CN115518837A - Point plastic machine for stockings with thick needles and thick lines - Google Patents

Abstract

The invention provides a point molding machine for stockings with thick needles and thick lines, which comprises a base, a top slideway seat, a fixing assembly, a point molding mechanism, a plurality of slideways, a clamp, a plurality of auxiliary sliding blocks and a main telescopic rod. The top slideway seat and the fixed assembly are both arranged on the base, the point molding mechanism is in sliding fit with the top slideway seat, and the top slideway seat is parallel to the fixed assembly. A plurality of slides equidistant set up on the base, vice slider sliding fit is on the slide, main telescopic link sets up on vice slider. This point is moulded machine for thick needle thick line stocking through base, top slideway seat, fixed subassembly, point that set up mould mechanism, a plurality of slides, anchor clamps, a plurality of vice slider and main telescopic link mutually support. The invention has different modes of winding socks without sleeving the socks in the mold, thereby greatly improving the working efficiency of personnel and facilitating the use of the personnel.

Description

Point plastic machine for stockings with thick needles and thick lines

Technical Field

The invention relates to the technical field of sock dotting and molding machine equipment, in particular to a dotting and molding machine for stockings with thick needles and thick lines.

Background

In order to increase the anti-slip property and wear resistance of the surface of the daily-used socks, manufacturers generally print plastic particles on the front surface or/and the back surface of the formed socks, and a sock printing machine is special equipment for processing the plastic particles.

Chinese utility model patent with publication number CN204307787U discloses a sock glove anti-slip spot molding machine, which comprises a control box, a turntable controlled by the control box, a printing device and a heating device, wherein the printing device and the heating device are sequentially arranged at one side of the turntable along the conveying track of the turntable, the control box is arranged at the bottom of the turntable and is respectively connected with the printing device and the heating device; the utility model discloses an adopt PLC programmable controller to control carousel, printing device and heating device's operating condition, corresponding automation realizes pay-off, some moulds and the stoving process, easily operation and control.

However, the traditional point molding machine usually needs to manually sleeve socks on the mold, then automatically point-molding through the point molding machine seat, and in order to ensure the firmness of the position fixation of the socks when point-molding, the mold is usually arranged relatively large, and the operation of sleeving the socks by people is relatively laborious and difficult.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a spot molding machine for stockings with thick needles and thick lines.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: a point plastic machine for stockings with thick needles and thick threads comprises a base, a top slideway seat, a fixing assembly, a point plastic mechanism, a plurality of slideways, a clamp, a plurality of auxiliary sliding blocks and a main telescopic rod. The top slideway seat and the fixed component are both arranged on the base, the point molding mechanism is in sliding fit with the top slideway seat, and the top slideway seat is parallel to the fixed component. A plurality of slides are equidistantly arranged on the base, the auxiliary sliding block is in sliding fit with the slide, and the main telescopic rod is arranged on the auxiliary sliding block. The fixture is arranged at the movable end of the main telescopic rod, and a plurality of socks are wound on the fixing component.

Preferably, the fixing assembly comprises two main brackets, an upper clamping rod, a lower clamping rod and two clamping assemblies. The main brackets are vertically arranged on the base, and the upper clamping rod is pivoted between the two main brackets. The joint subassembly sets up on last clamping bar, clamping bar passes through the detachable joint of joint subassembly and lower clamping bar down. The head of the sock is arranged between the upper clamping rod and the lower clamping rod.

Preferably, the sock comprises a bottom surface, a top surface and a sock cover, wherein the bottom surface is connected with the top surface. The sock sleeve is arranged at the opening between the bottom surface and the top surface.

Preferably, the spot molding mechanism comprises a main sliding block, a driving machine, a rotating disc and a discharging box. The main sliding block is in sliding fit with the bottom of the top sliding channel seat, and the driving machine is arranged at the bottom of the main sliding block. The rotating disc is arranged on the output end of the driving machine, and the discharging box is arranged on the driving machine.

