An automated slitting and weighing machine

By introducing pin and insert structures into the slitting and weighing machine, combined with cam and motor drive, intermittent material conveying is achieved, solving the blockage problem caused by synchronizing slitting and conveying, improving work efficiency and reducing safety risks.

CN224425762UActive Publication Date: 2026-06-30ZHENGZHOU MAOZHUANG PRINTING FACTORY

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHENGZHOU MAOZHUANG PRINTING FACTORY
Filing Date
2025-06-19
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

When the existing slitting and weighing machine is slitting and conveying simultaneously, the material is prone to clogging the feed inlet, resulting in low work efficiency and safety hazards.

Method used

An automated slitting and weighing machine was designed. By setting pins and inserts on the side wall of the transport component, combined with cam and motor drive, intermittent material conveying is achieved to avoid blockage.

Benefits of technology

It improved work efficiency, reduced the need for manual intervention, and decreased safety risks.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model discloses an automated slitting and weighing machine, including a slitting main unit. An output component is located on one side of the slitting main unit, and a transport component is located within the output component. In this utility model, a pin located on the side wall of the transport component is inserted into the center of a semi-circular portion of a material-blocking component. A first insert is located below an upper crossbeam on the upper side of the other side of the material-blocking component, and a second insert is located above a lower crossbeam on the lower side of the other side of the material-blocking component. The first insert is inserted into the middle of the conveying trough, and the second insert is also inserted into the middle of the conveying trough through a through-hole. An L-shaped support plate is located below the transport component, and a support frame and a motor are located above the horizontal section of the L-shaped support plate. The motor is connected to a cam via a rotating column, and the side of the cam is positioned below the material-blocking component. By using intermittent material conveying within the output component, manual assistance is eliminated, the risk of accidents is reduced, and work efficiency is increased.
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Description

Technical Field

[0001] This utility model relates to the field of weighing machine technology, specifically to an automated slitting and weighing machine. Background Technology

[0002] A slitting and weighing machine is an automated device that combines slitting and weighing functions. It is primarily used for precise slitting of materials and real-time weight monitoring, suitable for industrial scenarios requiring segmented weight control. Existing slitting and weighing machines, when conveying slit materials to the next process step, often experience blockages at the feed inlet due to the synchronous and rapid slitting and conveying. This necessitates manual assistance in placing or temporarily removing materials, significantly reducing work efficiency and posing a safety hazard to personnel. Therefore, this paper proposes an automated slitting and weighing machine to address these issues. Utility Model Content

[0003] The purpose of this invention is to provide an automated slitting and weighing machine to solve the problems mentioned in the background.

[0004] To solve the above-mentioned technical problems, this utility model specifically provides the following technical solution: an automated slitting and weighing machine, including a slitting host, an output component on one side of the slitting host, a transport component inside the output component, a material stop component on one side wall of the transport component, a pin between the middle of one side of the material stop component and the side wall of the transport component, a first insert pin fixedly connected downward to the upper end of the other side of the material stop component, and a second insert pin fixedly connected downward to the lower end of the other side of the material stop component, the lower part of the first insert pin is inserted downward into the transport component, and the upper part of the second insert pin is inserted upward into the transport component, the bottom of the lower end of the other side of the material stop component is slidably connected to the side of a cam, and a rotating column is inserted into the cam, and the rotating column is connected to the rotating shaft of a motor, an L-shaped support plate is provided below the transport component, and a motor and a support frame are respectively provided above the horizontal end of the L-shaped support plate.

[0005] Preferably, the transport component has a conveying groove and a through hole. The material blocking component has a semi-circular part on one side, and a pin is inserted into the middle of the semi-circular part and rotatably connected to one end. At the same time, the other end of the pin is inserted into the side wall of the transport component for fixed connection.

[0006] Preferably, the upper end of the other side of the baffle assembly is provided with an upper crossbeam, and the upper crossbeam is positioned above the transport assembly. The upper end of the first insert post is fixedly connected to one end of the upper crossbeam, and the first insert post is positioned in the middle of the conveying trough.

[0007] Preferably, the lower end of the other side of the material blocking assembly is provided with a lower crossbeam, and the lower crossbeam is positioned below the transport assembly. The lower end of the second insert is fixedly connected to one end of the lower crossbeam, and the upper end of the second insert is inserted into the through hole.

[0008] Preferably, the first and second inserts are on the same vertical line, and material is provided between the first and second inserts.

[0009] Preferably, a support frame is fixedly connected above the horizontal section of the L-shaped support plate, and a motor is installed inside the support frame.

[0010] Preferably, there is a distance between the upper plane of the horizontal section of the L-shaped support plate and the side of the cam, and there is a gap between the side of the vertical section of the L-shaped support plate and the second insert.

[0011] Preferably, the slitting host has a controller inside its front side.

