CN115323539B - Fuel-saving vibration-absorbing spinning spindle and preparation method thereof - Google Patents

Abstract

The invention discloses an oil-saving vibration-absorbing textile spindle and a preparation method thereof, relates to the technical field of spindle device mechanisms, and aims to solve the problems that the operation vibration of the existing spindle is not easy to solve in the use process, the use is affected and frequent oiling is required. The oil-saving type vibration-absorbing textile spindle assembly comprises a vibration-absorbing base structure and a base member; the vibration reduction component is connected with the lower end of the connecting block structure by a flange; the connecting base structure is connected to the lower end of the vibration reduction component in a nested manner; the connecting seat is connected to the base component in an embedded manner, and a fixing structure is connected to the connecting seat in an embedded manner; the spindle component is connected in the connecting seat in an embedded manner, one end of the spindle component is connected with a sealing ring component in an embedded manner, and spindle rod structures are connected in the spindle component and the sealing ring component in an embedded manner in a penetrating manner; the spindle rod base member is connected with one end of the spindle member in a flange manner, and one side of the spindle rod base member is connected with an oil-saving structure in a flange manner.

Description

Fuel-saving vibration-absorbing spinning spindle and preparation method thereof

Technical Field

The invention relates to the technical field of spindle device mechanisms, in particular to an oil-saving vibration-absorbing textile spindle and a preparation method thereof.

Background

The spindle is one of the main components of the spinning machine for twisting and winding, and is an assembly with a slender rotating shaft supported by two points as a main body. Spindles are arranged on the roving frame, the spinning frame and the twisting frame.

The spindle is divided into a roving spindle and a spinning spindle, wherein the roving spindle is a round steel rod, the top end of the roving spindle is generally provided with a groove for supporting and driving the flyer to rotate together, the spindle tip at 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, spindle hook, spindle foot, brake, etc.

The application number is as follows: 201520973429.9, titled: a novel spindle, the apparatus comprising: the utility model adds a guide sleeve on the existing spindle structure, the guide sleeve plays a role in buffering impact of the spindle disc when a bobbin falls, and the phenomenon that the nozzle of the bobbin directly impacts the upper end of the spindle disc due to direction deviation of the nozzle of the bobbin in the falling process of the bobbin is prevented. The problem of short service life of the spindle and the bobbin on the spinning machine is successfully solved, and the service life of the spindle and the bobbin is prolonged.

In the using process of the device, the operation vibration of the device is not easy to solve in the using process, the use is affected, and in addition, frequent oiling is needed.

Therefore, we propose a fuel-saving vibration-absorbing textile spindle and a preparation method thereof so as to solve the problems set forth in the above.

Disclosure of Invention

The invention aims to provide an oil-saving vibration-absorbing textile spindle and a preparation method thereof, which are used for solving the problems that the running vibration of the existing spindle in the background technology is not easy to solve in the use process, the use is affected and frequent oiling is required.

In order to achieve the above purpose, the present invention provides the following technical solutions: the oil-saving vibration-absorbing spinning spindle comprises an oil-saving vibration-absorbing spinning spindle assembly, wherein the oil-saving vibration-absorbing spinning spindle assembly comprises a vibration-absorbing base structure and a base member;

Further comprises:

the connecting block structure is fixedly connected with the lower end of the base member through a flange;

the vibration reduction component is connected with the lower end of the connecting block structure by a flange;

the connecting base structure is connected to the lower end of the vibration reduction component in a nested manner;

The connecting seat is connected to the base component in an embedded manner, and a fixing structure is connected to the connecting seat in an embedded manner;

The spindle component is connected in the connecting seat in an embedded manner, one end of the spindle component is connected with a sealing ring component in an embedded manner, and spindle rod structures are connected in the spindle component and the sealing ring component in an embedded manner in a penetrating manner;

the spindle rod base member is connected with one end of the spindle member in a flange manner, and one side of the spindle rod base member is connected with an oil-saving structure in a flange manner.

Preferably, the both ends of base component all are provided with and connect fixed component, and connect the both ends fixed connection of fixed component and base component, be provided with the hole groove on the connecting seat, and the hole groove forms through milling cutter punching and milling with the connecting seat, be provided with the rubber circle structure that absorbs vibration in the connecting seat, and absorb vibration the rubber circle structure and inlay with the connecting seat and be connected, be provided with the installation circle component in the rubber circle structure that absorbs vibration, and the installation circle component is inlayed with the rubber circle structure that absorbs vibration and is connected.

