An oiling device for a textile texturing machine

By designing replacement and protection devices, the problem of low production efficiency caused by the limited variety of nozzles was solved, enabling rapid nozzle replacement and protection, and improving the production efficiency and reliability of textile texturing machines.

CN224430837UActive Publication Date: 2026-06-30WUJIANG GUANGYU TEXTILE

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
WUJIANG GUANGYU TEXTILE
Filing Date
2025-05-12
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The existing oiling devices for textile texturing machines have a limited variety of nozzles that are difficult to replace, resulting in low production efficiency.

Method used

An oiling device was designed, which includes a replacement device and a protective device. The replacement device enables quick replacement of nozzles of different diameters, and the protective device prevents impurities from entering the nozzle and avoids clogging.

Benefits of technology

It improves production efficiency and equipment reliability, prevents nozzle clogging, and ensures uniform oiling and fiber quality.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of textile machinery technology, specifically an oiling device for a textile texturing machine. The utility model includes an oiling device body, within which several nozzles are installed. Several replaceable devices are provided on the arc surface of the oiling device body, each replaceable device comprising several fixing rods. The fixing rods are arranged in pairs, with each pair of fixing rods fixedly connected to the arc surface of the oiling device body. A connecting ring is fixedly connected to the far end of each pair of fixing rods, and an insert rod is slidably inserted into the connecting ring. Several insertion holes are provided on the arc surface of the oiling device body, and the arc surface of the insert rod is slidably connected to the nozzle. This invention solves the problem that when production tasks are adjusted and different nozzle diameters are needed to adapt to the oiling requirements of different fibers, if the nozzles are difficult to disassemble, workers need to spend more time disassembling the nozzles, resulting in a serious impact on production efficiency.
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Description

Technical Field

[0001] This utility model relates to the field of textile machinery technology, and in particular to an oiling device for a textile texturing machine. Background Technology

[0002] In the textile industry, texturing machines are used to transform raw yarns from non-elastic or low-elasticity yarns into elastic or medium-elasticity texturing yarns through false twisting. The oiling device of the texturing machine has different types of nozzles. When using different materials, if the type of nozzle is relatively limited and difficult to replace, the oiling efficiency may decrease.

[0003] The existing technology also has the following drawbacks: the oiling device of the texturing machine has nozzles with different diameters, and when different diameter nozzles are used, if different materials are encountered, the types of nozzles are relatively limited and difficult to replace. The workers may need to spend more time disassembling the nozzles, which seriously affects the production efficiency. Therefore, an oiling device for a textile texturing machine is proposed to address the above problems. Utility Model Content

[0004] The purpose of this invention is to address the shortcomings of existing technologies, such as the relatively limited variety of nozzles and the difficulty in replacing them, by proposing an oiling device for a textile texturing machine.

[0005] To achieve the above objectives, the present invention adopts the following technical solution: an oiling device for a textile texturing machine, comprising an oiling device body, wherein a plurality of nozzles are installed within the oiling device body, and a plurality of replacement devices are provided on the arc surface of the oiling device body, wherein the plurality of replacement devices include a plurality of fixing rods, the plurality of fixing rods being grouped in pairs, each group of fixing rods being fixedly connected to the arc surface of the oiling device body, and a connecting ring being fixedly connected to the ends of each group of fixing rods that are far apart from each other, wherein an insert rod is slidably inserted into the connecting ring, and a plurality of insertion holes are provided on the arc surface of the oiling device body, and an inclined plate is fixedly connected to the surface of the oiling device body, wherein an operating plate is slidably connected to the inclined plate, and the arc surface of the insert rod is slidably connected to the nozzle.

[0006] The aforementioned components achieve the following effect: by setting up a replacement device, different diameter nozzles can be replaced, avoiding the situation where, when production tasks are adjusted and different diameter nozzles are needed to adapt to the oiling requirements of different fibers, if the nozzles are difficult to disassemble, causing workers to spend more time disassembling the nozzles and severely affecting production efficiency, thus improving the reliability of the device.

