CN205380560U - Automatic feeding machine - Google Patents

Abstract

The utility model discloses an automatic feeding machine, including frame, rotary device, inhaling material device and material feeding unit, rotary device installs in the below of frame, inhales the material device and installs on the top beam of frame, and material feeding unit installs on the stand of frame, inhales the material device and places on material feeding unit behind last silo suction work piece, and material feeding unit arrives required position with the work piece propelling movement, one side symmetry that goes up the silo is provided with the stock chest of the usefulness of getting the raw materials ready. The utility model discloses the overall arrangement is compact, and the flexible function of rational utilization cylinder has realized the rotation, has inhaled the continuous operation of material and pay -off, goes up the effective continuity of working of having guaranteed of setting up of silo and stock chest, has improved work efficiency, inhale the automatic of material device and material feeding unit and set up, replaced manual operation, improved the degree of automation of equipment greatly, reduced the labour and improved the productivity.

Description

Automatic charging machine

Technical field

This utility model relates to polissoir technical field, particularly relates to a kind of automatic charging machine.

Background technology

In industries such as tableware for Western-style food, kitchen tools, hardware & tools, bathrooms, in order to remove the defects such as burr that workpiece occurs in the course of processing of the upstream such as punching press, casting and be required for after work pieces process molding to be ground, polishing, after polished process, surface of the work is smooth, brightness is high, appearance looks elegant.At present, market needing artificial goods of furniture for display rather than for use feeding during tableware for Western-style food polishing mostly, the low production capacity of manual operation labor efficiency is low, and working strength is big, and potential safety hazard is big, it is difficult to meet the requirement that client's automatic business processing is big with reality volume of production.

Therefore, how in industries such as tableware for Western-style food, kitchen tools, hardware & tools, bathrooms, a automatical feeding system is developed, to replace artificial loading, improve treatment effeciency and automaticity, reduce artificial input cost, improve production capacity, become the technical problem that those skilled in the art are urgently to be resolved hurrily.

Utility model content

The purpose of this utility model is to provide a kind of automatic charging machine, and prior art manual operation labor efficiency is low, production capacity is low in solution, and working strength is big, and the problem that potential safety hazard is big.

For solving above-mentioned technical problem, this utility model adopts the following technical scheme that

This utility model one automatic charging machine, including PLC control cabinet, frame, rotary apparatus, device for suction material and pay-off, described rotary apparatus is arranged on the lower section of described frame, described device for suction material is arranged in the top cross-bar of described frame, described pay-off is arranged on the column of described frame, and between described rotary apparatus and described device for suction material, described device for suction material is placed on described pay-off after feeding groove sucking-off workpiece, and workpiece is pushed to desired location by described pay-off；The side of described feeding groove is symmetrically arranged with the stock chest got the raw materials ready.

Further, described rotary apparatus includes rotating seat and rotary cylinder, described rotating seat is connected in described frame, one sidewall of described rotating seat is connected to rotary cylinder carrier base, the two ends of described rotary cylinder carrier base are connected to cylinder sliding seat and slide block backing plate, described slide block backing plate is connected to slide block, described slide block is connected to tooth bar；Described rotary cylinder is arranged in described cylinder sliding seat, and the piston rod of rotary cylinder is connected to flake bearing, and described flake bearing is connected with described tooth bar by flake bearing shaft；The base plate of described rotating seat and top board are respectively connected with rolling bearing units, two described rolling bearing units are connected to rotating shaft, the lower end periphery face of described rotating shaft is connected to swing pinion, and described swing pinion is meshed with described tooth bar, the upper end outer peripheral face of described rotating shaft is connected to connection dish, described connection dish is connected in transfer table supporting plate, in described transfer table the two ends, left and right of supporting plate be symmetrically arranged with two group first position grillage and one group second position grillage, it is connected to three pieces of location-plates between described first location grillage and described second location grillage, in described transfer table, the bottom of supporting plate is provided with rotary positioning mechanism.

Further, described rotary positioning mechanism includes locating piece and buffer, described locating piece is connected in described transfer table on the bottom surface of supporting plate, and described buffer is connected on the end face of described rotating seat by buffer box, and described locating piece and described buffer one_to_one corresponding.

