CN115744318A - Receive socks stacking mechanism that socks stereotyping machine was used - Google Patents

Abstract

The invention provides a sock collecting and stacking mechanism for a sock setting machine, which relates to the field of sock collecting mechanisms and comprises two crawler belts, wherein a plurality of rotating shafts are connected between the two crawler belts, sleeve rods are pivoted on the rotating shafts, one ends, far away from the rotating shafts, of the sleeve rods incline outwards, sliding rails are arranged on the right sides of the crawler belts, a placing plate is arranged on the right sides of the sliding rails, a storage groove is formed in the placing plate, and socks slide into the sliding rails from the sleeve rods and finally fall into the storage groove. According to the sock collecting and stacking mechanism for the sock setting machine, the loop bar, the slide rail and the collecting groove are arranged, and socks are separated from the loop bar and fall into the slide rail through the cooperation of the slide bar, the rubber sleeve, the motor and the idler wheel. Through the cooperation of lower plate, punch holder, small-size electric push rod, steel wire, assemble into the clamp and carry socks, play the effect of centre gripping. The socks wrapped by the clamp orderly slide into the containing groove. Thereby replace artifical manual collection to pile up, labour saving and time saving improves socks and collects the work efficiency who piles up.

Description

Receive socks stacking mechanism that socks stereotyping machine was used

Technical Field

The invention relates to the technical field of sock collecting mechanisms, in particular to a sock collecting and stacking mechanism for a sock setting machine.

Background

The existing socks are usually produced by a knitting machine, and a sock shaping machine is suitable for the sock shaping process before the packaging process in the sock production process. The existing sock setting machine generally adopts steam setting, so that the passing socks can always keep a certain shape after passing, the service life of the socks is prolonged, and meanwhile, the socks are enabled to have elasticity and flexibility.

The Chinese patent net discloses a full-automatic rotary steam forming machine (CN 204311235U), the device comprises a conveying track, a forming box, a drying box, a cooling box and an automatic sock taking-off frame, wherein the automatic sock taking-off frame comprises a hand grip for grasping socks and a hand grip cylinder for driving the hand grip to perform loosening or clamping actions, the hand grip is connected with a hand grip lifting driving mechanism and a hand grip advancing and retreating mechanism, during work, the hand grip cylinder grips the socks, then the sock taking-off work is completed through the hand grip lifting driving mechanism and the advancing and retreating mechanism, and then the whole socks are placed in a finished product area.

Among the prior art, though can accomplish snatching, placing of socks, but not have effectually neatly pile up socks to the socks, place the whole mixings of socks in finished product district and be in the same place, need manual one pair of piling up, arrangement of staff, because socks daily output is great, workman's amount of labour is great, and work efficiency is lower.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a sock collecting and stacking mechanism for a sock setting machine, which solves the problems that in the prior art, the grabbing and placing of socks requires a worker to stack and arrange the socks by two pairs manually, so that the labor capacity of the worker is large and the working efficiency is low.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a receive socks stacking mechanism that socks stereotyping machine was used collects socks and piles up, includes two tracks, is connected with a plurality of pivots between two tracks, and the pivot pin joint has the loop bar, and the loop bar is kept away from pivot one end and is leaned out, the track right side is equipped with the slide rail, and the slide rail right side is equipped with puts the board, has shelved on the board and has accomodate the groove, and socks landing to the slide rail in from the loop bar to finally fall into and accomodate the inslot.

Slide rail right-hand member downward sloping, it is located the slide rail below to accomodate the groove, and the slide rail left end is equipped with a plurality of slide bars, and the slide bar is "U" style of calligraphy down, and the slide bar tip runs through the slide rail, and slide rail central authorities department is equipped with the rubber sleeve, and slide rail middle part intercommunication has the connection storehouse, and equidistant range has wrapped up in the connection storehouse and holds by the arm the mechanism, wraps up in and hold by the arm the mechanism and be used for pressing from both sides the socks.

Wrapping up in and holding the mechanism by lower plate, punch holder and long spring, the lower plate right-hand member is articulated with the punch holder right-hand member, and lower plate, punch holder form the clamp, and the clamp opening is towards the slide rail left end, and long spring is located the clamp right side, and long spring lower extreme is connected with the lower plate bottom, and long spring upper end is connected with the punch holder top, is connected with the drive division between lower plate and the punch holder, and drive division control clamp is closed.

