Aluminum alloy frame for cutting machine

By designing an aluminum alloy frame for the cutting machine, separating the feeding and cutting chambers, and enhancing the support structure and stability, the safety and stability issues of the cutting machine during the cutting process were solved, achieving safe protection and stable operation.

CN224372933UActive Publication Date: 2026-06-19AOLV ALUMINUM IND TECH(KUNSHAN) CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
AOLV ALUMINUM IND TECH(KUNSHAN) CO LTD
Filing Date
2025-04-21
Publication Date
2026-06-19

AI Technical Summary

Technical Problem

Existing cutting machines lack a stable support structure during the cutting process, resulting in safety hazards and insufficient protection of the working environment.

Method used

Design an aluminum alloy frame for a cutting machine, including a feeding chamber and a cutting chamber, which correspond to the feeding function area and the cutting function area respectively. The feeding plate and the output plate are slidably connected to the feeding frame. The cutting frame is lower than the feeding frame. A cutting slide rail and a slide support structure are set to enhance the support stability. The overall stability is improved by the frame connecting rod and the Z-shaped fixing frame.

Benefits of technology

It achieves independent protection of the working environment and stable operation of the cutting action, avoids safety hazards during the cutting process, and improves the support stability of the equipment and the continuity of cutting.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses mechanical processing technical field especially relates to a kind of aluminium alloy rack for cutting machine, including rack base and the rack shell of covering rack base setting, still include the feeding cabin and cutting cabin of setting on rack shell, feeding cabin is provided with feeding plate inside, rack base is provided with the feeding frame of intercommunication feeding cabin and cutting cabin, cutting frame is located on the rack base of cutting cabin one side, cutting slide rail is slidably connected with cutting saw, utilize feeding cabin and cutting cabin respectively corresponding feeding function area and cutting function area, so it can be in actual use, the cabin of two different working contents is distinguished, realize the effect of separate processing, when adjusting the working environment in feeding cabin, cutting cabin does not need to open, keep closed state, and when adjusting cutting cabin, feeding cabin keeps closed state, so two cabins are independent of each other, to be able to protect the security of surrounding working environment.
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Description

Technical Field

[0001] This utility model relates to the field of machining technology, and in particular to an aluminum alloy frame for a cutting machine. Background Technology

[0002] To improve the ease of transporting metal profiles, they are often manufactured to a large size. This necessitates secondary cutting of the metal profiles during use to ensure their dimensions meet on-site requirements. Due to the unique properties of metal profiles, the surrounding working environment must be protected during cutting to prevent any impact on worker safety. As the most crucial piece of equipment in the cutting process, the cutting saw requires stable support to prevent safety hazards. This necessitates a stable support structure for the cutting equipment, thus requiring an aluminum alloy frame for the cutting machine. Utility Model Content

[0003] In view of the shortcomings of the prior art described above, the purpose of this utility model is to provide an aluminum alloy frame for a cutting machine to solve the problem of support stability during the cutting process of the cutting machine in the prior art.

[0004] To achieve the above and other related objectives, this utility model provides the following technical solution:

[0005] An aluminum alloy frame for a cutting machine includes a frame base and a frame housing covering the frame base, and further includes:

[0006] The machine frame housing is provided with a feeding chamber and a cutting chamber. The feeding chamber is provided with a feeding plate and the cutting chamber is provided with a discharge plate. The machine frame base is provided with a feeding rack that connects the feeding chamber and the cutting chamber. The feeding plate and the discharge plate are slidably connected to the feeding rack.

[0007] The cutting frame is located on the base of the frame on one side of the cutting chamber. The height of the cutting frame is lower than that of the feeding frame. Two sets of cutting slides are symmetrically arranged on the cutting frame. Cutting slide rails are provided on the two sets of cutting slides. Cutting saws are slidably connected to the cutting slide rails.

[0008] To achieve the above technical solution, the feeding chamber and cutting chamber correspond to the feeding and cutting functional areas respectively. This allows the two chambers with different working functions to be separated during actual use, enabling them to be processed independently. When adjusting the working environment inside the feeding chamber, the cutting chamber does not need to be opened and remains closed. Conversely, when adjusting the cutting chamber, the feeding chamber remains closed. This ensures that the two chambers are independent of each other, thereby protecting the safety of the surrounding working environment. A feeding rack connecting the feeding chamber and the cutting chamber is installed on the frame base. The feeding plate and the discharge plate are slidably connected to the feeding rack, which also ensures the correlation between the two chambers and allows the cutting operation to run stably.