Preferably, the connecting base structurally comprises a frame structure, the lower end of the frame structure is provided with a fixing bolt structure, the fixing bolt structure is fixedly connected with the lower end of the frame structure, the fixing bolt structure is provided with a second gasket, the second gasket is in nested penetrating connection with the fixing bolt structure, the second gasket is arranged up and down, the first gasket is in nested penetrating connection with the fixing bolt structure, the tail end of the fixing bolt structure is provided with a bolt female structure, and the bolt female structure is in nested penetrating connection with the tail end of the fixing bolt structure.

Preferably, the frame structure is provided with a beam structure, the beam structure is fixedly connected with the inner wall of the frame structure, the beam structure is provided with a bolt structure, the bolt structure is in nested penetrating connection with the beam structure, the bolt structure is provided with a spring structure, and the spring structure is in nested connection with the bolt structure.

Preferably, the periphery of the outer wall of the vibration reduction member is provided with a mounting and fixing slot, and the periphery of the mounting and fixing slot and the periphery of the outer wall of the vibration reduction member are punched and milled by a milling cutter.

Preferably, the inside bottom of damping member is provided with base mechanism, and base mechanism and damping member's inside bottom fixed connection, base mechanism's upper end is provided with the shock absorber component, and shock absorber component and base mechanism's upper end flange joint, the upper end of shock absorber component is provided with the clamp plate subassembly, be provided with auxiliary rod subassembly in damping member's the inside, and auxiliary rod subassembly and damping member's inside top bottom fixed connection.

Preferably, the fuel saving structure comprises a mounting frame member, one end of the mounting frame member is provided with a mounting tray structure, and the mounting tray structure is fixedly connected with one end of the mounting frame member.

Preferably, the upper end of installation tray structure is provided with canning mechanism, and canning mechanism and the upper end fixed connection of installation tray structure, one side of canning mechanism is provided with the oil filler structure, and the one side flange joint of oil filler structure and canning mechanism, be provided with fluid display component on the canning mechanism, and fluid display component inlays with canning mechanism and be connected.

Preferably, a pipeline member is arranged on the other side of the canning mechanism, the pipeline member is connected with the flange on the other side of the canning mechanism, a PLC control unit structure is arranged on the pipeline member, and the PLC control unit structure is connected with the flange of the pipeline member.

Preferably, the preparation method of the oil-saving vibration-absorbing textile spindle comprises the following steps:

Step one: the connecting base structure is characterized in that the bolt structures on two sides are pulled to enable the bolt structures to shrink inwards, then the vibration reduction component is placed on the bolt structures, then the bolt structures are loosened, the bolt structures are enabled to return under the action of the spring structures, meanwhile one ends of the bolt structures are inserted into the mounting fixing slots, and the connecting block structure is connected with the vibration reduction component and the base component in a flange connection mode, so that the vibration reduction base structure is assembled;

Step two: then, in the vibration damping base structure formed by the preparation, a connecting seat is inlaid in an inlaid mode, a vibration absorbing rubber ring structure is inlaid in the connecting seat, meanwhile, an installation ring component is inlaid on the inner ring of the vibration absorbing rubber ring structure, and finally, the vibration damping base structure is fixed by a fixing structure;

Step three: on the base component of the embedded connecting seat, the spindle component is embedded in the base component in an embedded connecting mode, and then one end of the spindle component is connected with the spindle rod base component in a flange connecting mode;

Step four: one end of the mounting frame member is welded with the mounting tray structure, then the canning mechanism is placed on the mounting frame member, the pipeline member is connected to one side of the canning mechanism in a flange sealing connection mode, and the PLC control unit structure on the pipeline member is connected to the middle position of the pipeline member in a flange connection mode, so that the fuel-saving structure is formed;

Step five: one end of a pipeline component of the oil saving structure is connected with a spindle blade base component in a flange manner, and one end of a mounting frame component on the oil saving structure is connected with the outer surface of the spindle blade base component in a welding manner;

Step six: the oil-saving vibration-absorbing textile spindle assembly prepared in the first to fifth steps is fixed on equipment through a fixing bolt structure, a first gasket, a second gasket and a bolt mother structure which are connected with the bottom of a base structure.