Further, described device for suction material includes cylinder block, suction cylinder, sucker and guider, described suction cylinder is connected in the top cross-bar of described frame by described cylinder block, the working end of described suction cylinder is connected to connecting plate, described connecting plate be connected below vacuum sucker base, described vacuum sucker base is connected to multiple uniform sucker；Described guider has two groups of both sides being disposed side by side on described cylinder block, guiding balance when moving up and down for described sucker.

Further, described guider includes bearing block, linear bearing and linear axis, described bearing block is connected to the two ends of the top cross-bar of described frame, and described linear bearing is connected on described bearing block, and described linear axis is connected to the two ends of described connecting plate after described linear bearing.

Further, described pay-off includes propulsion cylinder seat and propulsion cylinder, described propulsion cylinder passes through propulsion cylinder seat, the working end of propulsion cylinder is connected to linear bearing connecting plate by connector, the two ends of described linear bearing connecting plate are connected to linear bearing, described linear bearing be provided above line slideway, described line slideway is connected in described frame, and described linear bearing and described line slideway match；Described linear bearing connecting plate is connected to multiple uniform supporting plate cylinder, the piston rod of described supporting plate cylinder is connected to workpiece supporting plate.

Further, the frame place that described propulsion cylinder is corresponding is provided with buffer positioner, moves to reach buffering during front position for described linear bearing connecting plate, spacing.

Further, described supporting plate cylinder is specifically provided with three, and is arranged symmetrically on described linear bearing connecting plate.

Further, described feeding groove and stock chest are arranged on described rotary apparatus, and supporting plate in wherein said transfer table, the first location grillage, the second location grillage and three pieces of described location-plates are connected to form described feeding groove and the stock chest of top end opening structure.

Compared with prior art, Advantageous Effects of the present utility model:

This utility model automatic charging machine, including frame, rotary apparatus is arranged on the lower section of frame, and device for suction material is arranged in the top cross-bar of frame, and pay-off is arranged on the column of frame, and pay-off is between rotary apparatus and described device for suction material；During work, device for suction material, from sucking-off workpiece in feeding groove, is then placed within pay-off, and workpiece is pushed to desired location by pay-off.Wherein, the side of feeding groove is symmetrically arranged with the stock chest got the raw materials ready, and feeding groove and stock chest are positioned at the top of rotary apparatus, is connected to form by supporting plate, the first location grillage, the second location grillage and three pieces of location-plates in transfer table；During normal operation, workman can put workpiece in stock chest, and do not affect the operation of automatic material-absorbing and self-feeding, after feeding groove being expected, absorption completes, rotary cylinder starts supporting plate in drive transfer table and rotates 180 °, fully charged stock chest and empty feeding groove position being exchanged, device for suction material and pay-off work on, and material can be filled up feeding groove by workman.This utility model compact in design, the Telescopic of Appropriate application cylinder, it is achieved that rotate, the continuous operation of suction and feeding, feeding groove and stock chest the seriality that effectively ensure that work is set, improve work efficiency；The automatization of device for suction material and pay-off is arranged, and instead of manual operation, substantially increases the automaticity of equipment, decreases labour force and improve the productivity.

Accompanying drawing explanation

Illustrate that the utility model is described in further detail below in conjunction with accompanying drawing.

Fig. 1 is this utility model automatic charging machine front view；

Fig. 2 is this utility model automatic charging machine left view；

Fig. 3 is this utility model automatic charging machine top view；

Description of reference numerals: 1. frame；2. rotary apparatus；3. device for suction material；4. pay-off；5, feeding groove；6, stock chest；

2-1. rotating seat；2-2. rotary cylinder carrier base；2-3. cylinder sliding seat；2-4. slide block backing plate；2-5. slide block；2-6. tooth bar；2-7. rotary cylinder；2-8. flake bearing；2-9. flake bearing shaft；2-10. rolling bearing units；2-11. rotating shaft；2-12. swing pinion；2-13. connection dish；Supporting plate in 2-14. transfer table；2-15. first positions grillage；2-16. second positions grillage；2-17. location-plate；2-18. locating piece；2-19. buffer；2-20 buffer box；

3-1. cylinder block；3-2. suction cylinder；3-3. bearing block；3-4. linear bearing；3-5. linear axis；3-6. connecting plate；3-7. vacuum sucker base；3-8. sucker；

4-1. propulsion cylinder seat；4-2. propulsion cylinder；4-3. connector；4-4. line slideway；4-5. linear bearing；4-6. linear bearing connecting plate；4-7. supporting plate cylinder；4-8. workpiece supporting plate；4-9. buffer positioner.

