CN204917154U - A steady feeding mechanism for assembly line translation pay -off - Google Patents

Abstract

The utility model provides a steady feeding mechanism for assembly line translation pay -off that investment is little, simple structure in can steadily transfer article in long distance translation structure. Carrying work or material rest carrier pillar and making the lift cylinder that carries the work or material rest and reciprocate including year work or material rest, the support of carrying the article, the front end of the cylinder actuating lever that should go up and down and the connecting rod of level setting meet, and corresponding every carrier pillar rigid coupling has a slider on the connecting rod, is equipped with the gyro wheel at carrier pillar lower extreme, and the slider is horizontal migration under the drive of lift cylinder, and the gyro wheel can switch over and take corresponding carrier pillar and rise or descend between the step face of slider top surface. The utility model overcomes gone up and down to drive the uneven defect of the passive crossbeam that goes up and down to lead to of carrier pillar at both ends among the prior art by the carrier pillar of centre, it is even at lift in -process atress that it supports all carrier pillars that carry the work or material rest, just also makes the crossbeam that still enables among them keep better roughness when wherein the distance between two adjacent carrier pillars adopts wideer span.

Description

For the steady feed mechanism of conveyor line translation feeding

Technical field

The utility model relates to a kind of automation equipment, particularly the travel mechanism of translation material in a kind of automation equipment.

Background technology

Automation equipment often to need the article such as freak oil, semifinished or finished goods, by upper track station to next procedure, in row, this kind equipment to be called upper transport mechanism and lower transport mechanism.

As shown in Figure 3, in prior art, lower transport mechanism comprises carrying described article by the loading frame 1 of this putting article to next procedure, (middle part and the two ends of loading frame are laid respectively to the passive at least three carrier pillars 11 of this loading frame, the carrier pillar at middle part is called principal post 14, the carrier pillar at two ends is called subpost 15, lower same), be connected to the crossbeam 13 playing stabilization between all carrier pillars 11 and drive carrier pillar 11 to carry the horizontal air cylinder 2 of the lift cylinder 3 of bin 1 lower movement in vertical direction and driving loading frame 1 alternating translational in the horizontal direction.Usually, described lift cylinder 3 adopts the vertical bottom being arranged on principal post 14, after driving this lift cylinder 3, this principal post 14 rises through described crossbeam 13 and drives the subpost 15 at two ends to rise, then whole loading frame 1 is vertically risen, now, under the effect of horizontal air cylinder 2, described article are sent into next procedure by translation loading frame 1.

Said structure exists following not enough:

Because described crossbeam 13 and carrier pillar 11 are steel structure, when horizontal linear distance between last process and next procedure is longer, when only by principal post 14 as drive point, very easily cause the crossbeam 13 of principal post 14 both sides because of the downward slight deformation of gravity, thus, crossbeam 13 unfairness, then loading frame 1 unfairness is made, finally cause feeding not steady, meanwhile, horizontal air cylinder component strain can be caused again if things go on like this.The longer above-mentioned defect of length of crossbeam 13 is more obvious.The crossbeam 13 good according to material, intensity is high can cause equipment investment to strengthen.

Summary of the invention

The technical problems to be solved in the utility model be to provide a kind of invest little, structure simply can the steady feed mechanism for conveyor line translation feeding of stationary transfer article in the translation structure of middle and long distance.

In order to solve the problems of the technologies described above, the technical solution adopted in the utility model is:

Steady feed mechanism for conveyor line translation feeding of the present utility model, comprise conveying object is moved to later process loading frame by preceding working procedure, many support loading frames and spaced carrier pillar and the actuating device making loading frame vertical movement up and down, all carrier pillars are connected by crossbeam, described actuating device is lift cylinder, this lift cylinder adopts horizontal installation, its cylinder seat is fixed on the body of this mechanism, the front end of lift cylinder drive spindle with to be horizontally disposed with and the connecting rod be positioned at below described carrier pillar connects, on this connecting rod, corresponding each carrier pillar is connected with an end face is the slide block of step surface, the post jamb of carrier lower rod end is provided with by the roller of this carrier shore supports on described slide block, described slide block rides on the slide plate that is arranged on described body, described slide block under the driving of lift cylinder can on this slide plate parallel motion, with the parallel motion of slide block, described roller can switch and take corresponding carrier pillar and rise or decline between the step surface of slide block end face.

