CN105171003A - Roller type feeding machine of numerical control lathe - Google Patents

Abstract

The invention discloses a roller type feeding machine of a numerical control lathe. The roller type feeding machine comprises a mounting bottom plate, a feeding drive mounting base, a material storage roller, a material storage roller mounting rack, a flexible rubber rod, a flexible rubber rod mounting barrel, a feeding motor, a feeding primary gear, a feeding secondary gear, a power drive shaft, a rubber rod mounting barrel primary drive wheel, a rubber rod mounting barrel secondary drive wheel, a primary guide wheel, a secondary guide wheel, a material storage barrel regulating motor, a material storage barrel regulating primary drive wheel, a material storage barrel regulating secondary drive wheel, a grooved wheel, a grooved wheel driving lever, a rod outlet, a hydraulic oil outlet tube, a hydraulic oil inlet tube, a regulating hydraulic cylinder, a regulating hydraulic cylinder mounting ring, a control console and a hydraulic pump station. According to the roller type feeding machine, the material storage roller is arranged, so that storage and automatic feeding for rods used by different numerical control lathes are realized; and the utilization efficiency of the numerical control lathe is improved, so that the production cost is reduced; the flexible rubber rod is arranged, so that the rods processed by the numerical control lathe can be utilized to the greatest extent, and therefore, a raw material utilization rate is increased.

Description

A kind of drum-type numerically controlled lathe feeder

Technical field

The present invention relates to a kind of mechanical assistance process equipment, be specifically related to a kind of drum-type numerically controlled lathe feeder, belong to automation assisted machining techniques field.

Background technology

Along with the development of science and technology, automation processing and intelligent machining technology are development trends that is modern and predictable future, and nearly decades, numerical control device obtains continuous development, increasing numerically controlled processing equipment is put in the middle of use, as numerically controlled lathe, CNC milling machine etc.But in the use procedure of numerically controlled processing equipment, encounter some problems equally.Such as when using numerically controlled lathe to carry out bar processing work in enormous quantities, although the processing work of part automatically can be completed, do not need manually to operate, but after processing a part, more changing jobs of part still needs manually to carry out, not only waste human resources, reduce production and processing efficiency simultaneously, virtually add the cost of part processing.

Summary of the invention

For the problems referred to above, the invention provides a kind of drum-type numerically controlled lathe feeder, it, by being provided with storing cylinder and flexible rubber rod, achieving the automatic feeding function of numerically controlled lathe, improves efficiency of numerical control (NC) machining, reduce production cost.

The technical scheme that the present invention takes is: a kind of drum-type numerically controlled lathe feeder, comprise mounting base, feeding drive installation seat, storing cylinder and storing cylinder installing rack, flexible rubber rod and flexible rubber rod mounting cylinder, rubber bar installs cylinder base, feeding motor, feeding master gear and feeding are from gear, Power Available Shaft, rubber bar mounting cylinder main drive wheel and rubber bar mounting cylinder are from driving wheel, main boot wheel and from guide wheel, material storage tube adjustment motor, material storage tube adjustment main drive wheel and material storage tube adjustment are from driving wheel, sheave and sheave driving lever, bar exports, hydraulic oil outlet pipe and hydraulic oil inlet pipe, adjustment hydraulic cylinder and adjustment hydraulic cylinder installing ring, console and hydraulic power unit, it is characterized in that: described rubber bar installs cylinder base, feeding drive installation seat, storing cylinder installing rack is fixedly mounted on mounting base successively, described console and hydraulic power unit are fixedly mounted on mounting base, and be positioned at below rubber bar installation cylinder base, described storing cylinder is rotatably installed on storing cylinder installing rack, and storing cylinder end is provided with bar outlet, and the described axis direction of bar outlet and the axis direction of storing cylinder are parallel to each other, described adjustment hydraulic cylinder installing ring is sleeved on storing its periphery, and described adjustment hydraulic cylinder has six, and uniform being arranged on adjusts on hydraulic cylinder installing ring, and the center of adjustment hydraulic cylinder installing ring is all pointed in the piston axis direction of each adjustment hydraulic cylinder, described hydraulic oil outlet pipe and hydraulic oil inlet pipe are installed on adjustment hydraulic cylinder installing ring, hydraulic oil outlet pipe one end is connected with six outlet plenums adjusting hydraulic cylinder, and the other end is connected with hydraulic power unit, hydraulic oil inlet pipe one end is connected with six entrance cavities adjusting hydraulic cylinder, and the other end is connected with hydraulic power unit.