Preferably, the slide rail left end is connected with the motor, and the motor transmission shaft is connected with the gyro wheel, and the motor is located rightmost side slide bar top, motor and rightmost side rubber sleeve contact, the slide rail bottom is connected with two force sensor, the force sensor working face is connected with the rope, and wherein one side force sensor's rope and leftmost side slide bar end connection, another force sensor's rope and rightmost side slide bar end connection.

Preferably, the slide rail bottom is inlayed and is had small-size electric push rod, singlechip, battery, and small-size electric push rod left end is connected with the steel wire, and the steel wire passes the lower plate and is connected with the punch holder, the punch holder left side is inlayed and is had the probe, small-size electric push rod, probe, battery and singlechip electric connection drag the steel wire when socks get into the clamp through the probe top, drag the punch holder when small-size electric push rod contracts for the upper plate is hugged closely with the lower plate.

Preferably, the positive central department in loop bar bottom is connected with the balancing weight, has seted up the arc wall in the loop bar, and the arc wall becomes the concentric circles with the pivot and arranges, and the bottom is equipped with thick spring in the arc wall, and the pivot pole body is connected with the magnetite, and thick spring upper end is connected with the magnetite, magnetite and arc wall sliding fit, arc wall inner wall top is equipped with the iron plate.

Preferably, a partition plate is placed in the receiving groove.

Preferably, be equipped with the cylinder in connecting the storehouse, the cylinder is used for supporting to wrap up in holding the mechanism under hand, and adjacent two wrap up in holding and have placed the foam block between the mechanism under hand.

Preferably, the left side of the placing plate is connected with a baffle plate, the baffle plate is positioned above the right end of the sliding rail, and the top of the baffle plate is provided with a rotating rod.

Preferably, the end part of the sliding rod is provided with a flange, the rod body of the sliding rod penetrates through the sliding rail sleeve and is sleeved with a thin spring, the upper end of the thin spring is abutted against the bottom of the sliding rail, and the lower end of the thin spring is abutted against the flange.

Preferably, still including the heated warehouses, the heated warehouses is established in the track top, and the track drives the loop bar through the heated warehouses.

(III) advantageous effects

The invention provides a sock collecting and stacking mechanism for a sock setting machine. The method has the following beneficial effects:

1. this receive socks stacking mechanism that socks stereotyping machine was used establishes loop bar, slide rail and accomodates the groove, through slide bar, rubber sleeve, motor and gyro wheel cooperation, deviates from socks from the loop bar and falls into in the slide rail. Through the cooperation of lower plate, punch holder, small-size electric putter, steel wire, assemble into the clamp and clip socks, play the effect of centre gripping. The socks wrapped by the clamp orderly slide into the containing groove. Thereby replace artifical manual collection to pile up, labour saving and time saving improves socks and collects the work efficiency who piles up.

Drawings

FIG. 1 is a perspective view of the structure of the present invention;

FIG. 2 is an enlarged view of the structure at A in FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of the structure of FIG. 1 at B according to the present invention;

FIG. 4 is a schematic view of the internal structure of the loop bar of the present invention;

FIG. 5 is a schematic view of a slide rail structure according to the present invention;

FIG. 6 is an enlarged view of the structure of FIG. 5 at C according to the present invention;

FIG. 7 is a schematic view of the internal structure of the connecting cabin according to the present invention;

FIG. 8 is a schematic view of the wrapping mechanism of the present invention;

FIG. 9 is another perspective view of the wrapping mechanism of the present invention;

FIG. 10 is a schematic view of the inner structure of the receiving groove of the present invention.

In the figure: 1 track, 2 heating chambers, 3 loop bars, 31 balancing weights, 32 arc-shaped grooves, 33 thick springs, 34 iron blocks, 4 sliding rails, 41 sliding rods, 42 rubber sleeves, 43 motors, 44 rollers, 45 tension sensors, 46 thin springs, 47 ropes, 5 connecting chambers, 51 air cylinders, 52 foam blocks, 6 wrapping mechanisms, 61 lower clamping plates, 62 upper clamping plates, 63 long springs, 64 small electric push rods, 65 steel wires, 66 probes, 67 storage batteries, 68 single-chip microcomputers, 7 placing plates, 71 baffles, 72 rotating rods, 8 containing grooves, 81 clapboards, 9 rotating shafts and 91 magnets.

