CN103495868A

CN103495868A - Lock cylinder automatic machining device

Info

Publication number: CN103495868A
Application number: CN201310454846.8A
Authority: CN
Inventors: 董仲伟; 周建武
Original assignee: Wuxi Zhongwang Siwei Technology Co Ltd
Current assignee: Dongying Gangcheng Thermal Power Co.,Ltd.
Priority date: 2013-09-30
Filing date: 2013-09-30
Publication date: 2014-01-08
Anticipated expiration: 2033-09-30
Also published as: CN103495868B

Abstract

The invention relates to a lock cylinder automatic machining device which comprises a first machine frame and a second machine frame, wherein a vibration material disc is arranged on the first machine frame, a rotation disc component is arranged on the second machine frame, a plurality of sets of locating dies are arranged in the circumferential direction of the rotation disc component and located on the second machine frame. The periphery of the rotation disc component is provided with a feeding unit, a drilling unit, a first groove milling unit, a second groove milling unit, a third groove milling unit, a first oblique hole machining unit, a second oblique hole machining unit and a discharging unit in the anticlockwise direction. A discharging pipe of the vibration material disc extends into the feeding unit, and the first machine frame is further provided with a locating unit. The lock cylinder automatic machining device has the advantages that the structure is simple, operation is simple and convenient, whole automation of the lock cylinder machining is achieved through all units, machining efficiency is good, quality is high, time and labor are saved, investment on enterprise labor resources is saved, production efficiency is greatly improved, and whole-journey automation of lock cylinder machining is achieved.

Description

A kind of lock core automatic machining device

Technical field

The present invention relates to machining equipment, especially a kind of lock core automatic machining device.

Background technology

Lock core is widely used in the daily living articles such as door and window, furniture, automobile as the core component of lockset, along with the raising of people to its security performance requirement, enterprise has higher requirement to the assembling of lock core, the processing of lock core is all to utilize the continuous productive processes such as lathe, drilling machine and milling machine by manpower at present, but the processing mode of this continuous productive process can't guarantee every dimensional requirement of lock core, waste time and energy, can't meet output and quality, greatly improved the input of human resources, affected production efficiency simultaneously.

Summary of the invention

The applicant, for above-mentioned existing issue, is studied improvement, and a kind of lock core automatic machining device simple in structure, easy and simple to handle is provided, time saving and energy saving, has greatly improved production efficiency.

The technical solution adopted in the present invention is as follows:

A kind of lock core automatic machining device, comprise the first frame and the second frame, on the first frame, vibrating tray is set; On described the second frame, the rolling disc assembly is set, many group positioning modules are along the circumferential directions of described rolling disc assembly, be positioned on described the second frame, periphery in described rolling disc assembly, arrange in the counterclockwise direction feeding unit material, units, the first groove milling unit, the second groove milling unit, the 3rd groove milling unit, the first inclined hole machining cell, the second inclined hole machining cell and go out material unit, the discharge nozzle of described vibrating tray extends into described feeding unit material, returning apparatus positioning unit on described the first frame.

Its further technical scheme is:

Described rolling disc assembly comprises the total motor be installed in frame, and the output of described total motor connects protractor by transmission mechanism, is positioned at device displacement index dial on the output shaft of described protractor;

Described feeding unit material comprises rack-mounted the first mount pad, holder and described the first mount pad are affixed, have the first transfer passage passed through for product on described holder, be positioned at a side of described the first mount pad, also arrange the second mount pad on described frame, the first air cylinder device is parallel in described the second mount pad and with described holder, at the output of described the first cylinder, connects the first push pedal, in described the first push pedal, installs push rod; Be positioned at the front portion of described the first mount pad, returning apparatus the 3rd mount pad on described frame, device the second cylinder on described the 3rd mount pad, the output of described the second cylinder connects the second push pedal, also has the second transfer passage passed through for product in the second push pedal;

