CN109132382A - Large-scale shaft workpiece high-efficiency conveying mechanism - Google Patents

Abstract

Present invention discloses a kind of large-scale shaft workpiece high-efficiency conveying mechanisms, including rack, step hoister structure in rack is set, the step hoister structure includes reciprocal driving assembly and reciprocal push plate group, the reciprocal driving assembly includes motor and the crank group that is driven by the motor, the crank group includes the rotating block of rotation, opposite rotation axis is provided with two pivot points on the rotating block, connecting rod is respectively connected on the fulcrum, pivot has two pieces of conveying push plates or one piece of switching push plate on the other end of connecting rod, when the switching push plate is located at two extreme positions of its reciprocating movement, the upper surface that end face conveys push plate with described two pieces respectively thereon flushes.The present invention efficiently solves the problems, such as that shaft-like workpiece feeding is difficult, ingenious reliable, enables the arrangement of shaft-like workpiece quickly and orderly, and completes and shaft-like workpiece is hoisted the function of conveying by lower.

Description

Large-scale shaft workpiece high-efficiency conveying mechanism

Technical field

The present invention relates to technical field of automation equipment, and in particular to a kind of large-scale shaft workpiece high-efficiency conveying mechanism.

Background technique

General in current production activity all to use automation equipment, the advantage of automation equipment is to solve well Operator is put, and working efficiency can be made to greatly promote.The basic function of automation equipment typically includes feeding region, adds Work area domain, blanking region.Include the feeding machanism of basic workpiece or raw material in feeding region, its object is to by basic workpiece or Feedstock transportation is to machining area；Machining area is therefore usually automated the core of equipment, and its object is to complete basic workpiece or original Material automation processing, detection etc.；Blanking region includes the feeding mechanism that the workpiece of processing is completed, and its object is to will be qualified Workpiece conveying and packaging and categorised collection etc. is carried out to unqualified workpiece.

For the feeding machanism in feeding region, most important requirement is the base that will fast and effeciently can be placed in a jumble Plinth workpiece forms orderly arrangement and is supplied to machining area.At present effective method be completion is realized using vibrating disk, but For being shaft-like workpiece longer for its own length, such as transmission shaft of automobile etc., this form is with regard to unsuitable, axis Vibrating disk or shaft-like workpiece, which are often blocked, between each other to the ontology of extension also will form interference without on vibrating disk Form orderly arrangement；Further, when feeding region includes high and low fall need to hoist from lower convey when, it is defeated Cheng Gengjia difficulty is passed through, effect is more bad.

Summary of the invention

In view of this, the present invention solves above-mentioned technical problem, a kind of large-scale shaft workpiece high-efficiency conveying mechanism is provided, Shaft-like workpiece fast and effeciently can be ranked up conveying, and realize and hoisted the effect of conveying by lower.

In order to solve the above technical problems, the present invention provides the following technical solutions:

A kind of large-scale shaft workpiece high-efficiency conveying mechanism, including the inlet port and outlet port in rack, setting rack, the charging Mouth is vertically lower than discharge port, step hoister structure is provided between the inlet port and outlet port, the stepping mentions Rising mechanism includes reciprocal driving assembly and reciprocal push plate group, and the reciprocal driving assembly includes motor and driven by the motor Crank group, the crank group includes the rotating block of rotation, and opposite rotation axis is provided with two pivot branch on the rotating block Point, respectively the first fulcrum and the second fulcrum form the straight angle between first fulcrum and the second fulcrum and rotation axis, described First fulcrum to the distance between rotation axis be twice of the second fulcrum to the distance between rotation axis, first fulcrum With first connecting rod and second connecting rod are respectively connected on the second fulcrum, at least pivot has two pieces on the other end of the first connecting rod Push plate is conveyed, pivot has one piece of switching push plate on the other end of the second connecting rod, and the switching push plate is arranged at described two pieces It conveys between push plate and its moving direction conveys the moving direction of push plate on the contrary, the switching push plate is located at described two pieces always When its two extreme position moved back and forth, the upper surface that end face conveys push plate with described two pieces respectively thereon is flushed.

Preferably, the reciprocal driving assembly further includes active block and Slave Block, the output of the active block and the motor Axis is fixed and directly receives the driving force of the motor.

Preferably, the first connecting rod pivot is arranged between the Slave Block and rotating block, the second connecting rod pivot It is arranged between the active block and rotating block.

Preferably, the length difference of two pieces of conveyings push plate is equal to the distance between first fulcrum and second fulcrum.

Preferably, be arranged in parallel between two pieces of conveying push plates and switching push plate, and with gravity direction is at an acute angle sets It sets.

Preferably, the reciprocal push plate group further includes reciprocal push plate, and the provided at one of the reciprocal push plate is arranged first Make its direction of motion identical as two pieces of conveying push plates always on connecting rod.

