CN201308996Y - Inverted numerically controlled lathe for precisely processing medium-large specification bearing ring - Google Patents

Abstract

The utility model discloses an inverted numerically controlled lathe for precisely processing a medium-large specification bearing ring, which comprises a lathe body and an upright column. A horizontal guide rail is arranged on one side of the lathe body, a fixed knife rest is mounted on the other side of the lathe body, the horizontal guide rail is provided with the upright column, a perpendicular guide rail is disposed on the upright column, the perpendicular guide rail is provided with a carriage, a main shaft, a main shaft motor and a transmission gear box are mounted on the carriage, clamps are arranged at the lower end of the main shaft, the carriage perpendicularly moves along the perpendicular guide rail driven by a Z shaft motor mounted on the upright column, the upright column horizontally moves along the lathe body horizontal guide rail driven by an X shaft motor arranged on the lathe body, and one side of the lathe body is provided with a workpiece automatic feeding and discharging and transmission device to form automatic connection of turning operation procedures of homogeneous lathes. The utility model, which is adaptable to precise lathe turning of a medium-large specification bearing ring with a diameter ranging from 100 mm to 400 mm, has the advantages of good clamping precision, high automatic degree and low energy consumption. The practice illustrates that the processing precision completely meets requirements.

Description

A kind of inverted digital control lathe that is used for Precision Machining, large-specification bearing ring

Technical field:

The utility model relates to the Digit Control Machine Tool field, particularly relate to a kind ofly be exclusively used in the Precision Machining, the inverted digital control lathe of large-specification bearing ring.

Background technology:

Along with the continuous development of equipment manufacturing technology, all trades and professions are increasing to the demand of bearing, and its specification requirement is also more and more higher, and this makes that the specialized trend of general bearing is more and more obvious.For bearing products with high content of technology, as at required large-scale, accurate, the complex structure of automobile industry, machine industry, railway systems, Petro-Chemical Machinery, textile machinery and metallurgy industry and possess the bearing of function combination, have at present a lot of domestic still can not be self-supporting and need a large amount of imports.

Under this background, the applicant and Changshu Institute of Technology are through storming strongholds in defiance of difficulties, developed and be used for bearing ring Vehicle Processing dedicated numerical control horizontal lathe and drop into manufacturing in batches, researched and developed the following bearing ring CNC of 100mm Vehicle Processing technology simultaneously, obtain the technical approval of international well-known bearing such as SKF, TIMKEN manufacturing enterprise, formed the mass production capabilities of the following bearing ring CNC of 100mm precision turning.

Yet in diameter 100-400mm, during the large-specification bearing ring precision turning, because the restriction of clamping precision and machine tool rotary radius, the horizontal digital-control lathe has been difficult to competent.Particularly the horizontal digital-control lathe is in the process of the above high-strength metal material of processing Φ 200mm, because the workpiece vertical direction is installed, the weight of workpiece has tangible influence to clamping precision, and its chip removal abrades surface of the work easily, add and realize the automatic loading/unloading more complicated, therefore consider to adopt inverted digital control lathe to process.The manufacturer of inverted digital control lathe is less, the corresponding types such as CDHA512 that typically have a Japanese Mazak IVS200 and a northern machine, Shenyang lathe to be produced.Because such lathe is from technical indicator, the High-speed machining that is used for disk-like accessory (as the automobile brake disc and the wheel hub of aluminum alloy materials) more, therefore be not suitable for the low-speed big requirement of the big-diameter bearing lasso precision turning that forges by high-strength metal material, and existing unfavorable reflection in the application in the similar at home enterprise, thus such type can't satisfy in, the demand of large-specification bearing ring production.

The utility model content:

At above-mentioned defective, the utility model provide a kind of high accuracy, high efficiency be exclusively used in processing diameter 100-400mm in, the inverted digital control lathe of large-specification bearing ring.

Inverted digital control lathe described in the utility model, comprise lathe bed, the seat surface of described lathe bed one side is provided with horizontal guide rail, be provided with immovable support at the seat surface opposite side parallel with this guide rail, column is installed on the horizontal guide rail, column is driven along horizontal guide rail by ball screw framework by the X-axis motor on the lathe bed and makes level to moving, towards the side of knife rest vertical guide rail is set at column, on this guide rail, planker is installed, main shaft and spindle motor thereof and speed-changing gear box are housed on the planker, planker drives along vertical guide rail and does vertically to form the Z axle and move to moving by being installed in Z spindle motor on the column, and the anchor clamps that are used for holding workpiece are installed in the lower end of main shaft.

Preferably, below above-mentioned horizontal guide rail, be provided with passage, be provided with the workpiece transport platform in this passage.Transport platform be fixed structure by chain drive, discharge pedestal moves reciprocatingly.When lasso placed on the transport platform, motor rotation made charging ram that part is pushed core-regulating mechanism by chain, simultaneously discharge pedestal is pulled out, and reached and sent the material purpose.Core-regulating mechanism is provided with spring buffer by the leading motion of linear bearing in vertical direction, adopts pneumatic V-block aligning.When part is delivered to the aligning table top by conveying mechanism, by pneumatic element the both sides V-block is moved simultaneously to the center, clamp part, treat to send out after handgrip is firmly grasped part, finish the aligning action.

Preferably, anchor clamps comprise floating clamp and chuck, and floating clamp is installed on the main shaft, and chuck is installed on the floating clamp.Can make this bearing ring can realize easily being grasped and the accurately action of location like this by loading and unloading.