Detailed description of the invention

As shown in Figures 1 to 3, a kind of automatic charging machine, including PLC control cabinet, frame 1, rotary apparatus 2, device for suction material 3 and pay-off 4, described rotary apparatus 2 is arranged on the lower section of described frame 1, described device for suction material 3 is arranged in the top cross-bar of described frame 1, described pay-off 4 is arranged on the column of described frame 1, and between described rotary apparatus 2 and described device for suction material 3, described device for suction material 3 is placed on described pay-off 4 after feeding groove 5 sucking-off workpiece, and workpiece is pushed to desired location by described pay-off 4；The side of described feeding groove 5 is symmetrically arranged with the stock chest 6 got the raw materials ready.Specifically, described PLC control cabinet is arranged on the fore side of described frame 1, and is connected with described rotary apparatus 2, device for suction material 3, pay-off 4 by circuit.

As shown in Figures 1 to 3, described rotary apparatus 2 includes rotating seat 2-1 and rotary cylinder 2-7, described rotating seat 2-1 is connected in described frame 1, one sidewall of described rotating seat 2-1 is connected to rotary cylinder carrier base 2-2, the two ends of described rotary cylinder carrier base 2-2 are connected to cylinder sliding seat 2-3 and slide block backing plate 2-4, described slide block backing plate 2-4 is connected to slide block 2-5, described slide block 2-5 is connected to tooth bar 2-6；Described rotary cylinder 2-7 is arranged in described cylinder sliding seat 3, the piston rod of rotary cylinder 2-7 is connected to flake bearing 2-8, described flake bearing 2-8 and is connected with described tooth bar 2-6 by flake bearing shaft 2-9；nullThe base plate of described rotating seat 2-1 and top board are respectively connected with a rolling bearing units 2-10，Two described rolling bearing units 2-10 are connected to rotating shaft 2-11，The lower end periphery face of described rotating shaft 2-11 is connected to swing pinion 2-12，And described swing pinion 2-12 is meshed with described tooth bar 2-6，The upper end outer peripheral face of described rotating shaft 2-11 is connected to connection dish 2-13，Described connection dish 2-13 is connected in transfer table supporting plate 2-14，In described transfer table the two ends, left and right of supporting plate 2-14 be symmetrically arranged with two group first position grillage 2-15 and one group second position grillage 2-16，It is connected to three pieces of location-plate 2-17 between described first location grillage 2-15 and described second location grillage 2-16，In described transfer table, the bottom of supporting plate 2-14 is provided with rotary positioning mechanism.

As shown in Figure 2, described rotary positioning mechanism includes locating piece 2-18 and buffer 2-19, described locating piece 2-18 is connected in described transfer table on the bottom surface of supporting plate 2-14, described buffer 2-19 is connected on the end face of described rotating seat 2-1 by buffer box 2-20, and described locating piece 2-18 and described buffer 2-19 one_to_one corresponding.

Described feeding groove 5 and stock chest 6 are arranged on described rotary apparatus 2, and supporting plate 2-14 in wherein said transfer table, the first location grillage 2-15, the second location grillage 2-16 and three pieces of described location-plate 2-17 are connected to form described feeding groove 5 and the stock chest 6 of top end opening structure.

