CN103862292A

CN103862292A - Modular machine tool used for metal cutting

Info

Publication number: CN103862292A
Application number: CN201410121297.7A
Authority: CN
Inventors: 潘卫平
Original assignee: TAIZHOU XINGLE WATER-HEATING EQUIPMENTS Co Ltd
Current assignee: TAIZHOU XINGLE WATER-HEATING EQUIPMENTS Co Ltd
Priority date: 2014-03-28
Filing date: 2014-03-28
Publication date: 2014-06-18
Anticipated expiration: 2034-03-28
Also published as: CN103862292B

Abstract

The invention provides a modular machine tool used for metal cutting, and belongs to the technical field of machinery. The modular machine tool resolves the problems that an existing machine tool is long in machining time and high in machining cost when used for machining a faucet handle thread hole. The modular machine tool used for metal cutting comprises a tool body and a rotary plate arranged on the tool body, a motor slicer used for driving the rotary plate to rotate is arranged in the tool body, the edge of the rotary plate is evenly provided with four clamping structures used for clamping a workpiece, the tool body is provided with a feeding position, a hole machining position, a thread machining position and a discharging position which are in one-to-one correspondence with the four clamping structures, the feeding position, the hole machining position, the thread machining position and the discharging position are sequentially arranged in the rotating direction of the rotary plate, the hole machining position is provided with a first double-shaft power head, the thread machining position is provided with a second double-shaft power head, and the discharging position is provided with a discharging unit. The modular machine tool has the advantages of being high in machining efficiency and automatic degree and the like.

Description

Metal cutting building-block machine

Technical field

The invention belongs to field of mechanical technique, relate to a kind of metal cutting building-block machine, particularly a kind of to faucet handles boring and in hole the metal cutting building-block machine of machining screw.

Background technology

Faucet handles and leading spool are connected by bolt, pull handle and realize the break-make of spool, on handle, have screwed hole by machine tooling.Tradition is generally passed through two procedures to the processing of handle screwed hole: first handle clamping is carried out to drilling operation to handle on drilling machine, close lathe after completion of processing, change drilling tool into screw tap, then open lathe screw thread processing is carried out in the hole on handle.Although this method can ensure the machining accuracy of screwed hole, still there is the shortcoming that working (machining) efficiency is low in it: need in process, change process tool, extend process time; Comparatively loaded down with trivial details to the clamping of handle, clamping inconvenience; Can only process a handle, if multiple handles are processed and just needed multiple lathes simultaneously, increase processing cost simultaneously.

Summary of the invention

The object of the invention is to have the problems referred to above for existing technology, proposed the metal cutting building-block machine that a kind of working (machining) efficiency is high, automaticity is high.

Object of the present invention can realize by following technical proposal:

Building-block machine for this metal cutting, comprise lathe bed and be located at the rotating disk on lathe bed, in described lathe bed, be provided with the motor dispenser for driving dial rotation, the edge of described rotating disk is evenly distributed with four clamp structures for holding workpiece, it is characterized in that, described lathe bed is provided with respectively and four clamp structures feeding station one to one, hole processing stations, screw thread processing stations and blanking station, described feeding station, hole processing stations, screw thread processing stations and blanking station set gradually along the rotation direction of rotating disk, it is first that described processing stations place, hole is provided with double-shaft power, described screw thread processing stations place is provided with double-shaft power two, described blanking station place is provided with blanking unit.

At feeding station by clamp structure by Workpiece clamping, motor dispenser drives dial rotation an angle of 90 degrees, make the workpiece being held turn to processing stations place, hole, carry out hole processing by a double-shaft power pair of workpieces, simultaneously feeding station by second piece-holder to clamp structure; After the completion of processing of hole, motor dispenser continues to drive rotating disk 90 degree to rotate, make the workpiece that processes hole turn to screw thread processing stations place, by double-shaft power two machining screw in the hole of workpiece, simultaneously feeding station by the 3rd piece-holder to clamp structure, double-shaft power is first carries out hole processing to second workpiece; When after screw thread completion of processing, motor dispenser continues to drive dial rotation an angle of 90 degrees, under the effect of blanking unit, the workpiece machining is carried out to blanking operation, circulates with this.

