CN115341313B - Efficient oil-saving easy-maintenance flax spindle capable of being wedged fast and application method thereof - Google Patents

Abstract

The utility model discloses a high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast and a use method thereof, relates to the technical field of textile device structures, and aims to solve the problems that an existing spindle structure is not durable due to entry of impurity dust during use, waste is caused due to poor control quantity of lubricating oil addition, and the like, so that the use of the spindle structure is limited. The spindle structure assembly comprises a transmission structure; the driving motor component is inserted and connected to one side of the transmission structure; the lubricating oil adding structure is connected with the other side of the transmission structure through a flange; the spindle seat component is connected with the upper end of the transmission structure by a flange; a spindle rod component which is inserted and connected in the spindle seat component; the first connecting ring member is connected with the upper end of the spindle seat member in a ring sleeve mode, the dust collection member is connected with the upper end flange of the first connecting ring member, and the second connecting ring member is connected with the upper end flange of the dust collection member.

Description

Efficient oil-saving easy-maintenance flax spindle capable of being wedged fast and application method thereof

Technical Field

The utility model relates to the technical field of textile device structures, in particular to a high-efficiency oil-saving easy-maintenance flax spindle capable of being rapidly wedged and a use method thereof.

Background

The spindle is one of the main components of twisting winding on a spinning machine, and is an assembly with a two-point supported slender rotating shaft as a main body. Spindles are arranged on the roving frame, the spinning frame and the twisting frame. The roving spindle is a round steel rod, the top end of the spindle is generally provided with a groove for supporting and driving the flyer to rotate together, the spindle toe of the lower end is provided with a spindle foot oil cup for supporting, and the middle part of the spindle is provided with a spindle sleeve as an upper bearing of the spindle. The spun yarn spindle consists of spindle rod, spindle disc, support part (commonly called as spindle liner), spindle hook, spindle foot, brake, etc. The number and rotational speed of the spindles have a direct influence on the throughput of the corresponding process, in particular of the spun yarn spindles, which are customarily used to represent the equipment size and throughput of spinning mills. The quality of the spindle is closely related to the quality of yarn, power consumption, environmental noise, labor productivity and the like.

The application number is as follows: 201020534708.2, named: a spinning spindle, the apparatus comprising: the spindle comprises a spindle disc, a spindle rod and a positioning shaft, wherein the spindle disc is arranged at the end part of the spindle rod, the positioning shaft is arranged in the spindle disc, a rolling ball is arranged between the spindle disc and the positioning shaft, the spindle disc, the positioning shaft and the rolling ball form a spindle bearing, and a retainer of the rolling ball is also arranged between the spindle disc and the positioning shaft; the rolling balls are provided with two groups along the axial direction of the spindle rod; the friction force of the spinning spindle is reduced, so that the spindle operates more stably, the wear resistance of the spinning spindle is improved, the power consumption of the spinning spindle is reduced, the generated noise is reduced, and the bearing capacity of the spinning spindle is improved.

In the use process of the device, the device is not durable due to the entering of impurity dust, and in addition, the addition of lubricating oil is not easy to control, so that waste and the like are caused, and the use of the spindle structure has certain limitation.

Therefore, we propose a high-efficiency oil-saving easy-maintenance flax spindle capable of fast wedging and a use method thereof, so as to solve the problems.

Disclosure of Invention

The utility model aims to provide a high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast and a use method thereof, so that the problems that the existing spindle structure provided in the background art is not durable due to the entering of impurity dust during use, waste is caused due to the fact that the addition of lubricating oil is not easy to control, and the like are solved, and the use of the spindle structure is limited to a certain extent are solved.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast includes spindle structure assembly with transmission structure;

further comprises:

the fixed foot pad component is welded and connected to the lower end of the transmission structure;

the driving motor component is inserted and connected to one side of the transmission structure;

the lubricating oil adding structure is connected with the other side of the transmission structure through a flange;

the spindle seat component is connected with the upper end of the transmission structure by a flange;

a spindle rod component which is inserted and connected in the spindle seat component;

the first connecting ring member is connected with the upper end of the spindle seat member in a ring sleeve mode, the dust collection member is connected with the upper end flange of the first connecting ring member, and the second connecting ring member is connected with the upper end flange of the dust collection member.