Specifically, the effect of described rotating mechanism 2 is that feeding groove 5 and stock chest 6 position are exchanged 180 °, to meet the demand worked continuously.After the workpiece in feeding groove 5 is all sucked, the piston rod of rotary cylinder 2-7 protrudes through flake bearing 2-8 band carry-over bar 2-6 and moves horizontally, because the swing pinion 2-12 on rotating shaft 2-11 is meshed with described tooth bar 2-6, tooth bar 2-6 moves horizontally and gear 2-12 rotation is rotated, rotating shaft 2-11 consequently also rotates, because in transfer table, supporting plate 2-14 is connected with rotating shaft 2-11 by connection dish 2-13, so supporting plate 2-14 also and then rotates in transfer table；Because in described transfer table, supporting plate 2-14, the first location grillage 2-15, the second location grillage 2-16 and three pieces of described location-plate 2-17 are connected to form feeding groove 5 and stock chest 6, so the position after rotating 180 ° of feeding groove 5 and stock chest 6 is exchanged to, then the workpiece being pre-installed in stock chest is forwarded the position of feeding groove.In addition, the position that in transfer table, supporting plate 2-14 rotates every time is to be positioned by the locating piece 2-18 bottom being arranged in transfer table supporting plate 2-14 and buffer 2-19, and arranging of buffer 2-19 can make supporting plate in transfer table rotate when stopping more steady, spacing more stable.

As shown in Figure 1, 2, described device for suction material 3 includes cylinder block 3-1, suction cylinder 3-2, sucker 3-8 and guider, described suction cylinder 3-2 is connected in the top cross-bar of described frame 1 by described cylinder block 3-1, the working end of described suction cylinder 3-2 is connected to connecting plate 3-6, described connecting plate 3-6 has been connected below vacuum sucker base 3-7, and described vacuum sucker base 3-7 is connected to multiple uniform sucker 3-8；Described guider has two groups of both sides being disposed side by side on described cylinder block 3-1, guiding balance when moving up and down for described sucker 3-8.Described guider includes bearing block 3-3, linear bearing 3-4 and linear axis 3-5, described bearing block 3-3 is connected to the two ends of the top cross-bar of described frame 1, described linear bearing 3-4 is connected on described bearing block 3-3, and described linear axis 3-5 is connected to the two ends of described connecting plate 3-6 after described linear bearing 3-4.

nullSpecifically，When described device for suction material 3 works，When PLC control cabinet exports suction cylinder 3-2 promotion signal，The piston rod of suction cylinder 3-2 stretches out drive connecting plate 3-6 and moves down，Because described linear axis 3-5 is connected to the two ends of connecting plate 3-6 after linear bearing 3-4，Two linear axis 3-5 are simultaneously by linear bearing 3-4 slide downward，The sucker 3-8 connected on the vacuum sucker base 3-7 being connected below of connecting plate 3-6 and vacuum sucker base 3-7 moves down simultaneously，Stop mobile when above movement to workpiece，When workpiece is attracted on sucker 3-8，The piston rod retraction of suction cylinder 3-2，Connecting plate 3-6 is driven to move up，Workpiece is picked up by sucker 3-8，And in ready workpiece supporting plate 4-8 workpiece being placed on pay-off 4.

Described pay-off 4 includes propulsion cylinder seat 4-1 and propulsion cylinder 4-2, described propulsion cylinder 4-2 passes through propulsion cylinder seat 4-1, the working end of propulsion cylinder 4-2 is connected to linear bearing connecting plate 4-6 by connector 4-3, the two ends of described linear bearing connecting plate 4-6 are connected to linear bearing 4-5, described linear bearing 4-5 is provided above line slideway 4-4, described line slideway 4-4 is connected in described frame 1, and described linear bearing 4-5 and described line slideway 4-4 matches；Described linear bearing connecting plate 4-6 is connected to multiple uniform supporting plate cylinder 4-7, the piston rod of described supporting plate cylinder 4-7 is connected to workpiece supporting plate 4-8.

Described frame 1 place corresponding for propulsion cylinder 4-2 is provided with buffer positioner 4-9, moves to reach buffering during front position for described linear bearing connecting plate 4-6, spacing.Described supporting plate cylinder 4-7 is specifically provided with three, and is arranged symmetrically on described linear bearing connecting plate 4-6.

Specifically, when described pay-off 4 works, when the workpiece on sucker 3-8 is placed on workpiece supporting plate 4-8, the piston rod of propulsion cylinder 4-2 stretches out, linear bearing connecting plate 4-6 is driven to move forward by connector 4-3, because described linear bearing connecting plate 4-6 is connected to workpiece supporting plate 4-8 by supporting plate cylinder 4-7, then drives workpiece supporting plate 4-8 to move forward and workpiece is pushed to and external device desired position；Wherein, in workpiece supporting plate 4-8 movement forward, described linear bearing 4-5 moves forward along described line slideway 4-4, stops mobile when linear bearing connecting plate 4-6 contacts with described buffer positioner 4-9.