Preferably, setting is spaced between the reciprocal push plate and one of adjacent conveying push plate, and it is described past The conveying push plate that multiple push plate closes on is the first conveying push plate, is folded with a fixed plate between the two, the fixed plate is fixed on In the rack, the reciprocal push plate and first conveying push plate between length difference be equal to first fulcrum to rotation axis it Between twice of distance.

Preferably, the fixed plate is fixed in the rack by lateral screw.

Preferably, the reciprocal push plate is fixed with guide plate towards the side of the feed inlet.

Preferably, the conveying push plate far from the reciprocal push plate is the second conveying push plate, the second conveying push plate and institute It states and is provided with the second fixed plate between discharge port, second fixed plate is fixed in the rack by lateral screw.

The beneficial effects are mainly reflected as follows: efficiently solve the problems, such as that shaft-like workpiece feeding is difficult, it is ingenious reliable, make The arrangement of shaft-like workpiece energy quickly and orderly, and complete and shaft-like workpiece is hoisted the function of conveying by lower.

Detailed description of the invention

The stereoscopic schematic diagram of Fig. 1, the preferred embodiment of the present invention；

Fig. 2, the preferred embodiment of the present invention step hoister structure the first extreme position schematic diagram；

Fig. 3, the preferred embodiment of the present invention step hoister structure middle position schematic diagram；

Fig. 4, the preferred embodiment of the present invention step hoister structure the second extreme position schematic diagram；

Fig. 5, the preferred embodiment of the present invention step hoister structure stereoscopic schematic diagram；

Fig. 6, the preferred embodiment of the present invention step hoister structure other direction stereoscopic schematic diagram.

Specific embodiment

In order to make those skilled in the art more fully understand technical solution of the present invention, With reference to embodiment The present invention is described in further detail.

Present invention discloses a kind of large-scale shaft workpiece high-efficiency conveying mechanisms, as shown in Figure 1, comprising: rack, and setting Outer cover 1 on the rack.The rack includes a horizontal pedestal 2, which is directly disposed horizontally in ground or other water In plane, placement herein can be mobile, be also possible to fixed.Two pieces of vertical plates 3 are fixed on the pedestal 2, it is described Pedestal 4 is fixed between vertical plate 3.In this preferred embodiment, the pedestal 4 is that inclination is fixed, i.e., is arranged horizontal by angle. It will be appreciated by those skilled in the art that the shape of rack can be multiplicity, such as outer cover shape can be it is arc-shaped, The shape of pedestal 2 can be other polygons, and vertical plate 3 and pedestal 4 can be integrated, etc., reach identical function Under the premise of technology change, belong to equivalents technical solution of the invention.

Feed inlet 5 and discharge port 6 are provided in the rack, the feed inlet 5 is vertically lower than the discharging Mouthfuls 6, in this preferred embodiment, 5 adjacent of feed inlet is provided with material frame 7, and 6 adjacent of discharge port is provided with reclaiming plate 8.The material frame 7 uses the collection frame of the prior art, funnel-shaped, shaft-like workpiece raw material can all be imported into it, and goes out Shaft-like workpiece then can be delivered to machining area by flitch 8 in an orderly manner one by one.

The reason of completing above-mentioned function is to be provided with step hoister structure between the feed inlet 5 and discharge port 6.Specifically , as shown in Figures 2 to 6, the step hoister structure includes reciprocal driving assembly and reciprocal push plate group.

The reciprocal driving assembly includes motor 9 and the crank group that is driven by the motor.In this preferred embodiment, institute State the rotating block 10 that crank group includes rotation and the active block 11 and Slave Block 12 that rotate synchronously.The active block 11 with it is described The output shaft of motor 9 is fixed and directly receives the driving force of the motor.The motor 9 can be motor, be also possible to pneumatic Type of attachment between motor, with the active block 11, those skilled in the art are directly connected to it is known that can be, It can be indirect drives such as synchronous belt or chain, etc..Certainly, deceleration can also be set between the output shaft and motor drive shaft of motor Mechanism.Motor 9 can drive the rotating block 10, active block 11 and Slave Block 12 along the coaxial rotation of axis X.

In conjunction with shown in Fig. 5 and Fig. 6, there are two pivot points for 10 opposite rotation axis X settings on the rotating block, respectively First fulcrum 13 and the second fulcrum 14, form the straight angle between first fulcrum 13 and the second fulcrum 14 and rotation axis X, described First fulcrum 13 to the distance between rotation axis X be twice of the distance between the second fulcrum 14 to rotation axis X, described the Respectively being pivotally connected on one fulcrum 13 and the second fulcrum 14 has first connecting rod 15 and second connecting rod 16.Preferably, described first connects 15 pivot of bar is arranged between the Slave Block 12 and rotating block 10, and 16 pivot of second connecting rod is arranged in the active block 11 Between rotating block 10, so that the transmission of two connecting rods is more stable.After the motor 9 rotation, the active block 11 is rotated, It is linked by the connecting shaft of the first fulcrum 13 and the second fulcrum 14, the rotating block 10 and Slave Block 12 are also same with the active block 11 The revolving speed of sample is rotated around the rotation axis X, forms two sets of crank connecting link machines with respective first connecting rod 15 and second connecting rod 16 Structure, and since the position of the first fulcrum 13 and the second fulcrum 14 is arranged, the moving distance of the first connecting rod 15 is almost the Twice of the moving distance of two connecting rods 16.

