CN106032210A - Setter high sensitivity driving mechanism - Google Patents

Abstract

The invention discloses a setter high sensitivity driving mechanism comprising a transverse drive assembly, a vertical drive assembly, and a bearer supporting the transverse drive assembly; the transverse drive assembly comprises an annular conveyer belt, a drive wheel assembly, a drive wheel shaft, a transverse stepping motor, a fixed plate, a mount plate, a slide rail plate, a transverse slide block and a vertical-transverse connecting block; the vertical drive assembly comprises guide rods, an upper fixed plate, a lower fixed plate, a swing arm, a bearing, a vertical slide block, and a vertical stepping motor; the transverse slide block is provided with an upper roller and a lower roller arranged below the upper roller; the top end face of the slide rail plate is provided with an upper bar-shaped slide groove matched with the upper roller; the bottom end face of the slide rail plate is provided with a lower bar-shaped slide groove matched with the lower roller; the setter high sensitivity driving mechanism can improve left-right mobile stability and reliability of the transverse slide block, can enable the vertical slide block to consistently move up and down, so vertical and transverse motions can be high in precision; the setter high sensitivity driving mechanism is stable in operation, high in reliability, and long in life.

Description

High sensitivity drive mechanism for ordering machine

Technical field

The present invention relates to electronic equipment manufacture field, be especially for the high sensitivity drive mechanism of ordering machine.

Background technology

In the assembling course of processing of finished product, parts need to be put to specific position, especially electronic device field.For improving production efficiency and reducing production cost and human cost, need to carry out batch electronic component automatically precisely putting.And mostly ordering machine equipment in the market is to research and develop for large scale, the product of low precision, its travel mechanism is the most unstable, and skidding, delayed, the situation of card machine, broken belt easily occur, the most easily cause electronic component assembling problem crooked, that just differ, thus have a strong impact on quality and the efficiency of production.

Summary of the invention

It is an object of the invention to overcome the defect of above-mentioned existing structure, high sensitivity drive mechanism for ordering machine is provided, stability and reliability that transverse slider moves left and right can be improved, the uniformity that longitudinal sliding block moves up and down, has that vertically and horizontally mobile accuracy is high, stable, reliability is high, the advantage of length in service life.

The purpose of the present invention is achieved through the following technical solutions:

For the high sensitivity drive mechanism of ordering machine, including laterally driven assembly, zigzag tread patterns assembly and for supporting the bearing of laterally driven assembly；

Described laterally driven assembly includes endless belt conveyer, act on the driving pulley assembly of endless belt conveyer, for supporting the power axle of driving pulley assembly, for driving the horizontal stepper motor of driving pulley assembly transmission, the fixed plate being connected with bearing and be vertically arranged, it is fixed on the installing plate of fixed plate upper surface and horizontally set, it is fixed on fixed plate rear end face and the slide rail plate be arrangeding in parallel with fixed plate, can slide rail plate laterally moves relatively transverse slider, for connecting contiguous block in length and breadth and the conveyer belt briquetting of zigzag tread patterns assembly；Power axle is fixed on installing plate, the bottom of contiguous block front end face is connected with transverse slider in length and breadth, the top of contiguous block front end face removably connects with conveyer belt briquetting in length and breadth, conveyer belt briquetting is provided with the groove breach that may pass through endless belt conveyer in the end face being connected with contiguous block in length and breadth, the bottom of groove breach is provided with multiple positioning convex point, and endless belt conveyer is provided with multiple the first groove that can coordinate with positioning convex point；Transverse slider is provided with upper roller and is positioned at the bottom roller below upper roller, and the upper surface of slide rail plate is provided with the upper bar shaped chute that can coordinate with upper roller, and the lower surface of slide rail plate is provided with the lower bar shaped chute that can coordinate with bottom roller；

Described zigzag tread patterns assembly includes the lead being vertically arranged, is respectively fixedly connected with the upper mounted plate in the upper and lower two ends of lead and bottom plate, swing arm, bearing, longitudinal sliding block and for the longitudinal motor driving swing arm to move；Bottom plate lower surface is fixed on the upper surface of contiguous block in length and breadth, bottom plate upper surface sets the spring base of elastic component in being fixed with, longitudinal motor is fixed on the lower surface of upper mounted plate, its output sleeve is provided with eccentric, the inner ring of bearing is sheathed on eccentric, one end of swing arm is sheathed on the outer ring of bearing, the other end of swing arm is hinged with and can be connected seat with the swing arm that spring base coordinates, be arranged with on lead and can be oppositely oriented post and do the slide block that moves up and down and connect seat, swing arm connect seat and slide block to connect seat all connected with the same end face of longitudinal sliding block.