Described units comprises the support be arranged symmetrically with, device the first slipping mechanism on described support, and described slipping mechanism comprises the first line slideway, first take-up housing that is slidably connected on described the first line slideway, affixed the first connecting plate in the top of the first take-up housing; The both sides of " U " shape installing plate and the described two stands side be arranged symmetrically with are affixed, device the first servomotor on described first " U " shape installing plate, the output of described the first servomotor runs through described first " U " shape installing plate and connects with the first lead screw transmission mechanism that is installed on the first connecting plate bottom; Be positioned at upper unit second connecting plate of described first " U " shape installing plate, second " U " shape installing plate and described the second connecting plate are affixed, at described second " U " shape installing plate internal placement second slipping mechanism identical with above-mentioned the first slipping mechanism structure, the output of the second servomotor runs through described second " U " shape installing plate and drives the second slipping mechanism to do vertical displacement, described the second slipping mechanism and motor mount are affixed, install motor on motor mount, the output device drill bit of described motor;

Described the first groove milling unit comprises the rectangle mount pad, push air cylinder device in the inside of described rectangle mount pad, at four jiaos of the inside of described rectangle mount pad place's returning apparatus guide rod, one end of described guide rod runs through described rectangle mount pad and connects the bottom of motor mount, rotary electric machine is solid on described motor mount, and the output shaft of rotary electric machine is by collar bush and connect the first main shaft milling cutter;

The structure of described the second groove milling unit and the 3rd groove milling unit includes main basal base, be arranged symmetrically with the second line slideway on main basal base, the second take-up housing and described the second line slideway are slidably connected, affixed the first fixed head on described the second take-up housing, the second fixed head and described the first fixed head are affixed, and vertically the output of cylinder runs through the first cylinder mounting plate affixed with described the second fixed head; Also be arranged symmetrically with the 3rd line slideway on described the first fixed head, described the 3rd line slideway and the 3rd take-up housing are slidably connected, the solid plate in the top of the 3rd take-up housing the affixed the 3rd, the 4th fixed head and described the 3rd fixed head are affixed, and the output of lateral cylinder runs through the second cylinder mounting plate and is connected with the 4th fixed head; Install motor cabinet on described the 3rd fixed head, the output motor device is on described motor cabinet, the output of described output motor is connected with an end of turning cylinder by shaft coupling, and described turning cylinder through-going device is inner at rotating shaft cover, at the other end of described turning cylinder, connects the second main shaft milling cutter;

Describedly go out material unit and comprise " L " shape installing rack, at described " L " shape installing rack, connect the discharging cylinder, the output of discharging cylinder connects kick-off arm, returning apparatus tapping channel plate in described " L " shape installing rack;

Described positioning unit bag expands the first backstay and the second backstay, one end of described the first backstay and the second backstay is all affixed with the top of frame, the other end of described the first backstay runs through described displacement index dial affixed with an end of connecting rod, and the other end of the other end of described connecting rod and the second backstay is affixed.

Beneficial effect of the present invention is as follows:

The present invention is simple in structure, easy and simple to handle, utilizes each unit to realize the whole-process automatic words of lock core processing, has working (machining) efficiency good, the advantage that quality is high, time saving and energy saving, not only saved the input of drainage of human resources, also greatly improve production efficiency, realized the whole-course automation of lock core processing.

The accompanying drawing explanation

Fig. 1 is perspective view of the present invention.

The structural representation that Fig. 2 is rolling disc assembly of the present invention.

The structural representation that Fig. 3 is the feeding unit material of device on frame.

Fig. 4 is the structure for amplifying schematic diagram of Fig. 3 at the A place.

The structural representation that Fig. 5 is feeding unit material in the present invention.

The structural representation that Fig. 6 is units in the present invention.

The structural representation that Fig. 7 is the first groove milling unit in the present invention.

The structural representation that Fig. 8 is the second groove milling unit and the 3rd groove milling unit in the present invention.

