CN109366204A - A kind of heavy type numerical control lathe spindle relief arrangement - Google Patents

Abstract

The purpose of the present invention is to provide a kind of heavy type numerical control lathe spindle relief arrangements, eliminate the technical issues of belt pulley generates extra duty to main shaft for solving.A kind of heavy type numerical control lathe spindle relief arrangement, including spindle box, support sleeve, belt pulley, torque connect disk, main shaft and off-load component；Support sleeve links together with spindle box, and main shaft is spindle rotationally arranged in support sleeve and spindle box；Belt pulley is mounted on the outside of the support sleeve by off-load component matching；Torque connects one end that disk is connected to belt pulley, and main shaft is located at torque and connects in disk, and torque connects and links together on the inside of disk with main shaft.Summary of the invention is the utility model has the advantages that the power that belt is relayed to belt pulley is acted on support sleeve by bearing inner support set, bearing outer separator and two pieces deep groove ball bearing, two pieces deep groove ball bearing can bear biggish radial support power, belt is transmitted to the power on belt pulley and will mitigate significantly in this way, and the power for acting on support sleeve will very little.And support sleeve is fixed on spindle box, and has gap not contact between support sleeve and main shaft, masterpiece takes less than on main shaft, has the function that main shaft off-load.

Description

A kind of heavy type numerical control lathe spindle relief arrangement

Technical field

The present invention relates to main shaft unloading device technical field, specifically a kind of heavy type numerical control lathe spindle off-load dress It sets.

Background technique

In the various large and medium-sized disks such as space flight, ship, wind-powered electricity generation, water power, military project, mine, train, automobile, axle sleeve, class part In process, other than having turning accuracy requirement to disk, axis, the outer circle of cover parts, inner hole, these disks, axis, cover parts Generally require higher metal removal rate and without chatter mark processing request.In this way, it is necessary to the heavy type of a kind of big cutting force and efficiently Numerically-controlled machine tool.And big cutting force lathe then needs to select high-power, large torque spindle motor, or installs reduction gearbox again Increase torque；It is transferred on main shaft finally by belt and realizes to the biggish metal removal rate of part and wanted without chatter mark processing It asks.This lathe requires spindle box and main shaft to have biggish rigidity, and main shaft bearing will have biggish bearing capacity.

Common heavy numerical control horizontal type lathe generallys use spindle pulley and is directly mounted on main shaft, and this mode is usually right Machine tool mainshaft bearing even main shaft brings very big additional radial pressure, and long-time service can cause to damage to main shaft bearing even main shaft Wound is to substantially reduce the main shaft bearing even service life of main shaft.And the most crucial component of a machine tool is exactly main shaft portion, And main shaft bearing and main shaft are the most crucial auxiliary equipments of main shaft portion, the expensive and Production of bearing period is longer, reduces main shaft Service life with main shaft bearing is an important loss to entire machine tool.If replacing bearing in client's workshop, if There is no suitable tools, maintenance cost and maintenance cycle also can be very long, and important economic loss is caused to client.

Summary of the invention

The purpose of the present invention is to provide a kind of heavy type numerical control lathe spindle relief arrangements, eliminate belt pulley pair for solving Main shaft generates the technical issues of extra duty.

The technical scheme adopted by the invention to solve the technical problem is that:

A kind of heavy type numerical control lathe spindle relief arrangement, including spindle box, support sleeve, belt pulley, torque connect disk, main shaft with And off-load component；

Support sleeve links together with spindle box, and main shaft is spindle rotationally arranged in support sleeve and spindle box；Belt pulley is logical Off-load component matching is crossed to be mounted on the outside of the support sleeve；Torque connects one end that disk is connected to belt pulley, and main shaft connects positioned at torque In disk, torque connects and links together on the inside of disk with main shaft.

Further, the off-load component includes deep groove ball bearing, and deep groove ball bearing is mounted on the belt pulley and support Between set.

Further, bearing outer separator is installed between the deep groove ball bearing and belt pulley.

Further, bearing inner spacing collar is installed between the deep groove ball bearing and support sleeve.

Further, the outer end of the deep groove ball bearing is equipped with the shaft block ring that axial restraint is passed in and out to it.

Further, the torque connects and is linked together between disk and main shaft by driving key.

The effect provided in summary of the invention is only the effect of embodiment, rather than invents all whole effects, above-mentioned A technical solution in technical solution have the following advantages that or the utility model has the advantages that

The power that belt is relayed to belt pulley is acted on by bearing inner support set, bearing outer separator and two pieces deep groove ball bearing On support sleeve, two pieces deep groove ball bearing can bear biggish radial support power, and such belt is transmitted to the power on belt pulley will Mitigate significantly, the power for acting on support sleeve will very little.And support sleeve is fixed on spindle box, and is had between support sleeve and main shaft Gap does not contact, and masterpiece takes less than on main shaft, has the function that main shaft off-load.

