A screw extruder dismounting device

By designing a screw extruder disassembly device, the problem of unstable connection during screw extruder disassembly was solved, achieving efficient and stable disassembly operation, reducing manual labor intensity, and improving disassembly efficiency and accuracy.

CN224489963UActive Publication Date: 2026-07-14NANJING JIEYA EXTRUSION EQUIP

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
NANJING JIEYA EXTRUSION EQUIP
Filing Date
2025-07-31
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

The connection during the disassembly process of existing screw extruders is unstable, resulting in low disassembly efficiency, high manual labor intensity, and difficulty in achieving precise control.

Method used

A screw extruder disassembly device was designed, comprising components such as a base, mounting seat, drive component, transmission component, locking component, and guide component. Through mechanical linkage and intelligent control, the screw and barrel can be quickly separated and disassembled in an orderly manner, ensuring a stable connection and precise operation.

Benefits of technology

It improves disassembly efficiency, reduces manual labor intensity, ensures the stability and accuracy of the disassembly process, and enhances operational convenience and reliability.

✦ Generated by Eureka AI based on patent content.

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    Figure CN224489963U_ABST
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Abstract

The utility model relates to dismantling device technical field, and disclose a kind of screw extruder dismantling device, including base, installation seat is equipped on it, first driving part is installed on installation seat upper surface, the output end of this driving part is connected moving part through transmission part;Moving part upper surface is equipped with mounting, mounting surface installs connecting piece, the connecting end of connecting piece is equipped with locking piece, locking groove and the locking line of uniform distribution are equipped on the surface of locking piece. When using, connecting piece connecting end is rotated with locking piece, locking piece is inserted into the through-hole of screw extruder baffle, locking line and the inner wall of through-hole are closely matched, cooperate locking groove to enhance the stability of connection, locking piece moves accurately by first driving part and transmission part transmission drive, realize baffle efficient disassembly. The overall structure of the device is convenient to operate, connection is stable, can accurately control locking piece movement, effectively reduce manual disassembly labor intensity, improve disassembly efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of disassembly device technology, specifically a screw extruder disassembly device. Background Technology

[0002] The screw extruder disassembly device is a specialized tool system for efficiently disassembling the core components of an extruder. It typically includes a hydraulic ejection mechanism, a segmented clamping unit, and a temperature control auxiliary module. Through mechanical linkage and intelligent control, it achieves rapid separation and orderly disassembly of the screw and barrel.

[0003] In the existing process of disassembling screw extruder baffles, there may be a lack of specialized and effective disassembly devices. Manual disassembly is labor-intensive and difficult to control precisely during disassembly. At the same time, the existing disassembly methods may not be able to guarantee a stable connection between the baffle and the screw extruder baffle, resulting in unstable connection during disassembly and affecting disassembly efficiency. Utility Model Content

[0004] To address the shortcomings of existing technologies, this utility model provides a screw extruder disassembly device to solve the problem of unstable connection during disassembly, which affects disassembly efficiency, as mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a screw extruder disassembly device, comprising:

[0006] A base, with a mounting seat on top of the base, a first driving component mounted on the upper surface of the mounting seat, a transmission component mounted on the output end of the first driving component, and a moving component mounted on the surface of the transmission component;

[0007] The mounting component is disposed on the upper surface of the movable component, and each surface of the mounting component is equipped with a connector, and the connecting end of the connector is equipped with a locking component.

[0008] A locking groove is provided on the surface of the locking member, and the surface of the locking member is evenly provided with locking patterns.

[0009] Preferably, a second driving component is installed on the upper surface of the base. The output end of the second driving component is connected to the bottom of the mounting base. The second driving component is a hydraulic cylinder, which can drive the mounting base to rise and fall, and the height can be flexibly adjusted according to actual needs.

[0010] Preferably, guide seats are installed at all four corners of the upper surface of the base, and guide rods are installed at all four corners of the bottom of the mounting base. The cooperative design of the guide seats and guide rods effectively restricts the movement direction of the mounting base, avoids deviation during lifting and lowering, and enhances the stability of the overall structure, ensuring precise disassembly operations. In addition, the symmetrical layout at the four corners further balances the force distribution and reduces the risk of local wear.

[0011] Preferably, each of the mounting components is equipped with a first guide member on its surface, and each of the mounting bases is equipped with a first guide connecting seat at a position corresponding to the first guide member. The first guide member is a guide block, and the first guide connecting seat is a guide rail. The sliding design of the first guide member within the first guide connecting seat reduces frictional resistance during movement, making the displacement of the mounting component more stable and improving the operational accuracy of the disassembly device. At the same time, the interlocking structure of the guide block and the rail can effectively prevent the mounting component from tilting during movement, ensuring the reliability of the disassembly operation.

