A mold groove cutting device for mold part machining

Abstract

The utility model relates to mould part processing device technical field, and disclose a mould groove cutting device for mould part processing, including main frame, box door, lifting structure, control structure, cutting structure, waste box and collection structure. The mould groove cutting device for mould part processing can collect the debris generated when the device cuts the mould groove of the mould through the setting waste box and collection structure, the suction plate can absorb the debris, the debris can be collected in the waste box through the conveying pipe and driver, and the waste box can be disassembled, when the inside debris is full, the waste box can be disassembled, and the inside debris is poured out, through setting lifting structure, control structure and cutting structure, the flexibility of the device when cutting the mould can be increased.

Description

Technical Field

[0001] This utility model relates to the technical field of mold component processing equipment, specifically a mold groove cutting device for processing mold components. Background Technology

[0002] A mold is a tool used to make shaped objects. This tool is composed of various parts, and different molds are composed of different parts. In the mold production process, a mold groove cutting device is involved.

[0003] However, the existing mold slot cutting device has poor cutting head flexibility, and some debris is generated during and after the cutting process, which causes accumulation and affects the cutting. Utility Model Content

[0004] (a) Technical problems to be solved

[0005] To overcome the aforementioned shortcomings of the prior art, this utility model provides a mold groove cutting device for processing mold parts, which solves the problems in the prior art:

[0006] Existing mold slot cutting devices have poor cutting head flexibility, and generate debris during and after cutting, causing accumulation and affecting the cutting process.

[0007] (II) Technical Solution

[0008] To achieve the above objectives, this utility model provides the following technical solution: a mold slot cutting device for processing mold parts, comprising a main frame, an openable and closable door movably mounted on the front of the main frame, lifting structures on both the left and right sides of the main frame for convenient control of the cutting structure for lifting operations, a control structure movably mounted inside the main frame for left and right movement, a cutting structure movably mounted at the bottom of the control structure for forward and backward movement, a waste bin on the top of the main frame for collecting the cut waste, a collection structure on the top of the waste bin, the collection structure comprising a driver, a conveying pipe, and a suction plate, a conveying pipe on the top of the driver, the driver being located on the top of the waste bin, the suction plate being located inside the back of the main frame, and the other end of the conveying pipe being located on the back of the suction plate.

[0009] Optionally, the lifting structure includes a lifting rod, a mounting head, a mounting plate, a support plate, a first threaded rod, a first drive mechanism, and a support rod. The top of the lifting rod is provided with a mounting head, and one end of the mounting head is provided with a mounting plate for easy connection to the first drive mechanism. The other end of the mounting head is provided with a support plate, and two support rods for support are provided on one side of the support plate. One end of the mounting plate is provided with the first drive mechanism, and the output end of the first drive mechanism is engaged with the first threaded rod. The two ends of the first threaded rod are unthreaded and have a smooth structure. The two ends of the first threaded rod are sleeved inside the mounting head to facilitate rotation of the first threaded rod.

[0010] Optionally, the control structure includes a second threaded rod, a second drive mechanism, a support block, and a threaded mounting block. The second threaded rod is rotatably mounted in the middle of the control structure. The second drive mechanism is provided at one end of the second threaded rod on the back side. The support block is provided at both ends of the top of the control structure to support the support rod. The threaded mounting block is provided in the middle of the top of the control structure to facilitate the threaded connection of the first threaded rod.

[0011] Optionally, the cutting structure includes a cutting milling cutter, a third drive mechanism, a control spindle, and a control head. The cutting milling cutter is rotatably mounted on the bottom of the control spindle. The third drive mechanism is provided at the top center of the control spindle. The output end of the third drive mechanism is connected to the cutting milling cutter. The control head is provided on the top outer surface of the control spindle.

[0012] Optionally, the waste bin includes a storage box, a sealing plate, and a handle. The storage box is fixedly installed on the top of the main frame, the sealing plate is fixedly installed on one end of the top of the storage box, and a handle is provided in the middle of the top of the sealing plate.