Course of action of the present utility model is as follows:

First, workpiece is filled in feeding groove 5, then PLC control cabinet is started, device for suction material 3 enters duty, suction cylinder 3-2 receives promotion signal, the piston rod of suction cylinder 3-2 stretches out drive connecting plate 3-6 and moves down, two linear axis 3-5 are simultaneously by linear bearing 3-4 slide downward, connecting plate 3-6 drives sucker 3-8 to move down by vacuum sucker base 3-7, stop mobile when above movement to workpiece, workpiece is attracted on sucker 3-8, the piston rod retraction of suction cylinder 3-2, connecting plate 3-6 is driven to move up, workpiece is picked up by sucker 3-8, and in ready workpiece supporting plate 4-8 workpiece being placed on pay-off 4.

Then, described pay-off 4 is started working, propulsion cylinder 4-2 piston rod shrinks and drives workpiece supporting plate 4-8 to move the lower section to sucker 3-8, sucker 3-8 moves down and is placed on by workpiece on workpiece supporting plate 4-8, the piston rod of propulsion cylinder 4-2 stretches out, drive linear bearing connecting plate 4-6 to move forward by connector 4-3, because linear bearing connecting plate 4-6 is connected to workpiece supporting plate 4-8 by supporting plate cylinder 4-7, then drives workpiece supporting plate 4-8 to move forward and workpiece is pushed to and external device desired position.

Repeating above operating procedure, until all being sent by the workpiece in feeding groove 5, sending in part process at this, next group workpiece is filled in stock chest 6 by operator.Now, rotary apparatus 2 is started working, the piston rod of rotary cylinder 2-7 protrudes through flake bearing 2-8 band carry-over bar 2-6 and moves horizontally, tooth bar 2-6 moves horizontally and gear 2-12 rotation is rotated, rotating shaft 2-11 consequently also rotates, rotating shaft 2-11 is by driving supporting plate 2-14 in transfer table to rotate by connection dish 2-13, and after then in transfer table, the feeding groove 5 on supporting plate 2-14 and stock chest 6 rotate 180 °, position is exchanged, and the workpiece being pre-installed in stock chest forwards to the position of feeding groove then.In stock chest and feeding groove position tuning process, device for suction material and pay-off work on, it is ensured that the seriality of work, improve work efficiency.

Embodiment described above is only that optimal way of the present utility model is described; not scope of the present utility model is defined; under the premise designing spirit without departing from this utility model; various deformation that the technical solution of the utility model is made by those of ordinary skill in the art and improvement, all should fall in the protection domain that this utility model claims are determined.

Claims (9)

1. an automatic charging machine, it is characterized in that: include PLC control cabinet, frame (1), rotary apparatus (2), device for suction material (3) and pay-off (4), described rotary apparatus (2) is arranged on the lower section of described frame (1), described device for suction material (3) is arranged in the top cross-bar of described frame (1), described pay-off (4) is arranged on the column of described frame (1), and it is positioned between described rotary apparatus (2) and described device for suction material (3), described device for suction material (3) is placed on described pay-off (4) after feeding groove (5) sucking-off workpiece, workpiece is pushed to desired location by described pay-off (4)；The side of described feeding groove (5) is symmetrically arranged with the stock chest (6) got the raw materials ready.