Compared with the prior art, the invention has the beneficial effects that:

1. According to the invention, through the arrangement of the vibration-absorbing rubber ring structure and the vibration-absorbing member, the nylon material is added in the vibration-absorbing rubber ring structure, and the vibration and noise absorption generated by the spindle under high-speed operation is ensured to the greatest extent on the premise of ensuring the strength by utilizing the reinforced nylon material, so that the working environment is improved, and the production efficiency is improved;

The vibration damping member transmits vibration generated by the spindle to the vibration damper member through the pressing plate assembly when the spindle operates, and the vibration damper member damps the vibration by utilizing the characteristics of the vibration damper member.

2. Through mounting bracket component, installation tray structure, canning mechanism, oil filler structure, fluid display component, pipeline component, PLC control unit structure's setting, the installation tray structure on the mounting bracket component can be used to place installation canning mechanism, and the fluid display component on the canning mechanism can let people clearly observe the surplus of lubricating oil in the canning mechanism, in order to reach the effect of economizing on fuel, usable PLC control unit structure, and PLC control unit structure divide into PLC control unit and valve, the size that the PLC control unit control valve opened and shut, the circulation of control lubricating oil when flowing through pipeline component, can carry out the interpolation of spindle lubricating oil according to actual conditions, avoid the repeated oiling to cause extravagant or the oil charge is few, and influence spindle use.

Drawings

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

FIG. 2 is a schematic top view of a base member of the present invention;

FIG. 3 is a schematic view of a connection base structure according to the present invention;

FIG. 4 is a schematic view of the structure of the vibration damping member of the present invention;

FIG. 5 is a schematic diagram of the fuel saving structure of the present invention;

In the figure: 1. a fuel-saving vibration-absorbing spinning spindle assembly; 2. a vibration damping base structure; 3. a base member; 4. a connecting block structure; 5. a vibration damping member; 6. a connection base structure; 7. a connecting seat; 8. a fixed structure; 9. a spindle member; 10. a seal ring member; 11. a spindle blade structure; 12. a spindle blade base member; 13. an oil-saving structure; 14. connecting a fixing member; 15. a hole groove; 16. a shock-absorbing rubber ring structure; 17. a mounting ring member; 18. a frame structure; 19. a fixing bolt structure; 20. a first gasket; 21. a second gasket; 22. a bolt mother structure; 23. a beam structure; 24. a latch structure; 25. a spring structure; 26. installing and fixing the slotted hole; 27. a base mechanism; 28. a damper member; 29. a platen assembly; 30. an auxiliary lever assembly; 31. a mounting frame member; 32. installing a tray structure; 33. a canning mechanism; 34. a filler neck structure; 35. an oil display member; 36. a pipe member; 37. and a PLC control unit structure.

Detailed Description

The following description of the embodiments of the present invention 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 invention, but not all embodiments.

Referring to fig. 1-5, an embodiment of the present invention is provided: the oil-saving vibration-absorbing textile spindle comprises an oil-saving vibration-absorbing textile spindle assembly 1, wherein the oil-saving vibration-absorbing textile spindle assembly 1 comprises a vibration-absorbing base structure 2 and a base member 3;

Further comprises:

the connecting block structure 4 is fixedly connected with the lower end of the base member 3 through a flange;

The vibration reduction component 5 is connected with the lower end of the connecting block structure 4 in a flange manner;

the connecting base structure 6 is connected to the lower end of the vibration reduction component 5 in a nested manner;

The connecting seat 7 is connected to the base member 3 in an embedded manner, and a fixing structure 8 is connected to the connecting seat 7 in an embedded manner;

A spindle member 9 is inserted and connected in the connecting seat 7, one end of the spindle member 9 is inserted and connected with a sealing ring member 10, and spindle members 9 and the sealing ring member 10 are inserted and connected with a spindle rod structure 11 in a penetrating way;

A spindle rod base member 12 flange-connected to one end of the spindle member 9, and a fuel saving structure 13 flange-connected to one side of the spindle rod base member 12.

Referring to fig. 2, the base member 3 is provided with connection fixing members 14 at two ends, the connection fixing members 14 are fixedly connected with two ends of the base member 3, the connection seat 7 is provided with a hole slot 15, the hole slot 15 and the connection seat 7 are formed by milling through a milling cutter, the connection seat 7 is provided with a vibration absorbing rubber ring structure 16, the vibration absorbing rubber ring structure 16 is connected with the connection seat 7 in an embedded manner, the vibration absorbing rubber ring structure 16 is provided with a mounting ring member 17, the mounting ring member 17 is connected with the vibration absorbing rubber ring structure 16 in an embedded manner, and the connection is fixed

The component 14 plays a role in connection and fixation, the hole slot 15 facilitates the insertion and fixation of the fixing structure 8, the shock-absorbing rubber ring structure 16 plays a role in vibration reduction, and the mounting ring component 17 facilitates the mounting.