In this preferred embodiment, pivot has two pieces of conveying push plates on the other end of the first connecting rod 15 and one piece back and forth pushes away Plate 17 is the first conveying push plate 18, the conveying far from the reciprocal push plate 17 with the conveying push plate that the reciprocal push plate 17 closes on Push plate is the second conveying push plate 19.Pivot has one piece of switching push plate 20 on the other end of the second connecting rod 16.

It is slab construction that the reciprocal push plate 17, first, which conveys push plate 18, second and conveys push plate 19 and switching push plate 20, And be arranged in parallel between each other, and with gravity direction setting at an acute angle.The degree of the acute angle is equal to the tilt angle of pedestal 4. Specifically, being interval setting between the reciprocal push plate 17 and the first conveying push plate 18, it is folded with a fixed plate between the two 21, the fixed plate 21 is fixed in the rack.The fixed plate 21 is fixed in the rack by lateral screw, certainly Other fixed forms are also allowed.

The switching push plate 20 is arranged between the first conveying push plate 18, second conveying push plate 19 and its moving direction Always with described two pieces convey push plate moving direction on the contrary, it is described first conveying push plate 18 to the second conveying push plate 19 it is shorter, The length difference of the two is equal to the distance between first fulcrum 13 and the second fulcrum 14.The reciprocal push plate 17 and the first conveying Length difference between push plate 18 is equal to twice that first fulcrum 13 arrives the distance between rotation axis X.First conveying Push plate 18 is disposed proximate in the fixed plate 21.

In order to which conveying workpieces are better achieved, the reciprocal push plate 17 is fixed with guide plate towards the side of the feed inlet 22, the top surface area of the reciprocal push plate 17 can be increased in this way, it is ensured that need forever on the upper surface of the reciprocal push plate 17 The workpiece of conveying.The second fixed plate 23 is provided between the second conveying push plate 19 and the discharge port, described second is fixed Plate 23 is fixed in the rack by lateral screw.

The motion process of the brief description once preferred embodiment of the present invention.When reciprocal push plate group is in the first pole in Fig. 2 When extreme position, the reciprocal push plate 17 and the top surface of guide plate 22 and the entrance of feed inlet 5 are roughly the same, so that shaft-like workpiece It can be rolled into from feed inlet 5 to the top surface of the reciprocal push plate 17 and guide plate 22.At this point, the first conveying push plate 18 and fixed plate 21 top side location is roughly the same, and due to gravity, the shaft-like workpiece on the top surface of the fixed plate 21 can be tumbled To the top surface of the first conveying push plate 18；Likewise, the top surface position of the switching push plate 20 at this time and the second conveying push plate 19 Maximum height that is roughly the same, and being lower than the second fixed plate 23 is set, in this way, being located at the axis class on the top surface of the switching push plate 20 Workpiece can be tumbled to the top surface of the second conveying push plate 19." roughly the same " herein refers to that end face is substantially flush, and has phase Error is answered also to be allowed.Certainly, in order to enable shaft-like workpiece more successfully to be conveyed, the two of " roughly the same " herein A top side location, can be slightly lower closer to the top surface of discharge port, and " roughly the same " hereafter similarly, repeats no more.

When rotating block 10, active block 11 and rotating block 10 are in motor 9 when being rotated by, will drive first connecting rod 15, Second connecting rod 16, and reciprocal push plate 17, first conveys the conveying of push plate 18, second push plate 19, switching push plate 20 generates crank and connects The reciprocating motion of rod-type, wherein the direction of motion of the switching push plate 20 conveys push plate with the reciprocal push plate 17, first always 18, the direction of motion of the second conveying push plate 19 is on the contrary, reciprocal push plate as shown in Figure 3 is in middle position.When rotating block 10, When active block 11 and rotating block 10 continue to rotate under the driving of motor 9, reciprocal push plate group is in the second limit position in Fig. 4 It sets.At this point, the top surface of the reciprocal push plate 17 and the top side location of the fixed plate 21 are roughly the same, due to gravity, Shaft-like workpiece on the top surface of the reciprocal push plate 17 can be tumbled to the top surface of the fixed plate 21；First conveying pushes away Plate 18 and the top side location of the switching push plate 20 are roughly the same, due to gravity, are located at the first conveying push plate 18 Top surface on shaft-like workpiece can tumble to it is described switching push plate 20 top surface；It is described second conveying push plate 19 top surface with it is described The top side location of second fixed plate 23 is roughly the same, due to gravity, on the top surface of the second conveying push plate 19 Shaft-like workpiece can tumble to the top surface of second fixed plate 23, and roll into discharge port.

