CN115323539A

CN115323539A - Oil-saving vibration-absorption textile spindle and preparation method thereof

Info

Publication number: CN115323539A
Application number: CN202210859602.7A
Authority: CN
Inventors: 张炳熙; 束长美; 殷丹平; 徐勇
Original assignee: Jiangsu Zhandong Textile Machinery Co ltd
Current assignee: Jiangsu Zhandong Textile Machinery Co ltd
Priority date: 2022-07-21
Filing date: 2022-07-21
Publication date: 2022-11-11
Anticipated expiration: 2042-07-21
Also published as: CN115323539B

Abstract

The invention discloses an oil-saving vibration-absorption textile spindle and a preparation method thereof, relates to the technical field of spindle devices and mechanisms, and aims to solve the problems that the operation vibration of the existing spindle is not easy to solve in the using process, the use is influenced, and in addition, frequent oiling is needed. The oil-saving vibration absorption textile spindle assembly comprises a vibration absorption base structure and a base component; the vibration reduction component is connected to the lower end of the connecting block structure through a flange; the connecting base structure is connected to the lower end of the vibration damping component in a nested manner; the connecting seat is connected to the base component in an embedded mode, and a fixing structure is connected to the connecting seat in an embedded mode; the spindle component is inserted into the connecting seat, one end of the spindle component is connected with a sealing ring component in an embedded mode, and a spindle rod structure is inserted into the spindle component and the sealing ring component in a penetrating mode; the spindle blade base component is connected with one end of the spindle component in a flange mode, and an oil saving structure is connected to one side of the spindle blade base component in a flange mode.

Description

Oil-saving vibration-absorption textile 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-absorption textile spindle and a preparation method thereof.

Background

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

The spindle is roughly divided into a roving spindle and a spun yarn spindle, 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 a flyer to rotate together, a spindle base oil cup is arranged at the spindle tip at the lower end of the roving spindle for supporting, and the middle part of the roving spindle is provided with a spindle sleeve as an upper bearing of the spindle. The spun yarn spindle consists of a spindle blade, a spindle disc, a supporting part, a spindle hook, a spindle foot, a brake and the like.

If the application number is: 201520973429.9, named: a novel spindle, the apparatus comprising: spindle blade and spindle disc, the spindle disc is fixed to be cup jointed on the middle part of spindle blade, spindle blade upper portion cover has the spindle cap, the cover has the uide bushing on the spindle blade of spindle disc upper end, this utility model structural uide bushing that has increased at current spindle, the uide bushing has played the effect of assaulting the spindle disc when buffering the bobbin whereabouts, has prevented that the orificial direction deviation of bobbin whereabouts in-process bobbin from leading to the direct striking of the bobbin mouth of pipe in the spindle disc upper end. The problem that the service lives of the spindle and the bobbin on the spinning machine are short is successfully solved, and the service lives of the spindle and the bobbin are prolonged.

The device is in the in-process of using, and its operation vibration is difficult to be solved in the use, influences the use, still needs frequent oiling in addition.

Therefore, an oil-saving vibration-absorption textile spindle and a preparation method thereof are provided so as to solve the problems.

Disclosure of Invention

The invention aims to provide an oil-saving vibration-absorption textile spindle and a preparation method thereof, and aims to solve the problems that the running vibration of the existing spindle in the background art is not easy to solve in the using process, the use is influenced, and in addition, frequent oiling is needed.

In order to achieve the purpose, the invention provides the following technical scheme: a fuel-saving vibration-absorption textile spindle comprises a fuel-saving vibration-absorption textile spindle component, wherein the fuel-saving vibration-absorption textile spindle component comprises a vibration-absorption base structure and a base component;

further comprising:

the flange is fixedly connected to the lower end of the base member;

the vibration reduction component is connected to the lower end of the connecting block structure through a flange;

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

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

the spindle component is inserted into the connecting seat, one end of the spindle component is connected with a sealing ring component in an embedded mode, and a spindle rod structure is inserted into the spindle component and the sealing ring component in a penetrating mode;

the spindle blade base component is connected with one end of the spindle component in a flange mode, and an oil saving structure is connected to one side of the spindle blade base component in a flange mode.

