CN212285885U - Machine tool spindle with internal feedback inclinable tile constant pressure pre-tightening function - Google Patents

Abstract

The utility model relates to a lathe main shaft of interior feedback tilting pad level pressure pretension, including front end housing, front bearing, the main shaft sleeve, the main shaft, rear bearing and rear end cap, still be equipped with preload loading mechanism in the main shaft sleeve, sliding sleeve and off-load piston, the sliding sleeve cover is outside the rear bearing and the axial supports the rear bearing, the off-load piston is pressed on the terminal surface of sliding sleeve, axial elasticity is applyed to the sliding sleeve to preload loading mechanism, form internal tension from this between the front and rear bearing, this internal tension is the level pressure preload promptly, make the glide plane laminating of front and rear bearing on the main shaft journal face, obtain ideal working property. High-pressure oil is injected instantaneously before the main shaft starts to work, the unloading piston and the sliding sleeve are pushed to overcome the elastic force to move, so that the sliding surfaces of the front bearing and the rear bearing are separated from the main shaft to achieve the unloading effect, the high-pressure oil is stopped being injected after the main shaft reaches the normal working rotating speed, the main shaft recovers the constant-pressure pre-tightening state to work, the contact friction generated instantaneously when the main shaft starts is avoided, and the service life is prolonged.

Description

Machine tool spindle with internal feedback inclinable tile constant pressure pre-tightening function

Technical Field

The utility model relates to a lathe main shaft technical field, concretely relates to lathe main shaft of constant pressure pretension of inner feedback tilting pad.

Background

The working performance of the machine tool spindle depends on the structure and performance of the spindle bearing to a great extent, and the dynamic pressure sliding bearing has compact structure, excellent performance, low manufacturing process relative requirement, simple lubricating system and low use and maintenance cost, and has more applications than the static pressure dynamic and static pressure sliding bearing in the application field of the rotary spindle.

The dynamic pressure bearing formed by sliding the shaft diameter of the main shaft on the surface of the sliding bearing is carried by forming a pressure oil film by the relative movement between the two surfaces. The dynamic pressure sliding bearing comprises a multi-wedge fixed pad bearing and a tilting pad bearing according to the design principle of an oil wedge, and the tilting pad dynamic pressure bearing is a common structural form with better performance.

The dynamic pressure bearing and the main shaft are in non-contact friction in a working state, the working clearance of the bearing is one of the most important operation parameters, generally, under the condition that the structure of the main shaft is simpler, the bearing is more in a fixed clearance configuration mode, namely, once the main shaft system is assembled and debugged, the working clearance of the bearing is fixed, but the bearing has the defect that the size of the initial clearance of the bearing cannot be adjusted at any time along with the change of working requirements, and the optimal bearing performance is obtained according to the working operation requirements of the main shaft. For example, the using state of the machine tool spindle is generally determined to be a low-speed heavy-load type and a high-speed light-load type, and all working conditions are not required to be considered, so that the gap pre-tightening control structure is designed according to the requirement, is simple and practical, can meet the performance requirements of stable bearing and good damping characteristic of the machine tool spindle, and can reduce the friction power consumption of a bearing, reduce the temperature rise and inhibit the vibration.

The dynamic pressure bearing has a practical defect in all applications, namely the main shaft is in contact friction with the bearing at the very short moment when the machine is started and stopped, the bearing is likely to be abraded after the main shaft is repeatedly started and stopped for a long time, the service life of the dynamic pressure bearing is reduced, and the actual conventional solution is to limit the starting and stopping frequency of the machine tool main shaft so as to reduce the abrasion times, but the working efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

There is above-mentioned technical problem to prior art, the utility model provides a lathe main shaft of internal feedback tilting pad level pressure pretension can gain best working property according to main shaft work needs and automatically regulated bearing work clearance, can also avoid the bearing to take place contact friction, extension working life in the twinkling of an eye starting.

In order to achieve the purpose, the utility model provides the following technical scheme.

