Piston connecting rod face milling and rough boring equipment
Technical Field
The utility model mainly relates to the field of machining equipment, in particular to piston connecting rod face milling and rough boring equipment.
Background
The piston connecting rod processing method is a production line processing method which is generally adopted at present, one piece of equipment completes one processing procedure, and then the next piece of equipment is used for processing the next procedure. This mode need set up more processing equipment and accomplish the processing of connecting rod, leads to the very high and machining efficiency of connecting rod of production facility purchase input cost to remain the improvement.
SUMMERY OF THE UTILITY MODEL
In order to solve the defects of the prior art, the utility model provides piston connecting rod face milling rough boring equipment which can move to the end face milling position in the front-back direction of a connecting rod, a face milling main shaft head carries out face milling procedures on the left end face and the right end face of the connecting rod and then moves backwards to the rough boring position, the rough boring head advances to carry out rough boring machining on two holes of the connecting rod and moves backwards continuously to carry out drilling machining on the connecting rod, and one piece of equipment carries out multiple procedures, so that the machining efficiency is greatly improved.
In order to achieve the purpose, the utility model is realized by the following technical scheme:
the utility model provides a piston connecting rod mills a heavy boring equipment, includes the base, the fixed mounting cabinet body on the base, set up fixing base one, fixing base two, fixing base three, fixing base four on the internal base of cabinet respectively, slidable mounting drive case one on the fixing base one, set up in the drive case one and mill a main shaft head one, heavy boring main shaft head one, slidable mounting slip table on the fixing base two, fixed mounting clamping support on the slip table, set up a plurality of connecting rod anchor clamps on the clamping support, the processing opening has been seted up on the clamping support, slidable mounting drive case two on the fixing base three, set up in the drive case two and mill a main shaft head two, heavy boring main shaft head two, set up drive case three on the fixing base four, set up drilling main shaft head in the drive case three.
The blanking device is characterized in that a blanking groove is formed in the base, and a waste recovery box is fixedly mounted on one side of the base.
The first driving box is fixedly provided with a first milling surface shaft seat and a first rough boring shaft seat respectively, a first driving motor is fixedly installed above the first milling surface shaft seat, a second driving motor is fixedly installed above the first rough boring shaft seat, a first milling surface spindle head is rotatably installed in the first milling surface shaft seat, a first rough boring spindle head is rotatably installed in the first rough boring shaft seat, an output shaft of the first driving motor is rotatably connected with the first milling surface spindle head, and an output shaft of the second driving motor is rotatably connected with the first rough boring spindle head.
The surface milling machine is characterized in that a surface milling shaft seat II is fixedly installed in the driving box II, a driving motor III is fixedly installed above the surface milling shaft seat II, a surface milling spindle head II is rotatably installed in the surface milling shaft seat II, a supporting seat is fixedly installed in the driving box II, a sliding seat is slidably installed on the supporting seat, a rough boring shaft seat II is fixedly installed on the sliding seat, a driving motor IV is fixedly installed above the rough boring shaft seat II, a rough boring spindle head II is rotatably installed in the rough boring shaft seat II, an output shaft of the driving motor IV is rotatably connected with the rough boring spindle head II, the front part of the rough boring shaft seat II is fixedly connected with a front cover plate I, and the front cover plate I is slidably connected to one side of the driving box II in the horizontal direction.
The drilling machine is characterized in that a longitudinal supporting seat is fixedly installed in the driving box III, a lifting adjusting hand wheel is arranged at the top of the longitudinal supporting seat, a lifting seat is slidably installed on one side of the longitudinal supporting seat, a drilling shaft seat is fixedly installed on the lifting seat, a driving motor V is fixedly installed above the drilling shaft seat, a drilling spindle head is rotatably installed in the drilling shaft seat, a five output shaft of the driving motor is rotatably connected with the drilling spindle head, a front cover plate II is fixedly installed on the front portion of the drilling shaft seat, and the front cover plate II is slidably connected to one side of the driving box III in the vertical direction.
Compared with the prior art, the utility model has the beneficial effects that:
according to the utility model, the connecting rod can move to the fine boring position in the front-back direction, the fine boring main shaft head performs fine boring processing on two holes of the connecting rod, then moves backwards to the chamfering position to perform chamfering processing on the left hole and the right hole of the connecting rod, and the right groove broaching tool performs milling unloading groove processing.
Drawings
FIG. 1 is a schematic diagram of a first perspective structure of the present invention;
FIG. 2 is an enlarged view of the part A of the present invention;
FIG. 3 is a schematic diagram of a second perspective structure of the present invention;
FIG. 4 is a schematic structural view of a clamping bracket of the utility model;
FIG. 5 is a schematic view of the internal structure of a driving box III of the present invention;
FIG. 6 is a schematic view showing an internal structure of a driving case of the present invention;
FIG. 7 is a schematic structural diagram of a driving box II of the present invention.