[0009] By slidably connecting a cutting saw to the cutting slide rail and setting the height of the cutting frame lower than that of the feeding frame, the cutting stroke of the cutting saw can be facilitated, the feeding frame can be prevented from interfering with the cutting surface of the cutting saw, and the cutting stability of the equipment can be improved.

[0010] In one embodiment of the present invention, the cutting frame is arranged perpendicular to the feeding frame, and a frame connecting rod is provided between the frame base located at the bottom of the cutting frame and the frame base located at the bottom of the feeding frame.

[0011] To achieve the above technical solution, the cutting frame needs to be set perpendicular to the feeding frame, which means that the bases at one end of the cutting frame must extend beyond the feeding frame. In order to improve the overall stability of the equipment during operation, a frame connecting rod is set between the frame base at the bottom of the cutting frame and the frame base at the bottom of the feeding frame. The frame connecting rod is used to improve the overall integrity of the frame base.

[0012] In one embodiment of the present invention, a Z-shaped fixing frame is provided on the frame base at the bottom of the cutting frame, and a slide support rod is provided between the lower side of the cutting slide and the Z-shaped fixing frame to support the cutting slide.

[0013] To achieve the above technical solution, since the cutting frame is equipped with a cutting slide to support the cutting saw, the support stability of the cutting slide will have an important impact on the stability of the cutting saw. A Z-shaped fixing frame is set on the frame base at the bottom of the cutting frame, and the cutting slide is supported between the cutting slide and the Z-shaped fixing frame by the slide support rod. The slide support rod is arranged along the length of the cutting frame, so that the slide support rod is located on the two parallel sides of the Z-shaped fixing frame, thereby improving the support stability of the cutting slide for the cutting saw.

[0014] In one embodiment of the present invention, a slide support is provided between the two ends of the cutting slide and the cutting frame. The slide support is located on the lower side of the cutting slide, and the two ends of the slide support are connected to the cutting frame.

[0015] To achieve the above technical solution, the two ends of the cutting slide are connected to the cutting frame through a slide bracket. The slide bracket, together with the slide support rod, can further consolidate the support stability of the cutting slide. By placing the slide bracket on the lower side of the cutting slide, the sliding trajectory of the cutting saw can be avoided.

[0016] In one embodiment of the present invention, a feeding compartment door and a cutting compartment door are respectively provided on the same side of the feeding compartment and the cutting compartment. The feeding compartment door and the cutting compartment door are both connected to the feeding compartment and the cutting compartment by a top hinge.

[0017] To achieve the above technical solution, placing the feeding compartment door and the cutting compartment door on the same side can reduce the occupation of the working space. By using a top hinge for both the feeding compartment door and the cutting compartment door, the feeding compartment and the cutting compartment can be opened to the maximum extent, which facilitates subsequent operations inside the feeding compartment and the cutting compartment.

[0018] In one embodiment of this utility model, an electronic control panel is provided on the cutting chamber door, and an observation window is provided on the feeding chamber door.

[0019] By implementing the above technical solution, the electronic control screen can display the control status of the cutting action, while the observation window can observe the feeding status in the feeding chamber, ensuring that the equipment can operate stably.

[0020] In one embodiment of the present invention, a feeding port is provided on the feeding chamber at the end away from the cutting chamber, and a discharge port is provided on the cutting chamber at the end away from the feeding chamber.

[0021] By implementing the above technical solution, the feeding port and the discharging port can be conveniently used for feeding and discharging.

[0022] As described above, the aluminum alloy frame for a cutting machine of this utility model has the following beneficial effects: By using a feeding chamber and a cutting chamber corresponding to the feeding and cutting functional areas respectively, the two chambers with different working contents can be separated during actual use, achieving independent processing. When adjusting the working environment inside the feeding chamber, the cutting chamber does not need to be opened and remains closed; conversely, when adjusting the cutting chamber, the feeding chamber remains closed. This ensures the two chambers are independent, thus protecting the safety of the surrounding working environment. A feeding rack connecting the feeding chamber and the cutting chamber is provided on the frame base. The feeding plate and the discharge plate are slidably connected to the feeding rack, ensuring the connectivity between the two chambers and enabling stable operation of the cutting action. Attached Figure Description

[0023] Figure 1 The diagram shown is a structural schematic of the aluminum alloy frame for a cutting machine disclosed in an embodiment of this utility model.

[0024] Figure 2The diagram shown is a schematic diagram of the cutting frame structure of the aluminum alloy frame for the cutting machine disclosed in this embodiment of the present invention.

[0025] Figure 3 The diagram shown is a schematic diagram of the frame linkage structure of the aluminum alloy frame for the cutting machine disclosed in this embodiment of the present invention.