[0013] (III) Beneficial Effects

[0014] This utility model provides a mold groove cutting device for processing mold parts, which has the following advantages:

[0015] 1. The mold slot cutting device for processing mold parts is equipped with a waste bin and a collection structure. It can collect the debris generated when the device cuts the mold slot. The suction plate can absorb the debris, and the debris can be discharged into the waste bin for centralized collection through the conveying pipe and the driver. The waste bin can be disassembled. When the waste bin is full, it can be disassembled and the debris inside can be poured out.

[0016] 2. The mold slot cutting device for processing mold parts, by setting up a lifting structure, a control structure and a cutting structure, can increase the flexibility of the device when cutting the mold. The lifting structure can control the cutting structure to lift and lower during use. The control structure can move left and right according to the first threaded rod. The control structure is equipped with a second threaded rod, which can control the cutting structure to move back and forth, thus increasing the flexibility of the device. Attached Figure Description

[0017] Figure 1 This is a schematic diagram of the structure of this utility model;

[0018] Figure 2 This utility model Figure 1 A schematic diagram of the structure after the cabinet door has been removed;

[0019] Figure 3 This is a schematic cross-sectional view of the main frame structure of this utility model;

[0020] Figure 4 This is a schematic diagram of the internal structure of the main frame of this utility model;

[0021] Figure 5 This is a schematic diagram of the control structure of this utility model;

[0022] Figure 6 This is a cross-sectional view of the cutting structure of this utility model;

[0023] Figure 7 This is a schematic diagram of the suction plate structure of this utility model.

[0024] In the diagram: 1. Main frame; 2. Box door; 3. Lifting structure; 4. Control structure; 5. Cutting structure; 6. Waste bin; 7. Collection structure; 301. Lifting rod; 302. Mounting head; 303. Mounting plate; 304. Support plate; 305. First threaded rod; 306. First drive mechanism; 307. Support rod; 401. Second threaded rod; 402. Second drive mechanism; 403. Support block; 404. Threaded mounting block; 501. Cutting milling cutter; 502. Third drive mechanism; 503. Control head; 504. Control spindle; 601. Storage tank; 602. Sealing plate; 603. Handle; 701. Driver; 702. Conveying pipe; 703. Suction plate. Detailed Implementation

[0025] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. All other embodiments obtained by those skilled in the art based on the embodiments of the present utility model without creative effort are within the scope of protection of the present utility model.

[0026] Unless otherwise defined, the technical or scientific terms used in this disclosure shall have the ordinary meaning understood by those skilled in the art. The terms "first," "second," and similar terms used in this disclosure do not indicate any order, quantity, or importance, but are merely used to distinguish different components. Terms such as "comprising" or "including" mean that the element or object preceding the word encompasses the elements or objects listed following the word and their equivalents, without excluding other elements or objects. Terms such as "connected" or "linked" are not limited to physical or mechanical connections, but can include electrical connections, whether direct or indirect. Terms such as "upper," "lower," "left," and "right" are used only to indicate relative positional relationships; when the absolute position of the described object changes, the relative positional relationship may also change accordingly.

[0027] Example 1:

[0028] Please see Figures 1 to 7 This utility model provides a technical solution: a mold groove cutting device for processing mold parts, which is provided with a main frame 1, a door 2 and a lifting structure 3 to support the device and facilitate its up and down movement during use;

