A multi-functional cutting device for stone processing
By collecting waste materials in the hopper of the stone cutting device and reducing noise using a sound-absorbing sponge layer and a vacuum chamber, the problems of waste collection and noise are solved, improving the practicality of the device and the working environment.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 河南擎筑建筑设计有限公司
- Filing Date
- 2025-06-27
- Publication Date
- 2026-06-30
AI Technical Summary
Existing stone cutting equipment makes waste collection inconvenient during the cutting process and generates harsh noise that affects the health of workers.
Design a multifunctional cutting device with a material collection bin and a sound-absorbing sponge layer. The material collection bin collects waste materials, the sound-absorbing sponge layer absorbs noise, and the vacuum chamber isolates noise and reduces noise transmission.
It achieves efficient waste collection and effective noise reduction, improves the working environment, and protects the physical and mental health of employees.
Smart Images

Figure CN224426044U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of stone processing technology, specifically to a multi-functional cutting device for stone processing. Background Technology
[0002] In some stone decoration processes, it is often necessary to cut the stone according to the construction site. Currently, the waste generated by the cutting equipment during the cutting process is not easy to collect, thus reducing its practicality. Moreover, the existing cutting equipment generates a lot of harsh noise when cutting. If workers are exposed to such a loud noise environment for a long time, it will seriously affect their physical and mental health. Utility Model Content
[0003] To address the problems existing in the prior art, this utility model provides a multi-functional cutting device for stone processing.
[0004] The technical solution is as follows: It includes a working box with an opening on the front, sealed with a door. Both the working box and the door's side walls have a double-layer structure, forming a vacuum cavity between the layers. Sound-absorbing sponge layers are provided on the inner sides of both the working box and the door. A movable plate is slidably connected inside the working box. A lifting mechanism for driving the movable plate up or down is located on the top surface inside the working box. A support plate is located inside the working box, along with a pair of auxiliary plates. The auxiliary plates are located on top of the support plates, and a first electric push rod is installed at the bottom of the auxiliary plates. The output shaft of the first electric push rod is connected to a pressure plate. A cutting opening is provided on the support plate. A material collection bin is slidably connected to the bottom surface inside the working box, with the cutting opening located at the top of the material collection bin. A fixed cavity is connected to the bottom surface of the movable plate via a connecting block. A cutting assembly is connected to the side wall of the fixed cavity via a horizontal drive mechanism. The horizontal drive mechanism drives the cutting assembly to move horizontally along the fixed cavity, with the cutting blade on the cutting assembly positioned directly above the cutting opening.
[0005] Preferably, the inner surface of the sound-absorbing sponge layer is provided with multiple sound-absorbing arcs.
[0006] Preferably, the work box has a first sliding groove on the left and right sides, and the side wall of the movable plate is provided with a first slider that slides in cooperation with the first sliding groove.
[0007] Preferably, the lifting mechanism includes a second electric push rod installed at the center of the top surface inside the work box, and the output shaft of the second electric push rod is connected to the top surface of the movable plate.
[0008] Preferably, a protective layer is provided on the bottom surface of the pressure plate.
[0009] Preferably, the top surface of the silo is open, the bottom surface of the silo is provided with a pair of second sliding bars, the inner bottom surface of the working box is provided with a second sliding groove that cooperates with the second sliding bars to slide, and the outer side wall of the silo is provided with an embedded handle.
[0010] Preferably, a drive motor is installed at one end of the fixed cavity, and a threaded rod is fixedly connected to the output shaft of the drive motor. The other end of the threaded rod is rotatably connected to the fixed cavity. A threaded block is threadedly connected to the threaded rod, and a moving block is connected to the side wall of the threaded block. The moving block passes through an elongated hole in the side wall of the fixed cavity and is fixedly connected to the mounting plate. The cutting assembly is installed on the mounting plate. A third slider is fixedly connected to the side wall of the threaded block and the moving block respectively. A third sliding groove is provided in the side wall of the fixed cavity to cooperate with the third slider.