[0012] Preferably, a second guide is installed at the bottom of the movable component, and a second guide connecting seat is installed on the upper surface of the mounting base at a position corresponding to the second guide. The second guide is a guide block, and the second guide connecting seat is a guide groove. The interlocking structure of the second guide and the second guide connecting seat effectively prevents the movable component from shifting laterally during transmission, ensuring accurate transmission direction and improving the reliability of disassembly operations. At the same time, the open design of the guide groove facilitates quick positioning of the guide block, reduces assembly time, and improves operational convenience.

[0013] Preferably, the operating end of the connector is equipped with an operating head, and the surface of the operating head is provided with a hexagonal slot. The hexagonal slot on the surface of the operating head matches a standard hexagonal tool, which facilitates the operator to quickly install and remove the connector, improves disassembly efficiency, and avoids operation delays caused by tool mismatch. In addition, the symmetry of the hexagonal structure can evenly distribute the torque during operation, reducing the risk of damage to the connector due to local stress concentration.

[0014] Compared with the prior art, the present invention provides a screw extruder disassembly device, which has the following advantages:

[0015] The screw extruder disassembly device features a connecting piece that screws into a locking piece. After the locking piece is inserted into the through hole of the screw extruder baffle, the evenly distributed locking patterns on its surface form a tight fit with the inner wall of the through hole. The locking groove further enhances the connection stability. The movement of the locking piece is precisely controlled by the transmission of the first drive component and the transmission component, achieving efficient disassembly of the baffle. The overall structure is easy to operate and has a stable connection, reducing the labor intensity of manual disassembly. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the structure of this utility model;

[0017] Figure 2 This is a schematic diagram of the structure of the moving part of this utility model;

[0018] Figure 3 This is a schematic diagram of the locking component of this utility model;

[0019] Figure 4 This is a schematic diagram of the structure of the base of this utility model.

[0020] In the diagram: 1. Base; 2. Mounting seat; 3. First driving component; 4. Transmission component; 5. Moving component; 6. Mounting component; 7. Connecting component; 8. Locking component; 9. Locking groove; 10. Locking groove; 11. Second driving component; 12. Guide seat; 13. Guide rod; 14. First guide component; 15. First guide connecting seat; 16. Second guide component; 17. Second guide connecting seat; 18. Operating head. 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] This utility model provides a technical solution: a screw extruder disassembly device. (See attached image.) Figure 1 It includes a base 1, a mounting base 2 on top of the base 1, and a first driving component 3 mounted on the upper surface of the mounting base 2. Please refer to [link / reference]. Figure 2 The output end of the first driving component 3 is equipped with a transmission component 4, and a moving component 5 is installed on the surface of the transmission component 4;

[0023] Mounting component 6 is disposed on the upper surface of movable component 5. Connecting component 7 is mounted on the surface of mounting component 6, and locking component 8 is mounted on the connecting end of connecting component 7.

[0024] Please see Figure 3 Locking groove 9 is provided on the surface of locking member 8, and locking texture 10 is evenly distributed on the surface of locking member 8.

[0025] The first driving component 3 is a stepper motor, the transmission component 4 is a lead screw, the connecting component 7 is a threaded rod, and the locking component 8 is a cylindrical design used to insert into the corresponding through hole on the stop plate. Then, the connecting component 7 is screwed into the inside of the locking component 8, so that the locking component 8 is tightly connected to the through hole of the screw extruder baffle. Thus, the first driving component 3 and the transmission component 4 can drive the locking component 8 to move and disassemble the baffle of the screw extruder.

[0026] The connecting end of the connector 7 is screwed into the cylindrical locking part 8. After the locking part 8 is inserted into the through hole of the screw extruder baffle, the locking texture 10 evenly distributed on its surface forms a tight fit with the inner wall of the through hole. The locking groove 9 further enhances the connection stability. Thus, the movement of the locking part 8 is precisely controlled by the transmission of the first driving part 3 and the transmission part 4, realizing the efficient disassembly of the baffle. The overall structure is easy to operate and the connection is stable, reducing the labor intensity of manual disassembly.

[0027] Please see Figure 4 The upper surface of the base 1 is equipped with a second drive component 11. The output end of the second drive component 11 is connected to the bottom of the mounting base 2. The second drive component 11 is a hydraulic cylinder. The mounting base 2 can be raised and lowered by the second drive component 11, and the height can be flexibly adjusted according to actual needs.

[0028] Guide seats 12 are installed at each of the four corners of the upper surface of the base 1. Please refer to [link / reference]. Figure 1 Guide rods 13 are installed at the four corners of the bottom of the mounting base 2. The cooperative design of the guide seat 12 and the guide rods 13 effectively restricts the movement direction of the mounting base 2, avoids deviation during the lifting process, and enhances the stability of the overall structure, ensuring accurate disassembly operations. In addition, the symmetrical layout at the four corners further balances the force distribution and reduces the risk of local wear.