Described material storage tube adjustment motor is fixedly mounted on storing cylinder installing rack sidepiece, described material storage tube adjustment main drive wheel is fixedly mounted on material storage tube adjustment electric machine main shaft, and be connected from driving wheel with the material storage tube be arranged on material storage tube installing rack adjustment by Timing Belt, described sheave driving lever and material storage tube adjust from driving wheel coaxially affixed, sheave driving lever and sheave form Geneva mechanism, and described sheave and storing cylinder coaxially fixedly mount.

Described Power Available Shaft is rotatably installed in feeding drive installation seat top, and mutually vertical with the axis of storing cylinder, and described feeding is fixedly mounted on Power Available Shaft successively from gear, rubber bar mounting cylinder main drive wheel, main boot wheel; Described feeding motor is fixedly mounted on feeding drive installation seat top, feeding electric machine main shaft is installed with feeding master gear, and engages each other from gear with feeding; Described flexible rubber rod mounting cylinder is rotatably installed in rubber bar and installs cylinder base top, the axis direction installed is mutually vertical with the axis of storing cylinder, described rubber bar mounting cylinder coaxially fixedly mounts from driving wheel and flexible rubber rod mounting cylinder, and is connected with rubber bar mounting cylinder main drive wheel by V-belt; Described is rotatably installed in feeding drive installation seat from guide wheel, and is positioned at immediately below main boot wheel, and main boot is taken turns and is parallel to each other from the axis of guide wheel.

Described feeding motor, material storage tube adjustment motor, adjustment hydraulic cylinder are all connected with console, and hydraulic power unit is also connected with console.

Further, described storing cylinder is provided with six U-shaped stock chests, each U-shaped stock chest not of uniform size, and described sheave has six stations, and each station and each U-shaped stock chest are mutually corresponding and overlap.

Further, described main boot wheel is identical with from guide wheel profile, and jointly form round pass, pass diameter is slightly larger than the diameter of flexible rubber rod.

Further, described flexible rubber rod is wrapped on flexible rubber rod mounting cylinder, flexible rubber club head is taken turns and one of them U-shaped stock chest one of them station of the pass formed from guide wheel, sheave, storing cylinder by main boot successively, and described main boot is taken turns and is located along the same line with one of them U-shaped stock chest one of them station of the pass formed from guide wheel, sheave, storing cylinder.

Further, described feeding motor, material storage tube adjustment motor is servomotor; Described rubber bar mounting cylinder main drive wheel and rubber bar mounting cylinder are vee-pulley from driving wheel; Described material storage tube adjustment main drive wheel and material storage tube adjustment are synchronous pulley from driving wheel.

Further, described rubber bar mounting cylinder main drive wheel is identical from the gearratio of gear with feeding with feeding master gear from the gearratio of driving wheel with rubber bar mounting cylinder.

Owing to present invention employs technique scheme, the present invention has the following advantages: (1) the present invention, by arranging storing cylinder, achieves storage and self-feeding that different numerically controlled lathe uses bar; (2) the present invention can improve the utilization ratio of numerically controlled lathe, reduces the waste of human resources, thus reduces production cost; (3) the present invention is by being provided with flexible rubber rod, the bar of lathe in machining can be made to obtain utilization as much as possible, namely improve the utilization rate of raw material, and in traditional processing feeding style, the end of raw material often can not get sufficient utilization.

Accompanying drawing explanation

Fig. 1 is entirety assembling perspective view of the present invention.

Fig. 2 is the partial enlarged drawing of the present invention's part.

Fig. 3 is the entirety assembling perspective view of another angle of the present invention.

Fig. 4 is the assembling perspective view of mounting base and storing cylinder installing rack in the present invention.

Fig. 5 is the perspective view of storing cylinder in the present invention.

Drawing reference numeral: 1-mounting base; 2-feeding drive installation seat; The adjustment of 3-material storage tube is from driving wheel; 4-material storage tube adjustment main drive wheel; 5-material storage tube adjustment motor; 6-storing cylinder installing rack; 7-storing cylinder; 8-adjusts hydraulic cylinder installing ring; 9-adjusts hydraulic cylinder; 10-feeding is from gear; 11-rubber bar installs cylinder base; 12-V-belt; 13-rubber bar mounting cylinder is from driving wheel; 14-flexible rubber rod mounting cylinder; 15-flexible rubber rod; 16-Power Available Shaft; 17-main boot is taken turns; 18-is from guide wheel; 19-feeding motor; 20-sheave; 21-sheave driving lever; 22-hydraulic oil outlet pipe; 23-hydraulic oil inlet pipe; 24-bar; 25-bar exports; 26-Timing Belt; 27-hydraulic power unit; 28-console; 29-feeding master gear; 30-rubber bar mounting cylinder main drive wheel; 701-U type stock chest.