[0011] Preferably, the cutting assembly includes a cutting motor mounted on a mounting plate, a housing fixedly mounted on the side wall of the cutting motor, a cutting blade fixedly connected to the output shaft of the cutting motor, and the top of the cutting blade located inside the housing and rotatable inside the housing.
[0012] Preferably, one side of the door is hinged to the front side of the work box, and the other side of the door is fixed to the front side of the work box by a latch. A magnetic sealing layer is provided between the work box and the door. A handle is provided on the outer wall of the door. A window is also provided on the door, and double-layer vacuum glass is installed in the window.
[0013] Preferably, the bottom of the work box is equipped with casters with brakes.
[0014] This utility model provides a multi-functional cutting device for stone processing, the advantages of which are:
[0015] 1. This utility model can collect waste generated during the cutting process through a collection bin, thereby improving the practicality of the device;
[0016] 2: This utility model is equipped with a work box, and the cutting process is carried out inside the work box to prevent the dust generated during cutting from spreading into the surrounding environment and to ensure the working environment of the staff.
[0017] 3: This utility model is equipped with a work box. The noise generated during the cutting process is absorbed by the sound-absorbing sponge layer, which reduces the noise volume. Then, the vacuum cavity isolates part of the noise, greatly reducing the noise that can be transmitted from the work box, thereby effectively preventing the noise from affecting the workers.
[0018] 4. This utility model is equipped with universal wheels with brakes at the bottom of the work box, which facilitates movement and improves practicality. Attached Figure Description
[0019] Figure 1 This utility model provides an internal structural diagram of the work box.
[0020] Figure 2 : Figure 1 Enlarged view of section A.
[0021] Figure 3 This utility model provides a front view of the interior of the work box.
[0022] Figure 4 This utility model provides an internal side view of the work box.
[0023] Figure 5 This utility model provides an overall front view.
[0024] Figure 6 This utility model provides a structural diagram of the internal structure of the fixed cavity.
[0025] In the diagram: 1-Working box, 2-Box door, 3-Vacuum chamber, 4-Sound-absorbing sponge layer, 5-Movable plate, 6-Support plate, 7-Auxiliary plate, 8-First electric push rod, 9-Pressure plate, 10-Cutting port, 11-Collection bin, 12-Connecting block, 13-Fixed cavity, 14-Cutting blade, 15-Silence arc, 16-First slide rail, 17-First slider, 18-Second electric push rod, 19-Protective layer, 20-Second slide bar, 21-Second slide rail, 22-Embedded handle, 23-Drive motor, 24-Threaded rod, 25-Threaded block, 26-Elongated hole, 27-Mounting plate, 28-Third slider, 29-Third slide rail, 30-Cutting motor, 31-Shell, 32-Handle, 33-Window, 34-Double-layer vacuum glass, 35-Universal wheel, 36-Moving block. Detailed Implementation
[0026] The technical solutions of various embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. Based on the embodiments of this utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this utility model. In the description of this utility model, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, and are only for the convenience of describing this utility model and simplifying the description, and do not indicate or imply that the device or component referred to must have a specific orientation, or be constructed and operated in a specific orientation, and therefore should not be construed as a limitation of this utility model.
[0027] The present invention will be further described in detail below through specific embodiments and in conjunction with the accompanying drawings.
[0028] Example 1: As Figures 1-5As shown, a multi-functional stone processing cutting device includes a work box 1. The front of the work box 1 has an opening, and a door 2 is sealed to the opening. One side of the door 2 is hinged to the front of the work box 1, and the other side of the door 2 is fixed to the front of the work box 1 by a latch, which can be a concealed lock as used in existing technology. A magnetic sealing layer is provided between the work box 1 and the door 2. The magnetic sealing layer is similar to the magnetic sealing strip structure on a refrigerator in existing technology. The magnetic sealing layer consists of two layers of magnetic rubber sheets, one of which is bonded to the inner side of the door 2, and the other is bonded to the opening of the work box 1. The magnetic sealing layer increases the sealing between the door 2 and the work box 1, preventing dust from escaping from the inside of the work box 1 and preventing surrounding contamination.