The front end cover and the rear end cover are fixed at two ends of the main shaft sleeve, the front bearing and the rear bearing are both internal feedback fluid bearing tilting pad dynamic pressure centripetal thrust tapered bearings which support the main shaft together, and thus the machine tool main shaft with a front and rear double-support structure for the main shaft is formed; the contact surfaces of the front bearing and the rear bearing and the shaft diameter of the main shaft are sliding surfaces, the sliding surfaces are conical surfaces, and the sliding surfaces are correspondingly arranged with the conical shaft diameter surface of the main shaft;

the main shaft sleeve is internally provided with a pre-tightening loading mechanism, a sliding sleeve and an unloading piston, the sliding sleeve is sleeved outside the rear bearing and axially abuts against the rear bearing, the unloading piston is pressed on the end face of the sliding sleeve, and the pre-tightening loading mechanism applies axial elasticity to the sliding sleeve, so that internal tension serving as constant-pressure pre-tightening load is formed between the front bearing and the rear bearing, and sliding surfaces of the front bearing and the rear bearing are attached to the surface of the shaft diameter of the main shaft, and ideal working performance is obtained; the main shaft sleeve is provided with input and unloading high-pressure oil P₂The channel is used for instantly injecting unloading high-pressure oil P before the main shaft starts to work₂Unloading high pressure oil P₂Pushing the unloading piston and the sliding sleeve to move against the elastic force, so that the sliding surfaces of the front bearing and the rear bearing are separated from the contact main shaft, and unloading is realized; stopping injecting unloading high-pressure oil P after the main shaft reaches the normal working speed₂So that the main shaft restores the constant-pressure pre-tightening work.

The pre-tightening loading mechanism comprises an inner nut, an outer nut, a spring and a loading ring, the inner nut is fixed in the main shaft sleeve, the outer nut is in threaded connection with the inner nut, one end of the spring props against the outer nut, the other end of the spring props against the loading ring, and the loading ring props against the sliding sleeve; the position of the outer nut relative to the inner nut is operated by external force to adjust the elastic force of the spring, and the elastic force forms internal tension to be applied to the front bearing and the rear bearing through the loading ring and the sliding sleeve.

The periphery of the outer nut is provided with a groove, the spindle sleeve is provided with a window capable of being opened, the groove is clamped by a tool after the window is opened through external force operation so as to stir and rotate the outer nut, the degree of compression of the spring is adjusted, the size of elasticity is adjusted, and the inner nut and the outer nut are locked after adjustment is completed.

Wherein the spindle sleeve is provided with a lubricating fluid P₁The input and output hole systems ensure smooth lubrication fluid needed by the front bearing and the rear bearing.

Preferably, the lubricating fluid P₁Is lubricating oil, water lubricating liquid, gas or oil-gas two-phase lubricating liquid.

Wherein, the front end cover and the rear end cover fixed on the two end parts of the main shaft sleeve form a sealing structure with the main shaft to prevent the lubricating fluid P₁Spillage and prevention of ingress of external contaminating fluids.

Wherein the front bearing and the rear bearing each comprise a bearing outer ring and pads mounted on the inner surface of the bearing outer ring, the bearings being lubricated by a lubricating fluid P₁The resulting internal feedback fluid bearing force enables global surface contact between the pad back bearing surface of the pad and the inner surface of the bearing outer ring.

Wherein, the utility model is suitable for an accurate lathe main shaft and other main shaft systems of utmost point wide region variable speed variable load.

The utility model has the advantages that:

the utility model discloses a lathe main shaft of constant pressure pretension of inner feedback tilting pad has set up preload loading mechanism, preload loading mechanism exerts elasticity to the sliding sleeve to make the glide plane of front and back bearing keep laminating mutually with the main shaft, form predetermined packing force and make the glide plane of front bearing and back bearing compress tightly on the main shaft journal face, automatically regulated bearing working gap obtains the ideal working property of main shaft; unloading high-pressure oil is injected instantaneously before the main shaft starts to work, the unloading high-pressure oil pushes the unloading piston and the sliding sleeve to overcome prepressing elasticity, and sliding surfaces of the front and rear supports are separated from contact with the main shaft, so that contact friction can be avoided instantaneously when the main shaft starts, an unloading effect is achieved, and the service life is prolonged.

Drawings

Fig. 1 is a schematic structural diagram of a machine tool spindle with constant-pressure pretension of an internal-feedback tilting pad in an embodiment.

Fig. 2 is a perspective view of a front bearing and a rear bearing employed in the embodiment.

The reference numerals include:

the front end cover 1, the front bearing 2, the main shaft sleeve 3 and the main shaft 4;

the pre-tightening loading mechanism 5, the inner nut 51, the outer nut 52, the spring 53 and the loading ring 54;

rear bearing assembly 6, rear bearing 61, sliding sleeve 62, mount 63;

an unloading piston 7;

a main shaft rear end cover structure 8, a rear end cover 81 and a pressing inner nut 82;

the bearing comprises a bearing outer ring 21, a pad 22, an oil collecting groove 23, a deformation groove 24, a mounting component 25 and an oil hole 26;

lubricating fluid P₁Unloading high-pressure oil P₂。

Detailed Description

The invention will be described in detail with reference to the following embodiments.