When rotating block 10, active block 11 and rotating block 10 continuously rotate under the driving of motor 9, then can incite somebody to action The above-mentioned course of work is recycled, and realizes the transmission process of automatic order.It should be noted that being applicable in technical solution of the present invention Shaft-like workpiece diameter be preferably greater than the reciprocal push plate 17 thickness 1/2, less than or equal to the reciprocal push plate 17 Thickness.Shaft-like workpiece can be delivered in an orderly manner reclaiming plate 8 by technical solution of the present invention one by one in this way.

The present invention efficiently solves the problems, such as that shaft-like workpiece feeding is difficult, ingenious reliable, enables shaft-like workpiece quickly and orderly Arrangement, and complete and shaft-like workpiece is hoisted the function of conveying by lower.

It should be appreciated that although this specification is described in terms of embodiments, but not each embodiment only includes one A independent technical solution, this description of the specification is merely for the sake of clarity, and those skilled in the art should will say As a whole, the technical solution in each embodiment may also be suitably combined to form those skilled in the art can for bright book With the other embodiments of understanding.

The series of detailed descriptions listed above only for feasible embodiment of the invention specifically Protection scope bright, that they are not intended to limit the invention, it is all without departing from equivalent implementations made by technical spirit of the present invention Or change should all be included in the protection scope of the present invention.

Claims (10)

1. large-scale shaft workpiece high-efficiency conveying mechanism, including the inlet port and outlet port in rack, setting rack, the feed inlet It is vertically lower than discharge port, which is characterized in that step hoister structure, institute are provided between the inlet port and outlet port Stating step hoister structure includes reciprocal driving assembly and reciprocal push plate group, and the reciprocal driving assembly includes motor and by described The crank group of motor driving, the crank group include the rotating block of rotation, and opposite rotation axis is provided with two on the rotating block A pivot point, respectively the first fulcrum and the second fulcrum are formed between first fulcrum and the second fulcrum and rotation axis The straight angle, the distance between described first fulcrum to rotation axis are twice of the second fulcrum to the distance between rotation axis, institute It states and is respectively connected with first connecting rod and second connecting rod on the first fulcrum and the second fulcrum, on the other end of the first connecting rod at least Pivot has two pieces of conveying push plates, and pivot has one piece of switching push plate, the switching push plate setting on the other end of the second connecting rod It is conveyed at described two pieces between push plate and its moving direction conveys the moving direction of push plate on the contrary, described turn with described two pieces always Connect push plate be located at its reciprocating movement two extreme positions when, thereon end face respectively with described two pieces convey push plates upper surface it is neat It is flat.

2. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 1, which is characterized in that the reciprocal driving assembly It further include active block and Slave Block, the active block and the output shaft of the motor are fixed and directly receive the driving of the motor Power.

3. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 2, which is characterized in that the first connecting rod pivot It is arranged between the Slave Block and rotating block, the second connecting rod pivot is arranged between the active block and rotating block.

4. large-scale shaft workpiece high-efficiency conveying mechanism according to any one of claims 1 to 3, which is characterized in that described two pieces The length difference for conveying push plate is equal to the distance between first fulcrum and second fulcrum.

5. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 4, which is characterized in that two pieces of conveyings push plate Switching push plate between be arranged in parallel, and with gravity direction setting at an acute angle.

6. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 5, which is characterized in that the reciprocal push plate group is also Including reciprocal push plate, the setting of the provided at one of the reciprocal push plate make on first connecting rod its direction of motion always with described two pieces It is identical to convey push plate.

7. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 6, which is characterized in that the reciprocal push plate and its In setting is spaced between one piece of adjacent conveying push plate, be that the first conveying pushes away with the conveying push plate that the reciprocal push plate closes on Plate is folded with a fixed plate between the two, and the fixed plate is fixed in the rack, the reciprocal push plate and the first conveying Length difference between push plate is equal to first fulcrum to twice of the distance between rotation axis.

8. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 7, which is characterized in that the fixed plate passes through side It is fixed in the rack to screw.

9. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 7, which is characterized in that the reciprocal push plate towards The side of the feed inlet is fixed with guide plate.

10. large-scale shaft workpiece high-efficiency conveying mechanism according to claim 7, which is characterized in that back and forth pushed away far from described The conveying push plate of plate is the second conveying push plate, is provided with the second fixed plate between the second conveying push plate and the discharge port, Second fixed plate is fixed in the rack by lateral screw.