[0029] A handle 32 is provided on the outer wall of the box door 2. The handle 32 is integrally formed with the box door 2. The handle 32 makes it easy to open the box door 2. A window 33 is also provided on the box door 2. A double-layer vacuum glass 34 is installed in the window 33. The double-layer vacuum glass 34 is glued to the inside of the window 33. The double-layer vacuum glass 34 allows the cutting process to be observed through the double-layer vacuum glass 34. The double-layer vacuum glass 34 also plays a certain role in noise reduction.
[0030] The side walls of both the work box 1 and the door 2 are double-layered, forming a vacuum cavity 3 between them. The inner sides of both the work box 1 and the door 2 are equipped with sound-absorbing sponge layers 4, which are glued to the inner sides of the work box 1 and the door 2. The noise generated during the cutting process is absorbed by the sound-absorbing sponge layers 4, reducing the noise level. Then, the vacuum cavity 3 isolates some of the noise, greatly reducing the noise that can be transmitted from the work box 1, thereby effectively preventing the noise from affecting the workers.
[0031] The work box 1 is slidably connected to a movable plate 5. The work box 1 has a first sliding groove 16 on the left and right sides. The side wall of the movable plate 5 is provided with a first slider 17 that cooperates with the first sliding groove 16 and slides. The first slider 17 is integrally formed with the movable plate 5.
[0032] The top surface inside the work box 1 is equipped with a lifting mechanism that drives the movable plate 5 to rise or fall. The lifting mechanism includes a second electric push rod 18 installed at the center of the top surface inside the work box 1. The second electric push rod 18 adopts existing technology. The top of the second electric push rod 18 is fixedly installed on the top surface inside the work box 1 by bolts. The output shaft of the second electric push rod 18 is fixedly connected to the top surface of the movable plate 5 by bolts.
[0033] The work box 1 is equipped with a support plate 6, which is welded inside the work box 1. The work box 1 is also equipped with a pair of auxiliary plates 7, which are welded inside the work box 1 and located on top of the support plate 6. The bottom of the auxiliary plate 7 is equipped with a first electric push rod 8, which adopts existing technology. The output shaft of the first electric push rod 8 is fixedly connected to a pressure plate 9 by bolts. The bottom surface of the pressure plate 9 is provided with a protective layer 19, which can be made of rubber. The protective layer 19 is glued to the bottom surface of the pressure plate 9. When the first electric push rod 8 and the pressure plate 9 work together to clamp the stone to be cut, the protective layer 19 protects the stone.
[0034] A cutting opening 10 is provided on the support plate 6. The cutting opening 10 has an elongated hole structure when viewed from above. A material collection bin 11 is slidably connected to the inner bottom surface of the working box 1. The cutting opening 10 is located at the top of the material collection bin 11. The top surface of the material collection bin 11 is open. A pair of second sliding strips 20 are provided on the bottom surface of the material collection bin 11. The second sliding strips 20 are integrally formed with the material collection bin 11. A second sliding groove 21 is provided on the inner bottom surface of the working box 1 to slide in conjunction with the second sliding strips 20. An embedded handle 22 is provided on the outer wall of the material collection bin 11, facilitating the removal of the material collection bin 11 from the working box 1. The material collection bin 11 can collect waste generated during the cutting process, improving the practicality of the device.
