CN219487845U - Auxiliary stacking machine for ferrules - Google Patents

Abstract

The utility model discloses a ferrule auxiliary stacking machine, which comprises a turntable feeding mechanism, a stacking workbench and a slideway mechanism, wherein the stacking workbench is arranged at the side of the turntable feeding mechanism, the slideway mechanism comprises a horizontally arranged conveying slideway and a vertically arranged conveying slideway, the horizontally arranged conveying slideway and the vertically arranged conveying slideway are connected with each other, the inlet end of the horizontally arranged conveying slideway extends to the turntable feeding mechanism, the outlet end of the vertically arranged conveying slideway extends to the stacking workbench, a movable stacking channel is arranged on the stacking workbench, and the movable stacking channel can be in butt joint with the vertically arranged conveying slideway.

Description

Auxiliary stacking machine for ferrules

Technical Field

The utility model relates to the technical field of bearing part packaging equipment, in particular to a ferrule auxiliary stacking machine.

Background

The ferrule is an important part in the bearing, and the ferrule products need to be orderly stacked in a packing box before leaving the factory, which is the final finished product packing work of the ferrule. At present, the collar product packaging work in enterprises adopts a production mode of pipeline conveying and manual stacking boxing, collar products are conveyed in a running mode through a transmission belt, and packer workers stand on two sides of the pipeline, and are manually picked up and stacked for boxing. The essence of the flow packing production mode is that the flow packing production mode is manual packing, and the flow packing production mode is limited by the upper limit of the operation efficiency of a single worker, so that when the ferrules are produced in a large quantity, a large number of workers are needed on a packing flow line, and the problems of large manual use amount of operation and high labor cost exist.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art and provides a ferrule auxiliary stacking machine.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a pile machine is assisted to lasso for pile operation of lasso product, includes carousel feeding mechanism, pile workstation and slide mechanism, pile workstation is installed in carousel feeding mechanism avris, slide mechanism includes that the slide is carried to the level and erects and carry the slide, the slide interconnect is carried to the level and is carried the slide, the entrance point of the slide is carried to the level extends to carousel feeding mechanism, the exit end of erectting and carrying the slide extends to on the pile workstation, install movable pile passageway on the pile workstation, movable pile passageway can with erect and carry the slide butt joint.

The turntable feeding mechanism comprises a ferrule tray and a tray rotating power assembly, the ferrule tray is in transmission connection with the tray rotating power assembly, the tray rotating power assembly comprises a motor and a speed reducer, an output shaft of the motor is connected with an input end of the speed reducer, and the ferrule tray is connected with an output end of the speed reducer.

The turntable feeding mechanism further comprises a ferrule correction guiding assembly, the ferrule correction guiding assembly comprises a cross beam plate, the cross beam plate stretches across and is arranged at the upper position of the ferrule tray, two correction bars are connected and arranged below the cross beam plate, the two correction bars form dislocation installation, the ferrules can be concentrated to the outer edge position of the ferrule tray for conveying through guiding of the correction bars, the correction bars are spring bars, one end of the horizontally arranged conveying slideway is provided with a feeding port, the feeding port is also arranged at the outer edge position close to the ferrule tray in an extending mode, two feeding guiding plates are arranged at the feeding port, and a guiding space for only limiting one ferrule to enter is formed between the two feeding guiding plates.

And a circle of outer baffle plates are arranged on the outer side of the ferrule tray.

The other end of the horizontally arranged conveying slide rail is provided with a discharge hole, the position of the discharge hole is connected with an arc-shaped overturning discharge plate, the lower end of the arc-shaped overturning discharge plate is inserted into the vertical conveying slide rail, the vertical conveying slide rail is obliquely installed, the low point of the vertical conveying slide rail is arranged on a stacking workbench, and the side of the vertical conveying slide rail is provided with a first sensor.

The stacking workbench is provided with a vertical baffle, the vertical baffle is blocked on the sliding path of the ferrules, and the movable stacking channel and the vertical baffle form a stacking space for only accommodating a single row of ferrules.

The movable stacking channel comprises a translation baffle assembly and a lifting baffle assembly, the translation baffle assembly comprises a baffle pushing cylinder and a translation baffle, the translation baffle is connected with a piston rod end of the baffle pushing cylinder, a limit stop is connected to the stacking workbench, when the translation baffle contacts with the limit stop, the translation baffle is flush with the side wall of the vertical conveying slideway, the lifting baffle assembly comprises a lifting pushing cylinder and a lifting baffle, the lifting pushing cylinder is arranged below a stacking workbench surface, a baffle lifting groove is formed in the stacking workbench surface, the lifting baffle is inserted into the baffle lifting groove, and the lower end of the lifting baffle is connected with a lifting pushing cylinder piston rod.