Preferably, the second connecting ring member is provided with a first inner ring member, the first inner ring member is connected with the second connecting ring member in an embedded manner, the first inner ring member is provided with a first ball groove, the first ball groove and the first inner ring member are integrally formed, the first ball groove is provided with a first ball member, the first ball member is connected with the first ball groove in an embedded manner, and dust collection holes are formed in four corners of the second connecting ring member.

Preferably, the first connecting ring member is provided with a second inner ring member, the second inner ring member is connected with the first connecting ring member in an embedded manner, the second inner ring member is provided with a second ball groove, the second ball groove and the second inner ring member are integrally formed, the second ball groove is provided with a second ball member, and the second ball member is connected with the second ball groove in an embedded manner.

Preferably, the driving motor assembly comprises a driving motor structure, a driving transmission shaft rod member is arranged in the driving motor structure, the driving transmission shaft rod member is connected with the driving motor structure in an embedded manner, one end of the driving transmission shaft rod member is provided with a connecting flange, and the connecting flange is connected with the driving transmission shaft rod member in a ring sleeve manner.

Preferably, the upper end of the driving motor structure is provided with a mounting guide rail member, the mounting guide rail member is connected with the upper end of the driving motor structure in a welded mode, the upper end of the mounting guide rail member is provided with a mounting fixing structure, the mounting fixing structure is connected with the upper end of the mounting guide rail member in a nested sliding mode, the mounting fixing structure is provided with a fixing bolt member, and the fixing bolt member is connected with the mounting fixing structure in a penetrating mode.

Preferably, the lubricating oil adding structure comprises a lubricating oil tank component, one side of the lubricating oil tank component is provided with an oil delivery pipe component, the oil delivery pipe component is connected with one side flange of the lubricating oil tank component, the oil delivery pipe component is provided with a valve component, the valve component is connected with the flange of the oil delivery pipe component, one end of the oil delivery pipe component is provided with a pipeline flange connection end structure, and the pipeline flange connection end structure is connected with one end flange of the oil delivery pipe component.

Preferably, the valve component comprises a valve member, the valve member is in flange connection with the oil delivery pipe member, and the valve member is provided with a PLC control structure.

Preferably, the lower extreme of lubricating oil tank member is provided with the mounting bracket member, and mounting bracket member and the lower extreme flange joint of lubricating oil tank member, the one end of mounting bracket member is provided with the connecting block structure, and the one end welded connection of connecting block structure and mounting bracket member.

Preferably, the dust collection component is provided with a lining bearing structure, the lining bearing structure is embedded with the dust collection component and connected, dust collection inlet holes are formed in four corners of the dust collection component, flange structures are arranged at two ends of the dust collection component and are connected with two ends of the dust collection component in a flange mode, a miniature dust collection component is arranged on the flange structures, and the miniature dust collection component is connected with the flange structures in a flange mode.

Preferably, the method for using the high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast comprises the following steps:

step one: firstly, installing and fixing a spindle structure assembly on a textile device, and checking the installation and the fixation to prevent subsequent problems caused by incorrect installation;

step two: when the device is used, the driving motor structure on the driving motor assembly drives the transmission structure to operate so as to drive the spindle blade member in the spindle seat member connected with the driving motor assembly to rotate;

step three: when the spindle rod member is driven to rotate, the first ball grooves of the first connecting ring member and the second connecting ring member, the first ball members and the second ball members in the second ball grooves assist in driving the motor structure, so that the running and rotating stability of the spindle rod member is ensured;

step four: the structure of the spindle blade member is divided into two parts, one part is a threaded structure part, the other part is a spindle blade part, when the lubricating oil adding structure supplements lubricating oil for the joint of the driving motor assembly and the transmission structure, the replenished lubricating oil can rotate because of the spindle blade member, and meanwhile, the lubricating oil can rise to lubricate the rolling joint of the spindle blade member, the first ball member and the second ball member in the first inner ring member and the second inner ring member because of threads on the threaded structure part, so that the service time is prolonged;

step five: when the spindle structure assembly operates, dust and textile fibers brought up during operation of the device can be drilled into the rotating cavity of the spindle rod member from a small gap of the device, the service life of the spindle structure assembly can be shortened over time, the dust collection member generates negative pressure through the centrifugal fan of the miniature dust collection member, and the splashed dust and impurities enter the impurity storage structure of the dust collection member from the dust collection hole through the dust collection inlet hole.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, through the arrangement of the first inner ring member, the first ball groove, the first ball member, the second inner ring member and the second ball member, the first connecting ring member and the second connecting ring member are distributed up and down, and in addition, the first ball member and the second ball member in the first ball groove and the second ball groove of the first connecting ring member and the second connecting ring member assist in driving the motor structure, so that the stability of operation and rotation of the spindle rod member is ensured.