Detailed Description

The embodiment of the invention provides a sock collecting and stacking mechanism for a sock setting machine, which is used for collecting and stacking socks and comprises two crawler belts 1, wherein a plurality of rotating shafts 9 are fixedly arranged between the two crawler belts 1, sleeve rods 3 are pivoted on the rotating shafts 9, and one ends of the sleeve rods 3 far away from the rotating shafts 9 incline outwards. Socks are sleeved on the loop bars 3, slide rails 4 are placed on the right sides of the tracks 1, a placing plate 7 is placed on the right sides of the slide rails 4, and accommodating grooves 8 are placed on the placing plate 7. The socks slide down from the loop bar 3 into the slide rail 4 and finally fall into the accommodating groove 8.

Slide rail 4 right-hand member downward sloping, accomodate groove 8 and be located slide rail 4 below, slide rail 4 left end is equipped with a plurality of slide bars 41, and slide bar 41 is "U" style of calligraphy of falling, and slide bar 41 tip runs through slide rail 4, and slide rail 4 central authorities department cover has rubber sleeve 42, and slide rail 4 middle part welding intercommunication has connection storehouse 5, and equidistant range has in the connection storehouse 5 to wrap up in and hold mechanism 6, wraps up in and hold mechanism 6 and is used for pressing from both sides the socks.

Referring to fig. 1 and 4, the loop bar 3 is inclined upwards at the left side of the track 1, and when the loop bar 3 rotates to the right side of the track 1, the loop bar 3 is inclined downwards and extends into the space between the slide rail 4 and the slide bar 41.

Wrap up in and hold mechanism 6 by lower plate 61, punch holder 62 and long spring 63, lower plate 61 right-hand member is articulated with punch holder 62 right-hand member, and lower plate 61, punch holder 62 form the clamp, and the clamp opening is towards the slide rail 4 left end, and long spring 63 is located the clamp right side, and long spring 63 lower extreme and lower plate 61 bottom welding, long spring 63 upper end and punch holder 62 top welding. A driving part is connected between the lower clamp plate 61 and the upper clamp plate 62, and the driving part controls the clamp to close.

A motor 43 is fixedly arranged at the left end of the sliding rail 4, a roller 44 is welded on a transmission shaft of the motor 43, the motor 43 is positioned above the rightmost sliding rod 41, and the motor 43 is in contact with the rightmost rubber sleeve 42. Two tension sensors 45 are fixedly mounted at the bottom of the sliding rail 4, and a rope 47 is fixedly bound on the working surface of each tension sensor 45. The rope 47 of one tension sensor 45 is fixedly bound with the end part of the leftmost sliding rod 41, and the rope 47 of the other tension sensor 45 is fixedly bound with the end part of the rightmost sliding rod 41.

A small electric push rod 64, a single chip microcomputer 68 and a storage battery 67 are embedded at the bottom of the sliding rail 4, a steel wire 65 is welded at the left end of the small electric push rod 64, the steel wire 65 penetrates through the lower clamping plate 61 to be welded with the upper clamping plate 62, and a probe 66 is embedded at the left side of the upper clamping plate 62. The small electric push rod 64, the probe 66, the storage battery 67 and the single chip microcomputer 68 are electrically connected.

When socks enter the clamp through the upper part of the probe 66, the probe 66 feeds information back to the single chip microcomputer 68, the single chip microcomputer 68 controls the small electric push rod 64 to contract, the steel wire 65 is dragged when the small electric push rod 64 contracts, the upper clamping plate 62 is dragged by the steel wire 65, the upper clamping plate 62 is tightly attached to the lower clamping plate 61, and the socks are tightly clamped.

The slide rail 4 is also fixedly provided with a master control module, and the master control module controls the motor 43 to rotate.

The working principle is as follows: the crawler 1 drives the loop bar 3 to rotate clockwise, and the loop bar 3 carries socks to enter between the slide rail 4 and the slide bar 42. Then the caterpillar track 1 continues to drive the loop bar 3 to move, the loop bar 3 is abutted against the rubber sleeve 42, the loop bar 3 jacks up the slide bar 41, and the tension sensor 45 senses tension and feeds the tension back to the master control module. The motor 43 is controlled to rotate by the master control module, the motor 43 drives the rightmost rubber sleeve 42 to rotate, and the rubber sleeve 42 rotates to drive the socks to be separated from the loop bar 3 and enter the slide rail 4.

The sock is moved along the track 4 into the clamp with the sock passing between the lower and upper jaws 61, 62 by the feeler 66. The probe 66 feeds back to the single chip microcomputer 68, the single chip microcomputer 68 controls the small electric push rod 64 to contract, and the small electric push rod 64 pulls the steel wire 65, so that the lower clamping plate 61 is tightly attached to the upper clamping plate 62, and the socks are tightly clamped.