The vertical baffle is provided with a second sensor, and the second sensor is arranged at the side far away from the movable stacking channel.

The beneficial effects of the utility model are as follows: the utility model has novel structure, can automatically and orderly arrange and stack scattered ferrules, and completes the work in the earlier stage of boxing so as to be convenient for packer to directly take and pack, and after the utility model is used, the packing operation efficiency of single workers can be greatly improved, the labor required by a production line can be effectively reduced, and the requirement of enterprise cost reduction production can be well met.

Drawings

FIG. 1 is a top layout view of the present utility model;

FIG. 2 is a transmission block diagram of the ferrule tray of the present utility model;

FIG. 3 is a schematic view of the structure of the present utility model with the conveyed ferrule converted from a flat to an upright position;

FIG. 4 is a block diagram illustrating the installation of the movable stacking channel of the present utility model.

In the figure: carousel feeding mechanism 1, lasso tray 11, tray rotating power subassembly 12, motor 121, reduction gear 122, lasso correction guiding subassembly 13, crossbeam board 131, correction stick 132, outer baffle 14, stacking table 2, vertical baffle 21, limit stop 22, baffle lift groove 23, second sensor 24, slide mechanism 3, horizontal transport slide 31, feed inlet 311, feed guide plate 312, discharge gate 313, arc upset discharge plate 314, vertical transport slide 32, first sensor 321, movable stacking channel 4, translation baffle subassembly 41, baffle push cylinder 411, translation baffle 412, lift baffle subassembly 42, lift push cylinder 421, lift baffle 422.

Detailed Description

The utility model is further described with reference to the drawings and detailed description, wherein the description of the utility model such as "left" and "right" is directed with reference to fig. 1:

as shown in figures 1-4, a loop auxiliary stacking machine is used for stacking operation of loop products and comprises a rotary table feeding mechanism 1, a stacking workbench 2 and a slide way mechanism 3, wherein the stacking workbench 2 is arranged at the side of the rotary table feeding mechanism 1, the slide way mechanism 3 comprises a flat conveying slide way 31 and an upright conveying slide way 32, the flat conveying slide way 31 and the upright conveying slide way 32 are mutually connected, the inlet end of the flat conveying slide way 31 extends to the rotary table feeding mechanism 1, the outlet end of the upright conveying slide way 32 extends to the stacking workbench 2, a movable stacking channel 4 is arranged on the stacking workbench 2, the movable stacking channel 4 can be in butt joint with the upright conveying slide way 32, in the utility model, a transmission belt for conveying loops directly extends to the position of the rotary table feeding mechanism 1 for blanking, the loops finish feeding operation on the rotary table feeding mechanism 1, then the machine is output to the stacking workbench 2 one by one through the slideway mechanism 3 for stacking, the utility model can automatically arrange and output the ferrules which are randomly fed and stack the ferrules in order, and assist to finish the earlier stage work of ferrule boxing, thus greatly reducing the work load of packer (the workers only need to put the stacked ferrules into a packing box integrally), improving the packing work efficiency of single workers, effectively reducing the labor load required by a production line, well meeting the production requirement of enterprises (when the traditional packing work is carried out, the workers take the ferrules which are randomly fed by themselves, stack the ferrules by themselves and then pack the ferrules by themselves, so the work steps and the work load of single workers are more, the single-worker packing work efficiency is difficult to improve, and when the yield is large, the packing assembly line needs more workers to match production, there is a problem in that labor costs are high).

As shown in fig. 2, the turntable feeding mechanism 1 comprises a ferrule tray 11 and a tray rotating power assembly 12, the ferrule tray 11 is in transmission connection with the tray rotating power assembly 12, the tray rotating power assembly 12 comprises a motor 121 and a speed reducer 122, an output shaft of the motor 121 is connected with an input end of the speed reducer 122, the ferrule tray 11 is connected with an output end of the speed reducer 122, ferrule products conveyed from a ferrule transmission belt directly fall onto the ferrule tray 11 as shown in fig. 1, the ferrule tray 11 is used for receiving and transmitting the ferrule products, the motor 121 is used for driving the ferrule tray 11 to rotate, and the speed reducer 122 plays a role in slowing down rotation (the ferrule tray 11 needs to rotate at a low speed).