[0029] Please see Figure 2 Each surface of mounting component 6 is equipped with a first guide component 14. Please refer to [link / reference]. Figure 1 The surface of the mounting base 2 is equipped with a first guide connecting seat 15 at the corresponding position of the first guide member 14. The first guide member 14 is a guide block, and the first guide connecting seat 15 is a guide rail. The sliding design of the first guide member 14 in the first guide connecting seat 15 reduces the frictional resistance during the movement process, making the displacement of the mounting member 6 more stable and improving the operation accuracy of the disassembly device. At the same time, the interlocking structure of the guide block and the rail can effectively prevent the mounting member 6 from tilting during the movement, ensuring the reliability of the disassembly operation.

[0030] Please see Figure 2 The bottom of the movable part 5 is equipped with a second guide 16, please refer to [reference needed]. Figure 1 The upper surface of the mounting base 2 is equipped with a second guide connecting seat 17 corresponding to the position of the second guide member 16. The second guide member 16 is a guide block, and the second guide connecting seat 17 is a guide groove. The fitting structure of the second guide member 16 and the second guide connecting seat 17 effectively prevents the moving part 5 from shifting laterally during transmission, ensuring accurate transmission direction and improving the reliability of disassembly operations. At the same time, the open design of the guide groove facilitates quick positioning of the guide block, reduces assembly time, and improves operational convenience.

[0031] Please see Figure 2The operating end of the connector 7 is equipped with an operating head 18. The surface of the operating head 18 is provided with a hexagonal slot. The hexagonal slot on the surface of the operating head 18 matches a standard hexagonal tool, which facilitates the operator to quickly install and remove the connector 7, improves disassembly efficiency, and avoids operation delays caused by tool mismatch. In addition, the symmetry of the hexagonal structure can evenly distribute the torque during operation, reducing the risk of damage to the connector 7 due to local stress concentration.

[0032] In operation: the base 1 drives the mounting seat 2 to rise and fall via the second drive component 11, and the engagement structure of the guide seat 12 and the guide rod 13 ensures that the mounting seat 2 moves vertically without deviation; the locking component 8 is inserted into the through hole of the screw extruder baffle, and its surface locking texture 10 fits tightly with the inner wall of the through hole, and the locking groove 9 enhances the connection stability; the hexagonal slotted connecting component 7 is tightened by the operating head 18 to firmly connect the mounting component 6 and the locking component 8; the first drive component 3 drives the transmission component 4 to rotate, which drives the moving component 5 to move linearly along the guide groove of the second guide component 16 and the second guide connecting seat 17, while the mounting component 6 reduces friction through the guide rail of the first guide component 14 and the first guide connecting seat 15 to achieve smooth displacement; finally, the pulling action of the locking component 8 is precisely controlled by transmission to complete the efficient disassembly of the baffle.

[0033] It should be noted that, in this document, relational terms such as "first" and "second" are used only to distinguish one entity or operation from another, and do not necessarily require or imply any such actual relationship or order between these entities or operations. Furthermore, the terms "comprising," "including," or any other variations thereof are intended to cover non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements includes not only those elements but also other elements not expressly listed, or elements inherent to such process, method, article, or apparatus.

[0034] 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 screw extruder disassembly device, characterized in that, include: A base (1) is provided above the base (1), and a mounting seat (2) is provided on the upper surface of the mounting seat (2). A first driving member (3) is mounted on the upper surface of the mounting seat (2). A transmission member (4) is mounted on the output end of the first driving member (3), and a moving member (5) is mounted on the surface of the transmission member (4). Mounting component (6) is disposed on the upper surface of movable component (5). Connecting component (7) is mounted on the surface of mounting component (6). Locking component (8) is mounted on the connecting end of connecting component (7). A locking groove (9) is provided on the surface of the locking member (8), and locking patterns (10) are evenly distributed on the surface of the locking member (8).

2. The screw extruder disassembly device according to claim 1, characterized in that: A second driving member (11) is mounted on the upper surface of the base (1), and the output end of the second driving member (11) is connected to the bottom of the mounting base (2).

3. The screw extruder disassembly device according to claim 1, characterized in that: Guide seats (12) are installed at the four corners of the upper surface of the base (1), and guide rods (13) are installed at the four corners of the bottom of the mounting base (2).

4. The screw extruder disassembly device according to claim 1, characterized in that: The surface of each mounting component (6) is equipped with a first guide component (14), and the surface of each mounting base (2) is equipped with a first guide connecting base (15) at the corresponding position of the first guide component (14).

5. The screw extruder disassembly device according to claim 1, characterized in that: The bottom of the movable part (5) is equipped with a second guide (16), and the upper surface of the mounting base (2) is equipped with a second guide connecting seat (17) corresponding to the position of the second guide (16).

6. The screw extruder disassembly device according to claim 1, characterized in that: The operating end of the connector (7) is equipped with an operating head (18), and the surface of the operating head (18) is provided with a hexagonal slot.