Spinning machine for textile material
By designing limiting and positioning components, the problem of spinning nozzle position deviation in textile spinning machines was solved, enabling rapid disassembly and installation of the spinning nozzle and improving the stability of the spinning nozzle and the reliability of the device.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- LANE TEXTILE (DONGGUAN) CO LTD
- Filing Date
- 2025-06-10
- Publication Date
- 2026-07-07
AI Technical Summary
Existing spinning machines for textile materials lack an effective positioning structure, causing the spinning nozzle to shift position under the drive of the electric slide rail structure, which affects the working effect of the spinning nozzle and the quality of the final product.
A limiting component is designed, including a connector, a movable arm, a positioning component, a pressing component, a movable component, an elastic component, and a snap-fit component. Through the cooperation of the elastic component and the pressing component, the spinning nozzle can be quickly disassembled and installed, and the positioning component enhances the friction between the spinning nozzle and the elastic component to prevent positional displacement.
It improves the maintenance efficiency and stability of the spinning nozzle, avoids positional deviation, and enhances the reliability of the device and the positioning accuracy of the spinning nozzle.
Smart Images

Figure CN224467993U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of spinning machine technology, and in particular relates to a spinning machine for textile materials. Background Technology
[0002] With the continuous development of electrospinning technology, it has shown great application potential in fields such as filtration, catalysis, drug delivery and tissue engineering. Electrospinning technology can produce polymer textile materials with an average diameter of only nanometers. These materials have high specific surface area, adjustable pore distribution and special surface properties, making them very suitable for manufacturing new filter materials, high-performance adsorbent materials and biomedical materials. A textile spinning machine is now used to meet the above requirements.
[0003] However, the spinning nozzles of existing textile spinning machines lack an effective positioning structure, which causes the position of the spinning nozzle to shift when the electric slide rail structure drives the spinning nozzle to work, thus affecting the working effect of the spinning nozzle and consequently affecting the quality of the final product. Utility Model Content
[0004] This invention addresses the problem that existing spinning machines for textile materials lack an effective positioning structure for the spinning nozzle, causing the position of the spinning nozzle to shift when driven by the electric slide rail structure, thus affecting the working effect of the spinning nozzle and consequently the quality of the final product. The following technical solution is proposed:
[0005] A spinning machine for textile materials, comprising:
[0006] The outer casing, used for supporting the spinning machine;
[0007] The console is located within the enclosure;
[0008] A workbench is disposed within the outer casing;
[0009] A limiting assembly includes a connector, a movable arm, a positioning member, a pressing member, a movable member, an elastic member, and a locking member. The connector is movably disposed on the housing, the movable arm is connected to the connector, the positioning member is movably disposed on the movable arm, the pressing member is movably disposed on the positioning member, the movable member is connected to the pressing member, the movable member is slidably disposed on the positioning member, the elastic member is connected to the pressing member, the elastic member is connected to the positioning member, and the locking member is disposed on the pressing member. The elastic member drives the locking member to move horizontally through the pressing member.
[0010] Preferably, the positioning member is provided with a positioning component, the positioning component including a support member, a ring, an elastic cloth and an elastic element, the support member is connected to the positioning member, the ring is connected to the support member, the elastic cloth is disposed on the ring, the elastic element is disposed on the elastic cloth, and the elastic element is located below the elastic cloth.
[0011] Preferably, two extrusion members are provided on the positioning members, and the two positioning members are in contact with each other.
[0012] Preferably, the positioning element is elastically connected to the extrusion element via the elastic element.
[0013] Preferably, the center of the ring and the center of the elastic element are on the same vertical line.
[0014] Preferably, the ring is located above the extruder.
[0015] The beneficial effects of this utility model are as follows:
[0016] (1) It can quickly disassemble and install the spinning nozzle, thereby improving the maintenance efficiency of the spinning nozzle. It can also form a squeezing fixation on the spinning nozzle, avoiding position displacement when the electric slide rail structure drives the spinning nozzle to move, thereby improving the reliability of the device.