The machine tool spindle of the embodiment, as shown in fig. 1, includes a front end cover 1, a front bearing 2, a spindle sleeve 3, a spindle 4, a rear bearing 61 and a rear end cover 81, where the front end cover 1, the spindle sleeve 3 and the rear end cover 81 form a sealed space in combination with the spindle 4, the front end cover 1 and the rear end cover 81 perform a sealing and oil-separating function, and the front bearing 2 is limited by the front end cover 1 and the spindle sleeve 3 at a position to bear a main load. The rear end cover 81 is installed by pressing the inner nut 82, the rear end cover 81 and the pressing inner nut 82 form a main shaft rear end cover jointAnd (8) forming. The spindle sleeve 3 is provided with a lubricating fluid feed P as indicated by the solid arrow₁Oil inlet hole and output lubricating fluid P₁The main shaft sleeve 3 is also internally provided with a channel communicated with the oil inlet and the oil outlet and used for lubricating fluid P with low pressure₁The lubricating fluid P is delivered to the front bearing 2 and the rear bearing 61₁Is lubricating oil, water lubricating liquid, gas or oil-gas two-phase lubricating liquid. The front bearing 2 and the rear bearing 61 jointly support the main shaft 4 to form a front-rear double-support simple structure. The front bearing 2 and the rear bearing 61 are both internal feedback fluid bearing tilting pad dynamic pressure radial thrust bearings, the surface of the front bearing 2 contacting with the shaft diameter of the main shaft 4 is a sliding surface, the sliding surface is a conical surface, the sliding surface is respectively installed corresponding to the conical shaft diameter surface of the main shaft 4 and bears the radial load at two ends of the main shaft 4 and the axial opposite direction load, and the front bearing 2 and the rear bearing 61 are arranged in the main shaft sleeve 3 in the direction that the large ends of the bearings face outwards.

The spindle sleeve 3 is also internally provided with a pre-tightening loading mechanism 5, a sliding sleeve 62 and an unloading piston 7, the sliding sleeve 62 is sleeved outside the rear bearing 61 and is axially abutted against the rear bearing 61, the sliding sleeve 62 can move in a creeping manner in a bearing hole of the spindle sleeve 3, and the unloading piston 7 is pressed on the end surface of the sliding sleeve 62. Wherein the rear bearing 61 is matched with the main shaft 4 through the mounting seat 63, and the rear bearing 61, the sliding sleeve 62 and the mounting seat 63 form the rear bearing assembly 6. The pre-tightening loading mechanism 5 comprises an inner nut 51, an outer nut 52, a spring 53 and a loading ring 54, wherein the inner nut 51 is fixed in the main shaft sleeve 3, the outer nut 52 is in threaded connection with the inner nut 51, one end of the spring 53 is abutted against the head of the outer nut 52, the other end of the spring 53 is abutted against the loading ring 54, the loading ring 54 is abutted against the sliding sleeve 62, the elastic force of the spring 53 is applied to the rear bearing 61 through the loading ring 54 and the sliding sleeve 62, the elastic force forms an internal tension pre-loading force between the front bearing 2 and the rear bearing 61, and the pre-loading force enables the sliding surfaces of the front bearing 2 and the rear bearing 61 to be pressed on the journal surface of the main. In this embodiment, the outer periphery of the outer nut 52 is provided with a groove, the spindle sleeve 3 is provided with a window capable of being opened, the window is sealed in a normal state, when the elasticity of the spring 53 needs to be adjusted, the outer nut 52 is clamped by a tool after the window is opened by external force operation to adjust the degree of compression of the spring 53 by poking and rotating the outer nut 52, so that the adjustment of the elasticity is realized, and the principle of the adjustment of the elasticity is that the pre-tightening load is larger for a machine tool spindle required by low-speed heavy-load type work, and the pre-tightening load is smaller for a machine tool spindle required by high-speed light-load type work.