Referring to fig. 3, the connection base structure 6 includes a frame structure 18, a fixing bolt structure 19 is disposed at a lower end of the frame structure 18, the fixing bolt structure 19 is fixedly connected with a lower end of the frame structure 18, a second gasket 21 is disposed on the fixing bolt structure 19, the second gasket 21 is in nested penetrating connection with the fixing bolt structure 19, a first gasket 20 is disposed above and below the second gasket 21, the first gasket 20 is in nested penetrating connection with the fixing bolt structure 19, a bolt female structure 22 is disposed at an end of the fixing bolt structure 19, the bolt female structure 22 is in nested penetrating connection with an end of the fixing bolt structure 19, the frame structure 18 is a frame, the fixing bolt structure 19 is used for fixing, the first gasket 20 and the second gasket 21 play a role of reinforcing connection, and the bolt female structure 22 is used for fastening connection.

Referring to fig. 3, a beam structure 23 is disposed in the frame structure 18, the beam structure 23 is fixedly connected with an inner wall of the frame structure 18, a bolt structure 24 is disposed in the beam structure 23, the bolt structure 24 is in nested penetrating connection with the beam structure 23, a spring structure 25 is disposed on the bolt structure 24, the spring structure 25 is nested with the bolt structure 24, the beam structure 23 plays a role of clamping, and the bolt structure 24 is matched with the spring structure 25 for fixedly mounting the vibration reduction member 5.

Referring to fig. 4, the outer wall of the vibration damping member 5 is provided with mounting and fixing slots 26, and the mounting and fixing slots 26 and the outer wall of the vibration damping member 5 are formed by milling with milling cutters, and the mounting and fixing slots 26 facilitate connection and installation of the vibration damping member 5.

Referring to fig. 4, a base mechanism 27 is disposed at the inner bottom of the vibration absorbing member 5, the base mechanism 27 is fixedly connected with the inner bottom of the vibration absorbing member 5, a damper member 28 is disposed at the upper end of the base mechanism 27, the damper member 28 is flange-connected with the upper end of the base mechanism 27, a pressing plate assembly 29 is disposed at the upper end of the damper member 28, an auxiliary rod assembly 30 is disposed in the inner portion of the vibration absorbing member 5, the auxiliary rod assembly 30 is fixedly connected with the inner top bottom of the vibration absorbing member 5, the base mechanism 27 is used for mounting connection of the damper member 28, the damper member 28 is used for absorbing vibration, the pressing plate assembly 29 is matched with the damper member 28, and the auxiliary rod assembly 30 is beneficial to vibration absorption of the pressing plate assembly 29.

Referring to fig. 5, the fuel saving structure 13 includes a mounting frame member 31, one end of the mounting frame member 31 is provided with a mounting tray structure 32, the mounting tray structure 32 is fixedly connected with one end of the mounting frame member 31, the mounting frame member 31 is a mounting frame, and the mounting tray structure 32 is used for mounting the canning mechanism 33.

Referring to fig. 5, a canning mechanism 33 is disposed at the upper end of the mounting tray structure 32, the canning mechanism 33 is fixedly connected with the upper end of the mounting tray structure 32, an oil filler structure 34 is disposed on one side of the canning mechanism 33, the oil filler structure 34 is in flange connection with one side of the canning mechanism 33, an oil display member 35 is disposed on the canning mechanism 33, the oil display member 35 is connected with the canning mechanism 33 in an embedded manner, the canning mechanism 33 is used for containing lubricating oil, the oil filler structure 34 is used for adding lubricating oil, and the oil display member 35 is convenient for knowing the use condition of the lubricating oil in the canning mechanism 33.

Referring to fig. 5, a pipe member 36 is disposed at the other side of the canning mechanism 33, the pipe member 36 is connected with the other side of the canning mechanism 33 by a flange, a PLC control unit structure 37 is disposed on the pipe member 36, the PLC control unit structure 37 is connected with the pipe member 36 by a flange, the pipe member 36 is an oil pipeline, and the PLC control unit structure 37 is used for controlling the oil flow.