In the present invention, bearing is used for supporting laterally driven assembly and zigzag tread patterns assembly, and provides enough spaces move left and right for transverse slider and move up and down for longitudinal sliding block.Laterally driven assembly moves left and right to realize moving left and right of longitudinal sliding block by driving transverse slider.Wherein, horizontal stepper motor is used for providing driving source to make driving pulley assembly rotate, and transmission occurs under the effect of endless belt conveyer.Slide rail plate is used for being supplied to transverse slider dragging track.Respectively upper roller is inserted in upper bar shaped chute, transverse slider can be arranged on slide rail plate in bottom roller is inserted lower bar shaped chute.By upper roller and the setting of bottom roller, the contact area between transverse slider and slide rail plate can be reduced, thus frictional force between the two can be reduced.So both can prevent transverse slider from skew occurring in moving process or comes off to affect the position of longitudinal sliding block, moving left and right of transverse slider can be easy to again, it is to avoid transverse slider because of its for contiguous block in length and breadth provide support force and with endless belt conveyer generation skidding.Contiguous block is used for connecting laterally driven assembly and zigzag tread patterns assembly in length and breadth so that it is forms entirety and facilitates implementation the horizontal of longitudinal sliding block and move up and down.By the setting of conveyer belt briquetting, endless belt conveyer can be pressed on the end face of contiguous block in length and breadth.Wherein, groove breach is used for providing enough space endless belt conveyers, owing to during duty, conveyer belt briquetting is connected with contiguous block in length and breadth, thus endless belt conveyer is under the pressuring action of conveyer belt briquetting, the contact area of itself and contiguous block end face in length and breadth can be strengthened, thus improve frictional force between the two, prevent slippage problems.Further endless belt conveyer can be lock onto in groove breach by the setting of positioning convex point and the first groove, so can further improve the reliability improving laterally driven assembly operating.Conveyer belt briquetting can be fixed by screw with removably connecting of contiguous block in length and breadth, so can be easy to handling.Zigzag tread patterns assembly is for realizing moving up and down of longitudinal sliding block.Wherein, longitudinal motor is used for providing driving source to make eccentric rotate.Under the effect of bearing, swing arm does not rotate together with eccentric, but can swing along with the change of eccentric center of rotation high and low position.In swing process, swing arm bottom then can occur the change of high and low position.It is articulated and connected with swing arm because swing arm connects seat, thus swing arm connects seat and changes as well as the change of swing arm bottom high and low position.But, under the effect that lead guides, swing arm connects seat and only can move up and down without swinging along with swing arm, and then, swing arm connects seat and the longitudinal sliding block connected with it only can be driven to move up and down.Spring base provides cushioning effect power for connecting seat for swing arm, reduces concussion.

Further, described driving pulley assembly includes that drivewheel and driven pulley, the output shaft of described horizontal stepper motor act on drivewheel.In the present invention, drivewheel can be directly mounted at the output shaft of horizontal stepper motor, and driven pulley is then installed on power axle.

For improving the stability that longitudinal sliding block moves up and down, further, described lead is provided with two, and described longitudinal motor, described swing arm, described swing arm connection seat and described spring base are respectively positioned on the region between two leads.

For optimizing structure, improving operation stability, further, described laterally driven assembly also includes that the horizontal stepper motor mounting seat being fixed on described fixed plate upper surface, described horizontal stepper motor are connected with horizontal stepper motor mounting seat.

Further, also include the fluted setting in middle part and be fixed on longitudinal motor mounting seat of described bottom plate, described longitudinal motor is connected with longitudinal motor mounting seat, and the output shaft of described longitudinal motor and described eccentric are respectively positioned in the groove of longitudinal motor mounting seat.