Preferably, the both ends of base component all are provided with the connection 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 hole groove and connecting seat wash and mill through milling cutter and form, be provided with the rubber circle structure that shakes in the connecting seat, and shake the rubber circle structure and inlay with the connecting seat and be connected, be provided with the collar member in the rubber circle structure that shakes, and the collar member that shakes inlays with the rubber circle structure that shakes and is connected.

Preferably, the connection base structurally comprises a frame structure, a fixing bolt structure is arranged at the lower end of the frame structure and fixedly connected with the lower end of the frame structure, a second gasket is arranged on the fixing bolt structure and is in nested through connection with the fixing bolt structure, a first gasket is arranged above and below the second gasket, the first gasket is in nested through connection with the fixing bolt structure, a bolt structure is arranged at the tail end of the fixing bolt structure, and the bolt structure is in nested through connection with the tail end of the fixing bolt structure.

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

Preferably, the periphery of the outer wall of the vibration damping member is provided with mounting and fixing slotted holes, and the mounting and fixing slotted holes and the periphery of the outer wall of the vibration damping member are formed by punching and milling through a milling cutter.

Preferably, a base mechanism is arranged at the bottom inside the vibration damping member and fixedly connected with the bottom inside the vibration damping member, a vibration damper member is arranged at the upper end of the base mechanism and connected with a flange at the upper end of the base mechanism, a pressure plate assembly is arranged at the upper end of the vibration damper member, an auxiliary rod assembly is arranged in the vibration damping member and fixedly connected with the top and bottom inside the vibration damping member.

Preferably, the fuel-saving structure comprises an installation frame member, one end of the installation frame member is provided with an installation tray structure, and the installation tray structure is fixedly connected with one end of the installation 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 hole structure, and one side flange joint of oil filler hole structure and canning mechanism, be provided with fluid display component on the canning mechanism, and fluid display component inlays with the canning mechanism and is connected.

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

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

the method comprises the following steps: the connection base structure utilizes the bolt strip structure on two sides to be pulled to enable the bolt strip structure to contract inwards, then the vibration reduction component is placed on the connection base structure, then the bolt strip structure is loosened, the bolt strip structure returns under the action of the spring structure, meanwhile, one end of the bolt strip structure is inserted into the installation fixing slotted hole, and the connection 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, embedding a connecting seat in a prepared vibration damping base structure in an embedding manner, embedding a vibration absorption rubber ring structure in the connecting seat, embedding a mounting ring component on an inner ring of the vibration absorption rubber ring structure, and finally fixing by using a fixing structure;

step three: on the base component which is embedded with the connecting seat, the spindle component is embedded and inserted in the base component in an embedding and inserting connection mode, and then one end of the spindle component is connected with the spindle blade base component in a flange connection mode;

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

step five: one end of a pipeline component of the oil-saving structure is connected to the spindle blade base component in a flange mode, and one end of an installation rack component on the oil-saving structure is connected to the outer surface of the spindle blade base component in a welding mode;

step six: and fixing the oil-saving vibration absorption textile spindle assembly prepared from the first step to the fifth step on equipment through a fixing bolt structure, a first gasket, a second gasket and a bolt nut structure which are connected with the bottom of the 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 absorption rubber ring structure and the vibration absorption component, the nylon material is added in the vibration absorption rubber ring structure, and the reinforced nylon material is utilized, so that the absorption of vibration and noise generated by the high-speed operation of the spindle is ensured to the greatest extent on the premise of ensuring the strength, the working environment is improved, and the production efficiency is improved;

when the spindle runs, the vibration damping component transmits the vibration generated by the spindle to the vibration damping component through the pressure plate component, and the vibration damping component damps the vibration by utilizing the characteristic of the vibration damping component.

2. Through the mounting frame member, the installation tray structure, the canning mechanism, the oil filler hole structure, fluid shows the component, the pipeline component, the setting of PLC the control unit structure, the installation tray structure on the mounting frame member, can be used to place the installation canning mechanism, and the fluid on the canning mechanism shows the component can let the clear surplus of observing lubricating oil in the canning mechanism of people, in order to reach the effect of economizing on fuel, usable PLC the control unit structure, and PLC the control unit is structural to be divided into PLC the control unit and valve, the size that PLC the control unit control valve opened and shut, circulation when control lubricating oil flows through the pipeline component, can carry out the interpolation of spindle lubricating oil from this according to actual conditions, avoided repeated refuelling and led to the fact extravagant or the volume of refueling few, and influence the spindle and use.