Described carrier pillar is three, is arranged at the two ends of loading frame respectively with middle.

Described step surface is respectively the low sliding surface and high sliding surface that support described roller, the inclined-plane for tilting upward between low sliding surface and high sliding surface, and described slide block moves linearly in the horizontal direction and can switch between low sliding surface and high sliding surface along described inclined-plane by pushing rolling wheels.

The bottom surface of described slide block and the end face of described slide plate are plane.

Be provided with slide rail in the bottom surface of described slide block, corresponding being provided with at the end face of described slide plate makes described slide rail be placed in one the chute slided.

Distance between adjacent carrier pillar is 2. meters-3.0 meters.

Compared with prior art, the lower end that the every root of the utility model in the translation mechanism of automation equipment supports the carrier pillar of loading frame arranges slide block, and drive described slide block by the lift cylinder of the made carrier pillar vertical lift adopting horizontal setting, all carrier pillars are made synchronously to rise or to decline, this structure overcomes in prior art and is elevated by the carrier pillar of centre the crossbeam overbalance defect driving the passive lifting of carrier pillar at two ends to cause, thus, the loading frame of the utility model structure parallel motion more steady after rising is made to adopt.Again owing to supporting all carrier pillars uniform force in lifting process of loading frame, also just make the distance in the utility model between adjacent two carrier pillars adopt during wider span and crossbeam therebetween still can be made to keep good planeness.The utility model can realize automation equipment in the process of conveyance product, keeps level height conformability, not by impact and the constraint of length.

Accompanying drawing explanation

Fig. 1 structural scheme of mechanism of the present utility model.

Loading frame action change schematic diagram in Fig. 2 mechanism of the present utility model.

Fig. 3 is feed mechanism schematic diagram of the prior art.

Reference numeral is as follows:

Loading frame 1, carrier pillar 11, roller 12, crossbeam 13, principal post 14, subpost 15, carrier aircraft permanent seat 16, flat-removing air cyclinder 2, lift cylinder 3, connecting rod 4, slide block 5, low sliding surface 51, high sliding surface 52, inclined-plane 53, slide plate 6.

Detailed description of the invention

Steady feed mechanism for conveyor line translation feeding of the present utility model is applicable to article are sent to (these article comprise freak oil, half-blank, finished product or material) next procedure by being responsible on all automated production equipments transfer mechanism by last process translation.

As shown in Figure 1, 2, the utility model comprises the loading frame 1 of article transfer, the carrier pillar 11 of this loading frame 1 of multiple support, multiple slide constructions of making the actuating device of the horizontal or vertical movement of loading frame 1 and being arranged in loading frame 1 frame.

Described loading frame 1 is movably arranged in the upper slide mechanism (not shown) be arranged on multiple carrier pillar 11, and this loading frame 1 can move relative to carrier pillar 11, and loading frame 1 carries article to be transported.

Described carrier pillar 11 in the utility model is vertically arranged, its quantity is three, be respectively and be arranged at the principal post 14 of loading frame midway location and the subpost 15 of end positions, the top of described principal post 14 and subpost 15 is linked together by the crossbeam 13 of a steel, the top of described principal post 14 and subpost 15 is connected on loading frame 1 by a kind of slide mechanism (not shown), its lower end is arranged in carrier aircraft permanent seat 16, and principal post 14 and subpost 15 can move up and down.。

Described actuating device comprises flat-removing air cyclinder 2 and lift cylinder 3.

Wherein, flat-removing air cyclinder 2 adopts horizontal installation, its effect be drive described loading frame 1 relative to described material containing support 11 in the horizontal direction linear reciprocation move.The cylinder seat of this flat-removing air cyclinder 2 is fixed on a subpost 15 in carrier pillar 11, and the front end of its drive spindle is fixed on described loading frame 1 by an adaptor, and loading frame 1 can move linearly in the horizontal direction with the release of the drive spindle of flat-removing air cyclinder 2 or withdrawal.Namely, under the driving of flat-removing air cyclinder 2, loading frame 1 can move relative to carrier pillar 11 tandem.