Detailed description of the invention

Below in conjunction with specific embodiment, the invention will be further described, is used for explaining the present invention in this illustrative examples of inventing and explanation, but not as a limitation of the invention.

As Fig. 1, Fig. 2, Fig. 3, Fig. 4, shown in Fig. 5, a kind of drum-type numerically controlled lathe feeder, comprise mounting base 1, feeding drive installation seat 2, storing cylinder 7 and storing cylinder installing rack 6, flexible rubber rod 15 and flexible rubber rod mounting cylinder 14, rubber bar installs cylinder base 11, feeding motor 19, feeding master gear 29 and feeding are from gear 10, Power Available Shaft 16, rubber bar mounting cylinder main drive wheel 30 and rubber bar mounting cylinder are from driving wheel 13, main boot wheel 17 and from guide wheel 18, material storage tube adjustment motor 5, material storage tube adjustment main drive wheel 4 and material storage tube adjustment are from driving wheel 3, sheave 20 and sheave driving lever 21, bar outlet 25, hydraulic oil outlet pipe 22 and hydraulic oil inlet pipe 23, adjustment hydraulic cylinder 9 and adjustment hydraulic cylinder installing ring 8, console 28 and hydraulic power unit 27.Rubber bar installation cylinder base 11, feeding drive installation seat 2, storing cylinder installing rack 6 are fixedly mounted on mounting base 1 successively, and console 28 and hydraulic power unit 27 are fixedly mounted on mounting base 1, and are positioned at below rubber bar installation cylinder base 11.Storing cylinder 7 is rotatably installed on storing cylinder installing rack 6, and storing cylinder 7 end is provided with bar outlet 25, and the bar outlet axis direction of 25 and the axis direction of storing cylinder 7 are parallel to each other.Adjustment hydraulic cylinder installing ring 8 is sleeved on storing cylinder 7 periphery, and adjustment hydraulic cylinder 9 has six, and uniform being arranged on adjusts on hydraulic cylinder installing ring 8, and the center of adjustment hydraulic cylinder installing ring 8 is all pointed in the piston axis direction of each adjustment hydraulic cylinder 9.Hydraulic oil outlet pipe 22 and hydraulic oil inlet pipe 23 are installed on adjustment hydraulic cylinder installing ring 8.Hydraulic oil outlet pipe 22 one end is connected with six outlet plenums adjusting hydraulic cylinder 9, and the other end is connected with hydraulic power unit 27.Hydraulic oil inlet pipe 23 one end is connected with six entrance cavities adjusting hydraulic cylinder 9, and the other end is connected with hydraulic power unit 27.

Material storage tube adjustment motor 5 is fixedly mounted on storing cylinder installing rack 6 sidepiece, material storage tube adjustment main drive wheel 4 is fixedly mounted on material storage tube adjustment motor 5 main shaft, and to be adjusted with the material storage tube be arranged on material storage tube installing rack 6 by Timing Belt 26 and be connected from driving wheel 3, sheave driving lever 21 and material storage tube adjust from driving wheel 3 coaxially affixed, sheave driving lever 21 and sheave 20 form Geneva mechanism, and sheave 20 and storing cylinder 7 coaxially fixedly mount.

Power Available Shaft 16 is rotatably installed in feeding drive installation seat 2 top, and mutually vertical with the axis of storing cylinder 7, and feeding is fixedly mounted on Power Available Shaft 16 successively from gear 10, rubber bar mounting cylinder main drive wheel 30, main boot wheel 17.Feeding motor 19 is fixedly mounted on feeding drive installation seat 2 top, feeding motor 19 main shaft is installed with feeding master gear 29, and engages each other from gear 10 with feeding.Flexible rubber rod mounting cylinder 14 is rotatably installed in rubber bar and installs cylinder base 11 top, the axis direction installed is mutually vertical with the axis of storing cylinder 7, rubber bar mounting cylinder coaxially fixedly mounts from driving wheel 13 and flexible rubber rod mounting cylinder 14, and is connected with rubber bar mounting cylinder main drive wheel 30 by V-belt 12.Be rotatably installed in feeding drive installation seat 2 from guide wheel 18, and be positioned at main boot wheel 17 immediately below, main boot wheel 17 be parallel to each other from the axis of guide wheel 18.

Feeding motor 19, material storage tube adjustment motor 5, adjustment hydraulic cylinder 9 are all connected with console 28, and hydraulic power unit 27 is also connected with console 28.