Use in building-block machine in above-mentioned metal cutting, the first support one that comprises of described double-shaft power, be arranged in the axis of guide one on support one, the cylinder one that is sheathed on the linear bearing one on the axis of guide one and drives linear bearing one to move along the axis of guide one, the top of described linear bearing one is fixed with translation plates one, described translation plates one is provided with main spindle box one, in described main spindle box one, be equipped with rotating shaft one, the rear portion of described main spindle box one is provided with the motor one rotating for drive shaft one, in described main spindle box one, be also provided with the rotating shaft two be arrangeding in parallel with rotating shaft one, described rotating shaft two is in transmission connection by Timing Belt one and rotating shaft one, described rotating shaft one is provided with aperture knife tool with the front end of rotating shaft two.

When the first work of double-shaft power, cylinder one promotes linear bearing one, make translation plates one along the axis of guide one reach, motor one drives rotating shaft one and rotating shaft two rotations simultaneously, and the front end of rotating shaft one and rotating shaft two is equipped with aperture knife tool, in the time that translation plates one moves into place, two aperture knife tools are holed to two different workpiece respectively, when after completion of processing, cylinder one moves after driving translation plates one, completes the processing of workpiece.This double-shaft power is first can carry out hole processing to two workpiece simultaneously, and working (machining) efficiency is high, and is driven by same motor one, energy-saving and cost-reducing.

Use in building-block machine in above-mentioned metal cutting, described double-shaft power two comprises support two, be arranged in the axis of guide two on support two, the cylinder two that is sheathed on the linear bearing two on the axis of guide two and drives linear bearing two to move along the axis of guide two, the top of described linear bearing two is fixed with translation plates two, described translation plates two is provided with main spindle box two, in described main spindle box two, be equipped with rotating shaft three, the rear portion of described main spindle box two is provided with the motor two rotating for drive shaft three, in described main spindle box two, be also provided with the rotating shaft four be arrangeding in parallel with rotating shaft three, described rotating shaft four-way is crossed Timing Belt two and is in transmission connection with rotating shaft three, described rotating shaft three is provided with threading tool with the front end of rotating shaft four.

When double-shaft power two work, cylinder two promotes linear bearing two, make translation plates two along the axis of guide two reaches, motor two drives rotating shaft three and rotating shaft four rotations simultaneously, and the front end of rotating shaft three and rotating shaft four is equipped with threading tool, in the time that translation plates two moves into place, two threading tools carry out screw thread processing to two different workpiece respectively, when after completion of processing, cylinder two moves after driving translation plates two, completes the processing of workpiece.This double-shaft power two can be carried out hole processing to two workpiece simultaneously, and working (machining) efficiency is high, and is driven by same motor two, energy-saving and cost-reducing.

In above-mentioned metal cutting, with in building-block machine, described clamp structure comprises two positioning convex being located on rotating disk and the compression cylinder of being located at positioning convex top, and described compression cylinder is inverted and is arranged, and the piston rod of described compression cylinder is provided with pressing plate., respectively two workpiece are respectively put on positioning convex, the piston rod of compression cylinder extends when the location, promotes pressing plate two workpiece are pushed down simultaneously.

Use in building-block machine in above-mentioned metal cutting, described blanking unit comprises to be located at the pusher cylinder of rotating disk below and to be located at the shoving hole on rotating disk, the piston rod of described pusher cylinder is provided with push pedal, in described push pedal, have for stretching to the push rod in shoving hole, described lathe bed is provided with the material-dropping hole that is positioned at pusher cylinder place.When blanking, compression cylinder band dynamic pressure plate departs from workpiece, and the piston rod of pusher cylinder extends, and drives push pedal to rise, and push rod enters in shoving hole simultaneously, promotes workpiece, makes workpiece depart from positioning convex, and then workpiece utilizes self gravitation to drop in material-dropping hole.

In above-mentioned metal cutting, with in building-block machine, the both sides of each described positioning convex are equipped with shoving hole, two 4 described of push rods and with the shoving hole corresponding setting one by one that is positioned at positioning convex both sides.

, on described lathe bed, be also provided with for aperture knife tool and threading tool are lubricated to cooling lubricating and cooling unit with in building-block machine in above-mentioned metal cutting.