The method have the advantages that

1, by coordinating of upper roller and upper bar shaped chute and coordinating of bottom roller and lower bar shaped chute in laterally driven assembly, the contact area between transverse slider and slide rail plate can be reduced, thus frictional force between the two can be reduced.So, both can prevent transverse slider from skew occurring in moving process or comes off to affect the position of longitudinal sliding block, moving left and right of transverse slider can be easy to again, it is to avoid transverse slider provides support force to affect the precision of longitudinal sliding block transverse shifting with endless belt conveyer generation skidding because of it for contiguous block in length and breadth.

2, by the setting of conveyer belt briquetting in laterally driven assembly, by endless belt conveyer through groove breach, then endless belt conveyer can be pressed on the end face of contiguous block in length and breadth, so by conveyer belt briquetting during duty and fixing connection of contiguous block in length and breadth.The contact area of endless belt conveyer and contiguous block end face in length and breadth can be strengthened, to improve frictional force between the two, prevent slippage problems.Further endless belt conveyer can be lock onto in groove breach by the setting of positioning convex point and the first groove, so can further improve the reliability improving laterally driven assembly operating.

3, in laterally driven assembly, due to conveyer belt briquetting and in length and breadth between contiguous block for removably connecting, so can facilitate implementation contiguous block and endless belt conveyer synchronization-moving handling problem in length and breadth.

4, by eccentric and the setting of swing arm in zigzag tread patterns assembly, in the case of drive mechanism activation force is identical, owing to eccentric is specific, its center of rotation high and low position change cycle and apart from equal, hereby it is ensured that the cycle of swing arm bottom high and low position change and distance are the most equal, thus the distance moved up and down in longitudinal sliding block each cycle can be made relatively uniform, so the suction nozzle being fixed on longitudinal sliding block just can be made electronic component to have unified work done, the most just can improve quality and the efficiency of batch production.

5, by the setting of spring base in zigzag tread patterns assembly, the concussion brought because swing arm is moved can be reduced, the most both can improve the stability that the present invention runs, the service life of the present invention can be extended again.

Accompanying drawing explanation

Fig. 1 is the structural representation of one specific embodiment of high sensitivity drive mechanism for ordering machine of the present invention；

Fig. 2 is the structural representation of laterally driven one specific embodiment of assembly in the high sensitivity drive mechanism of ordering machine of the present invention；

Fig. 3 is the structural representation of one specific embodiment of zigzag tread patterns assembly in the high sensitivity drive mechanism of ordering machine of the present invention；

Fig. 4 is the structural representation of one specific embodiment of driving pulley assembly in the high sensitivity drive mechanism of ordering machine of the present invention；

Fig. 5 is the structural representation of one specific embodiment of swing arm in the high sensitivity drive mechanism of ordering machine of the present invention；

Fig. 6 is conveyer belt briquetting and the structural representation of one specific embodiment of contiguous block in length and breadth in the high sensitivity drive mechanism of ordering machine of the present invention；

Fig. 7 is the structural representation of one specific embodiment of conveyer belt briquetting in the high sensitivity drive mechanism of ordering machine of the present invention；

Fig. 8 is the structural representation of one specific embodiment of endless belt conveyer in the high sensitivity drive mechanism of ordering machine of the present invention；

Fig. 9 is the structural representation of one specific embodiment of slide rail plate in the high sensitivity drive mechanism of ordering machine of the present invention.

nullEntitled corresponding to reference in accompanying drawing: 1、Bearing，2、Laterally driven assembly，21、Endless belt conveyer，22、Driving pulley assembly，221、Drivewheel，222、Driven pulley，23、Horizontal stepper motor，24、Installing plate，25、Power axle，26、Transverse slider，27、Slide rail，28、Contiguous block in length and breadth，29、Transmission band briquetting，3、Zigzag tread patterns assembly，31、Upper mounted plate，32、Lead，33、Bottom plate，34、Swing arm，35、Drive mechanism，36、Bearing，37、Longitudinal sliding block，38、Spring base，39、Swing arm connects seat，40、Slide block connects seat，41、Eccentric，44、Fixed plate，45、Groove breach，46、Positioning convex point，47、First groove，48、Upper roller，49、Bottom roller，50、Upper bar shaped chute，51、Lower bar shaped chute.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, the present invention is described in further detail, but embodiments of the present invention are not limited to this.