The welding of 3 positive central departments in loop bar bottom has balancing weight 31, has seted up arc wall 32 in the loop bar 3, and arc wall 32 becomes the concentric circles with pivot 9 and arranges, and the bottom has welded thick spring 33 in arc wall 32, and pivot 9 pole body fixed mounting has magnetite 91, and thick spring 33 upper end and magnetite 91 fixed bonding, magnetite 91 and arc wall 32 sliding fit, arc wall 32 inner wall top fixed mounting has iron plate 34.

The magnet 91 is a strong magnet, and when the loop bar 3 is positioned at the left side of the crawler belt 1, the magnet 91 is attracted with the iron block 34. The loop bar 3 rotates to the right side of the track 1, when the loop bar 3 enters the space between the slide rails 4 and the rest slide bars 41, the rest slide bars 41 of the loop bar 3 are abutted, the loop bar 3 is pulled upwards along with the rotation of the track 1, the magnet 91 is far away from the iron block 34, and the thick spring 33 is extruded.

As the track 1 continues to rotate, the loop bar 3 gradually escapes from the sliding bar 41 and the sliding rail 4 due to the upwarp. In the process, the sock is separated from the loop bar 3 by the rubber sleeve 42, the motor 43 and the roller 44.

Referring to fig. 10, a partition 81 is disposed in the storage groove 8, the clamped socks slide into the storage groove 8 and are laid in the storage groove 8, and the partition 81 is disposed after the socks are fully laid. The follow-up clamp continues to be laid on the partition plate 81, and the partition plate 81 facilitates the move of the follow-up clamp. Therefore, the effects of replacing manual collection and stacking are achieved.

An air cylinder 51 is fixedly arranged in the connecting bin 5, the air cylinder 51 is used for supporting the wrapping mechanisms 6, and a foam block 52 is arranged between every two adjacent wrapping mechanisms 6. The clamp is pushed into the slide 4 by means of the cylinder 51 extension.

The clamp is in a closed state when it is connected to the cartridge 5, and the long spring 63 is elongated as shown in fig. 7. When the clamp is pushed into the slide rail 4, the long spring 63 contracts due to its elastic property, so that the upper clamping plate 62 is tilted, and the upper foam block 52 is sprung open.

A baffle 71 is welded on the left side of the placing plate 7, the baffle 71 is located above the right end of the sliding rail 4, and a rotating rod 72 is fixedly mounted at the top of the baffle 71. The rotary rod 72 is motor driven. The flicked foam block 52 falls on the baffle 71, and the foam block 52 on the baffle 71 is swept by the rotating rod 72 to the space beside the slide rail 4.

The end part of the sliding rod 41 is welded with a flange, the rod body of the sliding rod 41 penetrates through the sliding rail 4 and is sleeved with a thin spring 46, the upper end of the thin spring 46 is abutted against the bottom of the sliding rail 4, and the lower end of the thin spring 46 is abutted against the flange.

Still including heated warehouses 2, heated warehouses 2 fixed mounting is in track 1 top, and track 1 drives loop bar 3 through heated warehouses 2. The heating and shaping equipment is fixedly arranged in the heating bin 2, and the specific structure, the connection mode and the like are not described in detail due to the conventional technical means.

To sum up, the stocking stacking mechanism for the stocking setting machine is provided with the loop bar 3, the slide rail 4 and the storage groove 8, and the socks are separated from the loop bar 3 and fall into the slide rail 4 through the cooperation of the slide bar 41, the rubber sleeve 42, the motor 43 and the idler wheel 44. The lower clamping plate 61, the upper clamping plate 62, the small electric push rod 64 and the steel wire 65 are matched to form a clamp to clamp the socks, so that the effect of clamping is achieved. The socks wrapped by the clamp orderly slide into the accommodating groove 8. Thereby replace artifical manual collection to pile up, labour saving and time saving improves socks and collects the work efficiency who piles up.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (9)