[0007] Preferably, a circular plate is fixedly connected to one end of the insertion rod, and a spring is fitted onto the arc surface of the insertion rod. The two ends of the spring are fixedly connected to the circular plate and the connecting ring, respectively.

[0008] The effect achieved by the above components is to improve the stability when the plug rod is in the limit position. When the oiling device body is working, it will shake to a certain extent, causing the plug rod to slide in the connecting ring and causing the plug rod to separate from the connecting ring.

[0009] Preferably, two blocking blocks are fixedly connected to both sides of the operation panel, and the size of the insertion rod and the insertion hole are matched.

[0010] The aforementioned components achieve the following effect: preventing the control panel from being pulled off, thus avoiding situations where the control panel is pulled too far by the operator, causing it to fall off within the inclined plate and requiring reinstallation during use.

[0011] Preferably, the arc surface of the nozzle is provided with a protective device, which includes an L-shaped plate. The L-shaped plate is fixedly connected to the arc surface of the nozzle. A round rod is fixedly connected to the surface of the L-shaped plate. A rotating rod is rotatably connected to the arc surface of the round rod. A protective plate is fixedly connected to one side of the rotating rod. A sliding rod is slidably inserted into the rotating rod. An L-shaped rod is fixedly connected to the surface of the L-shaped plate.

[0012] The effect achieved by the above-mentioned components is as follows: by setting up a protective device, the nozzle is protected, preventing dust, fiber debris and other impurities from easily drifting in the textile production environment when the nozzle is not in use. These impurities can easily enter the nozzle and block the oil spraying channel, resulting in poor oil spraying, which affects the uniformity of oiling and the quality of oiling the fibers, thus improving the reliability of the device.

[0013] Preferably, a torsion spring is fitted onto the arc surface of the round rod, and the two ends of the torsion spring are fixedly connected to the rotating rod and the round rod, respectively.

[0014] The aforementioned components achieve the following effect: they automatically open the protective panel and keep it in the open position, facilitating further operations by staff.

[0015] Preferably, an absorbent pad is fixedly connected to one side of the L-shaped rod, and the surface of the absorbent pad is in contact with the rotating rod.

[0016] The effect achieved by the above components is to absorb the collision force between the rotating rod and the L-shaped rod, prevent the rotating rod, L-shaped rod and other components from being worn or deformed due to frequent collisions, and extend the service life of each component.

[0017] In summary, the beneficial effects of this utility model are as follows:

[0018] 1. In this utility model, the operator pulls the circular plate to move the insert rod within the connecting ring until the arc surface of the insert rod separates from the insertion hole of the oiling device body. The operator can then pull the nozzle to slide within the oiling device body until the nozzle is removed. The operator can then place a new diameter nozzle within the oiling device body and slide it until the new diameter nozzle is fully fitted to the inner surface of the oiling device body. The operator then pushes the insert rod to move until it is inserted into the nozzle. By setting up a replacement device, the effect of replacing nozzles of different diameters is achieved. This avoids the situation where, when production tasks are adjusted and different diameter nozzles need to be replaced to adapt to the oiling needs of different fibers, if the nozzles are difficult to disassemble, the operator would have to spend more time disassembling the nozzles, which would seriously affect production efficiency. This improves the reliability of the device.

[0019] 2. In this utility model, the operator pulls the sliding rod to slide it inside the L-shaped plate until the arc surface of the sliding rod separates from the L-shaped plate. The operator then rotates the rod to move the protective plate until the surface of the protective plate separates from the surface of the nozzle. At this point, the nozzle can be used normally. By setting up the protective device, the nozzle is protected, preventing dust, fiber debris, and other impurities from easily drifting in the textile production environment when the nozzle is not in use. These impurities can easily enter the nozzle and block the oil spraying channel, resulting in poor oil spraying and affecting the uniformity of oiling and the quality of oiling the fibers. This improves the reliability of the device. Attached Figure Description

[0020] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0021] Figure 2 This is a schematic diagram of the replacement device in this utility model;

[0022] Figure 3 This is a partial structural schematic diagram of the replacement device in this utility model;

[0023] Figure 4 This is a schematic diagram of the protective device in this utility model;

[0024] Figure 5 In this utility model Figure 4 Enlarged view of point A.