[0017] (2) It can enhance the friction between the spinning nozzle and the elastic element, thereby increasing the movement resistance of the elastic element, preventing the spinning nozzle from shifting position during operation, and thus improving the stability of the spinning nozzle. Attached Figure Description
[0018] Figure 1 The diagram shown is a structural schematic of a spinning machine for textile materials;
[0019] Figure 2 The diagram shows the installation structure of the positioning component;
[0020] Figure 3 The diagram shown is a schematic of the installation structure of the extruded component;
[0021] Figure 4 The diagram shows the installation structure of the elastic component;
[0022] Figure 5 The diagram shown is a schematic of the mounting structure of the snap-fit connector;
[0023] In the diagram: 1. Outer shell; 2. Control console; 3. Workbench; 4. Connector; 5. Movable arm; 6. Positioning component; 7. Extrusion component; 8. Movable component; 9. Elastic component; 10. Snap-fit component; 11. Support component; 12. Ring; 13. Elastic cloth; 14. Elastic component. Detailed Implementation
[0024] To make the objectives, technical solutions, and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below in conjunction with the embodiments.
[0025] Example 1
[0026] This utility model provides a spinning machine for textile materials, such as... Figures 1 to 5 As shown, the system includes: a housing 1, a control console 2, a worktable 3, and a spinning assembly. The housing 1 contains a roller and a motor, connected to the motor's output end. Centrifugal paper is applied to the surface of the roller. The housing 1 has internal slots for supporting the spinning machine. A high-voltage power supply structure, a safety interlock structure, and a temperature and humidity control module are installed inside the housing 1. The high-voltage power supply structure is electrically connected to the control console 2, which is located within the housing 1. The worktable 3 is located within the housing 1 and consists of a frame, an electric telescopic rod, a movable plate, and a positioning plate. The frame and positioning plate are fixed together with bolts. An external spinning assembly is movably mounted inside the worktable 3. This assembly consists of a syringe, a connecting tube, and a spinning nozzle. The spinning nozzle has two slots. The limiting assembly includes a connector 4, a movable arm 5, a positioning component 6, a pressing component 7, a movable component 8, an elastic component 9, and a locking component 10. An electric slide rail structure is located inside the housing 1. One end of the connector 4... The slider is connected to the electric slide rail structure. Connector 4 can be a connecting plate. Connector 4 is movably mounted on the outer shell 1. Movable arm 5 is connected to connector 4. Positioning member 6 is movably mounted on movable arm 5. Pressing member 7 is movably mounted on positioning member 6. Positioning member 6 can be a positioning block. Movable member 8 is connected to pressing member 7. Pressing member 7 can be a semi-circular ring. Movable member 8 can be a movable block. Movable member 8 is slidably mounted on positioning member 6. There are two elastic members 9. Elastic members 9 can be spring telescopic rods. Spring telescopic rods are formed by two rod-shaped objects being movably inserted and connected by a spring. Elastic members 9 are connected to pressing member 7 and positioning member 6. Snap-fit member 10 can be a snap-fit block. Snap-fit member 10 is mounted on pressing member 7. Elastic members 9 drive snap-fit member 10 to move horizontally through pressing member 7. There are two pressing members 7 on positioning member 6. The two positioning members 6 fit together. Positioning member 6 is elastically connected to pressing member 7 through elastic members 9.
[0027] The use of limiting components enables quick disassembly and installation of the spinning nozzle, thereby improving the maintenance efficiency of the spinning nozzle. It can also form a squeezing fixation on the spinning nozzle, preventing positional deviation when the electric slide rail structure moves the spinning nozzle, thus improving the reliability of the device.