Be that example has been carried out examination processing with certain medium size bearing lasso on the lathe of the present utility model, this lasso external diameter φ 366.51, the cylindrical raceway is the biserial roller structure, it is 38.1 helicla flute that inner ring has helical pitch, add labyrinth and higher size and accuracy of form and position requirements such as a plurality of inclined-planes, oil groove, make its manufacturing possess suitable difficulty.Result behind employing the utility model shows lathe when rough turn this lasso plane, cylindrical and inclined-plane, all can be with the cutting depth of n=160-180r/min rotating speed, 2mm, the feed speed stable operation of 0.2mm/r, and turning moment allowance is bigger.When finish turning,, can guarantee that surface roughness meets specification requirement with the cutting depth of n=180-200r/min rotating speed, 0.5mm, the feed speed operation of 0.2mm/r.Especially, when the big helical pitch helicla flute (=38.1) of turning endoporus, can be with the cutting depth of n=100r/min, 0.15mm, the feed speed once-forming of 38.1mm/r, and quality condition is very stable.In addition, the utility model can be realized the loading and unloading of workpiece by moving of main shaft, effectively reduces working strength of workers, and workpiece work flow and workpiece loading and unloading can be finished by a machine, and can freely organize the lathe line with the production technology of product, realize factory automation production.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment.

The specific embodiment

Fig. 1 is the structural representation of the utility model specific embodiment, below in conjunction with Fig. 1 the utility model embodiment is introduced.

As shown in Figure 1, this inverted digital control lathe, comprise lathe bed 1, side level at lathe bed 1 seat surface is provided with horizontal guide rail 2, be provided with immovable support 3 at the seat surface opposite side parallel with horizontal guide rail 2, column 4 is installed on the horizontal guide rail 2, column 4 is driven along horizontal guide rail 2 by ball screw framework by the X-axis motor on the lathe bed and makes level to moving, on the side of knife rest 3, vertical guide rail 6 is set vertically at column 4, planker 5 is installed on the vertical guide rail 6, main shaft and spindle motor thereof and speed-changing gear box 7 are housed on the planker 5, planker 5 drives along vertical guide rail and does vertically to moving the anchor clamps 8 that are used for holding workpiece to be installed in the lower end of main shaft by being installed in Z spindle motor on the column 4, and anchor clamps 8 comprise float jaw and chuck, chuck is installed on the main shaft, and unsteady jaw is installed on the chuck.The below of horizontal guide rail 2 is provided with passage 9, is provided with workpiece transport platform 10 in this passage 9.

Machine tool main body part mainly is made up of lathe bed 1 and 4 liang of macrostructure spares of column, the structure configuration mode that adopt that knife rest 3 is fixed, main shaft and column moves.The X-axis motion of lathe is moved horizontally along horizontal guide rail by ball screw framework drive column by the X-axis motor that is installed on the lathe bed, and be installed in main shaft on the column and planker, speed-changing gear box is driven by the Z spindle motor, moving up and down along horizontal guide rail forms the Z axle and moves.The operation of considering many lathes of lathe is from being dynamically connected and then forming the requirement of numerical control turning automatic assembly line, design the transfer position of an automatic loading/unloading on the right side of lathe bed, by the cooperation that conveying mechanism and main shaft move in the X-axis direction along Z-direction, column, realize the automatic carrying and the clamping of part to be processed.Like this, lathe just can be finished automated exchanged cutter, conveying automatically and realize that on many identical lathes inter process is dynamically connected certainly by the time beat of setting, and then forms bearing ring numerical control turning automatic assembly line.Many inverted digital control lathe automatic loading/unloadings of above-mentioned consideration also realize that inter process belongs to initiative in the design in the similar at home lathe of general structure that is dynamically connected.

The utility model is provided by the course of work of the inverted digital control lathe provide: workpiece blank is placed on the transport platform 10---conveying device moves to assigned address---turning attachment 8 moves to the conveying device top---anchor clamps 8 move down clamping workpiece---workpiece moves to machining area---workpiece is carried out turning---main axle moving is above conveying device---main shaft moves down, workpiece is placed on the conveying device---anchor clamps 8 are moved upwards up to assigned address, conveying device moves to assigned address---and anchor clamps 8 unload the workpiece that processes, thereby have realized the automation continuous productive process.

Claims (3)

1, a kind of Precision Machining that is used for, the inverted digital control lathe of large-specification bearing ring, comprise lathe bed (1), it is characterized in that, one side of described lathe bed (1) seat surface is provided with horizontal guide rail (2), be provided with immovable support (3) at the seat surface opposite side parallel with this guide rail (2), column (4) is installed on the horizontal guide rail (2), column (4) is driven along horizontal guide rail (2) by ball screw framework by the X-axis motor on the lathe bed and makes level to moving, on the side of knife rest (3), vertical guide rail (6) is set at column (4), planker (5) is installed on the vertical guide rail (6), main shaft and spindle motor thereof and speed-changing gear box (7) are housed on the planker (5), planker (5) drives along vertical guide rail and does vertically to moving the anchor clamps (8) that are used for holding workpiece to be installed in the lower end of main shaft by being installed in Z spindle motor on the column (4).

2, the inverted digital control lathe that is used for Precision Machining, large-specification bearing ring according to claim 1 is characterized in that, the below of above-mentioned horizontal guide rail (2) is provided with passage (9), is provided with workpiece transport platform (10) in this passage (9).

3, the inverted digital control lathe that is used for Precision Machining, large-specification bearing ring according to claim 1 and 2 is characterized in that, described anchor clamps (8) comprise float jaw and chuck, and chuck is installed on the main shaft, and unsteady jaw is installed on the chuck.

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