CN218592283U - Assembly line type positive and negative turning drill composite center - Google Patents

Abstract

The utility model relates to a lathe trade field specifically is a positive reverse turning drill complex center of pipelined, including lathe bed, waste material dolly and chip cleaner, be equipped with the processing district in the lathe bed, be equipped with the mounting bracket in the processing district, be equipped with first rotary fixture, first turning tool rest and the rotatory anchor clamps of second on the mounting bracket, the utility model discloses the during operation can the linkage operation, and the third rotary fixture acts as the manipulator, snatchs the action to the work piece, and when third rotary fixture carried out the turning with first turning tool rest, new work piece was placed to first rotary fixture to process. Similarly, when the drilling unit head cooperates with the second rotary fixture to drill, the third rotary fixture cooperates with the first turning tool rest to simultaneously perform turning operation, so that the process is optimized, the waiting time for workpiece machining is reduced, and a worker is changed from an original machine tool for operation into a machine tool capable of being operated simultaneously, thereby saving a large amount of manpower.

Description

Assembly line type positive and negative turning drill composite center

Technical Field

The utility model relates to a lathe trade field specifically is a positive reverse turning drill of pipelined compound center.

Background

The flange or the valve is closely related to the life of people, and the flange and the valve are used in industries such as pipelines, automobiles, chemical engineering, boilers and the like, are easy to consume, are basically not reusable, and are large in demand.

The flange or valve is machined by a plurality of machine tools and a plurality of workers, the flange or valve is manufactured by the multiple turning machines and the workers, the flange or valve is turned on multiple sides, one side is turned, the worker is required to manually replace the reverse side, and then the next turning is carried out. After turning is completed, another procedure needs to be changed, and another set of equipment and workers are needed for drilling operation. Therefore, the labor cost is high, the production efficiency is low, the profit margin is low, and the enterprise burden is large.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

To the not enough of prior art, the utility model provides a positive reverse turning drill of pipelined compound center.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a positive reverse turning bores combined center of pipelined, includes lathe bed, waste material dolly and chip cleaner, be equipped with the machining area in the lathe bed, be equipped with the mounting bracket in the machining area, be equipped with first rotary fixture, first turning tool rest and the rotatory anchor clamps of second on the mounting bracket, the slide rail is installed at the lathe bed top, be equipped with second turning tool rest, third rotary fixture and drilling unit head on the slide rail, second turning tool rest, third rotary fixture and drilling unit head pass through sliding motor and install on the slide rail, the chip cleaner passes through transmission pipe and lathe bed and waste material dolly intercommunication.

Further, the utility model discloses the improvement has, all be equipped with lateral transfer unit, first feed motor, second feed motor and vertical transmission unit on second turning knife rest, third rotary fixture and the drilling power head, install the horizontal direction guide rail on the sliding motor, install transverse sliding plate on the horizontal direction guide rail, install lateral transfer unit and feed motor on the transverse sliding plate, install vertical transmission unit and second feed motor on the transverse transfer unit, vertical transmission unit passes through the perpendicular slide of vertical direction guide rail installation.

Further, the utility model discloses the improvement has, install the turning main shaft on first rotary fixture, the third rotary fixture, install hydraulic pressure from centering chuck, turning main shaft core and rotatory hydro-cylinder in the turning main shaft and on the second rotary fixture, hydraulic pressure is connected from centering chuck and turning main shaft core, the turning main shaft core is connected with rotatory hydro-cylinder, common rotation, hydraulic pressure is connected through the pull rod with rotatory hydro-cylinder from centering chuck, be equipped with the second band pulley on the turning main shaft core, hydraulic pressure on the second rotary fixture is fixed on the lathe bed from centering chuck through the hydraulic clamping jar.

Further, the utility model discloses the improvement has, processing district rear side is equipped with the motor district, install a plurality of main driving motor in the motor district, be equipped with first band pulley on the main driving motor, be equipped with the belt on the first band pulley, the belt is connected with the second band pulley.