2. automatic charging machine according to claim 1, it is characterized in that: described rotary apparatus (2) includes rotating seat (2-1) and rotary cylinder (2-7), described rotating seat (2-1) is connected in described frame (1), one sidewall of described rotating seat (2-1) is connected to rotary cylinder carrier base (2-2), the two ends of described rotary cylinder carrier base (2-2) are connected to cylinder sliding seat (2-3) and slide block backing plate (2-4), described slide block backing plate (2-4) is connected to slide block (2-5), described slide block (2-5) is connected to tooth bar (2-6)；Described rotary cylinder (2-7) is arranged on described cylinder sliding seat (3), and the piston rod of rotary cylinder (2-7) is connected to flake bearing (2-8), and described flake bearing (2-8) is connected with described tooth bar (2-6) by flake bearing shaft (2-9)；nullThe base plate of described rotating seat (2-1) and top board are respectively connected with a rolling bearing units (2-10)，Two described rolling bearing units (2-10) are connected to rotating shaft (2-11)，The lower end periphery face of described rotating shaft (2-11) is connected to swing pinion (2-12)，And described swing pinion (2-12) is meshed with described tooth bar (2-6)，The upper end outer peripheral face of described rotating shaft (2-11) is connected to connection dish (2-13)，Described connection dish (2-13) is connected in transfer table supporting plate (2-14)，In described transfer table the two ends, left and right of supporting plate (2-14) be symmetrically arranged with two group first position grillage (2-15) and one group second position grillage (2-16)，It is connected to three pieces of location-plates (2-17) between described first location grillage (2-15) and described second location grillage (2-16)，In described transfer table, the bottom of supporting plate (2-14) is provided with rotary positioning mechanism.

3. automatic charging machine according to claim 2, it is characterized in that: described rotary positioning mechanism includes locating piece (2-18) and buffer (2-19), on the bottom surface that described locating piece (2-18) is connected in described transfer table supporting plate (2-14), described buffer (2-19) is connected on the end face of described rotating seat (2-1) by buffer box (2-20), and described locating piece (2-18) and described buffer (2-19) one_to_one corresponding.

4. automatic charging machine according to claim 1, it is characterized in that: described device for suction material (3) includes cylinder block (3-1), suction cylinder (3-2), sucker (3-8) and guider, described suction cylinder (3-2) is connected in the top cross-bar of described frame (1) by described cylinder block (3-1), the working end of described suction cylinder (3-2) is connected to connecting plate (3-6), described connecting plate (3-6) be connected below vacuum sucker base (3-7), described vacuum sucker base (3-7) is connected to multiple uniform sucker (3-8)；Described guider has two groups of both sides being disposed side by side on described cylinder block (3-1), guiding balance when moving up and down for described sucker (3-8).

5. automatic charging machine according to claim 4, it is characterized in that: described guider includes bearing block (3-3), linear bearing (3-4) and linear axis (3-5), described bearing block (3-3) is connected to the two ends of the top cross-bar of described frame (1), described linear bearing (3-4) is connected on described bearing block (3-3), and described linear axis (3-5) is connected to the two ends of described connecting plate (3-6) after described linear bearing (3-4).

6. automatic charging machine according to claim 1, it is characterized in that: described pay-off (4) includes propulsion cylinder seat (4-1) and propulsion cylinder (4-2), described propulsion cylinder (4-2) is by propulsion cylinder seat (4-1), the working end of propulsion cylinder (4-2) is connected to linear bearing connecting plate (4-6) by connector (4-3), the two ends of described linear bearing connecting plate (4-6) are connected to linear bearing (4-5), described linear bearing (4-5) be provided above line slideway (4-4), described line slideway (4-4) is connected in described frame (1), and described linear bearing (4-5) matches with described line slideway (4-4)；Described linear bearing connecting plate (4-6) is connected to multiple uniform supporting plate cylinder (4-7), the piston rod of described supporting plate cylinder (4-7) is connected to workpiece supporting plate (4-8).

7. automatic charging machine according to claim 6, it is characterised in that: frame (1) place that described propulsion cylinder (4-2) is corresponding is provided with buffer (4-9), moves to reach buffering during front position for described linear bearing connecting plate (4-6), spacing.

8. automatic charging machine according to claim 6, it is characterised in that: described supporting plate cylinder (4-7) is specifically provided with three, and is arranged symmetrically on described linear bearing connecting plate (4-6).

9. automatic charging machine according to claim 2, it is characterized in that: described feeding groove (5) and stock chest (6) are arranged on described rotary apparatus (2), supporting plate (2-14) in wherein said transfer table, the first location grillage (2-15), the second location grillage (2-16) and three pieces of described location-plates (2-17) are connected to form described feeding groove (5) and the stock chest (6) of top end opening structure.