[0026] Component designation explanation

[0027] 1. Frame base; 2. Frame housing; 3. Feeding chamber; 4. Cutting chamber; 5. Feeding plate; 6. Discharge plate; 7. Feeding rack; 8. Cutting rack; 9. Cutting slide; 10. Cutting slide rail; 11. Cutting saw; 12. Frame connecting rod; 13. Z-shaped fixing frame; 14. Slide support rod; 15. Slide bracket; 16. Feeding chamber door; 17. Cutting chamber door; 18. Electrical control panel; 19. Observation window; 20. Feeding port; 21. Discharge port. Detailed Implementation

[0028] The following specific embodiments illustrate the implementation of this utility model. Those skilled in the art can easily understand other advantages and effects of this utility model from the content disclosed in this specification. It should be noted that, unless otherwise specified, the following embodiments and features can be combined with each other.

[0029] Please see Figures 1 to 3 This utility model provides an aluminum alloy frame for a cutting machine, including a frame base 1 and a frame shell 2 covering the frame base 1. The frame shell 2 also includes a feeding chamber 3 and a cutting chamber 4. The feeding chamber 3 contains a feeding plate 5, and the cutting chamber 4 contains a discharge plate 6. The frame base 1 has a feeding rack 7 connecting the feeding chamber 3 and the cutting chamber 4. Both the feeding plate 5 and the discharge plate 6 are slidably connected to the feeding rack 7. A cutting frame 8 is located on the frame base 1 on one side of the cutting chamber 4. The height of the cutting frame 8 is lower than the height of the feeding rack 7. Two sets of cutting slides 9 are symmetrically arranged on the cutting frame 8. Cutting slide rails 10 are provided on the two sets of cutting slides 9, and cutting saws 11 are slidably connected to the cutting slide rails 10.

[0030] By using the feeding chamber 3 and the cutting chamber 4 to correspond to the feeding and cutting functional areas respectively, the two chambers with different working functions can be separated during actual use, allowing for independent processing. When adjusting the working environment inside the feeding chamber 3, the cutting chamber 4 does not need to be opened and remains closed, while when adjusting the cutting chamber 4, the feeding chamber 3 remains closed. This ensures that the two chambers are independent of each other, thereby protecting the safety of the surrounding working environment. A feeding rack 7 connecting the feeding chamber 3 and the cutting chamber 4 is provided on the frame base 1. The feeding plate 5 and the discharge plate 6 are slidably connected to the feeding rack 7, which also ensures the correlation between the two chambers and allows the cutting operation to run stably.

[0031] By slidably connecting the cutting saw 11 to the cutting slide rail 10 and setting the height of the cutting frame 8 lower than the height of the feeding frame 7, the cutting stroke of the cutting saw 11 can be facilitated, the feeding frame 7 can be prevented from interfering with the cutting surface of the cutting saw 11, and the cutting stability of the equipment can be improved.

[0032] The cutting frame 8 is set perpendicular to the feeding frame 7. A frame connecting rod 12 is set between the frame base 1 at the bottom of the cutting frame 8 and the frame base 1 at the bottom of the feeding frame 7. Since the cutting frame 8 needs to be set perpendicular to the feeding frame 7, the bases at one end of the cutting frame 8 must extend beyond the end of the feeding frame 7. In order to improve the overall stability of the equipment during operation, a frame connecting rod 12 is set between the frame base 1 at the bottom of the cutting frame 8 and the frame base 1 at the bottom of the feeding frame 7. The frame connecting rod 12 is used to improve the integrity of the frame base 1.

[0033] A Z-shaped fixing frame 13 is provided on the frame base 1 at the bottom of the cutting frame 8. A slide support rod 14 is provided between the lower side of the cutting slide 9 and the Z-shaped fixing frame 13 to support the cutting slide 9. Since the cutting slide 9 is provided on the cutting frame 8 and is used to support the cutting saw 11, the support stability of the cutting slide 9 will have an important impact on the stability of the cutting saw 11. The Z-shaped fixing frame 13 is provided on the frame base 1 at the bottom of the cutting frame 8, and the slide support rod 14 is used to support the cutting slide 9 between the cutting slide 9 and the Z-shaped fixing frame 13. The slide support rod 14 is arranged along the length of the cutting frame 8, so that the slide support rod 14 is located on the two parallel sides of the Z-shaped fixing frame 13, thereby improving the support stability of the cutting slide 9 for the cutting saw 11.