1. The utility model provides a receive socks stacking mechanism that socks stereotyped machine was used, collects socks and piles up, including two tracks (1), its characterized in that: a plurality of rotating shafts (9) are connected between the two tracks (1), the rotating shafts (9) are pivoted with sleeve rods (3), one ends, far away from the rotating shafts (9), of the sleeve rods (3) incline outwards, sliding rails (4) are arranged on the right sides of the tracks (1), a placing plate (7) is arranged on the right side of each sliding rail (4), accommodating grooves (8) are placed on the placing plates (7), and socks slide into the sliding rails (4) from the sleeve rods (3) and finally fall into the accommodating grooves (8);

the right end of the sliding rail (4) is downwards inclined, the accommodating groove (8) is positioned below the sliding rail (4), a plurality of sliding rods (41) are arranged at the left end of the sliding rail (4), the sliding rods (41) are in an inverted U shape, the end parts of the sliding rods (41) penetrate through the sliding rail (4), a rubber sleeve (42) is arranged at the center of the sliding rail (4), the middle section of the sliding rail (4) is communicated with a connecting bin (5), wrapping and clamping mechanisms (6) are arranged in the connecting bin (5) at equal intervals, and the wrapping and clamping mechanisms (6) are used for clamping socks;

wrap up in and hold mechanism (6) by lower plate (61), punch holder (62) and long spring (63), lower plate (61) right-hand member is articulated with punch holder (62) right-hand member, lower plate (61), punch holder (62) form the clamp, the clamp opening is towards slide rail (4) left end, long spring (63) are located the clamp right side, long spring (63) lower extreme is connected with lower plate (61) bottom, long spring (63) upper end is connected with punch holder (62) top, be connected with the drive division between lower plate (61) and punch holder (62), the drive division control clamp is closed.

2. A stocking stacking mechanism for a stocking shaping machine according to claim 1, characterized in that: slide rail (4) left end is connected with motor (43), and motor (43) transmission shaft is connected with gyro wheel (44), and motor (43) are located rightmost side slide bar (41) top, and motor (43) and rightmost side rubber sleeve (42) contact, slide rail (4) bottom is connected with two force sensor (45), force sensor (45) working face is connected with rope (47), and wherein rope (47) and the leftmost side slide bar (41) end connection of one side force sensor (45), rope (47) and the rightmost side slide bar (41) end connection of another force sensor (45).

3. A stocking stacking mechanism for a stocking setting machine according to claim 2, wherein: slide rail (4) bottom is inlayed and is had small-size electric putter (64), singlechip (68), battery (67), and small-size electric putter (64) left end is connected with steel wire (65), and steel wire (65) pass lower plate (61) and are connected with punch holder (62), inlay on punch holder (62) left side has probe (66), small-size electric putter (64), probe (66), battery (67) and singlechip (68) electric connection, in socks get into the clamp through probe (66) top, drag steel wire (65) when small-size electric putter (64) shrink, drag punch holder (62) in steel wire (65) for punch holder (62) are hugged closely with lower plate (61).

4. A stocking stacking mechanism for a stocking shaping machine according to claim 3, characterized in that: the utility model discloses a handle bar, including loop bar (3), loop bar (3) bottom centre department is connected with balancing weight (31), has seted up arc wall (32) in loop bar (3), and arc wall (32) become concentric circles with pivot (9) and arrange, and the bottom is equipped with coarse spring (33) in arc wall (32), and pivot (9) pole body is connected with magnetite (91), and coarse spring (33) upper end is connected with magnetite (91), magnetite (91) and arc wall (32) sliding fit, arc wall (32) inner wall top is equipped with iron plate (34).

5. A stocking stacking mechanism for a stocking setting machine according to claim 1, wherein: a partition plate (81) is placed in the accommodating groove (8).

6. A stocking stacking mechanism for a stocking shaping machine according to claim 1, characterized in that: be equipped with cylinder (51) in connecting storehouse (5), cylinder (51) are used for supporting to wrap up in holding mechanism (6), and foam block (52) have been placed between two adjacent mechanisms (6) of wrapping up in holding.

7. A stocking stacking mechanism for a stocking setting machine according to claim 1, wherein: the left side of the placing plate (7) is connected with a baffle (71), the baffle (71) is positioned above the right end of the sliding rail (4), and the top of the baffle (71) is provided with a rotating rod (72).

8. A stocking stacking mechanism for a stocking shaping machine according to claim 2, characterized in that: the end part of the sliding rod (41) is provided with a flange, the rod body of the sliding rod (41) penetrates through the sliding rail (4) and is sleeved with a thin spring (46), the upper end of the thin spring (46) is abutted against the bottom of the sliding rail (4), and the lower end of the thin spring (46) is abutted against the flange.

9. A stocking stacking mechanism for a stocking setting machine according to claim 1, wherein: still including heated warehouses (2), heated warehouses (2) are established in track (1) top, and track (1) drive loop bar (3) through heated warehouses (2).

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