Fig. 9 goes out the structural representation of material unit in the present invention.

The specific embodiment

Below in conjunction with accompanying drawing, the specific embodiment of the present invention is described.

As shown in Figure 1, the present invention includes the first frame 1 and the second frame 11, on the first frame 1, vibrating tray 2 is set; On the second frame 11, the rolling disc assembly is set, many group positioning modules 16 are along the circumferential directions of described rolling disc assembly, be positioned on the second frame 11, periphery in the rolling disc assembly, arrange in the counterclockwise direction feeding unit material 3, units 4, the first groove milling unit 5, the second groove milling unit 6, the 3rd groove milling unit 7, the first inclined hole machining cell 8, the second inclined hole machining cell 9 and go out material unit 10, the discharge nozzle 201 of vibrating tray 2 extends into described feeding unit material 3, returning apparatus positioning unit on the first frame 1.

As shown in Figure 2, the rolling disc assembly comprises the total motor 12 be installed in frame 11, the principles and structure that the output of total motor 12 connects protractor 14(transmission mechanism 13 by transmission mechanism 13 is existing known configurations, comprise driving wheel, driven pulley and connect the Timing Belt of above-mentioned driving wheel and driven pulley), be positioned at device displacement index dial 15 on the output shaft of protractor 14.

As shown in Figures 3 to 5, feeding unit material 3 comprises the first mount pad 302 be arranged on frame 11, holder 303 and the first mount pad 302 are affixed, have the first transfer passage 313 passed through for product 17 on holder 303, as shown in Figure 5, be positioned at a side of the first mount pad 302, also arrange the second mount pad 307 on frame 11, the first cylinder 306 is installed on the second mount pad 307 and is parallel with holder 303, output at the first cylinder 306 connects device push rod 309 in the first push pedal 308, the first push pedals 308; Be positioned at the front portion of the first mount pad 302, returning apparatus the 3rd mount pad 301 on frame 11, device the second cylinder 312 on the 3rd mount pad 301, the output of the second cylinder 312 connects the second push pedal 311, also have the second transfer passage 314 passed through for product 17 in push pedal 311, the discharge nozzle 201 that above-mentioned the first transfer passage 313 stretches out with vibrating tray 2 is connected.

As shown in Figure 6, units 4 comprises the support 401 be arranged symmetrically with, device the first slipping mechanism on support 401, and the first slipping mechanism comprises the first line slideway 406, affixed first connecting plate 408 in top of the first take-up housing 407, the first take-up housings 407 is slidably connected on the first line slideway 406, both sides and the described two stands be arranged symmetrically with 401 sides of " U " shape installing plate 402 are affixed, on first " U " shape installing plate 402, the output of device the first servomotor 403, the first servomotors 403 runs through described first " U " shape installing plate 402 and is connected 405 connections with the first lead screw transmission mechanism that is installed on the first connecting plate 408 bottoms, be positioned at upper unit second connecting plate 414 of first " U " shape installing plate 402, second " U " shape installing plate 409 is affixed with described the second connecting plate 414, second slipping mechanism identical with above-mentioned the first slipping mechanism structure in second " U " shape installing plate, 409 internal placement (so in Fig. 6 because of view relation not shown), the output of the second servomotor 410 runs through described second " U " shape installing plate 409 and drives the second slipping mechanism to do vertical displacement by the second lead screw transmission mechanism, the second slipping mechanism and motor mount 412 are affixed, device motor 411 on motor mount 412, the output device drill bit 413 of motor 411.

As shown in Figure 7, the first groove milling unit 5 comprises rectangle mount pad 501, push the inside that cylinder 503 is installed on rectangle mount pad 501, at four jiaos of the inside of rectangle mount pad 501 place's returning apparatus guide rod 502, one end of guide rod 502 runs through described rectangle mount pad 501 and connects the bottom of motor mount 506, rotary electric machine 506 is solid on described motor mount 506, and the output shaft 505 of rotary electric machine 506 is by collar bush 504 and connect the first main shaft milling cutter 508.