Lift cylinder 3 also adopts the horizontal below being arranged on described flat-removing air cyclinder 2, the cylinder seat of lift cylinder 3 is fixed on the body of this feed mechanism, the front end of its drive spindle connects with horizontally disposed connecting rod 4, this connecting rod 4 is connected with several slide blocks 5, the end face of slide block 5 is step surface, this step surface divides lower low sliding surface 51, slightly high high sliding surface 52 and the inclined-plane 53 between low sliding surface 51 and high sliding surface 52, and the bottom surface of slide block 5 is plane, and it can move along on the slide plate 6 be arranged at below it.

Described in every root, the lower end of carrier pillar 11 is provided with outwardly directed roller 12, the preferred roller 12 of the utility model is cam, this roller 12 is perpendicular to carrier pillar 11 post jamb and be erected at the end face of described slide block 5, and namely the lower end of carrier pillar 11 is ridden on described slide block 5 by this roller 12.When described lift cylinder 3 drives described slide block 5 to promote from right to left, described roller 12 to be risen along inclined-plane 53 paramount sliding surface 52 by the low sliding surface 51 on slide block 5, namely under the moving up of roller 12, principal post 14 in carrier pillar 11, subpost 15 are synchronous upwards drives loading frame 1 vertical uplift, thus avoids in prior art because crossbeam is conducted oneself with dignity the overbalance produced in uphill process caused.

Claims (6)

1. the steady feed mechanism for conveyor line translation feeding, comprise conveying object is moved to later process loading frame (1) by preceding working procedure, many support loading frame (1) and spaced carrier pillar (11) and the actuating device making loading frame (1) vertical movement up and down, all carrier pillars (11) are connected by crossbeam (13), it is characterized in that: described actuating device is lift cylinder (3), this lift cylinder (3) adopts horizontal installation, its cylinder seat is fixed on the body of this mechanism, the front end of lift cylinder (3) drive spindle with to be horizontally disposed with and the connecting rod (4) being positioned at described carrier pillar (11) below connects, the slide block (5) that an end face is step surface is connected with the upper corresponding each carrier pillar (11) of this connecting rod (4), the post jamb of carrier pillar (11) lower end is provided with the roller (12) be supported on by this carrier pillar (11) on described slide block (5), described slide block (5) rides on the slide plate (6) that is arranged on described body, described slide block (5) can at the upper parallel motion of this slide plate (6) under the driving of lift cylinder (3), with the parallel motion of slide block (5), described roller (12) can switch and take corresponding carrier pillar (11) and rise or decline between the step surface of slide block (5) end face.

2. the steady feed mechanism for conveyor line translation feeding according to claim 1, is characterized in that: described carrier pillar (11) is three, is arranged at the two ends of loading frame (1) respectively with middle.

3. the steady feed mechanism for conveyor line translation feeding according to claim 2, it is characterized in that: described step surface is respectively the low sliding surface (51) and high sliding surface (52) that support described roller (12), inclined-plane (53) for tilting upward between low sliding surface (51) and high sliding surface (52), described slide block (5) moves linearly in the horizontal direction and can switch between low sliding surface (51) and high sliding surface (52) along described inclined-plane (53) by pushing rolling wheels (12).

4. the steady feed mechanism for conveyor line translation feeding according to claim 3, is characterized in that: the bottom surface of described slide block (5) and the end face of described slide plate (6) are plane.

5. the steady feed mechanism for conveyor line translation feeding according to claim 3, it is characterized in that: be provided with slide rail in the bottom surface of described slide block (5), corresponding being provided with at the end face of described slide plate (6) makes described slide rail be placed in one the chute slided.

6. the steady feed mechanism for conveyor line translation feeding according to claim 3, is characterized in that: the distance between adjacent carrier pillar (11) is 2. meters-3.0 meters.