As shown in fig. 1, the turntable feeding mechanism 1 further comprises a ferrule correcting guide assembly 13, the ferrule tray 11 only plays a role of receiving and transmitting ferrule products, the ferrule on the ferrule tray 11 is required to be guided into the slideway mechanism 3 for conveying, the ferrule correcting guide assembly 13 is required to be realized, the ferrule correcting guide assembly 13 comprises a transverse beam plate 131, the transverse beam plate 131 spans and is arranged at the upper position of the ferrule tray 11, two correcting rods 132 are connected and arranged below the transverse beam plate 131, the two correcting rods 132 are arranged in a staggered manner, the two correcting rods 132 block the movement direction of the ferrule, after the ferrule touches the correcting rods 132, the ferrule can advance along the length direction of the correcting rods 132, the ferrule can be concentrated to the outer edge of the ferrule tray 11 for conveying (a channel through which a single ferrule can pass can be formed between the outer end point of the second correcting rods 132 and the outer edge of the ferrule tray 11 through the continuous guiding function of the two correcting rods 132), after the ferrule is wound out of the correction rod 132, the ferrule is concentrated at the outer edge position of the ferrule tray 11, so that the ferrule can conveniently enter the horizontally arranged conveying slideway 31), the correction rod 132 is a spring rod, the spring rod has elasticity, the guide effect is not affected, the spring rod is in flexible contact in collision contact with the ferrule, the outer surface of the ferrule is not damaged, one end of the horizontally arranged conveying slideway 31 is provided with a feed inlet 311, the feed inlet 311 is also arranged at the position close to the outer edge position of the ferrule tray 11 in an extending mode, two feed guide plates 312 are arranged at the position of the feed inlet 311, a guide space for only limiting one ferrule to enter is formed between the two feed guide plates 312, and the ferrule guided to be conveyed at the outer edge position of the ferrule tray 11 by the ferrule correction guide assembly 13 can be smoothly guided into the horizontally arranged conveying slideway 31 to be conveyed through the feed guide plates 312.

As shown in fig. 1 and 2, a ring of outer baffles 14 is installed at the outer side of the ferrule tray 11, and the outer baffles 14 prevent the ferrule from falling from the outer edge position of the ferrule tray 11 during the driving process.

As shown in fig. 1 and 3, the other end of the horizontally arranged conveying chute 31 is provided with a discharge hole 313, the position of the discharge hole 313 is connected with an arc-shaped overturning discharge plate 314, the lower end of the arc-shaped overturning discharge plate 314 is inserted into the vertical conveying chute 32, the ferrules on the ferrule tray 11 and the horizontally arranged conveying chute 31 are horizontally arranged, and the ferrules needing to be boxed need to be vertically arranged, so that the ferrules need to be vertically arranged in the conveying process before stacking, the arc-shaped overturning discharge plate 314 plays a role in the above-mentioned, when the horizontally arranged ferrules fall through the arc-shaped overturning discharge plate 314, the ferrules can naturally vertically arranged and fall into the vertical conveying chute 32, the vertical ferrules can naturally fall down along the vertical conveying chute 32 and enter into the movable stacking chute 4, the lower point of the vertical conveying chute 32 is arranged on the stacking workbench 2, the side of the vertical conveying chute 32 is provided with a first sensor 321, when the first sensor 321 detects the ferrules, the ferrules in the movable stacking chute 4 are proved to be full, and the pushing operation (pushing the ferrules is one for discharging).

As shown in fig. 1, the stacking workbench 2 is provided with a vertical baffle 21, the vertical baffle 21 blocks the sliding path of the ferrules, the movable stacking channel 4 and the vertical baffle 21 together form a stacking space for only accommodating a single row of ferrules, thus a row of upright ferrule arrangement operation is completed each time, after the space is filled with ferrules, the arranged ferrules are pushed onto the table surface of the stacking workbench 2 through the movable stacking channel 4, so that the ferrules in a row can be orderly stacked on the table surface of the stacking workbench 2 in a reciprocating manner, and the packer can conveniently take the whole row by row.

As shown in fig. 1 and fig. 4, the movable stacking channel 4 includes a translation baffle assembly 41 and a lifting baffle assembly 42, the translation baffle assembly 41 includes a baffle pushing cylinder 411 and a translation baffle 412, the translation baffle 412 is connected to a piston rod end of the baffle pushing cylinder 411, the stacking workbench 2 is connected with a limit stop 22, when the translation baffle 412 contacts with the limit stop 22, the translation baffle 412 is flush with a side wall of the vertical conveying slideway 32 to form a ferrule sliding channel, the lifting baffle assembly 42 includes a lifting pushing cylinder 421 and a lifting baffle 422, the lifting pushing cylinder 421 is installed at a position below a table top of the stacking workbench 2, a baffle lifting groove 23 is formed on the table top of the stacking workbench 2, the lifting baffle 422 is inserted in the baffle lifting groove 23, the lower end of the lifting baffle 422 is connected with a piston rod of the lifting pushing cylinder 421, the movable stacking channel 4 needs to complete two works, firstly, secondly, the arranged ferrules are required to be pushed out, the ferrules are realized to be orderly stacked on the table top of the stacking workbench 2, and after the lifting baffle 422 is lifted, the vertical stacking space can be formed between the lifting baffle 422 and the lifting baffle 412, the vertical stacking slideway 32 can be automatically pushed out from the lifting slideway 32, and the lifting slideway can be completely pushed out from the lifting slideway 32, and the lifting channel can be completely lifted up and lifted up by the lifting slideway 32, and can be completely pushed down by the lifting channel through the lifting channel, and can be completely pushed down by the lifting channel to the lifting channel.