[0029] The system includes a main frame 1, with an openable and closable door 2 movably mounted on its front. Lifting structures 3 are located on both the left and right sides of the main frame 1 to facilitate the lifting and lowering of the cutting structure 5. Each lifting structure 3 includes a lifting rod 301, a mounting head 302, a mounting plate 303, a support plate 304, a first threaded rod 305, a first drive mechanism 306, and support rods 307. The top of the lifting rod 301 has a mounting head 302, with a mounting plate 303 at one end for easy connection to the first drive mechanism 306. The other end of the mounting head 302 has a support plate 304. Support rods 307 are located at both ends on one side of the support plate 304. The first drive mechanism 306 is located at one end of the mounting plate 303, and its output end engages with the first threaded rod 305. The two ends of the first threaded rod 305 are smooth and without threads. The two ends of the first threaded rod 305 are sleeved inside the mounting head 302 to facilitate the rotation of the first threaded rod 305. Therefore, the door 2 is set to block the main frame 1 and prevent the debris generated by the mold during cutting from being discharged. The lifting rod 301 is set to control the lifting operation of the other devices. The mounting head 302 is set to facilitate the connection of the other devices. The mounting plate 303 is set to facilitate the installation and fixation of the first drive mechanism 306 and increase the stability between the devices. The support plate 304 is set to facilitate the installation of the support rod 307. The first threaded rod 305 has a smooth structure at both ends and no threads. One end of it is connected to the output end of the second drive mechanism 402. The support rod 307 is set to ensure the stability of movement.

[0030] Example 2:

[0031] In order to control the left-right and forward-backward movement of the cutting structure 5, a device control structure 4 and the cutting structure 5 are provided;

[0032] The main frame 1 has a control structure 4 that can move left and right internally. A cutting structure 5 for forward and backward movement is movably mounted at the bottom of the control structure 4. The control structure 4 includes a second threaded rod 401, a second drive mechanism 402, a support block 403, and a threaded mounting block 404. The second threaded rod 401 is rotatably mounted in the middle of the control structure 4. The second drive mechanism 402 is located at one end of the second threaded rod 401 on its back. The support blocks 403 are located at both ends of the top of the control structure 4 to support the support rod 307. The threaded mounting block 404 is located at the top center of the control structure 4 to facilitate threaded connection of the first threaded rod 305. The cutting structure 5 includes a cutting milling cutter 501, a third drive mechanism 502, a control spindle 504, and a control head 503. The cutting milling cutter 501 is rotatably mounted at the bottom of the control spindle 504. The third drive mechanism 502 is located at the top center of the control spindle 504. The output end is connected to the cutting milling cutter 501. A control head 503 is provided on the top outer surface of the control spindle 504. Therefore, the second threaded rod 401 is provided to control the control head 503 at the top of the cutting mechanism to move back and forth. The second drive mechanism 402 is provided to control the rotation of the second threaded rod 401. The support block 403 is provided to facilitate the passage of the support rod 307 during use, thereby providing support. The threaded mounting block 404 is provided to facilitate the threaded connection of the first threaded rod 305 with it, thereby controlling the left and right movement of the control structure 4. The cutting milling cutter 501 is provided to facilitate the operation of cutting mold grooves on the mold. The third drive mechanism 502 is provided to facilitate the rotation of the cutting milling cutter 501 to achieve the cutting effect. The control spindle 504 is provided to provide support. The control head 503 is provided to facilitate the threaded connection with the second threaded rod 401, thereby moving back and forth.

[0033] Example 3:

[0034] To facilitate the collection of debris generated during the cutting process, a waste bin 6 and a collection structure 7 are provided;

[0035] A waste bin 6 is installed on the top of the main frame 1 for collecting the cutting waste. A collection structure 7 is installed on the top of the waste bin 6. The collection structure 7 includes a driver 701, a conveying pipe 702, and a suction plate 703. The driver 701 is located on top of the conveying pipe 702. The driver 701 is located on the top of the waste bin 6. The suction plate 703 is located inside the back of the main frame 1. The other end of the conveying pipe 702 is located on the back of the suction plate 703. The waste bin 6 includes a storage tank 601, a sealing plate 602, and a handle 603. The storage tank 601 is fixedly installed on the top of the main frame 1. 02 is fixedly installed at one end of the top of the storage tank 601. The top center of the sealing plate 602 is provided with a handle 603. Therefore, the suction plate 703 is set to facilitate the absorption of the cutting debris during use, and then discharge the debris into the waste bin 6 through the conveying pipe 702 and the driver 701. The storage tank 601 is set to centrally store the debris during use. When it is necessary to dump, see how I removed the sealing plate 602 to dump. If it is inconvenient, the waste bin 6 can be disassembled for dumping. The handle 603 is set to make it convenient for the user to hold the waste bin 6.