As shown in Figure 8, the structure of the second groove milling unit 6 and the 3rd groove milling unit 7 includes main basal base 601, be arranged symmetrically with the second line slideway 603 on main basal base 601, the second take-up housing 604 and the second line slideway 603 are slidably connected, affixed the first fixed head 605 on the second take-up housing 604, the second fixed head 602 is affixed with described the first fixed head 605, and vertically the output of cylinder 617 runs through the first cylinder mounting plate 601 affixed with described the second fixed head 602; Also be arranged symmetrically with the 3rd line slideway 606 on the first fixed head 605, described the 3rd line slideway 606 and the 3rd take-up housing 609 are slidably connected, the solid plate 610 in the top of the 3rd take-up housing 609 the affixed the 3rd, the 4th fixed head 618 is affixed with described the 3rd fixed head 610, and the output of lateral cylinder 608 runs through the second cylinder mounting plate 607 and is connected with the 4th fixed head 618; Device motor cabinet 615 on described the 3rd fixed head 610, output motor 616 devices are on described motor cabinet 615, the output of described output motor 616 is connected with an end of turning cylinder 611 by shaft coupling, described turning cylinder 611 through-going devices overlap 614 inside in rotating shaft, at the other end of described turning cylinder 611, connect the second main shaft milling cutter 612.

As shown in Figure 9, go out material unit 10 and comprise " L " shape installing rack 105, at " L " shape installing rack 105, connect discharging cylinder 101, the output of discharging cylinder 101 connects kick-off arm 102, at described " L " shape installing rack 105 interior returning apparatus tapping channel plates 104.The positioning unit bag expands the first backstay 18 and the second backstay 20, one end of described the first backstay 18 and the second backstay 20 is all affixed with the top of frame 11, the other end of described the first backstay 18 runs through described displacement index dial affixed with an end of connecting rod 19, and the other end of the other end of described connecting rod 19 and the second backstay 20 is affixed.

Specific works process of the present invention is as follows;

As shown in Figure 1, the product 17 that needs are processed is packed in vibrating tray 2, vibration by vibrating tray 2 enters product 17 the first transfer passage 313 inside of feeding unit material 3 by discharge nozzle 201, each product 17 of arranged in sequence is in the inner propelling of the first transfer passage 313, the second cylinder 312 work simultaneously, the output of the second cylinder 312 drives the second push pedal 311 to rise, until the second transfer passage 314 in the second push pedal 311 and the first transfer passage 313 are positioned on the same level line, after product 17 enters the second transfer passage 314, now the second cylinder 312 works on, the output of the second cylinder 312 promotes the second push pedal 311 continuation risings makes the second push pedal 311 higher than holder 303, now the first cylinder 306 starts, the output of the first cylinder 306 drives the first push pedal 308 to advance, the push rod 309 be connected with the first push pedal 308 servo-actuated and with product 17 butts, thereby product 17 is sent in positioning module 16.

As shown in Figure 2, now total motor 12 work, the output of total motor 12 drives protractor 14 work by transmission mechanism 13, thereby make displacement index dial 15 rotate a station, enters units 4.

As Fig. 1, shown in Fig. 6, after the positioning module 16 with product 17 enters units 4, the second servomotor 410 starts, its output rotates and drives the second slipping mechanism to do the displacement action of vertical direction by the second lead screw transmission mechanism, motor 411 rotates simultaneously, thereby drive drill bit 413 to rotate the processing that realizes hole site depth on product 17, due to the aperture of a plurality of diverse locations being set on product 17, now the first servomotor 403 work, the output of the first servomotor 403 rotates and drives the first slipping mechanism to do by the first lead screw transmission mechanism and moves forward and backward, realized thus the processing of position, diverse location hole.After the completion of processing of position, above-mentioned hole, total motor 12 works on,, the output of total motor 12 drives protractor 14 work by transmission mechanism 13, thereby make displacement index dial 15 rotate a station, enters the first groove milling unit 5.

