulation boards are widely used due to their excellent insulation performance and mechanical strength. Cutting is an essential step in the processing of metal insulation boards. Most existing metal insulation board cutting equipment has a relatively simple structure, making it inconvenient to adjust the cutting depth and angle. For example, some cutting equipment can only perform cuts at a fixed depth, failing to meet the processing requirements of metal insulation boards of different thicknesses and different cutting needs; simultaneously, when performing multi-angle cuts, it is often necessary to manually adjust the board position, which is not only inefficient but also makes it difficult to guarantee cutting accuracy, easily leading to board waste and increased processing costs." Considering practical use, this problem is clearly real and difficult to solve. Therefore, to solve this technical problem, a metal insulation board cutting device is provided.
[0024] like Figure 1-5 As shown in the figure;
[0025] Based on the above, a metal insulation board cutting device includes a support 1, a lifting assembly 2 mounted on the support 1, a cutting mechanism 3 mounted on the lifting assembly 2, and a processing table 5 mounted on the support 1 via a rotating assembly 4. The processing table 5 has a through hole 6. The lifting assembly 2 includes a pair of guide rails 21 fixed to the support 1, a connecting rod 22 mounted at the bottom of the two guide rails 21, guide blocks 23 that slide up and down engaged on the guide rails 21, a mounting base 24 fixed between the two guide blocks 23, a servo reduction motor 25 fixed at the bottom of the connecting rod 22, and a lead screw 26 passing through the connecting rod 22 on the output shaft of the servo reduction motor 25. The mounting base 24... The upper part has a threaded hole 27, and the lead screw 26 is screwed into the threaded hole 27. The mounting base 24 and the connecting rod 22 are connected by a pair of springs 28. The rotating assembly 4 includes a pair of brackets 41 fixed on the support 1. An arc-shaped guide rail 42 is fixed on the bracket 41. A fixing seat 43 for fixing the processing table 5 is snapped on the arc-shaped guide rail 42. An arc-shaped guide groove 44 is opened on the fixing seat 43. The fixing seat 43 is snapped on the arc-shaped guide rail 42 through the arc-shaped guide groove 44, and the fixing seat 43 rotates counterclockwise on the arc-shaped guide rail 42. The fixing seat 43 and the arc-shaped guide rail 42 are limited by a locking bolt 45 provided on the fixing seat 43.
[0026] The cutting mechanism 3 includes a rotating shaft 31 fixed on the mounting base 24 and a motor 32 fixed by a motor bracket. A saw toothed disc 33 is fixed at one end of the rotating shaft 31 and a driven wheel 34 is fixed at the other end. A driving wheel 35 is fixed on the output shaft of the motor 32. The driving wheel 35 and the driven wheel 34 are connected by a belt 36.
[0027] A shock-absorbing pad is provided between the servo geared motor 25 and the connecting rod 22. The shock-absorbing pad is made of rubber and is used to reduce the impact of the vibration generated by the servo geared motor 25 during operation on the overall equipment.
[0028] A limit block is provided at the top of the guide rail 21. The limit block is used to limit the sliding range of the guide block 23 and prevent the guide block 23 from disengaging from the guide rail 21.
[0029] The processing table 5 has a protective sleeve on the edge of the through hole 6. The protective sleeve is made of wear-resistant plastic to prevent the metal insulation board from being damaged by friction with the edge of the through hole 6 during the cutting process.
[0030] The fixed seat 43 is provided with a ball bearing in the arc-shaped guide groove 44. The ball bearing rolls in contact with the arc-shaped guide rail 42 to reduce the friction when the fixed seat 43 rotates on the arc-shaped guide rail 42.
[0031] The belt 36 is a toothed belt, which meshes with the toothed grooves on the driving pulley 35 and the driven pulley 34 to prevent the belt 36 from slipping during transmission.
[0032] Equipment installation:
[0033] First, securely install the support in a suitable location at the work site. Then, vertically fix a pair of guide rails to the support, install a connecting rod at the bottom of the guide rails, fix the servo geared motor to the bottom of the connecting rod, and install a rubber shock-absorbing pad between the servo geared motor and the connecting rod. Next, snap the guide block onto the guide rail, allowing the guide block to slide up and down along the guide rail. Fix the mounting base between the two guide blocks, screw the lead screw through the connecting rod and into the threaded hole on the mounting base, and install a spring between the mounting base and the connecting rod.
[0034] Install a pair of brackets on the support, fix the arc-shaped guide rail to the brackets, and snap the fixed seat onto the arc-shaped guide rail through the arc-shaped guide groove. Install locking bolts on the fixed seat, and then fix the processing table to the fixed seat. Finally, install the rotating shaft on the mounting base, fix the toothed disc to one end of the rotating shaft, fix the driven wheel to the other end of the rotating shaft, fix the motor in a suitable position on the mounting base through the motor bracket, install the driving wheel on the motor output shaft, connect the driving wheel and the driven wheel with a toothed belt, install a wear-resistant plastic protective sleeve on the edge of the through hole of the processing table, and install ball bearings in the arc-shaped guide groove of the fixed seat.