Preferably, the dispensing mechanism further comprises a dispensing mechanism and a plurality of shielding assemblies, and the dispensing mechanism is arranged on the discharge box. The sock cover is connected with the clamp in a clamping mode, and the other end of the sock is wound on the upper clamping rod.

Preferably, the glue dispensing mechanism comprises a telescopic rod, a glue dispenser, two ring seats and a plurality of nozzles. The telescopic link transversely sets up on ejection of compact case, and two ring seats are connected in the both sides of point gum machine with the axle center, the expansion end sliding fit of ring seat and telescopic link. The plurality of nozzles are distributed on the dispensing machine at equal angles by taking the dispensing machine as a center, and the nozzles correspond to the surface of the bottom surface.

Preferably, the rotary disc further comprises a sub-bracket arranged at the bottom of the rotary disc. The shielding device is characterized by further comprising a plurality of shielding assemblies, wherein the shielding assemblies are hinged to the auxiliary support and comprise upper turning plates and lower sliding plates. The lower sliding plate is in sliding fit with the upper turning plate, and the upper turning plate is hinged on the auxiliary support.

Preferably, the plurality of shielding components are hinged to the side face of the auxiliary support, and the shielding components correspond to the top face and the surface coarse grains of the sock sleeves. The shielding assembly comprises a tooth probe, a gear, a linkage wheel and a steel wire, the gear is pivoted on the side face of the auxiliary support, and the tooth probe is connected with the gear. The linkage wheel is coaxially connected with the gear, one end of the steel wire is wound on the linkage wheel, and the other end of the steel wire is connected with one end of the upper turning plate. The device also comprises an auxiliary telescopic rod, a linkage sleeve seat, a toothed bar and a motor. Linkage cover seat and motor all set up the side at the auxiliary stand, profile of tooth pole sliding fit is on linkage cover seat, the detachable meshing of profile of tooth pole and gear. The output end of the motor is in linkage connection with the insection rod, the auxiliary telescopic rod is arranged on the auxiliary support, and the movable end of the auxiliary telescopic rod is connected with the insection rod.

(III) advantageous effects

The invention provides a point plastic machine for stockings with thick needles and thick lines. The method has the following beneficial effects:

1. the point plastic machine for stockings with thick needles and thick lines is characterized in that a base, a top slideway seat, a fixing assembly, a point plastic mechanism, a plurality of slideways, a clamp, a plurality of auxiliary sliding blocks and a main telescopic rod are arranged to be matched with each other. The invention has different modes of winding socks without sleeving the socks in the mold, thereby greatly improving the working efficiency of personnel and facilitating the use of the personnel.

Drawings

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

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a third perspective view of the present invention;

FIG. 4 is a perspective view of a first partial member of the present invention;

FIG. 5 is a perspective view of a second partial component of the present invention;

FIG. 6 is a perspective view of a third partial component of the present invention;

FIG. 7 is a perspective view of a fourth partial component of the present invention;

FIG. 8 is a view showing a first method of folding the socks of the present invention;

fig. 9 is a view showing a second method for folding the sock of the present invention.

In the figure: the automatic feeding device comprises a base 1, a slideway 2, a main support 3, a fixed component 4, a toothed bar 5, a top slideway seat 6, a rotating disc 7, a main sliding block 8, a point molding mechanism 9, a driving machine 10, a discharge box 11, a main telescopic rod 12, an auxiliary sliding block 13, a linkage sleeve seat 14, an upper clamping rod 15, a clamping component 16, a lower clamping rod 17, socks 18, a bottom surface 19, a top surface 20, socks 21, a point gluing mechanism 22, a ring seat 23, a point gluing machine 24, a nozzle 25, a telescopic rod 26, an upper turning plate 27, a lower sliding plate 28, a shielding component 29, a clamp 30, a contact component 31, a tooth probe 32, a gear 33, a linkage wheel 34, a steel wire 35, an auxiliary telescopic rod 36, an auxiliary support 37 and a motor 38.