Embodiment 1

As shown in Figures 1 to 9, for the high sensitivity drive mechanism of ordering machine, it is characterised in that: include laterally driven assembly 2, zigzag tread patterns assembly 3 and for supporting the bearing 1 of laterally driven assembly 2；

Described laterally driven assembly 2 includes endless belt conveyer 21, act on the driving pulley assembly 22 of endless belt conveyer 21, for supporting the power axle 25 of driving pulley assembly 22, for driving the horizontal stepper motor 23 of driving pulley assembly 22 transmission, the fixed plate 44 being connected with bearing 1 and being vertically arranged, it is fixed on the installing plate 24 of fixed plate 44 upper surface and horizontally set, it is fixed on fixed plate 44 rear end face and the slide rail plate 27 be arrangeding in parallel with fixed plate 44, can slide rail plate 27 laterally moves relatively transverse slider 26, for connecting contiguous block in length and breadth 28 and the conveyer belt briquetting 29 of zigzag tread patterns assembly 3；Power axle 25 is fixed on installing plate 24, the bottom of contiguous block 28 front end face is connected with transverse slider 26 in length and breadth, the top of contiguous block 28 front end face removably connects with conveyer belt briquetting 29 in length and breadth, conveyer belt briquetting 29 be provided with the groove breach 45 that may pass through endless belt conveyer 21 in the end face that contiguous block 28 is connected in length and breadth, the bottom of groove breach 45 is provided with multiple positioning convex point 46, and endless belt conveyer 21 is provided with multiple the first groove 47 that can coordinate with positioning convex point 46；Transverse slider 26 is provided with upper roller 48 and is positioned at the bottom roller 49 below upper roller 48, and the upper surface of slide rail plate 27 is provided with the upper bar shaped chute 50 that can coordinate with upper roller 48, and the lower surface of slide rail plate 27 is provided with the lower bar shaped chute 51 that can coordinate with bottom roller 49；

Described zigzag tread patterns assembly 3 includes the lead 32 being vertically arranged, is respectively fixedly connected with the upper mounted plate 31 in lead about 32 two ends and bottom plate 33, swing arm 34, bearing 36, longitudinal sliding block 37 and for the longitudinal motor 35 driving swing arm 34 to move；Bottom plate 33 lower surface is fixed on the upper surface of contiguous block 28 in length and breadth, bottom plate 33 upper surface sets the spring base 38 of elastic component in being fixed with, longitudinal motor 35 is fixed on the lower surface of upper mounted plate 31, its output sleeve is provided with eccentric 41, the inner ring of bearing 36 is sheathed on eccentric 41, one end of swing arm 34 is sheathed on the outer ring of bearing 36, the other end of swing arm 34 is hinged with and can be connected seat 39 with the swing arm that spring base 38 coordinates, it is arranged with on lead 32 and can be oppositely oriented post 32 and do the slide block that moves up and down and connect seat 40, swing arm connects seat 39 and slide block connects the seat 40 same end face all with longitudinal sliding block 37 and is connected.