Storing cylinder 7 is provided with six U-shaped stock chests 701, each U-shaped stock chest 701 not of uniform size, and described sheave 20 has six stations, and each station and each U-shaped stock chest 701 are mutually corresponding and overlap.Main boot wheel 17 is identical with from guide wheel 18 profile, and jointly form round pass, pass diameter is slightly larger than the diameter of flexible rubber rod 15.Flexible rubber rod 15 is wrapped on flexible rubber rod mounting cylinder 14, flexible rubber rod 15 heads are successively by one of them U-shaped stock chest 701 one of them station of main boot wheel 17 and pass form from guide wheel 18, sheave 20, storing cylinder 7, and one of them station of main boot wheel 17 and the pass formed from guide wheel 18, sheave 20, storing cylinder 7, one of them U-shaped stock chest 701 is located along the same line.Feeding motor 19, material storage tube adjustment motor 5 is servomotor; Described rubber bar mounting cylinder main drive wheel 30 and rubber bar mounting cylinder are vee-pulley from driving wheel 13; Described material storage tube adjustment main drive wheel 4 and material storage tube adjustment are synchronous pulley from driving wheel 3.Rubber bar mounting cylinder main drive wheel 30 is identical from the gearratio of gear 10 with feeding with feeding master gear 29 from the gearratio of driving wheel 13 with rubber bar mounting cylinder.

Operation principle of the present invention is: the present invention in use, first the present invention is arranged on the spindle nose of numerically controlled lathe, and bar outlet 25 is connected with spindle of numerical control lathe, then in six the U-shaped stock chests 701 bar 24 needed for numerically controlled lathe is placed on storing cylinder 7 respectively, by console 28, on adjustment hydraulic cylinder installing ring 8 six pistons adjusting hydraulic cylinder 9 are stretched out, namely allow storing cylinder 7 geo-stationary at storing cylinder installing rack 6, then feeding motor 19 is started, under the driving of feeding motor 19, drive feeding master gear 29 and feeding from gear 10 successively, rubber bar mounting cylinder main drive wheel 30 and rubber bar mounting cylinder are from driving wheel 13, flexible rubber rod mounting cylinder 14 is finally made to rotate, main boot wheel 17 rotates simultaneously, now flexible rubber rod 15 just departs from from flexible rubber rod mounting cylinder 14 thereupon, and successively by main boot wheel 17 and the pass formed from guide wheel 18, one of them station of sheave 20, one of them U-shaped stock chest 701 on storing cylinder 7, final just gradually being delivered in numerically controlled lathe by the bar 24 in this U-shaped stock chest 701 is processed.When needs use different size bar 24 time, then start material storage tube adjustment motor 5, under the drive of material storage tube adjustment motor 5, drive material storage tube adjustment main drive wheel 4 and material storage tube adjustment from driving wheel 3, sheave driving lever 21 successively, final sheave driving lever 21 drives sheave 20 to rotate a station, namely allow storing cylinder 7 rotate 60 degree, rotate to next U-shaped stock chest 701, repeat the automatic transmission that above process can realize numerically controlled lathe bar.

Claims (6)

1. a drum-type numerically controlled lathe feeder, comprises mounting base (1), feeding drive installation seat (2), storing cylinder (7) and storing cylinder installing rack (6), flexible rubber rod (15) and flexible rubber rod mounting cylinder (14), rubber bar installs cylinder base (11), feeding motor (19), feeding master gear (29) and feeding are from gear (10), Power Available Shaft (16), rubber bar mounting cylinder main drive wheel (30) and rubber bar mounting cylinder are from driving wheel (13), main boot wheel (17) and from guide wheel (18), material storage tube adjustment motor (5), material storage tube adjustment main drive wheel (4) and material storage tube adjustment are from driving wheel (3), sheave (20) and sheave driving lever (21), bar outlet (25), hydraulic oil outlet pipe (22) and hydraulic oil inlet pipe (23), adjustment hydraulic cylinder (9) and adjustment hydraulic cylinder installing ring (8), console (28) and hydraulic power unit (27), is characterized in that: described rubber bar installs cylinder base (11), feeding drive installation seat (2), storing cylinder installing rack (6) is fixedly mounted on mounting base (1) successively, and described console (28) and hydraulic power unit (27) are fixedly mounted on mounting base (1), and is positioned at rubber bar installation cylinder base (11) below, described storing cylinder (7) is rotatably installed on storing cylinder installing rack (6), and storing cylinder (7) end is provided with bar outlet (25), and the described bar outlet axis direction of (25) and the axis direction of storing cylinder (7) are parallel to each other, described adjustment hydraulic cylinder installing ring (8) is sleeved on storing cylinder (7) periphery, described adjustment hydraulic cylinder (9) has six, uniform being arranged on adjusts on hydraulic cylinder installing ring (8), and the center of adjustment hydraulic cylinder installing ring (8) is all pointed in the piston axis direction of each adjustment hydraulic cylinder (9), described hydraulic oil outlet pipe (22) and hydraulic oil inlet pipe (23) are installed in adjustment hydraulic cylinder installing ring (8), hydraulic oil outlet pipe (22) one end is connected with six outlet plenums adjusting hydraulic cylinder (9), and the other end is connected with hydraulic power unit (27), hydraulic oil inlet pipe (23) one end is connected with six entrance cavities adjusting hydraulic cylinder (9), and the other end is connected with hydraulic power unit (27),