Referring to fig. 1-5, a method for preparing an oil-saving vibration-absorbing textile spindle comprises the following steps of

Step one: the connecting base structure 6 utilizes the bolt structures 24 on two sides to enable the bolt structures 24 to shrink inwards, then the vibration reduction member 5 is placed on the connecting base structure, then the bolt structures 24 are loosened, the bolt structures 24 are reset under the action of the spring structures 25, one ends of the bolt structures 24 are inserted into the mounting fixing slots 26, and the connecting block structure 4 is connected with the vibration reduction member 5 and the base member 3 in a flange connection mode, so that the vibration reduction base structure 2 is assembled;

Step two: then, in the vibration damping base structure 2, the connecting seat 7 is embedded in an embedding manner, the vibration absorbing rubber ring structure 16 is embedded in the connecting seat 7, meanwhile, the mounting ring member 17 is embedded on the inner ring of the vibration absorbing rubber ring structure 16, and finally, the vibration damping base structure is fixed by the fixing structure 8;

Step three: on the base member 3 of the completed inlay connection seat 7, the spindle member 9 is inserted therein by an inlay connection manner, and then one end of the spindle member 9 is connected with the spindle rod base member 12 by a flange connection manner;

Step four: the mounting tray structure 32 is welded on one end of the mounting frame member 31, then the canning mechanism 33 is placed on the mounting tray structure, the pipeline member 36 is connected to one side of the canning mechanism 33 in a flange sealing connection mode, and the PLC control unit structure 37 on the pipeline member 36 is connected to the middle position of the pipeline member 36 in a flange connection mode, so that the fuel-saving structure 13 is formed;

Step five: one end of a pipeline member 36 of the oil saving structure 13 is connected with the spindle blade base member 12 in a flange manner, and one end of a mounting frame member 31 on the oil saving structure 13 is connected with the outer surface of the spindle blade base member 12 in a welding manner;

step six: the oil-saving type vibration-absorbing textile spindle assembly 1 prepared in the first to fifth steps is fixed on equipment through a fixing bolt structure 19, a first gasket 20, a second gasket 21 and a bolt mother structure 22 which are connected with the bottom of a base structure 6.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention 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 invention 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 (5)

1. The oil-saving vibration-absorbing textile spindle comprises an oil-saving vibration-absorbing textile spindle assembly (1), wherein the oil-saving vibration-absorbing textile spindle assembly (1) comprises a vibration-absorbing base structure (2) and a base member (3), two ends of the base member (3) are respectively provided with a connecting and fixing member (14), and the connecting and fixing members (14) are fixedly connected with two ends of the base member (3);

the method is characterized in that: further comprises:

the connecting block structure (4) is fixedly connected with the lower end of the base component (3) through a flange;

The vibration reduction device comprises a vibration reduction member (5), wherein the vibration reduction member is in flange connection with the lower end of the connecting block structure (4), a base mechanism (27) is arranged at the inner bottom of the vibration reduction member (5), the base mechanism (27) is fixedly connected with the inner bottom of the vibration reduction member (5), a vibration reduction member (28) is arranged at the upper end of the base mechanism (27), the vibration reduction member (28) is in flange connection with the upper end of the base mechanism (27), a pressing plate assembly (29) is arranged at the upper end of the vibration reduction member (28), an auxiliary rod assembly (30) is arranged in the inner part of the vibration reduction member (5), and the auxiliary rod assembly (30) is fixedly connected with the inner top bottom of the vibration reduction member (5);

The connecting base structure (6) is connected to the lower end of the vibration reduction component (5) in a nested manner;

The connecting seat (7) is inlaid and connected onto the base member (3), a fixing structure (8) is inlaid and inserted onto the connecting seat (7), a hole groove (15) is formed in the connecting seat (7), the hole groove (15) and the connecting seat (7) are formed by milling through a milling cutter, a vibration-absorbing rubber ring structure (16) is arranged in the connecting seat (7), the vibration-absorbing rubber ring structure (16) is inlaid and connected with the connecting seat (7), a mounting ring member (17) is arranged in the vibration-absorbing rubber ring structure (16), and the mounting ring member (17) is inlaid and connected with the vibration-absorbing rubber ring structure (16);

the spindle component (9) is connected in the connecting seat (7) in an embedded manner, one end of the spindle component (9) is connected with the sealing ring component (10) in an embedded manner, and the spindle component (9) and the sealing ring component (10) are connected with the spindle rod structure (11) in an embedded manner in a penetrating manner;