Drawings

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

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

FIG. 3 is a schematic view of the connecting base structure of the present invention;

FIG. 4 is a schematic structural view of a 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. an oil-saving vibration-absorbing textile spindle assembly; 2. a vibration damping base structure; 3. a base member; 4. a connecting block structure; 5. a vibration damping member; 6. connecting the 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. a fuel-saving structure; 14. connecting the fixing member; 15. a hole groove; 16. a vibration absorbing rubber ring structure; 17. a mounting ring member; 18. a frame structure; 19. a securing pin structure; 20. a first gasket; 21. a second gasket; 22. a bolt nut structure; 23. a beam structure; 24. a tie bar structure; 25. a spring structure; 26. mounting a fixed slotted hole; 27. a base mechanism; 28. a shock absorber member; 29. a platen assembly; 30. an auxiliary rod assembly; 31. a mounting frame member; 32. installing a tray structure; 33. a canning mechanism; 34. a fuel filler port structure; 35. an oil display member; 36. a piping member; 37. PLC control unit structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-5, an embodiment of the present invention is shown: a kind of fuel-efficient shape shakes the textile spindle, including shaking the textile spindle assembly 1 while shaking in fuel-efficient shape, shake textile spindle assembly 1 include shake base structure 2 and base component 3 while shaking in fuel-efficient shape;

further comprising:

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

the vibration damping component 5 is connected to the lower end of the connecting block structure 4 through a flange;

the connecting base structure 6 is connected to the lower end of the damping component 5 in an embedded mode;

the connecting seat 7 is connected to the base component 3 in an embedded mode, and the fixing structure 8 is connected to the connecting seat 7 in an embedded mode;

the spindle component 9 is inserted into the connecting seat 7, one end of the spindle component 9 is connected with a sealing ring component 10 in an inserting way, and a spindle rod structure 11 is inserted into the spindle component 9 and the sealing ring component 10 in a penetrating way;

a spindle blade base component 12, which is connected with one end of the spindle component 9 by a flange, and an oil-saving structure 13 is connected with one side of the spindle blade base component 12 by a flange.

Referring to fig. 2, the two ends of the base member 3 are respectively provided with a connecting and fixing member 14, the connecting and fixing member 14 is fixedly connected with the two ends of the base member 3, the connecting seat 7 is provided with a hole slot 15, the hole slot 15 and the connecting seat 7 are formed by milling and milling through a milling cutter, the connecting seat 7 is provided with a vibration absorbing rubber ring structure 16, the vibration absorbing rubber ring structure 16 is connected with the connecting 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 and the fixation are realized

The component 14 plays a role of connection and fixation, the hole groove 15 is beneficial to the insertion and fixation of the fixed structure 8, the vibration absorption rubber ring structure 16 plays a role of vibration absorption, and the installation ring component 17 is beneficial to installation.

Referring to fig. 3, the connecting 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 nested and penetratingly connected with the fixing bolt structure 19, a first gasket 20 is disposed above and below the second gasket 21, the first gasket 20 is nested and penetratingly connected with the fixing bolt structure 19, a bolt structure 22 is disposed at a tail end of the fixing bolt structure 19, the bolt structure 22 is nested and penetratingly connected with a tail 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 in reinforcing connection, and the bolt 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 tie bar structure 24 is disposed in the beam structure 23, the tie bar structure 24 is nested and penetratingly connected with the beam structure 23, a spring structure 25 is disposed on the tie bar structure 24, the spring structure 25 is nested and connected with the tie bar structure 24, the beam structure 23 plays a role of clamping, and the tie bar structure 24 is used for fixedly mounting the damping member 5 in cooperation with the spring structure 25.

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

Referring to fig. 4, a base mechanism 27 is disposed at the bottom inside the vibration damping member 5, the base mechanism 27 is fixedly connected to the bottom inside the vibration damping member 5, a vibration damper 28 is disposed at the upper end of the base mechanism 27, the vibration damper 28 is flange-connected to the upper end of the base mechanism 27, a pressing plate assembly 29 is disposed at the upper end of the vibration damper 28, an auxiliary rod assembly 30 is disposed inside the vibration damping member 5, the auxiliary rod assembly 30 is fixedly connected to the top and bottom inside the vibration damping member 5, the base mechanism 27 is used for mounting and connecting the vibration damper 28, the vibration damper 28 is used for absorbing vibration, the pressing plate assembly 29 is used in cooperation with the vibration damper 28, and the auxiliary rod assembly 30 facilitates the vibration damping of the pressing plate assembly 29.