In above-mentioned metal cutting, with in building-block machine, described lubricating and cooling unit is four: the lubricating and cooling unit one of setting corresponding to rotating shaft one, with the lubricating and cooling unit two of the corresponding setting of rotating shaft two, with the lubricating and cooling unit three of the corresponding setting of rotating shaft three and with the lubricating and cooling unit four of the corresponding setting of rotating shaft four.

Compared with prior art, this metal cutting has the following advantages with building-block machine:

Two workpiece are processed, working (machining) efficiency is high simultaneously, and two rotating shafts of a driven by motor rotate simultaneously, energy-saving and cost-reducing; The reasonable in design of this lathe, easy to assembly, automaticity is high, and workman only need be installed to workpiece on clamp structure, low to workman's technical requirement; On lathe bed, be provided with lubricating and cooling unit, ensured machining accuracy; Because lathe does gyration, the size of lathe is less, and floor space is little.

Brief description of the drawings

Fig. 1 is the structural representation of a kind of preferred embodiment provided by the invention.

Fig. 2 is the top view of Fig. 1 provided by the invention.

In figure, 1, lathe bed; 11, rotating disk; 21, support one; 22, translation plates one; 23, main spindle box one; 24, rotating shaft one; 25, motor one; 26, rotating shaft two; 31, support two; 32, translation plates two; 33, main spindle box two; 34, rotating shaft three; 35, motor two; 36, rotating shaft four; 41, positioning convex; 42, compression cylinder; 43, pressing plate; 51, pusher cylinder; 52, shoving hole; 53, push pedal; 54, push rod; 55, material-dropping hole; 61, lubricating and cooling unit one; 62, lubricating and cooling unit two; 63, lubricating and cooling unit three; 64, lubricating and cooling unit four.

Detailed description of the invention

Be below specific embodiments of the invention by reference to the accompanying drawings, technical scheme of the present invention is further described, but the present invention be not limited to these embodiment.

As shown in Figure 1, building-block machine for this metal cutting, comprises lathe bed 1 and is located at the rotating disk 11 on lathe bed 1, in lathe bed 1, be provided with the motor dispenser for driving rotating disk 11 to rotate, the edge of rotating disk 11 is evenly distributed with four clamp structures for holding workpiece.As depicted in figs. 1 and 2, lathe bed 1 is provided with respectively and four clamp structures feeding station, hole processing stations, screw thread processing stations and blanking station one to one, feeding station, hole processing stations, screw thread processing stations and blanking station set gradually along the rotation direction of rotating disk 11, it is first that processing stations place, hole is provided with double-shaft power, screw thread processing stations place is provided with double-shaft power two, and blanking station place is provided with blanking unit.

At feeding station by clamp structure by Workpiece clamping, motor dispenser drives rotating disk 11 to rotate an angle of 90 degrees, make the workpiece being held turn to processing stations place, hole, carry out hole processing by a double-shaft power pair of workpieces, simultaneously feeding station by second piece-holder to clamp structure; After the completion of processing of hole, motor dispenser continues to drive rotating disk 1190 degree to rotate, make the workpiece that processes hole turn to screw thread processing stations place, by double-shaft power two machining screw in the hole of workpiece, simultaneously feeding station by the 3rd piece-holder to clamp structure, double-shaft power is first carries out hole processing to second workpiece; When after screw thread completion of processing, motor dispenser continues to drive rotating disk 11 to rotate an angle of 90 degrees, under the effect of blanking unit, the workpiece machining is carried out to blanking operation, circulates with this.

Concrete, as shown in Figure 1, the first support 1 that comprises of double-shaft power, be arranged in the axis of guide one on support 1, the cylinder one that is sheathed on the linear bearing one on the axis of guide one and drives linear bearing one to move along the axis of guide one, the top of linear bearing one is fixed with translation plates 1, translation plates 1 is provided with main spindle box 1, in main spindle box 1, be equipped with rotating shaft 1, the rear portion of main spindle box 1 is provided with the motor 1 rotating for drive shaft 1, in main spindle box 1, be also provided with the rotating shaft 2 26 be arrangeding in parallel with rotating shaft 1, rotating shaft 2 26 is in transmission connection by Timing Belt one and rotating shaft 1, rotating shaft 1 is provided with aperture knife tool with the front end of rotating shaft 2 26.