[0035] Equipment usage:
[0036] When cutting the metal insulation board, place the metal insulation board on the processing table. If the cutting depth needs to be adjusted, start the servo geared motor. The servo geared motor drives the lead screw to rotate. The lead screw engages with the threaded hole, causing the mounting base to move up and down along the guide rail, thereby driving the cutting mechanism to rise or fall. Adjust the height of the saw blade extending from the through hole of the processing table to the appropriate position. The spring plays a buffering and shock-absorbing role.
[0037] If you need to cut the metal insulation board at different angles, loosen the locking bolts on the fixed seat, manually rotate the processing table, and the fixed seat will rotate on the arc-shaped guide rail. After adjusting to the required cutting angle, tighten the locking bolts to limit the fixed seat.
[0038] After adjusting the cutting depth and angle, start the motor. The motor drives the drive wheel to rotate via a toothed belt. The drive wheel then drives the driven wheel to rotate via a belt drive, which in turn causes the shaft and saw disc to rotate at high speed, cutting the metal insulation board.
[0039] Finally, it should be noted that the above are merely preferred embodiments of this utility model and are not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A metal insulation board cutting device, characterized in that, The system includes a support (1), a lifting assembly (2) on the support (1), a cutting mechanism (3) on the lifting assembly (2), a processing table (5) on the support (1) via a rotating assembly (4), a through hole (6) on the processing table (5), a pair of guide rails (21) fixed on the support (1), a connecting rod (22) at the bottom of the two guide rails (21), guide blocks (23) that slide up and down are engaged on the guide rails (21), a mounting base (24) is fixed between the two guide blocks (23), a servo geared motor (25) is fixed at the bottom of the connecting rod (22), a lead screw (26) is provided through the connecting rod (22) of the output shaft of the servo geared motor (25), and a threaded hole (27) is provided on the mounting base (24). The lead screw (26) is screwed into the threaded hole (27). The mounting base (24) and the connecting rod (22) are connected by a pair of springs (28). The rotating assembly (4) includes a pair of brackets (41) fixed on the support (1). An arc-shaped guide rail (42) is fixed on the bracket (41). A fixing seat (43) for fixing the processing table (5) is snapped onto the arc-shaped guide rail (42). An arc-shaped guide groove (44) is provided on the fixing seat (43). The fixing seat (43) is snapped onto the arc-shaped guide rail (42) through the arc-shaped guide groove (44). The fixing seat (43) rotates counterclockwise on the arc-shaped guide rail (42). The fixing seat (43) and the arc-shaped guide rail (42) are limited by a locking bolt (45) set on the fixing seat (43).
2. The metal insulation board cutting equipment according to claim 1, characterized in that, The cutting mechanism (3) includes a rotating shaft (31) fixed on a mounting base (24) and a motor (32) fixed by a motor bracket. A sawtooth disc (33) is fixed at one end of the rotating shaft (31) and a driven wheel (34) is fixed at the other end. A driving wheel (35) is fixed on the output shaft of the motor (32). The driving wheel (35) and the driven wheel (34) are connected by a belt (36).
3. The metal insulation board cutting equipment according to claim 1, characterized in that: A shock-absorbing pad is provided between the servo geared motor (25) and the connecting rod (22). The shock-absorbing pad is made of rubber and is used to reduce the impact of the vibration generated by the servo geared motor (25) during operation on the overall equipment.
4. The metal insulation board cutting equipment according to claim 1, characterized in that: The top end of the guide rail (21) is provided with a limit block, which is used to limit the sliding range of the guide block (23) and prevent the guide block (23) from leaving the guide rail (21).
5. The metal insulation board cutting equipment according to claim 1, characterized in that: The processing table (5) has a protective sleeve on the edge of the through hole (6). The protective sleeve is made of wear-resistant plastic material to prevent the metal insulation board from being damaged by friction with the edge of the through hole (6) during the cutting process.
6. The metal insulation board cutting equipment according to claim 1, characterized in that: The fixed seat (43) has a ball bearing installed in the arc-shaped guide groove (44). The ball bearing rolls in contact with the arc-shaped guide rail (42) to reduce the friction when the fixed seat (43) rotates on the arc-shaped guide rail (42).
7. The metal insulation board cutting equipment according to claim 2, characterized in that: The belt (36) is a toothed belt, which meshes with the toothed grooves on the drive pulley (35) and the driven pulley (34) to prevent the belt (36) from slipping during transmission.