Further, the utility model discloses the improvement has, automatic tool post on the second turning knife rest installs on the perpendicular slide on the second turning knife rest, automatic tool post on the first turning knife rest is installed on the lathe bed, the drilling main shaft of drilling unit head is fixed on the perpendicular slide of drilling unit head, the turning main shaft of first rotary fixture and second rotary fixture is fixed on the lathe bed, the turning main shaft of third rotary fixture is fixed on the perpendicular slide of third rotary fixture.

Further, the utility model discloses the improvement has, high pressure water pump is installed to the rear side in processing district, be equipped with drinking-water pipe and drain pipe on the high pressure water pump, drinking-water pipe and drain pipe run through the lathe bed, be equipped with the sprinkler bead on the drain pipe, the drain pipe is equipped with a plurality ofly, and with first rotary fixture, first turning tool rest and the rotatory anchor clamps looks adaptation of second.

Further, the utility model discloses the improvement has, be equipped with the waste tank on the lathe bed, the waste tank is located the mounting bracket below, be equipped with a plurality of hourglass material holes and waste tank intercommunication on the mounting bracket, chip cleaner and waste tank intercommunication, the below of waste tank is equipped with the heat dissipation window, the rear side of waste tank is equipped with the washing mouth.

Further, the utility model discloses the improvement has, the bottom of lathe bed is equipped with a plurality of vibration damping mount, just vibration damping mount equidistance setting in four sides of the bottom of lathe bed.

(III) advantageous effects

Compared with the prior art, the utility model provides a positive reverse turning drill compound center of pipelined possesses following beneficial effect:

the utility model discloses the during operation can the linkage operation, and the third rotary fixture acts as the manipulator, snatchs the action to the work piece, and when the third rotary fixture carries out the turning with first turning tool rest, new work piece is placed to first rotary fixture to process. Similarly, when the drilling unit head cooperates the second rotary fixture to drill, the third rotary fixture cooperates the first turning tool rest to simultaneously perform turning operation, so that the process is optimized, the waiting time for workpiece processing is reduced, a worker is changed into a machine tool capable of operating simultaneously from the original machine tool, and a large amount of manpower is saved.

Drawings

FIG. 1 is a schematic view of the overall layout of the machine tool of the present invention;

fig. 2 is a schematic view of a second turning tool holder and a first rotary clamp according to the present invention;

FIG. 3 is a schematic view of a third rotary clamp and a first turning tool holder of the present invention;

FIG. 4 is a schematic view of a second rotary clamp and a drilling power head of the present invention;

in the figure: 1. a waste trolley; 2. a chip remover; 3. a bed body; 4. a second turning tool holder; 5. a third rotating jig; 6. drilling a power head; 7. a first rotating jig; 8. a first turning tool holder; 9. a second rotating jig; 10. a horizontal direction guide rail; 11. a drive motor; 12. a first pulley; 13. a belt; 14. a second feed motor; 15. a vertical transmission unit; 16. a vertical direction guide rail; 17. a vertical slide plate; 18. an automatic tool rest; 19. a hydraulic self-centering chuck; 20. a transverse slide plate; 21. turning a main shaft; 22. turning a main shaft core; 23. a second pulley; 24. rotating the oil cylinder; 25. a pull rod; 26. a transverse transmission unit; 27. a first feed motor; 28. a high pressure water pump; 29. drilling a main shaft; 30. a hydraulic clamping cylinder;

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Please refer to fig. 1-4, the utility model relates to a positive reverse turning drill compound center of pipelined, including lathe bed 3, waste material dolly 1 and chip cleaner 2, be equipped with the machining district in the lathe bed 3, be equipped with the mounting bracket in the machining district, be equipped with first rotary fixture 7, first turning knife rest 8 and second rotary fixture 9 on the mounting bracket, the slide rail is installed at 3 tops of lathe bed, be equipped with second turning knife rest 4, third rotary fixture 5 and drilling unit head 6 on the slide rail, second turning knife rest 4, third rotary fixture 5 and drilling unit head 6 pass through sliding motor and install on the slide rail, chip cleaner 2 communicates with lathe bed 3 and waste material dolly 1 through the transmission pipe.