As shown in Figure 7, after product 7 enters the first groove milling unit 5, pushing cylinder 503 starts, its output drive motors mount pad 501 upper and lower displacements, the layout of guide rod 502 makes the displacement of motor mount stable, rotary electric machine 506 work simultaneously, drive the first main shaft milling cutter 508 to rotate, and product 17 processed.After above-mentioned the first groove milling unit 5 completion of processing, total motor 12 work, the output of total motor 12 drives protractor 14 work by transmission mechanism 13, thereby make displacement index dial 15 rotate a station, enters the second groove milling unit 6.

As shown in Figure 8, after product 17 enters the second groove milling unit 6, vertically cylinder 617 starts, its output drives the second longitudinally displacement of fixed head 602, promote thus the first fixed head 605 and the second take-up housing 604 displacements, output motor 616 starts simultaneously, by the shaft coupling (not shown), drive turning cylinder 611 to rotate, driving the second main shaft milling cutter 612 rotates, realize thus the deep processing of groove on product 17, because the groove on product 17 is elongated slot, now lateral cylinder 608 starts, the output of lateral cylinder 608 drives the 3rd fixed head 610 to reach the 3rd take-up housing 609 be connected with the 3rd fixed head 610 and do horizontal straight-line displacement on the 3rd line slideway 608, drive thus whole motor cabinet 615 and make lateral displacement, realized thus the horizontal processing of groove on product 17.

Above description is explanation of the invention, is not that limited range of the present invention is referring to claim, in the situation that, without prejudice to basic structure of the present invention, the present invention can do any type of modification to the restriction of invention.

Claims

1. a lock core automatic machining device, is characterized in that: comprise the first frame (1) and the second frame (11), vibrating tray (2) is set on the first frame (1), on described the second frame (11), the rolling disc assembly is set, many group positioning modules (16) are along the circumferential directions of described rolling disc assembly, be positioned on described the second frame (11), periphery in described rolling disc assembly, arrange in the counterclockwise direction feeding unit material (3), units (4), the first groove milling unit (5), the second groove milling unit (6), the 3rd groove milling unit (7), the first inclined hole machining cell (8), the second inclined hole machining cell (9) and go out material unit (10), the discharge nozzle (201) of described vibrating tray (2) extends into described feeding unit material (3), at the upper returning apparatus positioning unit of described the first frame (1).

2. a kind of lock core automatic machining device as claimed in claim 1, it is characterized in that: described rolling disc assembly comprises the total motor (12) be installed in frame (11), the output of described total motor (12) connects protractor (14) by transmission mechanism (13), is positioned at device displacement index dial (15) on the output shaft of described protractor (14).

3. a kind of lock core automatic machining device as claimed in claim 1, it is characterized in that: described feeding unit material (3) comprises the first mount pad (302) be arranged on frame (11), holder (303) is affixed with described the first mount pad (302), have the first transfer passage (313) passed through for product on described holder (303), be positioned at a side of described the first mount pad (302), also arrange the second mount pad (307) on described frame (11), the first cylinder (306) is installed on described the second mount pad (307) and is parallel with described holder (303), output at described the first cylinder (306) connects the first push pedal (308), the upper device push rod (309) of described the first push pedal (308), be positioned at the front portion of described the first mount pad (302), at upper returning apparatus the 3rd mount pad (301) of described frame (11), upper device the second cylinder (312) of described the 3rd mount pad (301), the output of described the second cylinder (312) connects the second push pedal (311), also has the second transfer passage (314) passed through for product in the second push pedal (311).