The main shaft sleeve 3 is provided with a high-pressure oil P for inputting and unloading₂The channel is used for instantly injecting unloading high-pressure oil P before the main shaft 4 is started to work₂Unloading high pressure oil P₂The unloading piston 7 and the sliding sleeve 62 are pushed to overcome the elastic force to move, the sliding sleeve 62 does not axially abut against the rear bearing 61 any more, the sliding surfaces of the front bearing 2 and the rear bearing 61 are separated from the main shaft 4, the unloading effect is achieved, and the injection of unloading high-pressure oil P is stopped after the main shaft 4 reaches the normal working speed₂. The utility model is suitable for an accurate lathe main shaft and other main shaft systems of utmost point wide region variable speed variable load.

Referring to fig. 2, the structure of the inner feedback fluid bearing tilting pad dynamic pressure radial thrust bearing is exemplified by a front bearing 2, and the structure includes a bearing outer ring 21, a plurality of pads 22 and a plurality of sets of mounting assemblies 25, the plurality of sets of mounting assemblies 25 are fixed to the bearing outer ring 21, the plurality of pads 22 are mounted on the annular inner surface of the bearing outer ring 21 in a limiting manner, two oil collecting grooves 23 are provided on the sliding surface of each pad 22, and the oil collecting grooves 23 can collect partial pressure lubrication fluid P on the sliding surface₁Then the oil is fed back and guided into the oil cavity formed by the depression on the back surface of the pad 22 through the oil hole 26, and radial bearing force is formed on the pad 23. The middle part of the tile 22 is provided with a deformation structure, which divides the tile 22 into two blocks. The mounting assembly 25 applies a radially resilient compressive force to the pad 22. When the bearing works, under the action of the bearing force of the oil cavity on the back of the pad block 22, the radial elastic pressing force and the load force of the main shaft 4 are overcome by the corresponding local block of the pad block 22, the deformation structure is used as a pivot point to tilt, the bearing bush can tilt to form a convergence gap, the convergence gap enables the bearing to obtain a good lubricating and bearing effect, the generated internal feedback lubricating flow can additionally increase the working flow of the bearing, and great benefits are provided for the heat dissipation and cooling of the bearing. The back of the tile 22 is provided with a deformation groove 24 longitudinally penetrating along the axial direction, the longitudinal section of the deformation groove 24 is T-shaped, and the width of the bottom of the deformation groove 24 is wider, so that the sliding surface of the tile 22 is between the bottom of the deformation groove 24 and the sliding surfaceForming a thin wall which becomes the deformed structure of the tile. The back of the pad 22 and the inner surface of the bearing outer ring 21 are tightly attached spherical surfaces in a non-use state, so that the pad 22 can be limited in the axial direction, the back of the pad 22 and the inner surface of the bearing outer ring 21 realize full-surface contact supporting, the supporting stability is facilitated, the pad 22 is arranged in the spherical surface of the bearing outer ring 21 to form a supporting spherical surface, and the spherical center is overlapped with the axis of the main shaft 4. Similarly, the pad of the rear bearing 61 is arranged in the spherical surface of the bearing outer ring to form another supporting spherical surface, and the main shaft 4 has good self-aligning performance under the supporting condition of the front spherical surface and the rear spherical surface.

In this embodiment, the bearing surface of the bearing outer ring 21 for the pad 22 is a full contact spherical surface, and the machine tool spindle 4 is configured by controlling the working gap by using the structure of the fixed part. Compared with the conventional tilting pad dynamic pressure sliding bearing machine tool spindle, the tilting pad dynamic pressure sliding bearing machine tool spindle does not change a bearing lubricating system, does not increase the running cost condition, has a simple bearing supporting structure, has an aligning function, is fixed in the initial clearance of the bearing, is stable in bearing and good in damping characteristic, and achieves the purposes of reducing the friction power consumption of the bearing, reducing the temperature rise and inhibiting the vibration. The utility model discloses a lathe main shaft is applicable to the precision machine tool main shaft and other main shaft systems of utmost point wide region variable speed variable load.

It should be noted that, since the pad backs of the conventional tilting pad bearings are all small-sized spherical point bearings, the integral connectivity between the pad blocks and the bearing outer ring is not good, and the effect of the mechanism for implementing preload is not easy to be stable, the preload loading mechanism 5 provided for the internal feedback fluid bearing tilting pad dynamic pressure radial thrust bearing of the present embodiment can really exert the expected effect only by creative work.