In this embodiment, all be equipped with lateral transfer unit 26, first feed motor 27, second feed motor 14 and vertical transmission unit 15 on second lathe tool rest 4, third rotary fixture 5 and the drilling unit head 6, install horizontal direction guide rail 10 on the sliding motor, install horizontal slide 20 on the horizontal direction guide rail 10, install lateral transfer unit 26 and feed motor on the horizontal slide 20, install vertical transmission unit 15 and second feed motor 14 on the lateral transfer unit 26, vertical transmission unit 15 passes through the perpendicular slide 17 of the installation of vertical direction guide rail 16.

As shown in fig. two, the second turning tool rest 4 and the first rotary fixture 7 are arranged, the transverse transmission unit 26 and the first feeding motor 27 form a transverse transmission system to drive the transverse sliding plate 20 to move transversely along the horizontal guide rail 10, the automatic tool rest 18 is arranged on the vertical sliding plate 17, the second feeding motor 14 and the vertical transmission unit 15 form a vertical transmission system to drive the vertical sliding plate 17 to move up and down along the vertical guide rail 16, the turning spindle 21 is fixed on the lathe bed 3, the main driving motor 11 drives the turning spindle core 22 to rotate through the first belt pulley 12, the belt 13 and the second belt pulley 23, the hydraulic self-centering chuck 19 is connected with the turning spindle core 22, the turning spindle core 22 is connected with the rotary cylinder 24 to rotate together, the hydraulic self-centering chuck 19 is connected with the rotary cylinder 24 through the pull rod 25, and the rotary cylinder 24 provides clamping force.

As shown in fig. three, the third rotary fixture 5 and the first turning tool rest 8 are shown, a transverse transmission unit 26 and a first feed motor 27 form a transverse transmission system to drive a transverse sliding plate 20 to move transversely along a horizontal guide rail 10, the automatic tool rest 18 is installed on the machine body 3, a second feed motor 14 and a vertical transmission unit 15 form a vertical transmission system to drive a vertical sliding plate 17 to move up and down along a vertical guide rail 16, a turning spindle 21 is fixed on the vertical sliding plate 17, a main drive motor 11 drives the turning spindle core 22 to rotate through a first belt pulley 12, a belt 13 and a second belt pulley 23, a hydraulic self-centering chuck 19 is connected with the turning spindle core 22, the turning spindle core 22 is connected with a rotary oil cylinder 24 to rotate together, the hydraulic self-centering chuck 19 is connected with the rotary oil cylinder 24 through a pull rod 25, and the rotary oil cylinder 24 provides clamping force.

The second rotary fixture 9 and the drilling power head 6 are shown in the fourth figure, the transverse transmission unit 26 and the first feeding motor 27 form a transverse transmission system to drive the transverse sliding plate 20 to move transversely along the horizontal guide rail 10, the automatic tool rest 18 is installed on the machine body 3, the second feeding motor 14 and the vertical transmission unit 15 form a vertical transmission system to drive the vertical sliding plate 17 to move up and down along the vertical guide rail 16, the drilling spindle 29 is fixed on the vertical sliding plate 17, the rotary fixture is fixed on the machine body 3, the hydraulic self-centering chuck 19 is connected with the rotary structure, the hydraulic self-centering chuck 19 is connected with the rotary oil cylinder 24 through a pull rod 25, and the rotary oil cylinder 24 provides clamping force.

In this embodiment, high pressure water pump 28 is installed to the rear side in machining area, be equipped with drinking-water pipe and drain pipe on the high pressure water pump 28, drinking-water pipe and drain pipe run through lathe bed 3, be equipped with the sprinkler bead on the drain pipe, the drain pipe is equipped with a plurality ofly, and with first rotary fixture 7, first turning knife rest 8 and the 9 looks adaptations of second rotary fixture, extracts water purification or coolant liquid through high pressure water pump 28 and sprays and cool down on turning tool or flange at the turning during operation, prevents that turning tool or flange temperature from too high causing the turning of flange to warp to influence the stability of processing.