[0012] Compared with the prior art, this utility model has the following advantages:

[0013] This invention features a pin on the side wall of the transport component, with one end inserted into the center of the semicircular portion of the baffle component. A first insert is located below the upper crossbeam on the other side of the baffle component, and a second insert is located above the lower crossbeam on the other side of the baffle component. The first insert is inserted into the middle of the conveying trough, and the second insert, passing through a through-hole, is also inserted into the middle of the conveying trough. An L-shaped support plate is located below the transport component, with a support frame and motor located above the horizontal section of the L-shaped support plate. The motor is connected to a cam via a rotating column, with the side of the cam positioned below the baffle component. This intermittent material conveying method within the output component eliminates the need for manual assistance, reduces the risk of accidents, and increases work efficiency. Attached Figure Description

[0014] To more clearly illustrate the embodiments of this utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings in the following description are merely exemplary, and those skilled in the art can derive other embodiments based on the provided drawings without creative effort.

[0015] Figure 1 This is a schematic diagram of the overall design of this utility model;

[0016] Figure 2 This is a top view of the output component of this utility model;

[0017] Figure 3 This is a side view of the output component of this utility model;

[0018] Figure 4 This is a schematic diagram of the material blocking component of this utility model.

[0019] The labels in the attached diagram represent the following:

[0020] 1. Slitting main unit; 2. Output component; 3. Transport component; 301. Conveying trough; 302. Through hole; 4. Material blocking component; 401. Semicircular part; 402. Upper crossbeam; 403. Lower crossbeam; 5. First insert post; 6. Second insert post; 7. Cam; 8. Rotating column; 9. Motor; 10. Support frame; 11. L-shaped support plate; 12. Pin; 13. Controller. Detailed Implementation

[0021] 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.

[0022] Please see Figure 1-4 As shown, this utility model provides an automated slitting and weighing machine, including a slitting host 1. An output component 2 is provided on one side of the slitting host 1. A transport component 3 is provided inside the output component 2. A material blocking component 4 is provided on one side wall of the transport component 3. A pin 12 is provided between the middle of one side of the material blocking component 4 and the side wall of the transport component 3. A first insert 5 is fixedly connected downward to the upper end of the other side of the material blocking component 4, and a second insert 6 is fixedly connected downward to the lower end of the other side of the material blocking component 4. The lower part of the first insert 5 is inserted downward into the transport component 3, and the upper part of the second insert 6 is inserted upward into the transport component 3. The bottom of the lower end of the other side of the material blocking component 4 is slidably connected to the side of the cam 7, and a rotating column 8 is inserted into the cam 7. The rotating column 8 is connected to the rotating shaft of the motor 9. An L-shaped support plate 11 is provided below the transport component 3, and a motor 9 and a support frame 10 are respectively provided above the horizontal end of the L-shaped support plate 11.

[0023] In this embodiment, a conveying groove 301 is provided in the conveying component 3, and a through hole 302 is provided in the conveying groove 301. A semi-circular part 401 is provided on one side of the material blocking component 4, and a pin 12 is inserted into the middle of the semi-circular part 401 and rotatably connected to one end. At the same time, the other end of the pin 12 is inserted into the side wall of the conveying component 3 for fixed connection.

[0024] Furthermore, the upper end of the other side of the material blocking assembly 4 is provided with an upper crossbeam 402, and the upper crossbeam 402 is positioned above the transport assembly 3. The upper end of the first insertion post 5 is fixedly connected to one end of the upper crossbeam 402, and the first insertion post 5 is positioned in the middle of the conveying trough 301.

[0025] Furthermore, the lower end of the other side of the material blocking assembly 4 is provided with a lower crossbeam 403, and the lower crossbeam 403 is placed below the transport assembly 3. The lower end of the second insert 6 is fixedly connected to one end of the lower crossbeam 403, and the upper end of the second insert 6 is inserted into the through hole 302.

[0026] Furthermore, the first insertion post 5 and the second insertion post 6 are on the same vertical line, and there is material between the first insertion post 5 and the second insertion post 6.

[0027] A first insert 5 and a second insert 6 are respectively provided above the material blocking assembly 4. The second insert 6 can be inserted into the conveying groove 301 in the conveying assembly 3 through the through hole 302. Since the pin 12 is inserted into the semi-circular part 401 of the material blocking assembly 4, the material blocking assembly 4 rotates around the pin 12 after being acted by the cam 7, so that the first insert 5 and the second insert 6 alternately block the material.

[0028] In this embodiment, a support frame 10 is fixedly connected above the horizontal section of the L-shaped support plate 11, and a motor 9 is installed inside the support frame 10.

[0029] Furthermore, there is a distance between the upper plane of the horizontal section of the L-shaped support plate 11 and the side of the cam 7, and there is a gap between the side of the vertical section of the L-shaped support plate 11 and the second insert 6.

[0030] The L-shaped support plate 11 located below the transport component 3 will not obstruct the operation of the cam 7 on the bottom of the material blocking component 4, and the motor 9 located above the L-shaped support plate 11 drives the cam 7 to rotate via the rotating column 8.

[0031] In this embodiment, a controller 13 is provided inside the front of the cutting host 1.