It should be finally noted that the above embodiments are only used to illustrate the technical solutions of the present invention, but not to limit the scope of the present invention, and although the present invention has been described in detail with reference to the preferred embodiments, those skilled in the art should understand that the technical solutions of the present invention can be modified or replaced with equivalents without departing from the spirit and scope of the technical solutions of the present invention.

Claims (7)

1. A kind of lathe spindle that the inner feedback tilting pad is fixed pressure and preloaded, including front end cap, front bearing, spindle sleeve, main axis, back bearing and rear end cap, front end cap and back end cap are fixed to both ends of the spindle sleeve, front bearing and back bearing are inner feedback fluid to support the tilting pad dynamic pressure radial thrust taper bearing, both support the main axis together, thus form the lathe spindle to the front and back double-support structure of the main axis; the face that front bearing and rear bearing and main shaft diameter contacted is the glide plane, and the glide plane is the circular conical surface, and its corresponds the installation with the circular conical shaft diameter surface of main shaft, and its characteristic still includes:

the main shaft sleeve is internally provided with a pre-tightening loading mechanism, a sliding sleeve and an unloading piston, the sliding sleeve is sleeved outside the rear bearing and axially abuts against the rear bearing, the unloading piston is pressed on the end face of the sliding sleeve, and the pre-tightening loading mechanism applies axial elasticity to the sliding sleeve, so that internal tension serving as constant-pressure pre-tightening load is formed between the front bearing and the rear bearing, and the sliding surfaces of the front bearing and the rear bearing are attached to the surface of the shaft diameter of the main shaft; the main shaft sleeve is provided with input and unloading high-pressure oil (P)₂) The channel is used for instantly injecting unloading high-pressure oil (P) before the main shaft starts to work₂) Unloading high pressure oil (P)₂) Pushing the unloading piston and the sliding sleeve to move against the elastic force, so that the sliding surfaces of the front bearing and the rear bearing are separated from the contact main shaft, and unloading is realized; stopping injecting unloading high-pressure oil (P) after the main shaft reaches normal working speed₂) So that the main shaft restores the constant-pressure pre-tightening work.

2. The spindle of the machine tool for constant-pressure pretension of the internal-feedback tilting pad as claimed in claim 1, which is characterized in that: the pre-tightening loading mechanism comprises an inner nut, an outer nut, a spring and a loading ring, the inner nut is fixed in the main shaft sleeve, the outer nut is in threaded connection with the inner nut, one end of the spring props against the outer nut, the other end of the spring props against the loading ring, and the loading ring props against the sliding sleeve; the position of the outer nut relative to the inner nut is operated by external force to adjust the elastic force of the spring, and the elastic force forms internal tension to be applied to the front bearing and the rear bearing through the loading ring and the sliding sleeve.

3. The spindle of the machine tool with constant-pressure pre-tightening of the internal-feedback tilting pad as claimed in claim 2, is characterized in that: the periphery of the outer nut is provided with a groove, the main shaft sleeve is provided with a window capable of being opened, the groove is clamped by a tool after the window is opened through external force operation so as to stir and rotate the outer nut, the degree of compression of the spring is adjusted, the size of the elastic force is adjusted, and the inner nut and the outer nut are locked after adjustment is completed.

4. The spindle of the machine tool for constant-pressure pretension of the internal-feedback tilting pad as claimed in claim 1, which is characterized in that: the main shaft sleeve is provided with a lubricating fluid (P)₁) The input and output hole systems ensure smooth lubrication fluid needed by the front bearing and the rear bearing.

5. The spindle of the machine tool with constant-pressure pre-tightening of the internal-feedback tilting pad as claimed in claim 4, wherein: the lubricating fluid (P)₁) Is lubricating oil, water lubricating liquid, gas or oil-gas two-phase lubricating liquid.

6. The spindle of the machine tool with constant-pressure pre-tightening of the internal-feedback tilting pad as claimed in claim 5, is characterized in that: the front end cover and the rear end cover fixed at the two ends of the main shaft sleeve form a sealing structure with the main shaft to prevent lubricating fluid (P)₁) Spillage and prevention of ingress of external contaminating fluids.

7. The spindle of the machine tool with constant-pressure pre-tightening of the internal-feedback tilting pad as claimed in claim 5, is characterized in that: the front and rear bearings each comprise an outer bearing ring and pads mounted on the inner surface of the outer bearing ring, the bearings being assisted by a lubricating fluid (P)₁) The resulting internal feedback fluid bearing force enables global surface contact between the pad back bearing surface of the pad and the inner surface of the bearing outer ring.

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