Detailed Description

The embodiment of the invention provides a point molding machine for stockings with thick needles and thick lines, which comprises a base 1, a top slideway seat 6, a fixing component 4, a point molding mechanism 9, a plurality of slideways 2, a clamp 30, a plurality of auxiliary sliding blocks 13 and a main telescopic rod 12, and is shown in figures 1-9. Top slide rail seat 6 and fixed subassembly 4 all set up on base 1, point mould mechanism 9 sliding fit on top slide rail seat 6, and top slide rail seat 6 is parallel with fixed subassembly 4. A plurality of slide ways 2 are arranged on the base 1 at equal intervals, the auxiliary slide block 13 is in sliding fit with the slide ways 2, and the main telescopic rod 12 is arranged on the auxiliary slide block 13. The clamp 30 is arranged on the movable end of the main telescopic rod 12, and a plurality of socks 18 are wound on the fixed component 4.

The fixing assembly 4 comprises two main brackets 3, an upper clamping rod 15, a lower clamping rod 17 and two clamping assemblies 16. The main support 3 is vertically arranged on the base 1, and the upper clamping rod 15 is pivoted between the two main supports 3. Clamping component 16 is arranged on upper clamping rod 15, and lower clamping rod 17 is detachably clamped with lower clamping rod 17 through clamping component 16. The head of the sock 18 is disposed between the upper clamping bar 15 and the lower clamping bar 17.

The sock 18 comprises a bottom surface 19, a top surface 20 and a sock cover 21, the bottom surface 19 being attached to the top surface 20. The sock 21 is placed at the opening between the bottom surface 19 and the top surface 20.

The plastic dotting mechanism 9 comprises a main slide block 8, a driving machine 10, a rotating disc 7 and a discharging box 11. The main slide block 8 is in sliding fit with the bottom of the top slide way seat 6, and the driving machine 10 is arranged at the bottom of the main slide block 8. The rotary disk 7 is arranged on the output side of the drive machine 10 and the discharge box 11 is arranged on the drive machine 10.

The dispensing mechanism 9 further comprises a dispensing mechanism 22 and a plurality of shielding assemblies 29, and the dispensing mechanism 22 is arranged on the discharge box 11. The sock cover 21 is clamped by the clamp 30, and the other end of the sock 18 is wound around the upper clamping rod 15.

The dispensing mechanism 22 includes a telescoping rod 26, a dispenser 24, two ring mounts 23, and a plurality of nozzles 25. The telescopic rod 26 is transversely arranged on the discharging box 11, the two ring seats 23 are coaxially connected to two sides of the glue dispenser 24, and the ring seats 23 are in sliding fit with the movable end of the telescopic rod 26. A plurality of nozzles 25 are equiangularly distributed on the dispenser 24 with the dispenser 24 as a center, the nozzles 25 corresponding to the surface of the bottom surface 19.

And a sub-bracket 37, wherein the sub-bracket 37 is arranged at the bottom of the rotating disk 7. And the shielding device further comprises a plurality of shielding assemblies 29, the shielding assemblies 29 are hinged on the auxiliary bracket 37, and the shielding assemblies 29 comprise an upper turning plate 27 and a lower sliding plate 28. Lower slide 28 is slidably engaged on upper flap 27, and upper flap 27 is hinged to secondary support 37.

A plurality of shutter members 29 are hinged on the side of the secondary support 37, the shutter members 29 corresponding to the surface roughness of the top surface 20 and the sock 21. The shielding component 29 comprises a tooth probe 32, a gear 33, a linkage wheel 34 and a steel wire 35, wherein the gear 33 is pivoted on the side surface of a secondary bracket 37, and the tooth probe 32 is connected with the gear 33. The linkage wheel 34 is coaxially connected with the gear 33, one end of the steel wire 35 is wound on the linkage wheel 34, and the other end of the steel wire is connected with one end of the upturning plate 27. The device also comprises an auxiliary telescopic rod 36, a linkage sleeve seat 14, a toothed bar 5 and a motor 38. The linkage sleeve seat 14 and the motor 38 are arranged on the side face of the auxiliary support 37, the toothed bar 5 is in sliding fit with the linkage sleeve seat 14, and the toothed bar 5 is detachably meshed with the gear 33. The output end of the motor 38 is linked with the insection rod 5, the auxiliary telescopic rod 36 is arranged on the auxiliary bracket 37, and the movable end of the auxiliary telescopic rod 36 is connected with the insection rod 5.