The spindle rod base member (12), flange joint is in the one end of spindle member (9), and spindle rod base member (12) one side flange joint has oil-saving structure (13), contain mounting bracket member (31) on oil-saving structure (13), one end of mounting bracket member (31) is provided with installation tray structure (32), and the one end fixed connection of mounting bracket member (31) of installation tray structure (32), the upper end of installation tray structure (32) is provided with canning mechanism (33), and the upper end fixed connection of canning mechanism (33) and installation tray structure (32), one side of canning mechanism (33) is provided with oil filler structure (34), and oil filler structure (34) and one side flange joint of canning mechanism (33), be provided with fluid display member (35) on canning mechanism (33), and fluid display member (35) are inlayed and are connected with canning mechanism (33), the opposite side of canning mechanism (33) is provided with pipeline member (36), and pipeline member (36) and the flange joint of canning mechanism (32), pipeline member (36) are provided with flange control unit (37), and PLC structure (37).

2. A fuel-efficient shock-absorbing textile spindle as defined in claim 1, wherein: the connecting base structure (6) comprises a frame structure (18), the lower end of the frame structure (18) is provided with a fixing bolt structure (19), the fixing bolt structure (19) is fixedly connected with the lower end of the frame structure (18), a second gasket (21) is arranged on the fixing bolt structure (19), the second gasket (21) is in nested penetrating connection with the fixing bolt structure (19), a first gasket (20) is arranged on the second gasket (21) up and down, the first gasket (20) is in nested penetrating connection with the fixing bolt structure (19), the tail end of the fixing bolt structure (19) is provided with a bolt female structure (22), and the bolt female structure (22) is in nested penetrating connection with the tail end of the fixing bolt structure (19).

3. A fuel-saving vibration absorbing textile spindle as defined in claim 2, wherein: be provided with crossbeam structure (23) in frame construction (18), and crossbeam structure (23) and the inside inner wall fixed connection of frame construction (18), be provided with in crossbeam structure (23) and tie bar structure (24), and tie bar structure (24) and crossbeam structure (23) nested through connection, be provided with spring structure (25) on tie bar structure (24), and spring structure (25) and tie bar structure (24) nested connection.

4. A fuel-efficient shock-absorbing textile spindle as defined in claim 1, wherein: the periphery of the outer wall of the vibration reduction component (5) is provided with a mounting and fixing slot hole (26), and the periphery of the mounting and fixing slot hole (26) and the periphery of the outer wall of the vibration reduction component (5) are formed by milling through a milling cutter.

5. A method for preparing a fuel-saving type vibration absorbing textile spindle according to any one of claims 1 to 4, comprising the steps of:

Step one: the connecting base structure (6) utilizes the bolt structures (24) on two sides to enable the bolt structures (24) to shrink inwards, then the vibration reduction component (5) is placed on the connecting base structure, then the bolt structures (24) are loosened, the bolt structures (24) are reset under the action of the spring structures (25), meanwhile one ends of the bolt structures (24) are inserted into the mounting fixing slots (26), and the connecting block structure (4) is connected with the vibration reduction component (5) and the base component (3) in a flange connection mode, so that the vibration reduction base structure (2) is assembled;

step two: then, in the vibration damping base structure (2) formed by the preparation, the connecting seat (7) is embedded in an embedding manner, the vibration absorbing rubber ring structure (16) is embedded in the connecting seat (7), meanwhile, the mounting ring component (17) is embedded on the inner ring of the vibration absorbing rubber ring structure (16), and finally, the vibration damping base structure is fixed by the fixing structure (8);

step three: on the base component (3) of the embedded connecting seat (7), the spindle component (9) is embedded in the base component in an embedded connecting mode, and then one end of the spindle component (9) is connected with the spindle rod base component (12) in a flange connecting mode;

step four: a mounting tray structure (32) is welded at one end of the mounting frame member (31), then the canning mechanism (33) is placed on the mounting tray structure, the pipeline member (36) is connected to one side of the canning mechanism (33) in a flange sealing connection mode, and a PLC control unit structure (37) on the pipeline member (36) is connected to the middle position of the pipeline member (36) in a flange connection mode, so that the fuel-saving structure (13) is formed;

Step five: one end of a pipeline member (36) of the oil saving structure (13) is connected to the spindle blade base member (12) in a flange manner, and one end of a mounting frame member (31) on the oil saving structure (13) is connected to the outer surface of the spindle blade base member (12) in a welding manner;

Step six: the oil-saving type vibration-absorbing textile spindle assembly (1) prepared in the first to fifth steps is fixed on equipment through a fixing bolt structure (19), a first gasket (20), a second gasket (21) and a bolt mother structure (22) which are connected with the bottom of a base structure (6).