[0028] In use, the two extrusion pieces 7 are pressed to both sides, causing them to exert force on the elastic piece 9. As the extrusion pieces 7 move, the elastic piece 9 deforms, causing the two extrusion pieces 7 to move away from each other. The movement of the extrusion pieces 7 causes the movable piece 8 to slide synchronously inside the positioning piece 6. The movement of the extrusion pieces 7 also causes the locking piece 10 to move synchronously. Then, the spinning nozzle is moved downward, so that the slot on the spinning nozzle is aligned with the locking piece 10. Then, the two extrusion pieces 7 are no longer pressed. Due to the elastic force of the two elastic pieces 9, the two extrusion pieces 7 are moved closer to each other. The movement of the two extrusion pieces 7 causes the two locking pieces 10 to move closer to each other, so that the two locking pieces 10 are respectively locked into the two slots, thereby realizing the positioning operation of the spinning nozzle.
[0029] Specifically, the bottom of the control console 2 is fixedly connected to the top of the outer shell 1, the bottom of the worktable 3 is fixedly connected to the top of the outer shell 1, one end of the connector 4 is movably connected to the inside of the outer shell 1, the movable arm 5 is movably connected to the inside of the connector 4 via a pin, one end of the positioning component 6 is movably connected to the bottom of the movable arm 5 via a pin, and the other end of the positioning component 6 is movably connected to both sides of the pressing component 7. One end of the pressing component 7 is fixedly connected to the elastic component 9, one end of the elastic component 9 is fixedly connected to the inside of the positioning component 6, the other end of the pressing component 7 is fixedly connected to the snap-fit component 10, and both sides of the pressing component 7 are fixedly connected to the movable component 8, the outer surface of the movable component 8 is slidably connected to the inside of the positioning component 6.
[0030] To improve the stability of the spinning nozzle, such as Figures 1 to 5 As shown, the positioning component 6 is equipped with a positioning assembly, which includes a support component 11, a ring 12, an elastic cloth 13, and an elastic element 14. The support component 11 is connected to the positioning component 6, and the ring 12 is connected to the support component 11. The support component 11 can be a support rod. The elastic cloth 13 is conical in shape, with the top diameter of the elastic cloth 13 being larger than the bottom diameter. The elastic cloth 13 is positioned on the ring 12. The elastic element 14 can be a rubber band ring, and it is positioned on the elastic cloth 13. The elastic element 14 is located below the elastic cloth 13. The center of the ring 12 and the center of the elastic element 14 are on the same vertical line. The ring 12 is located above the extruder 7.
[0031] By using a positioning component, the friction between the spinning nozzle and the elastic element 14 can be enhanced, thereby increasing the movement resistance of the elastic element 14, preventing the spinning nozzle from shifting position during operation, and thus improving the stability of the spinning nozzle.
[0032] In use, the external spinning assembly containing the textile material is removed. Since the external spinning assembly consists of a syringe, a connecting tube, and a spinning nozzle, the syringe is then positioned by the positioning plate on the worktable 3, so that the movable plate on the worktable 3 keeps in contact with the movable end of the syringe. Then, the spinning nozzle and the connecting tube are passed through the tube groove inside the outer shell 1, and the spinning nozzle is moved to a position above the ring 12. Then, the spinning nozzle is moved downward, so that the spinning nozzle moves downward along the outer surface of the elastic fabric 13. When the spinning nozzle contacts the elastic member 14, it will apply a force to the elastic member 14, causing the elastic member 14 to expand laterally. The spinning nozzle then moves along the outer surface of the elastic member 14. When the spinning nozzle reaches the designated position, it moves under the elastic force of the elastic member 14.
[0033] Specifically, a support member 11 is fixedly connected to the top of the positioning member 6, a ring 12 is fixedly connected to one end of the support member 11, an elastic cloth 13 is fixedly connected inside the ring 12, and an elastic member 14 is fixedly connected to the bottom of the elastic cloth 13.