[0025] Legend: 1. Oiling device body; 2. Nozzle; 3. Replacement device; 4. Protective device; 31. Fixing rod; 32. Connecting ring; 33. Insert rod; 34. Round plate; 35. Inclined plate; 36. Operating panel; 37. Spring; 38. Blocking block; 39. Insertion hole; 41. L-shaped plate; 42. Rotating rod; 43. Sliding rod; 44. Round rod; 45. L-shaped rod; 46. Torsion spring; 47. Absorbent pad; 48. Protective plate. Detailed Implementation

[0026] Reference Figure 1 As shown, this utility model provides a technical solution: an oiling device for a textile texturing machine, including an oiling device body 1, with a plurality of nozzles 2 installed inside the oiling device body 1. The arc surface of the oiling device body 1 is provided with a plurality of replacement devices 3. By setting the replacement devices 3, the effect of replacing nozzles 2 with different diameters is achieved. This avoids the situation where, when production tasks are adjusted and different diameter nozzles 2 need to be replaced to adapt to the oiling needs of different fibers, if the nozzles 2 are difficult to disassemble, causing workers to spend more time disassembling the nozzles 2, which would seriously affect production efficiency. This improves the reliability of the device. The arc surface of the nozzles 2 is provided with a protective device 4. By setting the protective device 4, the effect of protecting the nozzles 2 is achieved. This prevents dust, fiber debris, and other impurities from easily drifting in the textile production environment when the nozzles 2 are not in use. These impurities can easily enter the nozzles 2, clogging the oil spraying channel, resulting in poor oil spraying, affecting the uniformity of oiling and the quality of oiling the fibers, thus improving the reliability of the device.

[0027] The specific setup and function of the replacement device 3 and the protective device 4 will be explained in detail below.

[0028] Reference Figure 2 and Figure 3As shown in this embodiment: several replacement devices 3 include several fixing rods 31, which are arranged in pairs. Each pair of fixing rods 31 is fixedly connected to the arc surface of the oiling device body 1. A connecting ring 32 is fixedly connected to the ends of each pair of fixing rods 31 that are far apart from each other. An insert rod 33 is slidably inserted into the connecting ring 32. Several insertion holes 39 are opened on the arc surface of the oiling device body 1. The arc surface of the insert rod 33 is slidably connected to the nozzle 2. A circular plate 34 is fixedly connected to one end of the insert rod 33, and a spring is sleeved on the arc surface of the insert rod 33. 37. The two ends of spring 37 are fixedly connected to circular plate 34 and connecting ring 32 respectively. When the operator needs to install a new diameter nozzle 2, the operator first pulls circular plate 34 to drive the insertion rod 33 to slide inside connecting ring 32. At this time, spring 37 is stretched until the arc surface of insertion rod 33 separates from the insertion hole 39 of oiling device body 1. The operator can then place the new diameter nozzle 2 to slide inside oiling device body 1 until the new diameter nozzle 2 is completely in contact with the inner surface of oiling device body 1. The operator then releases circular plate 34, and the rebound force of spring 37 drives circular plate 34 to move. The circular plate 34 drives the insertion rod 33 to slide within the connecting ring 32 until the insertion rod 33 is inserted into the insertion hole 39 of the oiling device body 1. This improves the stability of the insertion rod 33 when it is in the limit position, preventing the oiling device body 1 from shaking during operation and causing the insertion rod 33 to slide within the connecting ring 32, resulting in the insertion rod 33 separating from the connecting ring 32. Two blocking blocks 38 are fixedly connected to both sides of the operating plate 36. The size of the insertion rod 33 matches the size of the insertion hole 39. When the operator needs to fix the nozzle 2 with a new diameter, the operator first pulls... The movable rod 33 slides within the connecting ring 32 until it separates from the surface of the operating plate 36. Then, the operator can pull the operating plate 36 to slide within the inclined plate 35. The operating plate 36 moves the blocking block 38 until its surface is in contact with the inclined plate 35. At this point, the operating plate 36 does not affect the movement of the rod 33, thus preventing the operating plate 36 from being pulled off. This avoids situations where the operator pulls the operating plate 36 too far, causing it to fall off within the inclined plate 35 and requiring reinstallation during use.

