CN201543858U - Bearing cover semicircle orifice double-spindle numerical control boring machine - Google Patents

Abstract

The utility model discloses a bearing cover semicircle orifice double-spindle numerical control boring machine, which comprises a frame. The frame is provided with an upright post. The upright post is provided with a numerical control sliding table which can slide up and down; the numerical control sliding table is fixed with two boring heads, wherein the boring heads are arrayed in parallel; and the center lines of the boring heads are the same with the sliding direction of the numerical control sliding table. The boring heads are fixed with boring cutters by boring rods. A numerical control worktable is fixed with a clamp which can clamp the workpieces. The boring heads are driven by a driving device to rotate. The boring cutters on the boring heads carry out boring processing on the workpieces on the clamp. The utility model adopts a double-station workpiece installation mode, the two boring heads can simultaneously carry out boring processing on the two workpieces on the clamp and the clamp adopts a hydraulic clamping mode, thus, the utility model can realize rapid positioning clamping on the workpieces, can meet the boring processing requirements of the bearing cover semicircle orifice, is beneficial for guaranteeing the processing precision and improves the production efficiency.

Description

Bearing cap semicircle orifice twin shaft numerical control bore hole lathe

Technical field

The utility model relates to the machining tool technical field, especially a kind of bearing cap semicircle orifice twin shaft numerical control bore hole lathe.

Background technology

It is semicircle that bearing cap commonly used is generally, cover on bearing block the back cooperates with bearing block be used for fastening with protect bearing.For the processing of bearing cap semicircle orifice, as adopt conventional boring machine tooling, because its endoporus is a semi-circular hole, clamping processing is difficulty comparatively all, and universal machine tools can only carry out single-piece work, and production efficiency is low, the machining accuracy instability.

The utility model content

The technical problems to be solved in the utility model is: overcome the deficiency in the prior art, provide a kind of processing easy to use, the bearing cap semicircle orifice twin shaft numerical control bore hole lathe that production efficiency is high.

The technical scheme that its technical problem that solves the utility model adopts is: a kind of bearing cap semicircle orifice twin shaft numerical control bore hole lathe, comprise support, support is provided with column and can clamps the anchor clamps of two workpiece, column is provided with the nc sliding table that can slide up and down, being fixed with two on the nc sliding table is arranged in parallel and boring head that center line is identical with the nc sliding table glide direction, with be fixed with boring cutter on the boring bar that boring head is connected, boring head is by the drive unit driven rotary, and the boring cutter on the boring head carries out boring processing simultaneously to two workpiece on the anchor clamps.

Specifically, described drive unit comprises drive motors, drive motors is fixed on the nc sliding table, be fixed with initiatively profile of tooth belt wheel on the output shaft of drive motors, initiatively the profile of tooth belt wheel is in transmission connection by cog belt and the driven toothed belt wheel that is located on the boring head, rotates thereby drive the boring bar that is contained on the boring head.

For raising the efficiency, clamping work pieces fast, anchor clamps adopt the form of hydraulic clamp, and described anchor clamps are the double hydraulic clamping fixture, can clamp two workpiece simultaneously.

Accurate positioning during for the assurance boring, deviation does not take place in boring cutter, and described boring bar front end has targeting part, is positioned at the anchor clamps below on the described support and is provided with fairlead.

The beneficial effects of the utility model are: the utility model adopts the double installation form, two boring heads can carry out boring processing to the workpiece on the anchor clamps simultaneously, anchor clamps adopt the hydraulic clamp form, can realize that the location clamps fast, the utility model can satisfy the boring processing request of bearing cap semicircle orifice, help guaranteeing machining accuracy, easy to use, the efficient height.

Description of drawings

Below in conjunction with drawings and embodiments the utility model is further specified.

Fig. 1 is a structural representation of the present utility model.

Fig. 2 is the left view of Fig. 1.

1. supports, 3. columns, 4. nc sliding tables, 5. boring heads, 6. boring bars, 61. targeting parts, 7. boring cutters, 8. anchor clamps, 9. drive units, 91. drive motors, 92. active profile of tooth belt wheels, 93. driven toothed belt wheels, 10. fairleads among the figure

The specific embodiment.