Detailed description of the invention

Fig. 1 is the structural profile illustration of the embodiment of the present invention；

In figure: 1, spindle box 1；2, support sleeve；3, deep groove ball bearing；4, bearing inner spacing collar；5, bearing outer separator；6, axis is used Retaining ring；7, belt pulley；8, torque connects disk；9, driving key；10, main shaft 10.

Specific embodiment

In order to clearly illustrate the technical characterstic of this programme, below by specific embodiment, and its attached drawing is combined, to this Invention is described in detail.It should be noted that illustrated component is not drawn necessarily to scale in the accompanying drawings.Present invention omits right Known assemblies and technical description are to avoid being unnecessarily limiting the present invention.

As shown in Figure 1, a kind of heavy type numerical control lathe spindle relief arrangement, including spindle box 11, support sleeve 2, belt pulley 7, Torque connects disk 8, main shaft 10 and off-load component.The support sleeve 2 is fixed on one by seam allowance positioning, screw with spindle box 11 It rises, main shaft 10 is spindle rotationally arranged in support sleeve 2 and spindle box 11；The belt pulley 7 is mounted on by off-load component matching 2 outside of support sleeve.Torque connects one end that disk 8 is fixed by screws in belt pulley 7, and the outer end of main shaft 10 is located at torque and connects disk In 8, torque connects disk 8 and is linked together by driving key 9 with main shaft 10.

The off-load component includes bearing inner support set 2, bearing outer separator 5 and two pieces deep groove ball bearing 3, deep groove ball bearing 3 are mounted between the belt pulley 7 and support sleeve 2；The bearing is installed between the outside and belt pulley 7 of deep groove ball bearing 3 Outer separator 5 installs the bearing inner spacing collar 4 between the inside and support sleeve 2 of deep groove ball bearing 3；The outer end of deep groove ball bearing 3 Equipped with the shaft block ring 6 for passing in and out axial restraint to it.

The off-load principle of the present apparatus are as follows: the power that belt is relayed to belt pulley 7 passes through bearing inner spacing collar 4,5 and of bearing outer separator Two pieces deep groove ball bearing 3 acts on support sleeve 2；Since two pieces deep groove ball bearing 3 can bear biggish radial support power, in this way The power that belt is transmitted on belt pulley 7 will mitigate significantly, and the power for acting on support sleeve 2 will very little.And support sleeve 2 is fixed on On spindle box 11, and there is gap not contact between support sleeve 2 and main shaft 10, power just takes less than on main shaft 10, reaches to main shaft The effect of 10 off-loads.

When torque transmits, the torque that belt pulley 7 is transmitted through acts on torque and connects disk 8, and torque connects disk 8 again by driving key 9 It transfers torque on main shaft 10, to provide the power source of machine cut for main shaft 10.

Except for the technical features described in the specification, it all is technically known to those skilled in the art.

Above-mentioned, although the foregoing specific embodiments of the present invention is described with reference to the accompanying drawings, not protects model to the present invention The limitation enclosed, based on the technical solution of the present invention, those skilled in the art, which do not need to pay for creative labor, to be done Various modifications or changes out are still within the scope of the present invention.

Claims (6)

1. a kind of heavy type numerical control lathe spindle relief arrangement, characterized in that connect including spindle box, support sleeve, belt pulley, torque Disk, main shaft and off-load component；

Support sleeve links together with spindle box, and main shaft is spindle rotationally arranged in support sleeve and spindle box；Belt pulley is by unloading Lotus component matching is mounted on the outside of the support sleeve；Torque connects one end that disk is connected to belt pulley, and main shaft is located at torque and connects in disk, Torque connects and links together on the inside of disk with main shaft.

2. a kind of heavy type numerical control lathe spindle relief arrangement according to claim 1, characterized in that the off-load component packet Deep groove ball bearing is included, deep groove ball bearing is mounted between the belt pulley and support sleeve.

3. a kind of heavy type numerical control lathe spindle relief arrangement according to claim 2, characterized in that the deep groove ball bearing Bearing outer separator is installed between belt pulley.

4. a kind of heavy type numerical control lathe spindle relief arrangement according to claim 2, characterized in that the deep groove ball bearing Bearing inner spacing collar is installed between support sleeve.

5. a kind of heavy type numerical control lathe spindle relief arrangement according to claim 2, characterized in that the deep groove ball bearing Outer end be equipped with and pass in and out the shaft block ring of axial restraint to it.

6. a kind of heavy type numerical control lathe spindle relief arrangement according to claim 1, characterized in that the torque connect disk with It is linked together between main shaft by driving key.