The working principle is as follows: during the use, at first place socks 18 tiptoes between last clamping bar 15 and lower clamping bar 17, divide into two kinds according to its mode of putting difference, one kind is for having with socks, consequently need with its vertical folding, divide into two sides with original bottom surface 19, effectively guarantee like this when cutting some moulds, the planarization of the surface of bottom surface 19, another kind is rootless socks, this socks are rootless, consequently can adopt horizontal folding, expose whole bottom surface 19 that constitute by the microgroove, and fix its tiptoes afterwards, twine socks 18 on last clamping bar 15 afterwards, and with the other end of socks 18 and anchor clamps 30 centre gripping, accomplish socks 18 and fix.

Then the main slide block 8 is controlled to move the driving machine 10 to the position right above the socks 18, the rotating disc 7 is rotated simultaneously, the contact component 31 corresponds to the recesses on the socks 21 and the top surface 20, then the auxiliary telescopic rod 36 adjusts 39 according to the width of the fine grain surface on the bottom surface 19 of the socks, then the motor 38 is controlled to work to drive the tooth probe 32 to turn upwards to prevent the tooth probe 32 corresponding to the bottom surface 19 from contacting with the glue dripping point, the linkage wheel 34 rotates to tighten the steel wire 35 to pull the auxiliary telescopic rod 36 to turn upwards, the lower sliding plate 28 automatically retracts under the influence of gravity to expose a part of the surface of the bottom surface 19, the positions of other tooth probes 32 which are not meshed with the tooth probe 39 are kept unchanged, and the upper turning plate 27 and the lower sliding plate 28 on the upper turning plate are obliquely arranged to automatically shield the top surface 20 under the influence of self gravity to prevent point errors and plastic pollution to other places of the socks. Then the ring seat 23 rolls and performs longitudinal pointing on the surface of the bottom surface 19 through the nozzle 25, and then the clamp 30 is controlled to contract to pull the sock 21, so that the position of the bottom surface 19 is changed, and the next pointing operation is convenient.

When for the socks with the heel, only one side is subjected to point molding operation, so after the clamp 30 contracts, the socks 18 fall off from the upper clamping rod 15, the clamp 30 is loosened, the upper clamping rod 15 rotates reversely, the other side is exposed, meanwhile, the main telescopic rod 12 moves to the other side along the slide way 2, the rotating disc 7 rotates, the shielding assembly 29 also moves to the other side, the operation is repeated, and the point molding operation is completed.

In conclusion, the spot molding machine for stockings with thick needles and thick lines is characterized in that a base 1, a top slideway seat 6, a fixing component 4, a spot molding mechanism 9, a plurality of slideways 2, a clamp 30, a plurality of auxiliary sliding blocks 13 and a main telescopic rod 12 are arranged to be matched with each other. The invention has different modes of winding socks without sleeving the socks in the mold, thereby greatly improving the working efficiency of personnel and facilitating the use of the personnel.

Claims (8)

1. The utility model provides a point machine of moulding to thick line stockings of bodkin which characterized in that: including base (1), top slide seat (6), fixed subassembly (4), point and mould mechanism (9), a plurality of slide (2), anchor clamps (30), a plurality of vice slider (13) and main telescopic link (12), top slide seat (6) and fixed subassembly (4) all set up on base (1), point moulds mechanism (9) sliding fit on top slide seat (6), top slide seat (6) are parallel with fixed subassembly (4), and equidistant setting of a plurality of slide (2) is on base (1), vice slider (13) sliding fit is on slide (2), main telescopic link (12) set up on vice slider (13), anchor clamps (30) set up on the activity end of main telescopic link (12), the winding has a plurality of (18) on fixed subassembly (4).