2. Through the setting of lubricating oil adding structure, lubricating oil tank component, defeated oil pipe component, valve component, PLC control structure, lubricating oil adding structure carries the junction that needs lubricated with the lubricating oil in the defeated oil tank component through defeated oil pipe component, and set up valve component on defeated oil pipe component for be used for controlling the flow of lubricating oil, prevent once only carry too much and lead to extravagant, valve component on the valve component is in the control of PLC control structure, is controlling valve component's size that opens and shuts, so guarantee that lubricating oil carries moderate amount, can not cause extravagant.

3. Through the setting of transmission structure, spindle carrier component, spindle blade component, first go-between component, second go-between component, dust absorption component, driving motor subassembly, lubricating oil adding structure, transmission structure, driving motor subassembly, spindle carrier component, spindle blade component adopt the connected mode of inlaying the insertion flange, and first go-between component, second go-between component, dust absorption component adopts nested connected mode to connect on spindle blade component, driving motor structure on the driving motor subassembly adopts sliding connection's mode to connect on installing fixed knot constructs in addition, finally lubricating oil adding structure adopts flange joint's mode to connect on transmission structure, through inlaying the connection modes such as inserting, nesting, slip, flange, the maintenance and the inspection of maintainer of being convenient for afterwards.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic view of a second connecting ring member according to the present utility model;

FIG. 3 is a schematic view of a first connecting ring member according to the present utility model;

FIG. 4 is a schematic diagram of a driving motor assembly according to the present utility model;

FIG. 5 is a schematic diagram of a lubricating oil addition structure of the present utility model;

FIG. 6 is a schematic view of a dust collection component according to the present utility model;

in the figure: 1. a spindle structural assembly; 2. a transmission structure; 3. fixing the foot pad component; 4. a drive motor assembly; 5. a lubricating oil adding structure; 6. a spindle base member; 7. a spindle blade member; 8. a first connecting ring member; 9. a second connecting ring member; 10. a dust collection member; 11. a first inner ring member; 1101. a first ball groove; 12. a first ball member; 13. dust collection holes; 14. a second inner ring member; 1401. a second ball groove; 15. a second ball member; 16. a drive motor structure; 17. driving a drive shaft member; 18. a connecting flange; 19. installing a guide rail member; 20. installing a fixing structure; 21. a fixing bolt member; 22. a lubricating oil tank member; 23. an oil delivery pipe member; 24. a valve assembly; 25. a pipeline flange connection end structure; 26. a valve member; 27. a PLC control structure; 28. a mounting frame member; 29. a connecting block structure; 30. a liner bearing structure; 31. dust collection and hole inlet; 32. a flange structure; 33. a miniature dust collection component.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

Referring to fig. 1-6, an embodiment of the present utility model is provided: the utility model provides a can wedge high-efficient oil-saving easy maintenance flax spindle of tight fast, includes spindle structure subassembly 1, has included transmission structure 2 on the spindle structure subassembly 1;

further comprises:

the fixed foot pad component 3 is welded and connected to the lower end of the transmission structure 2;

the driving motor component 4 is inserted and connected to one side of the transmission structure 2;

the lubricating oil adding structure 5 is connected with the other side of the transmission structure 2 in a flange manner;

the spindle seat member 6 is connected with the upper end of the transmission structure 2 in a flange manner;

a spindle blade member 7 inserted into the spindle seat member 6;

the first connecting ring member 8 is connected with the upper end of the spindle seat member 6 in a ring sleeved mode, the dust collection member 10 is connected with the upper end flange of the first connecting ring member 8, and the second connecting ring member 9 is connected with the upper end flange of the dust collection member 10.

Referring to fig. 2, a first inner ring member 11 is disposed in the second connecting ring member 9, the first inner ring member 11 is connected with the second connecting ring member 9 in an embedded manner, a first ball groove 1101 is disposed on the first inner ring member 11, the first ball groove 1101 and the first inner ring member 11 are integrally formed, a first ball member 12 is disposed in the first ball groove 1101, the first ball member 12 is connected with the first ball groove 1101 in an embedded manner, dust collection holes 13 are disposed at four corners of the second connecting ring member 9, the first inner ring member 11 plays a role in connection, the first ball groove 1101 is convenient for mounting and embedding other components, the first ball member 12 facilitates rotation of the spindle, and the dust collection holes 13 facilitate dust collection generated during operation during winding.