[0032] Working principle:

[0033] The other end of the pin 12 on the side wall of the transport component 3 is inserted into the middle of the semicircular part 401 of the baffle component 4, so that the baffle component 4 can rotate around the pin 12. A first insert 5 is provided below the upper crossbeam part 402 on the upper end of the other side of the baffle component 4, and a second insert 6 is provided above the lower crossbeam part 403 on the lower end of the other side of the baffle component 4. In this way, the first insert 5 is inserted into the middle of the conveying groove part 301 of the transport component 3, and the second insert 6 is also inserted into the middle of the conveying groove part 301 through the through hole part 302 at the bottom of the transport component 3. However, the distance between the first insert 5 and the second insert 6 is sufficient to place the cut material. An L-shaped support plate 11 is provided below the transport component 3, and a support frame 10 and a motor 9 are provided above the horizontal section of the L-shaped support plate 11. At the same time, the motor 9 passes through the rotating column 8. The connecting cam 7 and the motor 9 can drive the cam 7 to rotate continuously. The side of the cam 7 is positioned below the material stop assembly 4. When the cut material enters the conveying trough 301, due to gravity, the side of the material stop assembly 4 in the direction of the first insert 5 and the second insert 6 is drooping downwards, and there is material between the first insert 5 and the second insert 6. At this time, the side of the large circular part of the cam 7 is in contact with the bottom of the material stop assembly 4. After the motor 9 is started, after the side of the small circular part of the cam 7 is in contact with the bottom of the material stop assembly 4, it will lift both the first insert 5 and the second insert 6. At this time, the second insert 6 will be inserted between the materials, and the lifting of the first insert 5 will release the first material. After the cam 7 continues to rotate, the first insert 5 and the second insert 6 alternately release and stop the material, so that the cut material is conveyed away intermittently.

[0034] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.

[0035] The above embodiments are merely exemplary embodiments of this application and are not intended to limit this application. The scope of protection of this application is defined by the claims. Those skilled in the art can make various modifications or equivalent substitutions to this application within its substance and scope of protection, and such modifications or equivalent substitutions should also be considered to fall within the scope of protection of this application.

Claims

1. An automated slitting and weighing machine, comprising a slitting host (1), wherein an output component (2) is provided on one side of the slitting host (1), characterized in that: The output component (2) is provided with a transport component (3), and a baffle component (4) is provided on one side wall of the transport component (3). At the same time, a pin (12) is provided between the middle of one side of the baffle component (4) and the side wall of the transport component (3). The upper end of the other side of the baffle component (4) is fixedly connected to a first insert (5) downward, and the lower end of the other side of the baffle component (4) is fixedly connected to a second insert (6) downward. The first insert (5) is inserted downward into the transport component (3), and the second insert (6) is inserted upward into the transport component (3). The bottom of the lower end of the other side of the baffle component (4) is slidably connected to the side of the cam (7), and a rotating column (8) is inserted into the cam (7). At the same time, the rotating column (8) is connected to the rotating shaft of the motor (9). An L-shaped support plate (11) is provided below the transport component (3), and a motor (9) and a support frame (10) are respectively provided above the horizontal end of the L-shaped support plate (11).

2. The automated slitting and weighing machine according to claim 1, characterized in that: The transport component (3) has a conveying groove (301) and a through hole (302) inside the conveying groove (301). The material blocking component (4) has a semi-circular part (401) on one side, and a pin (12) is inserted into the middle of the semi-circular part (401) and rotatably connected. At the same time, the other end of the pin (12) is inserted into the side wall of the transport component (3) and fixedly connected.

3. An automated slitting and weighing machine according to claim 2, characterized in that: The upper end of the other side of the baffle assembly (4) is provided with an upper crossbeam (402), and the upper crossbeam (402) is placed above the transport assembly (3). The upper end of the first insert (5) is fixedly connected to one end of the upper crossbeam (402), and the first insert (5) is placed in the middle of the conveying trough (301).

4. An automated slitting and weighing machine according to claim 3, characterized in that: The lower end of the other side of the baffle assembly (4) is provided with a lower crossbeam (403), and the lower crossbeam (403) is placed below the transport assembly (3). The lower end of the second insert (6) is fixedly connected to one end of the lower crossbeam (403), and the second insert (6) is inserted into the through hole (302).

5. An automated slitting and weighing machine according to claim 4, characterized in that: The first insertion post (5) and the second insertion post (6) are on the same vertical line, and there is material between the first insertion post (5) and the second insertion post (6).

6. An automated slitting and weighing machine according to claim 1, characterized in that: A support frame (10) is fixedly connected above the horizontal section of the L-shaped support plate (11), and a motor (9) is installed inside the support frame (10).

7. An automated slitting and weighing machine according to claim 6, characterized in that: There is a distance between the upper plane of the horizontal section of the L-shaped support plate (11) and the side of the cam (7), and there is a gap between the side of the vertical section of the L-shaped support plate (11) and the second insert (6).

8. An automated slitting and weighing machine according to claim 1, characterized in that: The cutting host (1) has a controller (13) inside its front.