[0034] Working principle: In actual use, the external spinning assembly containing textile material is removed. Since the external spinning assembly consists of a syringe, a connecting tube, and a spinning nozzle, the syringe is positioned by the positioning plate on the worktable 3, so that the movable plate on the worktable 3 keeps in contact with the movable end of the syringe. Then, the spinning nozzle and the connecting tube are passed through the tube groove inside the outer shell 1, and the spinning nozzle is moved to a position above the ring 12. Then, the spinning nozzle is moved downward, so that the spinning nozzle moves downward along the outer surface of the elastic fabric 13. When the spinning nozzle contacts the elastic member 14, it will apply a force to the elastic member 14, causing the elastic member 14 to expand laterally. The spinning nozzle then moves along the outer surface of the elastic member 14. When the spinning nozzle reaches the designated position, the elastic force of the elastic member 14 can enhance the friction between the spinning nozzle and the elastic member 14, thereby increasing the movement resistance of the elastic member 14, preventing the spinning nozzle from shifting position during operation, and thus improving the stability of the spinning nozzle.
[0035] Then, the two extrusion members 7 are pressed to both sides, so that the extrusion members 7 apply force to the elastic member 9. As the extrusion members 7 move, the elastic member 9 deforms, thereby causing the two extrusion members 7 to move away from each other. The movement of the extrusion members 7 causes the movable member 8 to slide synchronously inside the positioning member 6. The movement of the extrusion members 7 causes the locking member 10 to move synchronously. Then, the spinning nozzle moves downward, so that the slot on the spinning nozzle aligns with the locking member 10. Then, the two extrusion members 7 are no longer pressed. Due to the elastic force of the two elastic members 9, the two extrusion members 7 are moved closer to each other. The movement of the two extrusion members 7 causes the two locking members 10 to move closer to each other, so that the two locking members 10 are respectively locked into the two slots, thereby realizing the positioning operation of the spinning nozzle. It can quickly realize the disassembly and installation of the spinning nozzle, thereby improving the maintenance efficiency of the spinning nozzle. It can also form a compression fixation on the spinning nozzle, avoiding the position displacement when the electric slide rail structure drives the spinning nozzle to move, thereby improving the reliability of the device.
[0036] The above embodiments are only used to illustrate the technical solution of this utility model, and are not intended to limit it.
Claims
1. A spinning machine for textile materials, characterized in that, include: The outer casing (1) is used to support the spinning machine; The console (2) is located on the outer shell (1); A workbench (3) is disposed on the outer casing (1); The limiting component includes a connector (4), a movable arm (5), a positioning component (6), a pressing component (7), a movable component (8), an elastic component (9), and a snap-fit component (10). The connector (4) is movably disposed on the outer shell (1). The movable arm (5) is connected to the connector (4). The positioning component (6) is movably disposed on the movable arm (5). The pressing component (7) is movably disposed on the positioning component (6). The movable component (8) is connected to the pressing component (7) and is slidably disposed on the positioning component (6). The elastic component (9) is connected to the pressing component (7) and is connected to the positioning component (6). The snap-fit component (10) is disposed on the pressing component (7). The elastic component (9) drives the snap-fit component (10) to move horizontally through the pressing component (7).
2. The spinning machine for textile materials according to claim 1, characterized in that: The positioning component (6) is provided with a positioning assembly, which includes a support component (11), a ring (12), an elastic cloth (13), and an elastic element (14). The support component (11) is connected to the positioning component (6), the ring (12) is connected to the support component (11), the elastic cloth (13) is disposed on the ring (12), and the elastic element (14) is disposed on the elastic cloth (13). The elastic element (14) is located below the elastic cloth (13).
3. The spinning machine for textile materials according to claim 1, characterized in that: Two of the extrusion members (7) are provided on the positioning member (6), and the two positioning members (6) fit together.
4. A spinning machine for textile materials according to claim 1, characterized in that: The positioning member (6) is elastically connected to the pressing member (7) through the elastic member (9).
5. A spinning machine for textile materials according to claim 2, characterized in that: The center of the ring (12) and the center of the elastic element (14) are on the same vertical line.
6. A spinning machine for textile materials according to claim 2, characterized in that: The ring (12) is located above the extruder (7).