When the first work of double-shaft power, cylinder one promotes linear bearing one, make translation plates 1 along the axis of guide one reach, motor 1 drives rotating shaft 1 and rotating shaft 2 26 to rotate simultaneously, and the front end of rotating shaft 1 and rotating shaft 2 26 is equipped with aperture knife tool, in the time that translation plates 1 moves into place, two aperture knife tools are holed to two different workpiece respectively, when after completion of processing, cylinder one moves after driving translation plates 1, completes the processing of workpiece.This double-shaft power is first can carry out hole processing to two workpiece simultaneously, and working (machining) efficiency is high, and is driven by same motor 1, energy-saving and cost-reducing.

As shown in Figure 1, double-shaft power two comprises support 2 31, be arranged in the axis of guide two on support 2 31, the cylinder two that is sheathed on the linear bearing two on the axis of guide two and drives linear bearing two to move along the axis of guide two, the top of linear bearing two is fixed with translation plates 2 32, translation plates 2 32 is provided with main spindle box 2 33, in main spindle box 2 33, be equipped with rotating shaft 3 34, the rear portion of main spindle box 2 33 is provided with the motor 2 35 rotating for drive shaft 3 34, in main spindle box 2 33, be also provided with the rotating shaft 4 36 be arrangeding in parallel with rotating shaft 3 34, rotating shaft 4 36 is in transmission connection by Timing Belt two and rotating shaft 3 34, rotating shaft 3 34 is provided with threading tool with the front end of rotating shaft 4 36.

When double-shaft power two work, cylinder two promotes linear bearing two, make translation plates 2 32 along the axis of guide two reaches, motor 2 35 drives rotating shaft 3 34 and rotating shaft 4 36 to rotate simultaneously, and the front end of rotating shaft 3 34 and rotating shaft 4 36 is equipped with threading tool, in the time that translation plates 2 32 moves into place, two threading tools carry out screw thread processing to two different workpiece respectively, when after completion of processing, cylinder two moves after driving translation plates 2 32, completes the processing of workpiece.This double-shaft power two can be carried out hole processing to two workpiece simultaneously, and working (machining) efficiency is high, and is driven by same motor 2 35, energy-saving and cost-reducing.

Concrete, as shown in Figure 1, clamp structure comprises two positioning convex 41 of being located on rotating disk 11 and the compression cylinder 42 of being located at positioning convex 41 tops, compression cylinder 42 is inverted and is arranged, the piston rod of compression cylinder 42 is provided with pressing plate 43,, respectively two workpiece is respectively put on positioning convex 41 when the location, the piston rod of compression cylinder 42 extends, and promotes pressing plate 43 two workpiece are pushed down simultaneously.

As shown in Figure 1, blanking unit comprises to be located at the pusher cylinder 51 of rotating disk 11 belows and to be located at the shoving hole 52 on rotating disk 11, the piston rod of pusher cylinder 51 is provided with push pedal 53, in push pedal 53, have for stretching to the push rod 54 in shoving hole 52, as shown in Figure 2, lathe bed 1 is provided with the material-dropping hole 55 that is positioned at pusher cylinder 51 places.When blanking, compression cylinder 42 is with dynamic pressure plate 43 to depart from workpiece, and the piston rod of pusher cylinder 51 extends, drive push pedal 53 to rise, push rod 54 enters in shoving hole 52 simultaneously, promotes workpiece, make workpiece depart from positioning convex 41, then workpiece utilizes self gravitation to drop in material-dropping hole 55.Concrete, as shown in Figure 1, the both sides of each positioning convex 41 are equipped with

shoving hole

52,54 two 4 of push rods and with the shoving hole 52 corresponding setting one by one that is positioned at positioning convex 41 both sides.

In the present embodiment, on lathe bed 1, be also provided with for aperture knife tool and threading tool are lubricated to cooling lubricating and cooling unit.Concrete, as shown in Figure 2, lubricating and cooling unit is four: the lubricating and cooling unit 1 of setting corresponding to rotating shaft 1, with the lubricating and cooling unit 2 62 of the corresponding setting of rotating shaft 2 26, with the lubricating and cooling unit 3 63 of the corresponding setting of rotating shaft 3 34 and with the lubricating and cooling unit 4 64 of the corresponding setting of rotating shaft 4 36.

Specific embodiment described herein is only to the explanation for example of the present invention's spirit.Those skilled in the art can make various amendments or supplement or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present invention or surmount the defined scope of appended claims.