Referring to fig. 3, a second inner ring member 14 is disposed in the first connecting ring member 8, the second inner ring member 14 is connected with the first connecting ring member 8 in an embedded manner, a second ball groove 1401 is disposed on the second inner ring member 14, the second ball groove 1401 and the second inner ring member 14 are integrally formed, a second ball member 15 is disposed in the second ball groove 1401, the second ball member 15 is connected with the second ball groove 1401 in an embedded manner, the second inner ring member 14 plays a role in connection, the second ball groove 1401 facilitates the installation and embedding of other components, and the second ball member 15 facilitates the rotation of the spindle blade.

Referring to fig. 4, the driving motor assembly 4 includes a driving motor structure 16, a driving transmission shaft member 17 is disposed in the driving motor structure 16, the driving transmission shaft member 17 is connected with the driving motor structure 16 in an embedded manner, a connecting flange 18 is disposed at one end of the driving transmission shaft member 17, the connecting flange 18 is connected with the driving transmission shaft member 17 in a sleeved manner, the driving motor structure 16 provides driving force, the driving transmission shaft member 17 is used for transmission, and the connecting flange 18 plays a role in connection.

Referring to fig. 4, an installation rail member 19 is disposed at an upper end of the driving motor structure 16, the installation rail member 19 is welded to an upper end of the driving motor structure 16, an installation fixing structure 20 is disposed at an upper end of the installation rail member 19, the installation fixing structure 20 is in nested sliding connection with an upper end of the installation rail member 19, a fixing bolt member 21 is disposed on the installation fixing structure 20, the fixing bolt member 21 is in penetrating connection with the installation fixing structure 20, the installation rail member 19 plays a role in connection, the installation fixing structure 20 plays a role in connection and fixation, and the fixing bolt member 21 is used for fixing the installation fixing structure 20.

Referring to fig. 5, the lubricant adding structure 5 includes a lubricant tank member 22, an oil delivery pipe member 23 is disposed on one side of the lubricant tank member 22, the oil delivery pipe member 23 is in flange connection with one side of the lubricant tank member 22, a valve assembly 24 is disposed on the oil delivery pipe member 23, the valve assembly 24 is in flange connection with the oil delivery pipe member 23, a pipe flange connection end structure 25 is disposed at one end of the oil delivery pipe member 23, the pipe flange connection end structure 25 is in flange connection with one end of the oil delivery pipe member 23, the lubricant tank member 22 is used for storing lubricant, the oil delivery pipe member 23 is used for delivering lubricant, the valve assembly 24 is used for controlling the delivery of lubricant, and the pipe flange connection end structure 25 plays a role in connection.

Referring to fig. 5, the valve assembly 24 includes a valve member 26, the valve member 26 is flange-connected with the oil delivery pipe member 23, a PLC control structure 27 is disposed on the valve member 26, the valve member 26 is used for conveying lubricating oil, and the PLC control structure 27 is used for controlling the valve opening and closing of the valve member 26.

Referring to fig. 5, a mounting frame member 28 is disposed at a lower end of the lubricating oil tank member 22, the mounting frame member 28 is in flange connection with a lower end of the lubricating oil tank member 22, a connection block structure 29 is disposed at one end of the mounting frame member 28, the connection block structure 29 is welded to one end of the mounting frame member 28, and the mounting frame member 28 and the connection block structure 29 are combined to be used for mounting and connecting the lubricating oil adding structure 5.

Referring to fig. 6, a liner bearing structure 30 is disposed in the dust collection member 10, the liner bearing structure 30 is connected with the dust collection member 10 in an embedded manner, dust collection inlet holes 31 are disposed at four corners of the dust collection member 10, flange structures 32 are disposed at two ends of the dust collection member 10, the flange structures 32 are connected with two ends of the dust collection member 10 in a flange manner, a micro dust collection member 33 is disposed on the flange structures 32, the micro dust collection member 33 is connected with the flange structures 32 in a flange manner, the liner bearing structure 30 facilitates rotation of the spindle blade member 7, the dust collection inlet holes 31 facilitate dust entry, the flange structures 32 play a role in connection, and the micro dust collection member 33 is used for dust collection.