In this embodiment, be equipped with the waste material groove on the lathe bed 3, the waste material groove is located the mounting bracket below, be equipped with a plurality of hourglass material hole and waste material groove intercommunication on the mounting bracket, chip cleaner 2 and waste material groove intercommunication, the below of waste material groove is equipped with the heat dissipation window, the rear side of waste material groove is equipped with the washing mouth to conveniently collect the waste material, avoid accumulating the stability that the waste material influences processing on the mounting bracket, dispel the heat to electrical components through the heat dissipation window is convenient, the life of extension equipment is washed the waste material groove through the washing mouth convenience.

In this embodiment, a plurality of damping bases are arranged at the bottom of the bed body 3, and the damping bases are arranged on four sides of the bottom of the bed body 3 at equal intervals, so that vibration generated during operation of the bed body 3 is reduced through the damping bases, and noise is reduced.

To sum up, when the assembly line type positive and negative turning and drilling composite center is used, a workpiece is firstly placed on the first rotary clamp 7, the workpiece is clamped through the hydraulic self-centering chuck 19 of the first rotary clamp 7, then turning work is carried out through the second turning tool rest 4, when turning of one side of a flange is finished, the second turning tool rest 4 is moved to the left side of a machine tool, the third rotary clamp 5 is moved to the position above the first rotary clamp 7 to grab the workpiece, then the position is moved to the position of the first turning tool rest 8, the third rotary clamp 5 clamps the workpiece to rotate and move to carry out reverse turning work, after turning work of the workpiece on the third rotary clamp 5 is finished, the drilling power head 6 is moved to the rightmost side, the workpiece is clamped by the third rotary clamp 5 and moves to the position above the first rotary clamp 7, the vertical transmission unit 15 on the third anchor clamps moves down and places the work piece on the second rotary fixture 9, carry out the centre gripping by second rotary fixture 9 to the work piece, third rotary fixture 5 returns, drilling unit head 6 begins to carry out drilling work to the work piece, during the drilling operation, press from both sides tightly second rotary fixture 9 by hydraulic clamping jar 30, guarantee the stability of second rotary fixture 9, can improve high-speed drilling's efficiency, improve cutter life, improve the smooth finish and the precision of drilling, waste material iron fillings are carried by chip cleaner 2 in carrying waste material dolly 1, whole flange manufacturing procedure is accomplished, it cools down on turning tool or flange to extract water purification or coolant liquid through high pressure water pump 28 when turning work, prevent turning tool or flange high temperature from causing the turning deformation of flange, thereby influence the stability of processing.

The automatic isolating door is arranged among the three operation units, the operation can be carried out in a linkage mode, the third rotary fixture 5 serves as a manipulator to grab a workpiece, and when the third rotary fixture 5 and the first turning tool rest 8 are turned, the first rotary fixture 7 places a new workpiece and carries out machining. Similarly, when drilling unit head 6 cooperates the second rotary fixture 9 to drill, the third rotary fixture 5 cooperates first turning tool post 8 all can carry out the turning operation simultaneously, optimizes technology, reduces the latency of work piece processing, and a workman becomes by original operation a lathe can the simultaneous operation a lathe, saves a large amount of manpowers.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides a positive reverse turning bores compound center of pipelined, its characterized in that, includes lathe bed (3), waste material dolly (1) and chip cleaner (2), be equipped with the processing district in lathe bed (3), be equipped with the mounting bracket in the processing district, be equipped with first rotary fixture (7), first turning tool rest (8) and second rotary fixture (9) on the mounting bracket, the slide rail is installed at lathe bed (3) top, be equipped with second turning tool rest (4), third rotary fixture (5) and drilling unit head (6) on the slide rail, second turning tool rest (4), third rotary fixture (5) and drilling unit head (6) are installed on the slide rail through sliding motor, chip cleaner (2) are through transmission pipe and lathe bed (3) and waste material dolly (1) intercommunication.