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

Referring to fig. 5, a filling mechanism 33 is disposed at an upper end of the mounting tray structure 32, the filling mechanism 33 is fixedly connected with the upper end of the mounting tray structure 32, a filler opening structure 34 is disposed at one side of the filling mechanism 33, the filler opening structure 34 is flange-connected with one side of the filling mechanism 33, an oil display member 35 is disposed on the filling mechanism 33, the oil display member 35 is embedded and connected with the filling mechanism 33, the filling mechanism 33 is used for containing lubricating oil, the filler opening 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 filling mechanism 33.

Referring to fig. 5, a pipeline member 36 is disposed on the other side of the canning mechanism 33, the pipeline member 36 is flanged to the other side of the canning mechanism 33, a PLC control unit structure 37 is disposed on the pipeline member 36, the PLC control unit structure 37 is flanged to the pipeline member 36, the pipeline member 36 is an oil pipeline, and the PLC control unit structure 37 is used for controlling the amount of oil flowing through.

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

The method comprises the following steps: the connecting base structure 6 pulls the bolt strip structures 24 on two sides to enable the bolt strip structures 24 to contract inwards, then the vibration damping component 5 is placed on the connecting base structure, then the bolt strip structures 24 are loosened, the bolt strip structures 24 enable the bolt strip structures 24 to return under the action of the spring structures 25, meanwhile, one ends of the bolt strip structures 24 are inserted into the installation fixing slotted holes 26, and the connecting block structure 4 is connected with the vibration damping component 5 and the base component 3 in a flange connection mode, so that the vibration damping base structure 2 is assembled;

step two: then, in the prepared vibration damping base structure 2, the connecting seat 7 is embedded in an embedding manner, the vibration absorption rubber ring structure 16 is embedded in the connecting seat 7, meanwhile, a ring component 17 is embedded on the inner ring of the vibration absorption rubber ring structure 16, and finally, the fixing structure 8 is utilized for fixing;

step three: on the base component 3 which is embedded with the connecting seat 7, the spindle component 9 is embedded and inserted in the base component in an embedding and inserting connection mode, and then one end of the spindle component 9 is connected with the spindle blade base component 12 in a flange connection mode;

step four: a tray structure 32 is welded on one end of the mounting frame member 31, then the canning mechanism 33 is placed on the tray structure, a 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 mode, and one end of an installation 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 mode;

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

1. An oil-saving vibration-absorption textile spindle comprises an oil-saving vibration-absorption textile spindle component (1), wherein the oil-saving vibration-absorption textile spindle component (1) comprises a vibration-absorption base structure (2) and a base component (3);

the method is characterized in that: further comprising:

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

the vibration damping component (5) is connected to the lower end of the connecting block structure (4) in a flange mode;

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

the connecting seat (7) is connected to the base component (3) in an embedded mode, and a fixing structure (8) is connected to the connecting seat (7) in an embedded mode;

the spindle component (9) is inserted into the connecting seat (7), one end of the spindle component (9) is connected with a sealing ring component (10) in an inserting mode, and a spindle rod structure (11) is inserted into the spindle component (9) and the sealing ring component (10) in an inserting mode and penetrates through the spindle rod structure;

the spindle blade base component (12) is connected to one end of the spindle component (9) in a flange mode, and an oil saving structure (13) is connected to one side of the spindle blade base component (12) in a flange mode.

2. The oil-saving vibration-absorbing textile spindle according to claim 1, characterized in that: the utility model discloses a vibration damping device, including base component (3), connecting fixed component (14), and the both ends fixed connection of connecting fixed component (14) and base component (3), be provided with hole groove (15) on connecting seat (7), and hole groove (15) and connecting seat (7) are washed through milling cutter and are milled and form, be provided with in connecting seat (7) and inhale rubber circle structure (16), and inhale rubber circle structure (16) and inlay with connecting seat (7) and be connected, be provided with in the rubber circle structure of inhaling (16) and install circle component (17), and install circle component (17) and inhale rubber circle structure (16) and inlay and be connected.