Referring to fig. 1-6, a method for using a high-efficiency oil-saving easy-maintenance flax spindle capable of fast wedging comprises the following steps:

step one: firstly, the spindle structure assembly 1 is installed and fixed on a textile device, and the installation and the fixation are checked, so that the subsequent problems caused by incorrect installation are prevented;

step two: when the device is used, the driving motor structure 16 on the driving motor assembly 4 drives the transmission structure 2 to operate so as to drive the spindle blade member 7 in the spindle seat member 6 connected with the transmission structure to rotate;

step three: when the spindle rod member 7 is driven to rotate, the first ball grooves 1101 and the first ball members 12 and the second ball members 15 in the first ball grooves 1101 and the second ball grooves 1401 of the first connecting ring member 8 and the second connecting ring member 9 assist in driving the motor structure 16, so that the stability of the running and the rotation of the spindle rod member 7 is ensured;

step four: the structure of the spindle rod member 7 is divided into two parts, one part is a threaded structure part, the other part is a spindle rod part, when the lubricating oil adding structure 5 supplements lubricating oil for the joint of the driving motor assembly 4 and the transmission structure 2, the supplemented lubricating oil can rotate due to the spindle rod member 7, and meanwhile, the lubricating oil can rise to lubricate the rolling joint of the spindle rod member 7, the first ball member 12 and the second ball member 15 in the first inner ring member 11 and the second inner ring member 14 due to the threads on the threaded structure part, so that the service time is prolonged;

step five: during operation of the spindle assembly 1, dust and textile fibers carried up during operation of the apparatus, which dust and impurities can be drilled from small gaps of the apparatus into the rotating cavities of the spindle assembly 7, the duration of use of the spindle assembly 1 is shortened over time, the dust collection member 10 generates a negative pressure by the centrifugal fan of the miniature dust collection member 33, and the splashed dust and impurities are introduced into the impurity storage structure of the dust collection member 10 from the dust collection hole 13 through the dust collection inlet hole 31.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. The utility model provides a can wedge high-efficient fuel-saving easy maintenance formula flax spindle of tight fast, includes spindle structure subassembly (1), has included transmission structure (2) on spindle structure subassembly (1);

the method is characterized in that: further comprises:

a fixed foot pad component (3) is welded and connected to the lower end of the transmission structure (2);

the driving motor component (4) is inserted and connected to one side of the transmission structure (2);

the lubricating oil adding structure (5) is connected with the other side of the transmission structure (2) through a flange;

the spindle seat member (6) is connected with the upper end of the transmission structure (2) in a flange manner;

a spindle blade member (7) inserted into the spindle seat member (6);

the first connecting ring member (8) is connected with the upper end of the spindle seat member (6) in a ring sleeved mode, a dust collection member (10) is connected with the upper end flange of the first connecting ring member (8), and a second connecting ring member (9) is connected with the upper end flange of the dust collection member (10);

a first inner ring member (11) is arranged in the second connecting ring member (9), the first inner ring member (11) is connected with the second connecting ring member (9) in an embedded manner, a first ball groove (1101) is arranged on the first inner ring member (11), the first ball groove (1101) and the first inner ring member (11) are integrally formed, a first ball member (12) is arranged in the first ball groove (1101), the first ball member (12) is connected with the first ball groove (1101) in an embedded manner, dust collection holes (13) are arranged at four corners of the second connecting ring member (9), a second inner ring member (14) is arranged in the first connecting ring member (8), the second inner ring member (14) is connected with the first connecting ring member (8) in an embedded manner, a second ball groove (1401) is arranged on the second inner ring member (14), the second ball groove (1401) and the second ball groove (1401) are integrally formed with the second inner ring member (14), and a second ball member (15) is arranged in the second groove (1401) in an embedded manner;

the lubricating oil adding structure (5) comprises a lubricating oil tank component (22), an oil conveying pipe component (23) is arranged on one side of the lubricating oil tank component (22), the oil conveying pipe component (23) is connected with one side of the lubricating oil tank component (22) in a flange mode, a valve component (24) is arranged on the oil conveying pipe component (23), the valve component (24) is connected with the oil conveying pipe component (23) in a flange mode, a pipeline flange connection end structure (25) is arranged at one end of the oil conveying pipe component (23), and the pipeline flange connection end structure (25) is connected with one end of the oil conveying pipe component (23) in a flange mode;