Reference numerals shown in the drawings: 1. a base; 2. a cabinet body; 3. a first fixed seat; 4. a second fixed seat; 5. a third fixed seat; 6. a fourth fixed seat; 10. a feeding trough; 11. a waste recovery tank; 31. a first driving box; 32. a first milling surface main shaft head; 33. roughly boring a first main shaft head; 41. a sliding table; 42. clamping a bracket; 43. a connecting rod clamp; 44. processing an opening; 51. a second driving box; 52. a second milling surface spindle head; 53. roughly boring a second spindle head; 61. a third driving box; 62. drilling a main shaft head; 311. a first milling surface shaft seat; 312. roughly boring a shaft seat I; 313. driving a motor I; 314. a second driving motor; 511. a second plane milling shaft seat; 512. driving a motor III; 513. a supporting seat; 514. a sliding seat; 515. roughly boring a shaft seat II; 516. driving a motor IV; 517. a first front cover plate; 611. a longitudinal support base; 612. a lifting adjusting hand wheel; 613. a lifting seat; 614. drilling a shaft seat; 615. driving a motor V; 616. and a second front cover plate.
Detailed Description
The utility model is further described with reference to the accompanying drawings and specific embodiments. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.
With reference to the attached figures 1-7, the piston connecting rod face milling and rough boring device comprises a base 1, a cabinet body 2 is fixedly arranged on the base 1, the base 1 in the cabinet body 2 is respectively provided with a first fixed seat 3, a second fixed seat 4, a third fixed seat 5 and a fourth fixed seat 6, a first driving box 31 is slidably mounted on the first fixing seat 3, a first face milling spindle head 32 and a first rough boring spindle head 33 are arranged in the first driving box 31, a sliding table 41 is arranged on the second fixed seat 4 in a sliding manner, a clamping bracket 42 is fixedly arranged on the sliding table 41, a plurality of connecting rod clamps 43 are arranged on the clamping bracket 42, a processing opening 44 is arranged on the clamping bracket 42, a second driving box 51 is slidably mounted on the third fixing seat 5, a second milling spindle head 52 and a second rough boring spindle head 53 are arranged in the second driving box 51, and a third driving box 61 is arranged on the fourth fixing seat 6, and a drilling spindle head 62 is arranged in the third driving box 61.
The base 1 is internally provided with a blanking groove 10, and one side of the base 1 is fixedly provided with a waste recovery box 11.
The first driving box 31 is fixedly provided with a first milling surface shaft seat 311 and a first rough boring shaft seat 312, a first driving motor 313 is fixedly arranged above the first milling surface shaft seat 311, a second driving motor 314 is fixedly arranged above the first rough boring shaft seat 312, a first milling surface spindle head 32 is rotatably arranged in the first milling surface shaft seat 311, a first rough boring spindle head 33 is rotatably arranged in the first rough boring shaft seat 312, an output shaft of the first driving motor 313 is rotatably connected with the first milling surface spindle head 32, and an output shaft of the second driving motor 314 is rotatably connected with the first rough boring spindle head 33.
Fixed mounting mills a second axle bed 511 in the second 51 of drive case, mill a third driving motor 512 of fixed mounting in the second 511 of face axle bed, rotate the second 52 of installation face main shaft head of milling in the second 511 of face axle bed, fixed mounting supporting seat 513 in the second 51 of drive case, slidable mounting sliding seat 514 on the supporting seat 513, fixed mounting heavy boring axle bed two 515 on the sliding seat 514, heavy boring axle bed two 515 top fixed mounting driving motor four 516, rotate the second 53 of installation heavy boring main shaft head in the second 515 of heavy boring axle bed, the second 53 of heavy boring main shaft head is connected in the rotation of the four 516 output shafts of driving motor, the anterior fixed connection front shroud 517 of heavy boring axle bed two 515, front shroud one 517 is in drive case two 51 one side at horizontal direction sliding connection.
A longitudinal supporting seat 611 is fixedly installed in the third driving box 61, a lifting adjusting hand wheel 612 is arranged at the top of the longitudinal supporting seat 611, a lifting seat 613 is slidably installed on one side of the longitudinal supporting seat 611, a drilling shaft seat 614 is fixedly installed on the lifting seat 613, a driving motor fifth 615 is fixedly installed above the drilling shaft seat 614, a drilling spindle head 62 is rotatably installed in the drilling shaft seat 614, an output shaft of the driving motor fifth 615 is rotatably connected with the drilling spindle head 62, a front cover plate second 616 is fixedly installed on the front portion of the drilling shaft seat 614, and the front cover plate second 616 is slidably connected to one side of the third driving box 61 in the vertical direction.
When the device is used, the position of the sliding seat 514 is adjusted, namely the axial distance between the second rough boring main shaft head 53 and the first rough boring main shaft head 33 is adjusted, after the proper boring shaft distance is adjusted, the sliding table 41 drives the clamping bracket and the piston connecting rod to enter a rough boring processing position, the first driving box and the second driving box respectively approach the connecting rod, and boring processing is simultaneously carried out on the connecting rod at two parts on two sides of the connecting rod; after boring is completed, the sliding table 41 drives the clamping bracket and the piston connecting rod to enter a face milling position for face milling; after the face milling processing is finished, the sliding table 41 drives the clamping support and the piston connecting rod to enter a drilling processing position for drilling processing.