Claims

1. a metal cutting building-block machine, comprise lathe bed (1) and be located at the rotating disk (11) on lathe bed (1), in described lathe bed (1), be provided with the motor dispenser for driving rotating disk (11) to rotate, the edge of described rotating disk (11) is evenly distributed with four clamp structures for holding workpiece, it is characterized in that, described lathe bed (1) is provided with respectively and four clamp structures feeding station one to one, hole processing stations, screw thread processing stations and blanking station, described feeding station, hole processing stations, screw thread processing stations and blanking station set gradually along the rotation direction of rotating disk (11), it is first that described processing stations place, hole is provided with double-shaft power, described screw thread processing stations place is provided with double-shaft power two, described blanking station place is provided with blanking unit.

2. metal cutting building-block machine according to claim 1, it is characterized in that, the first support one (21) that comprises of described double-shaft power, be arranged in the axis of guide one on support one (21), the cylinder one that is sheathed on the linear bearing one on the axis of guide one and drives linear bearing one to move along the axis of guide one, the top of described linear bearing one is fixed with translation plates one (22), described translation plates one (22) is provided with main spindle box one (23), in described main spindle box one (23), be equipped with rotating shaft one (24), the rear portion of described main spindle box one (23) is provided with the motor one (25) rotating for drive shaft one (24), in described main spindle box one (23), be also provided with the rotating shaft two (26) be arrangeding in parallel with rotating shaft one (24), described rotating shaft two (26) is in transmission connection by Timing Belt one and rotating shaft one (24), described rotating shaft one (24) is provided with aperture knife tool with the front end of rotating shaft two (26).

3. metal cutting building-block machine according to claim 2, it is characterized in that, described double-shaft power two comprises support two (31), be arranged in the axis of guide two on support two (31), the cylinder two that is sheathed on the linear bearing two on the axis of guide two and drives linear bearing two to move along the axis of guide two, the top of described linear bearing two is fixed with translation plates two (32), described translation plates two (32) is provided with main spindle box two (33), in described main spindle box two (33), be equipped with rotating shaft three (34), the rear portion of described main spindle box two (33) is provided with the motor two (35) rotating for drive shaft three (34), in described main spindle box two (33), be also provided with the rotating shaft four (36) be arrangeding in parallel with rotating shaft three (34), described rotating shaft four (36) is in transmission connection by Timing Belt two and rotating shaft three (34), described rotating shaft three (34) is provided with threading tool with the front end of rotating shaft four (36).

4. according to the metal cutting building-block machine described in claim 2 or 3, it is characterized in that, described clamp structure comprises two positioning convex (41) of being located on rotating disk (11) and is located at the compression cylinder (42) of positioning convex (41) top, described compression cylinder (42) is inverted and is arranged, and the piston rod of described compression cylinder (42) is provided with pressing plate (43).

5. metal cutting building-block machine according to claim 4, it is characterized in that, described blanking unit comprises to be located at the pusher cylinder (51) of rotating disk (11) below and to be located at the shoving hole (52) on rotating disk (11), the piston rod of described pusher cylinder (51) is provided with push pedal (53), in described push pedal (53), have for stretching to the push rod (54) in shoving hole (52), described lathe bed (1) is provided with and is positioned at the material-dropping hole (55) that pusher cylinder (51) is located.

6. metal cutting building-block machine according to claim 5, it is characterized in that, the both sides of each described positioning convex (41) are equipped with shoving hole (52), two 4 of described push rods (54) and with shoving hole (52) the corresponding setting one by one that is positioned at positioning convex (41) both sides.

7. metal cutting building-block machine according to claim 3, is characterized in that, on described lathe bed (1), is also provided with for aperture knife tool and threading tool are lubricated to cooling lubricating and cooling unit.

8. metal cutting building-block machine according to claim 7, it is characterized in that, described lubricating and cooling unit is four: with the lubricating and cooling unit one (61) of rotating shaft one (24) corresponding setting, with the lubricating and cooling unit two (62) of rotating shaft two (26) corresponding settings, with the lubricating and cooling unit three (63) of rotating shaft three (34) corresponding settings and with the lubricating and cooling unit four (64) of rotating shaft four (36) corresponding settings.