the structure of the spindle rod component (7) is divided into two parts, one part is a threaded structure part, the other part is a spindle rod part, when the lubricating oil adding structure (5) supplements lubricating oil for the joint of the driving motor component (4) and the transmission structure (2), the supplemented lubricating oil can rotate due to the spindle rod component (7), and meanwhile, the lubricating oil can rise to lubricate the rolling joint of the spindle rod component (7) and the first ball component (12) and the second ball component (15) in the first inner ring component (11) and the second inner ring component (14) due to threads on the threaded structure part;

be provided with inside lining bearing structure (30) in dust absorption component (10), and inside lining bearing structure (30) are inlayed and are connected with dust absorption component (10), be provided with dust absorption inlet (31) on the four corners of dust absorption component (10), the both ends of dust absorption component (10) all are provided with flange structure (32), and flange structure (32) and dust absorption component (10) both ends flange joint, be provided with miniature dust absorption component (33) on flange structure (32), and miniature dust absorption component (33) and flange structure (32) flange joint.

2. The high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast according to claim 1, which is characterized in that: the driving motor assembly (4) comprises a driving motor structure (16), a driving transmission shaft rod component (17) is arranged in the driving motor structure (16), the driving transmission shaft rod component (17) is connected with the driving motor structure (16) in an embedded mode, one end of the driving transmission shaft rod component (17) is provided with a connecting flange (18), and the connecting flange (18) is connected with the driving transmission shaft rod component (17) in a ring mode.

3. The high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast according to claim 2, which is characterized in that: the upper end of driving motor structure (16) is provided with installation guide rail component (19), and the upper end welded connection of installation guide rail component (19) and driving motor structure (16), the upper end of installation guide rail component (19) is provided with installation fixed knot construct (20), and the upper end nested sliding connection of installation fixed knot construct (20) and installation guide rail component (19), be provided with dead bolt component (21) on installation fixed knot construct (20), and dead bolt component (21) and installation fixed knot construct (20) through connection.

4. The high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast according to claim 1, which is characterized in that: the valve assembly (24) comprises a valve component (26), the valve component (26) is in flange connection with the oil delivery pipe component (23), and a PLC control structure (27) is arranged on the valve component (26).

5. The high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast according to claim 1, which is characterized in that: the lower extreme of lubricating oil tank member (22) is provided with mounting bracket member (28), and mounting bracket member (28) and the lower extreme flange joint of lubricating oil tank member (22), the one end of mounting bracket member (28) is provided with connecting block structure (29), and connecting block structure (29) and the one end welded connection of mounting bracket member (28).

6. The method for using the high-efficiency oil-saving easy-maintenance flax spindle capable of being wedged fast according to any one of claims 1 to 5 is characterized by comprising the following steps:

step one: firstly, installing and fixing a spindle structure assembly (1) on a textile device, and checking the installation and the fixation to prevent subsequent problems caused by incorrect installation;

step two: when the device is used, the driving motor structure (16) on the driving motor assembly (4) drives the transmission structure (2) to operate so as to drive the spindle blade member (7) in the spindle seat member (6) connected with the transmission structure to rotate;

step three: when the spindle rod component (7) is driven to run and rotate, the first ball grooves (1101) and the first ball components (12) and the second ball components (15) in the first connecting ring component (8) and the second connecting ring component (9) assist the driving motor structure (16), so that the running and rotating stability of the spindle rod component (7) is ensured;

step four: the structure of the spindle rod member (7) is divided into two parts, one part is a threaded structure part, the other part is a spindle rod part, when the lubricating oil adding structure (5) supplements lubricating oil for the joint of the driving motor assembly (4) and the transmission structure (2), the supplemented lubricating oil can rotate due to the spindle rod member (7), and meanwhile, the lubricating oil can rise to lubricate the rolling joint of the spindle rod member (7) and the first inner ring member (11) and the second inner ring member (14) due to threads on the threaded structure part, so that the service time is prolonged;

step five: when the spindle structure assembly (1) operates, dust and textile fibers are carried up due to the operation of the device, and the dust and the textile fibers can be drilled into the rotating cavity of the spindle structure assembly (7) from a tiny gap of the device, so that the service life of the spindle structure assembly (1) can be shortened in time, the dust collection component (10) generates negative pressure through the centrifugal fan of the miniature dust collection component (33), and the splashed dust and textile fibers enter the impurity storage structure of the dust collection component (10) from the dust collection hole (13) through the dust collection inlet hole (31).