In the present embodiment, bearing 1 is used for supporting laterally driven assembly 2 and zigzag tread patterns assembly 3, and provides enough spaces move left and right for transverse slider 26 and move up and down for longitudinal sliding block 37.Laterally driven assembly 2 moves left and right to realize moving left and right of longitudinal sliding block 37 by driving transverse slider 26.Wherein, horizontal stepper motor 23 is used for providing driving source to make driving pulley assembly 22 rotate, and transmission occurs under the effect of endless belt conveyer 21.Slide rail plate 27 is used for being supplied to transverse slider 26 dragging track.Respectively upper roller 48 is inserted in upper bar shaped chute 50, transverse slider 26 can be arranged on slide rail plate 27 in bottom roller 49 is inserted lower bar shaped chute 51.By upper roller 48 and the setting of bottom roller 49, the contact area between transverse slider 26 and slide rail plate 27 can be reduced, thus frictional force between the two can be reduced.So, support force can be provided can to carry each sports load of zigzag tread patterns assembly 3 for contiguous block 28 in length and breadth；Can prevent again the most sliding, 26 there is skew in moving process or come off to affect the position of longitudinal sliding block；The most also can be easy to moving left and right of transverse slider, it is to avoid transverse slider because of its for contiguous block in length and breadth provide support force and with endless belt conveyer generation skidding.Contiguous block 28 is used for connecting laterally driven assembly 2 and zigzag tread patterns assembly 3 in length and breadth so that it is forms entirety and facilitates implementation the horizontal of longitudinal sliding block 37 and move up and down.By the setting of conveyer belt briquetting 29, endless belt conveyer 21 can be pressed on the end face of contiguous block 28 in length and breadth.Wherein, groove breach 45 is used for providing enough space endless belt conveyers 21, owing to during duty, conveyer belt briquetting 29 is connected with contiguous block 28 in length and breadth, thus endless belt conveyer 21 is under the pressuring action of conveyer belt briquetting 29, the contact area of itself and contiguous block 28 end face in length and breadth can be strengthened, thus improve frictional force between the two, prevent slippage problems.Further endless belt conveyer 21 can be lock onto in groove breach 45 by the setting of positioning convex point 46 and the first groove 47, so can further improve laterally driven assembly 2 reliability of operation of raising.For being pressed in by endless belt conveyer 21 on the end face of contiguous block 28 in length and breadth, the degree of depth of groove breach 45 should be less than the thickness of endless belt conveyer 21.Conveyer belt briquetting 29 can be fixed by screw with removably connecting of contiguous block 28 in length and breadth, so can be easy to handling.

Zigzag tread patterns assembly 3 is for realizing moving up and down of longitudinal sliding block 37.Wherein, longitudinal motor 35 is used for providing driving source to make eccentric 41 rotate.Under the effect of bearing 36, swing arm 34 does not rotate together with eccentric 41, but can swing along with the change of eccentric 41 center of rotation high and low position.In swing process, swing arm 34 bottom then can occur the change of high and low position.It is articulated and connected with swing arm 34 because swing arm connects seat 39, thus swing arm connects seat 39 and changes as well as the change of swing arm 34 bottom high and low position.But, under the effect that lead 32 guides, swing arm connects seat 39 and only can move up and down without swinging along with swing arm 34, and then, swing arm connects seat 39 and the longitudinal sliding block 37 connected with it only can be driven to move up and down.When driving eccentric 41 to rotate due to longitudinal motor 35 and then occur each parts to link, can drive whole device that bigger vibrations occur unavoidably, then can provide cushioning effect power by the setting of elastic component in spring base 38, reduce concussion.During the present embodiment application, longitudinal sliding block 7 lower end can be fixed with the suction nozzle for stick electronic components, the most then can complete follow-up to put work.

Further, described driving pulley assembly 22 includes that drivewheel 221 and driven pulley 222, the output shaft of described horizontal stepper motor 23 act on drivewheel 221.Drivewheel 221 can be directly mounted at the output shaft of horizontal stepper motor 23, and driven pulley 222 is then installed on power axle 25.

Further, described lead 32 is provided with two, and described longitudinal motor 35, described swing arm 34, described swing arm connection seat 39 and described spring base 38 are respectively positioned on the region between two leads 32.It is arranged such the movement that swing arm 34 and swing arm both can be made to connect seat 39 will not be affected by lead 32, the stability that longitudinal sliding block 37 moves up and down can be improved again.Preferably, each described lead 32 is at least arranged with two slide blocks and connects seat 40.It is arranged such and can preferably be connected with longitudinal sliding block 37, and provide good guide effect for longitudinal sliding block 37.Preferably, described elastic component is the torsionspring being vertically arranged, and torsionspring lower end is fixed in described spring base 38, and its upper end acts on described swing arm and connects the lower surface of seat 39.

Above content is to combine the further description that the present invention is made by concrete preferred implementation, it is impossible to assert that the detailed description of the invention of the present invention is confined to these explanations.For general technical staff of the technical field of the invention, other embodiments drawn under without departing from technical scheme, should be included in protection scope of the present invention.