2. A machine for spot moulding thick-line stockings according to claim 1, characterized in that: fixed subassembly (4) include two main supports (3), go up clamping bar (15), clamping bar (17) and two joint subassemblies (16) down, the vertical setting in base (1) of main support (3), go up clamping bar (15) pin joint between two main supports (3), joint subassembly (16) set up on last clamping bar (15), clamping bar (17) are through joint subassembly (16) and the detachable joint of clamping bar (17) down, the head of socks (18) sets up at last clamping bar (15) and between clamping bar (17) down.

3. A spot molding machine for stockings with thick stitches, according to claim 2, characterized in that: the sock (18) comprises a bottom surface (19), a top surface (20) and a sock cover (21), wherein the bottom surface (19) is connected with the top surface (20), and the sock cover (21) is arranged at an opening between the bottom surface (19) and the top surface (20).

4. A machine for spot moulding thick-line stockings according to claim 3, characterized in that: the spot molding mechanism (9) comprises a main sliding block (8), a driving machine (10), a rotating disc (7) and a discharging box (11), wherein the main sliding block (8) is in sliding fit with the bottom of the top sliding channel seat (6), the driving machine (10) is arranged at the bottom of the main sliding block (8), the rotating disc (7) is arranged at the output end of the driving machine (10), and the discharging box (11) is arranged on the driving machine (10).

5. The machine for spot molding thick-line stockings according to claim 4, wherein: the plastic dispensing mechanism (9) further comprises a plastic dispensing mechanism (22) and a plurality of shielding assemblies (29), the plastic dispensing mechanism (22) is arranged on the discharging box (11), the sock sleeves (21) are clamped with the clamp (30), and the other ends of the socks (18) are wound on the upper clamping rod (15).

6. The machine for spot molding thick-line stockings according to claim 5, wherein: dispensing mechanism (22) include telescopic link (26), point gum machine (24), two ring seat (23) and a plurality of nozzle (25), telescopic link (26) transversely set up on ejection of compact case (11), and two ring seat (23) are connected in the both sides of point gum machine (24) with the axle center, ring seat (23) and the expansion end sliding fit of telescopic link (26), a plurality of nozzle (25) use point gum machine (24) as angular distribution such as center on point gum machine (24), nozzle (25) are corresponding with bottom surface (19) surface.

7. The machine for spot molding thick-line stockings according to claim 6, wherein: still include auxiliary stand (37), auxiliary stand (37) set up in the bottom of rolling disc (7), still include a plurality of subassembly (29) that shelter from, a plurality of subassembly (29) that shelter from articulate on auxiliary stand (37), shelter from subassembly (29) including going up turn over board (27) and lower slide (28), slide fit is last to turn over board (27) down, it articulates on auxiliary stand (37) to go up turn over board (27).

8. The spot molding machine for stockings with thick knitting yarns according to claim 7, characterized in that: the utility model discloses a sock, including a plurality of subassembly (29) that shelter from articulate in assistant support (37) side, it is corresponding with top surface (20) and ankle socks (21) surface coarse grain to shelter from subassembly (29), it includes tooth probe (32), gear (33), linkage wheel (34) and steel wire (35) to shelter from subassembly (29), gear (33) pin joint is in assistant support (37) side, tooth probe (32) link to each other with gear (33), linkage wheel (34) link to each other with the axle center with gear (33), the one end winding of steel wire (35) is on linkage wheel (34), and the other end links to each other with the one end of going up board (27), still includes supplementary telescopic link (36), linkage cover seat (14), insection pole (5) and motor (38), linkage cover seat (14) and motor (38) all set up the side of assistant support (37), insection pole (5) sliding fit is on linkage cover seat (14), insection pole (5) and the detachable meshing of gear (33), the motor (38) and the linkage cover seat (36) is connected with the insection pole (36), the supplementary insection pole (36) of motor (36) output is connected the auxiliary link to each other.

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