2. The assembly line type positive and negative turning and drilling composite center according to claim 1, wherein the second turning tool rest (4), the third rotary fixture (5) and the drilling power head (6) are respectively provided with a transverse transmission unit (26), a first feeding motor (27), a second feeding motor (14) and a vertical transmission unit (15), the sliding motor is provided with a horizontal guide rail (10), the horizontal guide rail (10) is provided with a transverse sliding plate (20), the transverse sliding plate (20) is provided with the transverse transmission unit (26) and the feeding motor, the transverse transmission unit (26) is provided with the vertical transmission unit (15) and the second feeding motor (14), and the vertical transmission unit (15) is provided with the vertical sliding plate (17) through the vertical guide rail (16).

3. The production line type positive and negative turning drill composite center according to claim 2, wherein the turning spindle (21) is installed on the first rotary fixture (7) and the third rotary fixture (5), the hydraulic self-centering chuck (19), the turning spindle core (22) and the rotary cylinder (24) are installed on the turning spindle (21) and the second rotary fixture (9), the hydraulic self-centering chuck (19) is connected with the turning spindle core (22), the turning spindle core (22) is connected with the rotary cylinder (24) and rotates together, the hydraulic self-centering chuck (19) is connected with the rotary cylinder (24) through a pull rod (25), the turning spindle core (22) is provided with a second belt pulley (23), and the hydraulic self-centering chuck (19) on the second rotary fixture (9) is fixed on the lathe bed (3) through a hydraulic clamping cylinder (30).

4. A flow line type positive and negative turning and drilling composite center according to claim 3, wherein a motor area is arranged at the rear side of the processing area, a plurality of main driving motors (11) are installed in the motor area, a first belt wheel (12) is arranged on each main driving motor (11), a belt (13) is arranged on each first belt wheel (12), and the belt (13) is connected with a second belt wheel (23).

5. A production line type positive and negative turning and drilling composite center according to claim 4, wherein the automatic tool rest (18) on the second turning tool rest (4) is installed on a vertical sliding plate (17) on the second turning tool rest (4), the automatic tool rest (18) on the first turning tool rest (8) is installed on the machine body (3), the drilling spindle (29) of the drilling power head (6) is fixed on the vertical sliding plate (17) of the drilling power head (6), the turning spindle (21) of the first rotary fixture (7) is fixed on the machine body (3), and the turning spindle (21) of the third rotary fixture (5) is fixed on the vertical sliding plate (17) of the third rotary fixture (5).

6. A pipelined positive and negative turning drill composite center according to claim 5, characterized in that a high pressure water pump (28) is installed at the rear side of the processing area, a water suction pipe and a water discharge pipe are arranged on the high pressure water pump (28), the water suction pipe and the water discharge pipe penetrate through the lathe bed (3), a water spray head is arranged on the water discharge pipe, and the water discharge pipe is provided with a plurality of water discharge pipes, and is matched with the first rotary fixture (7), the first turning tool rest (8) and the second rotary fixture (9).

7. The assembly line type positive and negative turning drill composite center according to claim 6, wherein a waste tank is arranged on the lathe bed (3), the waste tank is positioned below the mounting frame, a plurality of material leaking holes are formed in the mounting frame and are communicated with the waste tank, the chip cleaner (2) is communicated with the waste tank, a heat dissipation window is arranged below the waste tank, and a cleaning opening is formed in the rear side of the waste tank.

8. The production line type positive and negative turning and drilling composite center according to claim 6, wherein a plurality of shock absorbing bases are arranged at the bottom of the lathe bed (3), and the shock absorbing bases are arranged on four sides of the bottom of the lathe bed (3) at equal intervals.

Images