As shown in fig. 1, the second sensor 24 is installed on the vertical baffle 21, the second sensor 24 is installed on the side far away from the movable stacking channel 4, the second sensor 24 plays a role in safety control, when the second sensor 24 detects the ferrules, it is proved that the stacking workbench 2 is full of the ferrules with orderly stacking, at the moment, the power supply should be temporarily cut off, the continuous stacking is stopped, and the packer waits for taking away.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (8)

1. The utility model provides a pile machine is assisted to lasso for pile operation of lasso product, includes carousel feeding mechanism (1), pile workstation (2) and slide mechanism (3), its characterized in that: the stacking workbench (2) is arranged on the side of the turntable feeding mechanism (1), the slideway mechanism (3) comprises a horizontally arranged conveying slideway (31) and an upright conveying slideway (32), the horizontally arranged conveying slideway (31) and the upright conveying slideway (32) are connected with each other, the inlet end of the horizontally arranged conveying slideway (31) extends to the turntable feeding mechanism (1), the outlet end of the upright conveying slideway (32) extends to the stacking workbench (2), the stacking workbench (2) is provided with a movable stacking channel (4), and the movable stacking channel (4) can be in butt joint with the upright conveying slideway (32).

2. The ferrule assisted stacker of claim 1 wherein: carousel feeding mechanism (1) include lasso tray (11) and tray rotation power subassembly (12), lasso tray (11) transmission connection is on tray rotation power subassembly (12), tray rotation power subassembly (12) include motor (121) and reduction gear (122), motor (121) output shaft links to each other with reduction gear (122) input, lasso tray (11) are connected on reduction gear (122) output.

3. A ferrule assisted stacker according to claim 2 wherein: carousel feeding mechanism (1) still includes lasso correction guiding assembly (13), lasso correction guiding assembly (13) include crossbeam board (131), crossbeam board (131) span and install in lasso tray (11) top position, two correction bars (132) are installed in crossbeam board (131) below connection, and two correction bars (132) form the dislocation installation, through the guide of correction bar (132), enable lasso that lasso concentrate to lasso tray (11) outward flange position and carry, correction bar (132) are the spring bar, flat transport slide (31) one end is established to feed inlet (311), feed inlet (311) also extend and install to be close to lasso tray (11) outward flange position, two feed guiding plates (312) are installed to feed inlet (311) position, form the guide space that only a lasso got into between two feed guiding plates (312).

4. A ferrule assisted stacker according to claim 2 wherein: a circle of outer baffle plates (14) are arranged on the outer side of the ferrule tray (11).

5. A ferrule assisted stacker according to claim 2 wherein: the other end of the horizontally arranged conveying slide way (31) is provided with a discharge hole (313), the position of the discharge hole (313) is connected with an arc-shaped overturning discharge plate (314), the lower end of the arc-shaped overturning discharge plate (314) is inserted into the vertical conveying slide way (32), the vertical conveying slide way (32) is obliquely installed, the low point of the vertical conveying slide way (32) is arranged on the stacking workbench (2), and the side of the vertical conveying slide way (32) is provided with a first sensor (321).

6. The ferrule assisted stacker of claim 1 wherein: the stacking workbench (2) is provided with a vertical baffle (21), the vertical baffle (21) is blocked on the sliding path of the ferrules, and the movable stacking channel (4) and the vertical baffle (21) form a stacking space for only accommodating single-row ferrules.

7. The ferrule assisted stacker of claim 1 wherein: the movable stacking channel (4) comprises a translation baffle assembly (41) and a lifting baffle assembly (42), the translation baffle assembly (41) comprises a baffle pushing cylinder (411) and a translation baffle (412), the translation baffle (412) is connected with a piston rod end of the baffle pushing cylinder (411), a limit stop (22) is connected to the stacking workbench (2), the translation baffle (412) is flush with the side wall of the vertical conveying slideway (32) when in contact with the limit stop (22), the lifting baffle assembly (42) comprises a lifting pushing cylinder (421) and a lifting baffle (422), the lifting pushing cylinder (421) is arranged at the position below the table top of the stacking workbench (2), a baffle lifting groove (23) is formed in the table top of the stacking workbench (2), and the lifting baffle (422) is inserted into the baffle lifting groove (23) and connected with the lifting pushing cylinder (421).

8. The ferrule assisted stacker of claim 6 wherein: the vertical baffle (21) is provided with a second sensor (24), and the second sensor (24) is arranged at the side far away from the movable stacking channel (4).