[0029] Reference Figure 4 and Figure 5As shown, specifically, the protective device 4 includes an L-shaped plate 41, which is fixedly connected to the arc surface of the nozzle 2. A round rod 44 is fixedly connected to the surface of the L-shaped plate 41, and a rotating rod 42 is rotatably connected to the arc surface of the round rod 44. A protective plate 48 is fixedly connected to one side of the rotating rod 42, and a sliding rod 43 is slidably inserted into the rotating rod 42. An L-shaped rod 45 is fixedly connected to the surface of the L-shaped plate 41, and a torsion spring 46 is sleeved on the arc surface of the round rod 44. The two ends of the torsion spring 46 are fixedly connected to the rotating rod 42 and the round rod 44, respectively. When the operator needs to use the nozzle 2, the operator first pulls the sliding rod 43 to slide it inside the L-shaped plate 41 until the arc surface of the sliding rod 43 separates from the L-shaped plate 41. The torque of the torsion spring 46 drives the rotating rod 42 to move, and the rotating rod 42 drives the protective plate 48 to move until the surface of the protective plate 48 is in contact with the nozzle. When the surface of nozzle 2 separates, the protective plate 48 is automatically opened, and it remains open for easy operation. An absorbent pad 47 is fixedly connected to one side of the L-shaped rod 45. The surface of the absorbent pad 47 is in contact with the rotating rod 42. When the operator needs to use nozzle 2, the operator first releases the limit of the protective plate 48. At this time, the torque of the torsion spring 46 drives the rotating rod 42 to move, and the rotating rod 42 drives the protective plate 48 to move. The surface of the protective plate 48 separates from the surface of nozzle 2 until the surface of the rotating rod 42 is in contact with the surface of the absorbent pad 47. This absorbs the collision force between the rotating rod 42 and the L-shaped rod 45, preventing wear or deformation of components such as the rotating rod 42 and the L-shaped rod 45 due to frequent collisions, and extending the service life of each component.

[0030] Working principle: When the operator needs to install a new diameter nozzle 2, firstly, the operator pulls the circular plate 34, causing the insertion rod 33 to slide within the connecting ring 32. At this time, the spring 37 is stretched until the arc surface of the insertion rod 33 separates from the insertion hole 39 of the oiling device body 1. The operator can then place the new diameter nozzle 2 within the oiling device body 1 and slide it until the new diameter nozzle 2 is completely in contact with the inner surface of the oiling device body 1. The operator then releases the circular plate 34. At this time, the rebound force of the spring 37 causes the circular plate 34 to move, and the circular plate 34 causes the insertion rod 33 to slide within the connecting ring 32 until the insertion rod 33 is inserted into the insertion hole 39 of the oiling device body 1. When the operator needs to replace the nozzle 2 with a new diameter nozzle, firstly, the operator releases the limit on the nozzle 2, and the position of the insertion rod 33 does not affect the movement of the operating plate 36. Then, the operator pushes the operating plate 36 to slide within the inclined plate 35 until the operating plate 36... The surface of the nozzle 2 is in contact with the insert rod 33. At this time, the operator can pull the nozzle 2 to slide inside the oiling device body 1 until the nozzle 2 is removed. When the operator needs to fix the nozzle 2 with a new diameter, the operator first pulls the insert rod 33 to slide inside the connecting ring 32 until the insert rod 33 separates from the surface of the operating plate 36. Then the operator can pull the operating plate 36 to slide inside the inclined plate 35. The operating plate 36 drives the blocking block 38 to move until the surface of the blocking block 38 is in contact with the inclined plate 35. At this time, the operating plate 36 does not affect the movement of the insert rod 33, thus achieving the effect of changing nozzles 2 with different diameters. This avoids the situation where, when the production task is adjusted and different diameter nozzles 2 need to be changed to adapt to the oiling needs of different fibers, if the nozzle 2 is difficult to remove, the operator will have to spend more time removing the nozzle 2, which will seriously affect the production efficiency. This improves the reliability of the device.