4. a kind of lock core automatic machining device as claimed in claim 1, it is characterized in that: described units (4) comprises the support (401) be arranged symmetrically with, at upper device the first slipping mechanism of described support (401), described slipping mechanism comprises the first line slideway (406), the first take-up housing (407) that is slidably connected on described the first line slideway (406), affixed the first connecting plate in the top of the first take-up housing (407) (408), the both sides of " U " shape installing plate (402) and the described two stands be arranged symmetrically with (401) side are affixed, at upper device the first servomotor (403) of described first " U " shape installing plate (402), the output of described the first servomotor (403) runs through described first " U " shape installing plate (402) and is connected (405) with the first lead screw transmission mechanism that is installed on the first connecting plate (408) bottom and connects, be positioned at upper unit second connecting plate (414) of described first " U " shape installing plate (402), second " U " shape installing plate (409) is affixed with described the second connecting plate (414), second slipping mechanism identical with above-mentioned the first slipping mechanism structure in described second " U " shape installing plate (409) internal placement, the output of the second servomotor (410) runs through described second " U " shape installing plate (409) and drives the second slipping mechanism to do vertical displacement, described the second slipping mechanism and motor mount (412) are affixed, at the upper device motor (411) of motor mount (412), the output device drill bit (413) of described motor (411).

5. a kind of lock core automatic machining device as claimed in claim 1, it is characterized in that: described the first groove milling unit (5) comprises rectangle mount pad (501), push the inside that cylinder (503) is installed on described rectangle mount pad (501), at four jiaos of the inside of described rectangle mount pad (501) place's returning apparatus guide rod (502), one end of described guide rod (502) runs through described rectangle mount pad (501) and connects the bottom of motor mount (506), rotary electric machine (506) is solid on described motor mount (506), the output shaft (505) of rotary electric machine (506) is by collar bush (504) and connect the first main shaft milling cutter (508).

6. a kind of lock core automatic machining device as claimed in claim 1, it is characterized in that: the structure of described the second groove milling unit (6) and the 3rd groove milling unit (7) includes main basal base (601), be arranged symmetrically with the second line slideway (603) on main basal base (601), the second take-up housing (604) is slidably connected with described the second line slideway (603), at upper affixed the first fixed head (605) of described the second take-up housing (604), the second fixed head (602) is affixed with described the first fixed head (605), vertically the output of cylinder (617) runs through the first cylinder mounting plate (601) affixed with described the second fixed head (602), also be arranged symmetrically with the 3rd line slideway (606) on described the first fixed head (605), described the 3rd line slideway (606) is slidably connected with the 3rd take-up housing (609), the solid plate (610) in the top of the 3rd take-up housing (609) the affixed the 3rd, the 4th fixed head (618) is affixed with described the 3rd fixed head (610), and the output of lateral cylinder (608) runs through the second cylinder mounting plate (607) and is connected with the 4th fixed head (618), at the upper device motor cabinet (615) of described the 3rd fixed head (610), output motor (616) device is on described motor cabinet (615), the output of described output motor (616) is connected with an end of turning cylinder (611) by shaft coupling, described turning cylinder (611) through-going device is in rotating shaft cover (614) inside, at the other end of described turning cylinder (611), connects the second main shaft milling cutter (612).

7. a kind of lock core automatic machining device as claimed in claim 1, it is characterized in that: describedly go out material unit (10) and comprise " L " shape installing rack (105), connect discharging cylinder (101) at described " L " shape installing rack (105), the output of discharging cylinder (101) connects kick-off arm (102), returning apparatus tapping channel plate (104) in described " L " shape installing rack (105).

8. a kind of lock core automatic machining device as claimed in claim 1, it is characterized in that: described positioning unit bag expands the first backstay (18) and the second backstay (20), one end of described the first backstay (18) and the second backstay (20) is all affixed with the top of frame (11), the other end of described the first backstay (18) runs through described displacement index dial affixed with an end of connecting rod (19), and the other end of the other end of described connecting rod (19) and the second backstay (20) is affixed.