[0036] All electrical components mentioned in this article are connected to an external main controller and 220V AC mains power, and the main controller can be a conventional known device such as a computer that can control it.

[0037] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.

Claims

1. A mold slot cutting device for processing mold parts, comprising a main frame (1), characterized in that: The main frame (1) is movably equipped with an openable and closable box door (2) on the front. The main frame (1) is equipped with lifting structures (3) on both the left and right sides for convenient control of the cutting structure (5) for lifting operations. The main frame (1) is movably equipped with a control structure (4) for left and right movement. The bottom of the control structure (4) is movably equipped with a cutting structure (5) for forward and backward movement. The main frame (1) is equipped with a waste bin (6) on the top for collecting the waste chips. The waste bin (6) is equipped with a collection structure (7) on the top. The collection structure (7) includes a driver (701), a conveying pipe (702) and a suction plate (703). The driver (701) is equipped with a conveying pipe (702) on the top. The driver (701) is located on the top of the waste bin (6). The suction plate (703) is located inside the back of the main frame (1). The other end of the conveying pipe (702) is located on the back of the suction plate (703).

2. The mold slot cutting device for processing mold parts according to claim 1, characterized in that: The lifting structure (3) includes a lifting rod (301), a mounting head (302), a mounting plate (303), a support plate (304), a first threaded rod (305), a first drive mechanism (306), and a support rod (307). The top of the lifting rod (301) is provided with a mounting head (302). One end of the mounting head (302) is provided with a mounting plate (303) for easy connection to the first drive mechanism (306). The other end of the mounting head (302) is provided with a support plate (304). The support plate (304) has two ends of one side inside, and two support rods (307) for support are provided. One end of the mounting plate (303) is provided with a first drive mechanism (306). The output end of the first drive mechanism (306) is engaged with the first threaded rod (305). The two ends of the first threaded rod (305) are unthreaded and have a smooth structure. The two ends of the first threaded rod (305) are sleeved inside the mounting head (302) to facilitate the rotation of the first threaded rod (305).

3. The mold slot cutting device for processing mold parts according to claim 1, characterized in that: The control structure (4) includes a second threaded rod (401), a second drive mechanism (402), a support block (403), and a threaded mounting block (404). The second threaded rod (401) is rotatably mounted in the middle of the control structure (4). The second drive mechanism (402) is provided at one end of the second threaded rod (401) on the back side. The support block (403) is provided at both ends of the top of the control structure (4) to support the support rod (307). The threaded mounting block (404) is provided in the middle of the top of the control structure (4) to facilitate the threaded connection of the first threaded rod (305).

4. The mold slot cutting device for processing mold parts according to claim 1, characterized in that: The cutting structure (5) includes a cutting milling cutter (501), a third drive mechanism (502), a control spindle (504), and a control head (503). The cutting milling cutter (501) is rotatably mounted on the bottom of the control spindle (504). The third drive mechanism (502) is provided at the top center of the control spindle (504). The output end of the third drive mechanism (502) is connected to the cutting milling cutter (501). The control head (503) is provided on the top outer surface of the control spindle (504).

5. The mold slot cutting device for processing mold parts according to claim 1, characterized in that: The waste bin (6) includes a storage bin (601), a sealing plate (602) and a handle (603). The storage bin (601) is fixedly installed on the top of the main frame (1). The sealing plate (602) is fixedly installed on one end of the top of the storage bin (601). A handle (603) is provided in the middle of the top of the sealing plate (602).

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