[0031] When the operator needs to use nozzle 2, they first pull the slide rod 43 to slide it within the L-shaped plate 41 until the arc surface of the slide rod 43 separates from the L-shaped plate 41. The torque of the torsion spring 46 drives the rotating rod 42 to move, and the rotating rod 42 drives the protective plate 48 to move until the surface of the protective plate 48 separates from the surface of nozzle 2. When the operator needs to use nozzle 2 again, they first release the limit of the protective plate 48. At this time, the torque of the torsion spring 46 drives the rotating rod 42 to move, and the rotating rod 42 drives the protective plate 48 to move. The surface of the protective plate 48 separates from the surface of nozzle 2 until the surface of the rotating rod 42 is in contact with the surface of the absorption pad 47. This achieves the effect of protecting nozzle 2, preventing dust, fiber debris, and other impurities from easily drifting in the textile production environment when nozzle 2 is not in use. These impurities can easily enter the interior of nozzle 2, block the oil spraying channel, and cause poor oil spraying, resulting in uneven oil application and affecting the oil application quality of the fibers. This improves the reliability of the device.

[0032] In the description of this utility model, it should be noted that, unless otherwise explicitly specified and limited, the terms "installation," "connection," and "joining" should be interpreted broadly. For example, they can refer to a fixed connection, a detachable connection, or an integral connection; they can refer to a mechanical connection or an electrical connection; they can refer to a direct connection or an indirect connection through an intermediate medium; and they can refer to the internal connection of two components. Those skilled in the art can understand the specific meaning of the above terms in this utility model based on the specific circumstances.

Claims

1. An oiling device of a textile elasticizer, comprising an oiling device body, characterized in that: The oiling device body is equipped with several nozzles. The arc surface of the oiling device body is provided with several replacement devices. Each replacement device includes several fixing rods. The fixing rods are arranged in pairs. Each pair of fixing rods is fixedly connected to the arc surface of the oiling device body. A connecting ring is fixedly connected to the ends of each pair of fixing rods that are far apart from each other. An insert rod is slidably inserted into the connecting ring. The arc surface of the oiling device body is provided with several insertion holes. The arc surface of the insert rod is slidably connected to the nozzle. An inclined plate is fixedly connected to the surface of the oiling device body. An operating plate is slidably connected to the inclined plate.

2. A texturing machine oiling device according to claim 1, characterized in that: One end of the insertion rod is fixedly connected to a circular plate, and a spring is fitted onto the arc surface of the insertion rod. The two ends of the spring are fixedly connected to the circular plate and the connecting ring, respectively.

3. The oiling device for a textile texturing machine according to claim 1, characterized in that: Two blocking blocks are fixedly connected to both sides of the operation panel, and the size of the insertion rod is adapted to the insertion hole.

4. The oiling device for a textile texturing machine according to claim 1, characterized in that: The nozzle has a protective device on its arc surface. The protective device includes an L-shaped plate, which is fixedly connected to the arc surface of the nozzle. A round rod is fixedly connected to the surface of the L-shaped plate. A rotating rod is rotatably connected to the arc surface of the round rod. A protective plate is fixedly connected to one side of the rotating rod. A sliding rod is slidably inserted into the rotating rod. An L-shaped rod is fixedly connected to the surface of the L-shaped plate.

5. The oiling device for a textile texturing machine according to claim 4, characterized in that: A torsion spring is fitted onto the arc surface of the round rod, and the two ends of the torsion spring are fixedly connected to the rotating rod and the round rod, respectively.

6. The oiling device for a textile texturing machine according to claim 4, characterized in that: An absorbent pad is fixedly connected to one side of the L-shaped rod, and the surface of the absorbent pad is in contact with the rotating rod.