[0035] The bottom surface of the movable plate 5 is connected to a fixed cavity 13 via a connecting block 12. The top of the connecting block 12 is welded and fixedly connected to the bottom surface of the movable plate 5, and the bottom of the connecting block 12 is welded and fixedly connected to the top surface of the fixed cavity 13. A cutting assembly is connected to the side wall of the fixed cavity 13 via a horizontal drive mechanism. The horizontal drive mechanism drives the cutting assembly to move horizontally along the fixed cavity 13. The cutting blade 14 on the cutting assembly is located directly above the cutting opening 10. Figure 6 As shown, a drive motor 23 is installed at one end inside the fixed cavity 13. The drive motor 23 adopts existing technology and is fixedly installed inside the fixed cavity 13 by bolts. The output shaft of the drive motor 23 is fixedly connected to a threaded rod 24 through a coupling. The other end of the threaded rod 24 is rotatably connected to the inside of the fixed cavity 13 through a bearing. A threaded block 25 is threadedly connected to the threaded rod 24. A movable block 36 is welded and fixedly connected to the side wall of the threaded block 25. The movable block 36 passes through the elongated hole 26 in the side wall of the fixed cavity 13 and is welded and fixedly connected to the mounting plate 27. A third slider 28 is fixedly connected to the side wall of the threaded block 25 corresponding to the movable block 36. The third slider 28 is integrally formed with the threaded block 25. A third sliding groove 29 is provided on the inner side wall of the fixed cavity 13 to slide in cooperation with the third slider 28.
[0036] The cutting assembly includes a cutting motor 30 mounted on a mounting plate 27. The cutting motor 30 uses existing technology and is fixedly connected to the mounting plate 27 by bolts. A housing 31 is fixedly mounted on the side wall of the cutting motor 30. The housing 31 is fixedly connected to the side wall of the cutting motor 30 by bolts and nuts. A cutting blade 14 is fixedly connected to the output shaft of the cutting motor 30 by bolts. The top of the cutting blade 14 is located inside the housing 31 and can rotate inside the housing 31.
[0037] Working principle: The stone to be cut is placed on the support plate 6. The stone is clamped by the cooperation of the first electric push rod 8 and the pressure plate 9. During the cutting process, the stone is cut by the cooperation of the second electric push rod 18, the horizontal drive mechanism and the cutting component. The cutting process is carried out inside the working box 1 to prevent the dust generated during cutting from spreading into the surrounding environment and to ensure the working environment of the staff. After the cutting is completed, the box door 2 is opened and the inside of the working box 1 can be dusted by hand spraying water. After the dust settles, the cut stone is taken out from the working box 1.
[0038] Example 2: Based on the above examples, the inner surface of the sound-absorbing sponge layer 4 is further provided with multiple sound-absorbing arcs 15. The sound-absorbing arcs 15 continuously refract the noise through the internal arc surface, continuously consume the sound waves and reduce noise, thereby improving the noise reduction effect of the device.
[0039] Example 3: Based on the above examples, the bottom of the work box 1 is further equipped with casters 35 with brakes. The casters 35 adopt existing technology. There are four casters 35, which are evenly distributed at the four corners of the bottom surface of the work box 1. The casters 35 with brakes facilitate movement and improve practicality.
[0040] In summary, this utility model can collect waste generated during the cutting process through the collection bin, improving the practicality of the device; the working box is set up so that the noise generated during the cutting process is absorbed by the sound-absorbing sponge layer, which will reduce some of the noise volume; then the vacuum cavity isolates some of the noise, greatly reducing the noise that can be transmitted from the working box, thereby effectively preventing the noise from affecting the workers.
[0041] The present invention has been specifically demonstrated and introduced in conjunction with the preferred embodiments. There are many methods and approaches to implement this technical solution. The above description is only a preferred embodiment of the present invention. However, those skilled in the art should understand that various changes in form and detail can be made to the present invention without departing from the spirit and scope of the present invention as defined in the appended claims, and all such changes shall be within the protection scope of the present invention.