In conjunction with the accompanying drawings the utility model is further described now.These accompanying drawings are the schematic diagram of simplification, basic structure of the present utility model only is described in a schematic way, so it only show the formation relevant with the utility model.

A kind of bearing cap semicircle orifice twin shaft numerical control bore hole lathe as depicted in figs. 1 and 2, comprise support 1, support 1 is provided with column 3, column 3 is provided with the nc sliding table 4 that can slide up and down, being fixed with two on the nc sliding table 4 is arranged in parallel and boring head 5 that center line is identical with nc sliding table 4 glide directions, be fixed with boring cutter 7 by boring bar 6 on the boring head 5, but also be fixed with the anchor clamps 8 of clamping work pieces on the support 1, described anchor clamps 8 are double, two workpiece of clamping are processed simultaneously, its clamping mode is a hydraulic clamp, behind the workpiece location, by the pressing plate workpiece pressing on the hydraulic jack driving anchor clamps 8, boring head 5 is by drive unit 9 driven rotary, described drive unit 9 comprises drive motors 91, drive motors 91 is fixed on the nc sliding table 4, be fixed with initiatively profile of tooth belt wheel 92 on the output shaft of drive motors 91, initiatively profile of tooth belt wheel 92 be located at two driven toothed belt wheels 93 on the boring head 5 and be in transmission connection by cog belt and drive boring head 5 and rotate, thereby drive the boring bar that boring cutter 7 is housed 6 rotations on the boring head 5, by the motion of nc sliding table 4 on the column 3, the workpiece that is clipped on the anchor clamps 8 is carried out boring processing.

In order to improve the rigidity of boring bar 6, boring bar 6 accurate positionings when guaranteeing boring, be positioned at anchor clamps 8 belows on the described support 1 and be provided with fairlead 10, described boring bar 6 front ends have targeting part 61, when cutting, the targeting part 61 of boring bar 6 at first enters fairlead 10, and boring bar 6 enters cutting state more then, this feature has increased boring bar 6 rigidity, has improved the bore hole precision.

The utility model disposes independently electrical control cabinet simultaneously, guarantees that the protection and the interlocking of exercises of equipment is reliable, also is furnished with centralized oil supply, central controlled hydraulic system and cooling system, uses needs to satisfy.

With above-mentioned foundation embodiment of the present utility model is enlightenment, and by above-mentioned description, the related work personnel can carry out various change and modification fully in the scope that does not depart from the utility model technological thought.Technical scope of the present utility model is not limited to the content on the specification, must determine its technical scope according to the claim scope.

Claims (5)

1. bearing cap semicircle orifice twin shaft numerical control bore hole lathe, comprise support (1), it is characterized in that: support (1) is provided with column (3) and can clamps the anchor clamps (8) of two workpiece, column (3) is provided with the nc sliding table that can slide up and down (4), being fixed with two on the nc sliding table (4) is arranged in parallel and boring head (5) that center line is identical with nc sliding table (4) glide direction, with be fixed with boring cutter (7) on the boring bar (6) that boring head (5) is connected, boring head (5) is by drive unit (9) driven rotary, and the boring cutter (7) on the boring head (5) carries out boring processing simultaneously to two workpiece on the anchor clamps (8).

2. bearing cap semicircle orifice twin shaft numerical control bore hole lathe according to claim 1, it is characterized in that: described drive unit (9) comprises drive motors (91), drive motors (91) is fixed on the nc sliding table (4), be fixed with initiatively profile of tooth belt wheel (92) on the output shaft of drive motors (91), initiatively profile of tooth belt wheel (92) is in transmission connection by cog belt and the driven toothed belt wheel (93) that is located on the boring head (5), rotates thereby drive boring head (5).

3. bearing cap semicircle orifice twin shaft numerical control bore hole lathe according to claim 1, it is characterized in that: described anchor clamps (8) are the double hydraulic clamping fixture.

4. bearing cap semicircle orifice twin shaft numerical control bore hole lathe according to claim 1, it is characterized in that: described boring bar (6) front end has targeting part (61).

5. bearing cap semicircle orifice twin shaft numerical control bore hole lathe according to claim 1 is characterized in that: be positioned at anchor clamps (8) below on the described support (1) and be provided with fairlead (10).

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