3. The oil-saving vibration-absorption textile spindle according to claim 1, wherein: the connecting base structure (6) is provided with 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), the fixing bolt structure (19) is provided with a second gasket (21), the second gasket (21) is connected with the fixing bolt structure (19) in a nested penetrating mode, the upper portion and the lower portion of the second gasket (21) are both provided with a first gasket (20), the first gasket (20) is connected with the fixing bolt structure (19) in a nested penetrating mode, the tail end of the fixing bolt structure (19) is provided with a bolt nut structure (22), and the bolt nut structure (22) is connected with the fixing bolt structure (19) in a nested penetrating mode.

4. The oil-saving vibration-absorbing textile spindle according to claim 3, characterized in that: the bolt structure is characterized in that a beam structure (23) is arranged in the frame structure (18), the beam structure (23) is fixedly connected with the inner wall of the frame structure (18), a bolt strip structure (24) is arranged in the beam structure (23), the bolt strip structure (24) is in nested penetrating connection with the beam structure (23), a spring structure (25) is arranged on the bolt strip structure (24), and the spring structure (25) is in nested connection with the bolt strip structure (24).

5. The oil-saving vibration-absorbing textile spindle according to claim 1, characterized in that: and mounting and fixing slotted holes (26) are formed in the periphery of the outer wall of the vibration damping member (5), and the mounting and fixing slotted holes (26) and the periphery of the outer wall of the vibration damping member (5) are formed by punching and milling through a milling cutter.

6. The oil-saving vibration-absorption textile spindle according to claim 1, wherein: the vibration damping structure is characterized in that a base mechanism (27) is arranged at the bottom inside the vibration damping member (5), the base mechanism (27) is fixedly connected with the bottom inside the vibration damping member (5), a vibration damping member (28) is arranged at the upper end of the base mechanism (27), the vibration damping member (28) is connected with a flange at the upper end of the base mechanism (27), a pressing plate assembly (29) is arranged at the upper end of the vibration damping member (28), an auxiliary rod assembly (30) is arranged inside the vibration damping member (5), and the auxiliary rod assembly (30) is fixedly connected with the top and the bottom inside the vibration damping member (5).

7. The oil-saving vibration-absorption textile spindle according to claim 1, wherein: contain on fuel economizing structure (13) mounting bracket component (31), the one end of mounting bracket component (31) is provided with installation tray structure (32), and installs the one end fixed connection of tray structure (32) and mounting bracket component (31).

8. The oil-saving vibration-absorption textile spindle according to claim 7, wherein: 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 one side flange joint of oil filler structure (34) and canning mechanism (33), be provided with fluid display component (35) on canning mechanism (33), and fluid display component (35) inlays with canning mechanism (33) and is connected.

9. The oil-saving vibration-absorbing textile spindle according to claim 8, characterized in that: and a pipeline component (36) is arranged on the other side of the canning mechanism (33), the pipeline component (36) is in flange connection with the other side of the canning mechanism (33), a PLC control unit structure (37) is arranged on the pipeline component (36), and the PLC control unit structure (37) is in flange connection with the pipeline component (36).

10. The manufacturing method of the oil-saving vibration-absorption textile spindle according to any one of claims 1 to 9, characterized by comprising the following steps:

the method comprises the following steps: the connection base structure (6) utilizes pulling the bolt strip structures (24) on two sides to enable the bolt strip structures (24) to contract inwards, then the vibration reduction component (5) is placed on the connection base structure, then the bolt strip structures (24) are loosened, the bolt strip structures (24) enable the bolt strip structures (24) to return under the action of the spring structures (25), meanwhile, one ends of the bolt strip structures (24) are inserted into the installation fixing slotted holes (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, embedding a connecting seat (7) in the prepared vibration damping base structure (2) in an embedding manner, embedding a vibration absorption rubber ring structure (16) in the connecting seat (7), embedding an installation ring member (17) on an inner ring of the vibration absorption rubber ring structure (16), and finally fixing by using a fixing structure (8);

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

step four: a tray structure (32) is welded on one end of the mounting frame member (31), then the canning mechanism (33) is placed on the 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 oil saving structure (13) is formed;

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

step six: and (3) fixing the oil-saving vibration absorption textile spindle assembly (1) prepared in the first step to the fifth step on equipment through a fixing bolt structure (19), a first gasket (20), a second gasket (21) and a bolt nut structure (22) connected with the bottom of the base structure (6).