Claims (5)

1. for the high sensitivity drive mechanism of ordering machine, it is characterised in that: include laterally driven assembly (2), zigzag tread patterns assembly (3) and be used for supporting the bearing (1) of laterally driven assembly (2)；

Described laterally driven assembly (2) includes endless belt conveyer (21), act on the driving pulley assembly (22) of endless belt conveyer (21), for supporting the power axle (25) of driving pulley assembly (22), for driving the horizontal stepper motor (23) of driving pulley assembly (22) transmission, the fixed plate (44) being connected with bearing (1) and be vertically arranged, it is fixed on the installing plate (24) of fixed plate (44) upper surface and horizontally set, it is fixed on fixed plate (44) rear end face and the slide rail plate (27) be arrangeding in parallel with fixed plate (44), can slide rail plate (27) laterally moves relatively transverse slider (26), for connecting contiguous block in length and breadth (28) and the conveyer belt briquetting (29) of zigzag tread patterns assembly (3)；Power axle (25) is fixed on installing plate (24), the bottom of contiguous block (28) front end face is connected with transverse slider (26) in length and breadth, the top of contiguous block (28) front end face removably connects with conveyer belt briquetting (29) in length and breadth, conveyer belt briquetting (29) is provided with the groove breach (45) that may pass through endless belt conveyer (21) in the end face being connected with contiguous block in length and breadth (28), the bottom of groove breach (45) is provided with multiple positioning convex point (46), and endless belt conveyer (21) is provided with multiple the first groove (47) that can coordinate with positioning convex point (46)；Transverse slider (26) is provided with upper roller (48) and is positioned at the bottom roller (49) of upper roller (48) lower section, the upper surface of slide rail plate (27) is provided with the upper bar shaped chute (50) that can coordinate with upper roller (48), and the lower surface of slide rail plate (27) is provided with the lower bar shaped chute (51) that can coordinate with bottom roller (49)；

Described zigzag tread patterns assembly (3) includes the lead (32) being vertically arranged, is respectively fixedly connected with the upper mounted plate (31) in lead (32) up and down two ends and bottom plate (33), swing arm (34), bearing (36), longitudinal sliding block (37) and is used for driving longitudinal motor (35) of swing arm (34) movement；Bottom plate (33) lower surface is fixed on the upper surface of contiguous block (28) in length and breadth, bottom plate (33) upper surface sets the spring base (38) of elastic component in being fixed with, longitudinal motor (35) is fixed on the lower surface of upper mounted plate (31), its output sleeve is provided with eccentric (41), the inner ring of bearing (36) is sheathed on eccentric (41), one end of swing arm (34) is sheathed on the outer ring of bearing (36), the other end of swing arm (34) is hinged with the swing arm that can coordinate with spring base (38) and is connected seat (39), it is arranged with on lead (32) and post (32) can be oppositely oriented does the slide block that moves up and down and connect seat (40), swing arm connects seat (39) and slide block connects the seat (40) the same end face all with longitudinal sliding block (37) and is connected.

High sensitivity drive mechanism for ordering machine the most according to claim 1, it is characterized in that: described driving pulley assembly (22) includes drivewheel (221) and driven pulley (222), the output shaft of described horizontal stepper motor (23) acts on drivewheel (221).

High sensitivity drive mechanism for ordering machine the most according to claim 1, it is characterized in that: described lead (32) is provided with two, described longitudinal motor (35), described swing arm (34), described swing arm connection seat (39) and described spring base (38) are respectively positioned on the region between two leads (2).

4. according to the high sensitivity drive mechanism for ordering machine described in any one in claim 1 ~ 3, it is characterized in that: described laterally driven assembly (2) also includes being fixed on the horizontal stepper motor mounting seat (43) of described fixed plate (44) upper surface, described horizontal stepper motor (43) is connected with horizontal stepper motor mounting seat (43).

High sensitivity drive mechanism for ordering machine the most according to claim 4, it is characterized in that: described zigzag tread patterns assembly (3) also includes that middle part has the second groove to arrange and is fixed on longitudinal motor mounting seat (44) of fixed plate (31), described longitudinal motor (35) is connected with longitudinal motor mounting seat (44), and the output shaft of described longitudinal motor (35) and described eccentric (41) are respectively positioned in the second groove of longitudinal motor mounting seat (33).