Claims
1. A multi-functional stone processing cutting device, comprising a work box (1), wherein the front side of the work box (1) is provided with an opening, and a door (2) is sealed and connected to the opening, characterized in that, The side walls of the working box (1) and the box door (2) are both double-layered, forming a vacuum cavity (3) between the double-layered structures. The inner side of the working box (1) and the inner side of the box door (2) are provided with sound-absorbing sponge layers (4). A movable plate (5) is slidably connected inside the working box (1). A lifting mechanism for driving the movable plate (5) to rise or fall is provided on the top surface inside the working box (1). A support plate (6) is provided inside the working box (1). A pair of auxiliary plates (7) are also provided inside the working box (1). The auxiliary plates (7) are located on top of the support plate (6). A first electric push is installed at the bottom of the auxiliary plates (7). The first electric push rod (8) has a pressure plate (9) connected to its output shaft. The support plate (6) has a cutting opening (10). The work box (1) has a slidably connected collection bin (11) on its inner bottom surface. The cutting opening (10) is located at the top of the collection bin (11). The bottom surface of the movable plate (5) is connected to a fixed cavity (13) via a connecting block (12). The side wall of the fixed cavity (13) is connected to a cutting assembly via a horizontal drive mechanism. The horizontal drive mechanism drives the cutting assembly to move horizontally along the fixed cavity (13). The cutting blade (14) on the cutting assembly is located directly above the cutting opening (10).
2. The multi-functional stone processing cutting device according to claim 1, characterized in that, The inner surface of the sound-absorbing sponge layer (4) is provided with multiple sound-absorbing arcs (15).
3. The multi-functional stone processing cutting device according to claim 1, characterized in that, The work box (1) has a first sliding groove (16) on the left and right sides inside, and the side wall of the movable plate (5) is provided with a first slider (17) that cooperates with the first sliding groove (16) to slide.
4. The multi-functional stone processing cutting device according to claim 1, characterized in that, The lifting mechanism includes a second electric push rod (18) installed at the center of the top surface inside the work box (1), and the output shaft of the second electric push rod (18) is connected to the top surface of the movable plate (5).
5. The multi-functional stone processing cutting device according to claim 1, characterized in that, The bottom surface of the pressure plate (9) is provided with a protective layer (19).
6. The multi-functional stone processing cutting device according to claim 1, characterized in that, The top surface of the collection bin (11) is open, and a pair of second slide bars (20) are provided on the bottom surface of the collection bin (11). The inner bottom surface of the working box (1) is provided with a second slide groove (21) that cooperates with the second slide bars (20) to slide. The outer side wall of the collection bin (11) is provided with an embedded handle (22).
7. The multi-functional stone processing cutting device according to claim 1, characterized in that, A drive motor (23) is installed at one end inside the fixed cavity (13). The output shaft of the drive motor (23) is fixedly connected to a threaded rod (24). The other end of the threaded rod (24) is rotatably connected inside the fixed cavity (13). A threaded block (25) is threadedly connected to the threaded rod (24). A moving block (36) is connected to the side wall of the threaded block (25). The moving block (36) passes through the elongated hole (26) in the side wall of the fixed cavity (13) and is fixedly connected to the mounting plate (27). The cutting assembly is installed on the mounting plate (27). A third slider (28) is fixedly connected to the side wall of the threaded block (25) corresponding to the moving block (36). A third groove (29) is provided on the inner side wall of the fixed cavity (13) to slide in cooperation with the third slider (28).
8. A multi-functional stone processing cutting device according to claim 7, characterized in that, The cutting assembly includes a cutting motor (30) mounted on the mounting plate (27), a housing (31) is fixedly mounted on the side wall of the cutting motor (30), and a cutting blade (14) is fixedly connected to the output shaft of the cutting motor (30). The top of the cutting blade (14) is located inside the housing (31) and can rotate inside the housing (31).
9. A multi-functional stone processing cutting device according to claim 1, characterized in that, One side of the box door (2) is hinged to the front side of the work box (1), and the other side of the box door (2) is fixed to the front side of the work box (1) by a latch. A magnetic sealing layer is provided between the work box (1) and the box door (2). A handle (32) is provided on the outer side wall of the box door (2). A window (33) is also provided on the box door (2). A double-layer vacuum glass (34) is installed in the window (33).
10. A multi-functional stone processing cutting device according to claim 1, characterized in that, The bottom of the work box (1) is equipped with casters (35) with brakes.