Described material storage tube adjustment motor (5) is fixedly mounted on storing cylinder installing rack (6) sidepiece, described material storage tube adjustment main drive wheel (4) is fixedly mounted on material storage tube adjustment motor (5) main shaft, and adjust with the material storage tube be arranged on material storage tube installing rack (6) be connected from driving wheel (3) by Timing Belt (26), described sheave driving lever (21) and material storage tube adjust from driving wheel (3) coaxially affixed, sheave driving lever (21) and sheave (20) form Geneva mechanism, and described sheave (20) and storing cylinder (7) coaxially fixedly mount;

Described Power Available Shaft (16) is rotatably installed in feeding drive installation seat (2) top, and mutually vertical with the axis of storing cylinder (7), described feeding is fixedly mounted on Power Available Shaft (16) from gear (10), rubber bar mounting cylinder main drive wheel (30), main boot wheel (17) successively; Described feeding motor (19) is fixedly mounted on feeding drive installation seat (2) top, feeding motor (19) main shaft is installed with feeding master gear (29), and engages each other from gear (10) with feeding; Described flexible rubber rod mounting cylinder (14) is rotatably installed in rubber bar and installs cylinder base (11) top, the axis direction installed is mutually vertical with the axis of storing cylinder (7), described rubber bar mounting cylinder coaxially fixedly mounts from driving wheel (13) and flexible rubber rod mounting cylinder (14), and is connected with rubber bar mounting cylinder main drive wheel (30) by V-belt (12); Described is rotatably installed in feeding drive installation seat (2) from guide wheel (18), and is positioned at immediately below main boot wheel (17), and main boot is taken turns (17) and is parallel to each other from the axis of guide wheel (18);

Described feeding motor (19), material storage tube adjustment motor (5), adjustment hydraulic cylinder (9) are all connected with console (28), and hydraulic power unit (27) is also connected with console (28).

2. a kind of drum-type numerically controlled lathe feeder as claimed in claim 1, it is characterized in that: described storing cylinder (7) is provided with six U-shaped stock chests (701), each U-shaped stock chest (701) not of uniform size, described sheave (20) has six stations, and each station and each U-shaped stock chest (701) are mutually corresponding and overlap.

3. a kind of drum-type numerically controlled lathe feeder as claimed in claim 1, is characterized in that: described main boot wheel (17) is identical with from guide wheel (18) profile, and jointly form round pass, pass diameter is slightly larger than the diameter of flexible rubber rod (15).

4. a kind of drum-type numerically controlled lathe feeder as claimed in claim 1, it is characterized in that: described flexible rubber rod (15) is wrapped on flexible rubber rod mounting cylinder (14), flexible rubber rod (15) head is successively by main boot wheel (17) and the pass formed from guide wheel (18), one of them station of sheave (20), storing cylinder (7) one of them U-shaped stock chest (701) upper, described main boot wheel (17) and the pass formed from guide wheel (18), one of them station of sheave 20, storing cylinder (7) one of them U-shaped stock chest (701) upper is located along the same line.

5. a kind of drum-type numerically controlled lathe feeder as claimed in claim 1, is characterized in that: described feeding motor (19), material storage tube adjustment motor (5) are servomotor; Described rubber bar mounting cylinder main drive wheel (30) and rubber bar mounting cylinder are vee-pulley from driving wheel (13); Described material storage tube adjustment main drive wheel (4) and material storage tube adjustment are synchronous pulley from driving wheel (3).

6. a kind of drum-type numerically controlled lathe feeder as claimed in claim 1, is characterized in that: described rubber bar mounting cylinder main drive wheel (30) is identical from the gearratio of gear (10) with feeding with feeding master gear (29) from the gearratio of driving wheel (13) with rubber bar mounting cylinder.