[0034] A slide bracket 15 is provided between the two ends of the cutting slide 9 and the cutting frame 8. The slide bracket 15 is located on the lower side of the cutting slide 9, and the two ends of the slide bracket 15 are connected to the cutting frame 8. The two ends of the cutting slide 9 are connected to the cutting frame 8 through the slide bracket 15. The slide bracket 15, together with the slide support rod 14, can further consolidate the support stability of the cutting slide 9. The slide bracket 15 is located on the lower side of the cutting slide 9, which can avoid the slide bracket 15 affecting the sliding trajectory of the cutting saw 11.

[0035] Feeding compartment 3 and cutting compartment 4 are respectively provided with feeding compartment door 16 and cutting compartment door 17 on the same side. Both feeding compartment door 16 and cutting compartment door 17 are connected to the feeding compartment 3 and cutting compartment 4 by top hinge. Placing feeding compartment door 16 and cutting compartment door 17 on the same side can reduce the occupation of working space. The top hinge of feeding compartment door 16 and cutting compartment door 17 can maximize the opening of feeding compartment 3 and cutting compartment 4, which facilitates subsequent operations inside feeding compartment 3 and cutting compartment 4.

[0036] An electrical control panel 18 is installed on the cutting chamber door 17, and an observation window 19 is installed on the feeding chamber door 16. The electrical control panel 18 can display the control status of the cutting action, while the observation window 19 can observe the feeding status in the feeding chamber 3 to ensure that the equipment can operate stably.

[0037] A feeding port 20 is provided on the end of the feeding chamber 3 away from the cutting chamber 4, and a discharge port 21 is provided on the end of the cutting chamber 4 away from the feeding chamber 3. The feeding port 20 and the discharge port 21 can facilitate feeding and discharging.

[0038] This invention utilizes a feeding chamber and a cutting chamber to correspond to the feeding and cutting functional areas respectively. This allows for the separation of the two chambers with different working functions during actual use, enabling independent processing. When adjusting the working environment inside the feeding chamber, the cutting chamber does not need to be opened and remains closed. Conversely, when adjusting the cutting chamber, the feeding chamber remains closed. This independence of the two chambers protects the safety of the surrounding working environment. A feeding rack connecting the feeding chamber and the cutting chamber is provided on the frame base. The feeding plate and the discharge plate are slidably connected to the feeding rack, ensuring the connectivity between the two chambers and enabling stable operation of the cutting action.

[0039] The above embodiments are merely illustrative of the principles and effects of this utility model and are not intended to limit this utility model. All equivalent modifications or alterations made by those skilled in the art without departing from the spirit and technical concept disclosed in this utility model should still be covered by the claims of this utility model.

Claims

1. An aluminum alloy frame for a cutting machine comprising a frame base and a frame cover provided to cover the frame base, characterized in that, Also includes: The machine frame housing is provided with a feeding chamber and a cutting chamber. The feeding chamber is provided with a feeding plate and the cutting chamber is provided with a discharge plate. The machine frame base is provided with a feeding rack that connects the feeding chamber and the cutting chamber. The feeding plate and the discharge plate are slidably connected to the feeding rack. The cutting frame is located on the base of the frame on one side of the cutting chamber. The height of the cutting frame is lower than that of the feeding frame. Two sets of cutting slides are symmetrically arranged on the cutting frame. Cutting slide rails are provided on the two sets of cutting slides. Cutting saws are slidably connected to the cutting slide rails.

2. The aluminum alloy frame for a cutting machine according to claim 1, characterized by: The cutting frame is arranged perpendicular to the feeding frame, and a frame connecting rod is provided between the frame base located at the bottom of the cutting frame and the frame base located at the bottom of the feeding frame.

3. The aluminum alloy frame for a cutting machine according to claim 1, characterized by: A Z-shaped fixing frame is provided on the frame base at the bottom of the cutting frame, and a slide support rod is provided between the lower side of the cutting slide and the Z-shaped fixing frame to support the cutting slide.

4. The aluminum alloy frame for a cutting machine according to claim 1, characterized by: The cutting slide is provided with slide brackets between its two ends and the cutting frame. The slide brackets are located on the lower side of the cutting slide, and both ends of the slide brackets are connected to the cutting frame.

5. The aluminum alloy frame for a cutting machine of claim 1, wherein: The feeding compartment and the cutting compartment are respectively provided on the same side of the feeding compartment and the cutting compartment. The feeding compartment door and the cutting compartment door are both connected to the feeding compartment and the cutting compartment by top hinge.

6. The aluminum alloy frame for a cutting machine according to claim 5, characterized by: The cutting compartment door is equipped with an electronic control panel, and the feeding compartment door is equipped with an observation window.

7. The aluminum alloy frame for a cutting machine of claim 1, wherein: The feeding chamber has a feeding port at the end away from the cutting chamber, and the cutting chamber has a discharge port at the end away from the feeding chamber.