CN116590871B - Intelligent system and method for producing light socks with high heat preservation effect - Google Patents

Abstract

The application discloses an intelligent system and a method for producing socks with light weight and high heat preservation effect, wherein the intelligent system comprises a base and further comprises the following steps: a sock taking assembly for taking down the sock from the shaping plate; the sock taking assembly comprises a sliding shell, a plurality of clamping plates are arranged on the sliding shell in a sliding mode, and the clamping plates are matched with the shaping plates; the sock taking assembly is used for taking the socks taken down by the sock taking assembly and folding the socks; linkage subassembly, take socks from the shaping board back of taking socks subassembly, place and receive on the socks subassembly, when getting socks subassembly and resetting, it makes to receive socks subassembly through linkage subassembly and fold socks to take it down, through making a plurality of grip blocks on getting socks subassembly take off the socks that the shaping was good on to a plurality of shaping boards, avoid when taking off socks, the deviation appears in the angle, make socks and shaping board between frictional force too big, the phenomenon that the socks that leads to drag the deformation, even damage has improved production quality.

Description

Intelligent system and method for producing light socks with high heat preservation effect

Technical Field

The application relates to the technical field of sock production, in particular to an intelligent system and method for producing light socks with high heat preservation effect.

Background

Socks are clothing articles worn on feet and play roles of protecting feet and preventing foot odor. The socks are divided into cotton yarn socks, wool socks, silk socks, various chemical fiber socks and the like according to the raw materials; the stocking, the middle stocking, the boat stocking and the like are arranged according to the shape, the flat mouth and the rib mouth are also arranged, the heel, the non-heel, the jacquard and the woven patterns are arranged, and the like, so that the stocking is generally lighter and thinner, has better feeling when being worn, and needs the steps of knitting, sewing the head, dyeing, shaping, packaging and the like when producing the stocking.

In the production of socks, the socks need to be sleeved on the shaping plate in the final shaping process of the socks, the shaping plate sleeved with the socks is sent into ironing equipment, and then taken down after ironing shaping is carried out, in the taking down process, the friction force between the socks and the shaping plate can be increased due to non-uniform taking down angles, so that the socks are pulled, the socks which are just ironed and shaped are deformed, particularly, the socks are lighter and thinner, and when taken down, the damage is caused due to the increase of the friction force generated by the shaping plate, so that the method for taking down the socks not only wastes manpower, but also can reduce the production efficiency and the production quality.

Disclosure of Invention

The application aims to provide an intelligent system and method for producing socks with light weight and high heat preservation effect, so as to solve the defects in the prior art.

In order to achieve the above object, the present application provides the following technical solutions:

an intelligent system and method for producing socks with light weight and high heat preservation effect, comprising a base and further comprising:

a sock taking assembly for taking down the sock from the shaping plate;

the sock taking assembly comprises a sliding shell, a plurality of clamping plates are arranged on the sliding shell in a sliding mode, and the clamping plates are matched with the shaping plates;

the sock taking assembly is used for taking the socks taken down by the sock taking assembly and folding the socks;

the linkage assembly is used for placing the sock collecting assembly after the sock taking assembly takes down the sock from the shaping plate, and the sock taking assembly is used for folding the sock through the linkage assembly and taking down the sock when the sock taking assembly resets.

Preferably, the sliding shell is provided with a sliding plate in a sliding manner, the sliding plate is fixedly provided with a plurality of first pushing blocks and second pushing blocks, the clamping plate is fixedly provided with a fixing block, the first pushing blocks and the second pushing blocks are matched with the fixing block, and the first pushing blocks and the second pushing blocks are selectively clamped with the fixing block.

Preferably, the sock folding assembly comprises a sliding seat arranged on the base in a sliding manner, a guide rod is arranged on the sliding seat in a sliding manner, and a plurality of sock folding rods corresponding to the shaping plates in a one-to-one manner are arranged on the guide rod in a sliding manner.

Preferably, the base is fixedly provided with a guide rail frame, the sliding shell is arranged on the guide rail frame in a sliding manner, the guide rail frame is fixedly provided with a push rod, the base is fixedly provided with a limit frame, and the push rod and the limit frame are in selective interference with the sliding plate.

Preferably, the base is fixedly provided with an upright post, the upright post is provided with a lifting rod and a compensating rod in a sliding manner, a fourth spring is arranged between the lifting rod and the base, a fifth spring is arranged between the lifting rod and the compensating rod, a connecting rod is arranged between the lifting rod and the sliding seat, and two ends of the connecting rod are respectively connected with the lifting rod and the sliding seat in a rotating manner.

Preferably, the compensation rod is slidably provided with a compensation block, and the sliding shell is abutted with the compensation block.

Preferably, the linkage assembly comprises a sliding block arranged on the guide rail frame in a sliding manner, the sliding block is in conflict with the sliding shell, a first connecting rope is arranged between the sliding block and the guide rod, and two ends of the first connecting rope are fixedly connected with the guide rod and the sliding block respectively.

Preferably, a plurality of third springs are arranged between the guide rod and the sliding seat, and two ends of each third spring are fixedly connected with the guide rod and the sliding seat respectively.

Preferably, the linkage assembly further comprises a pull block arranged on the guide rod in a sliding manner, a first scroll is rotatably arranged on the sliding seat, a second connecting rope is arranged between the first scroll and the pull block, and two ends of the second connecting rope are fixedly connected with the pull block and the first scroll respectively and are wound on the first scroll;

a second spring is arranged between the sock folding rods, and two ends of the second spring are fixedly connected with the adjacent sock folding rods respectively;

the first scroll is fixedly provided with a second scroll, a control piece is arranged between the second scroll and the sliding shell, and the control piece comprises a pull rope and a tension spring.

A method for producing a sock with a light weight and high heat preservation effect, which is prepared by the intelligent system for producing a sock with a light weight and high heat preservation effect, comprises the following steps:

s1: the socks on the shaping plate are clamped through the clamping plates on the sock taking assembly, and the socks are taken down through sliding of the sliding shells on the guide rail frames;

s2: taking the socks on the shaping plate off by the socks taking assembly, and placing the socks on the socks collecting assembly;

s3: after the sock taking component places the sock on the sock collecting component, the sock collecting component folds and collects the sock through the linkage component when resetting is performed again.

In the technical scheme, the intelligent system and the method for producing the light-weight sock with the high heat preservation effect have the following beneficial effects:

1. in the embodiment, the sock taking assembly is arranged, so that the plurality of clamping plates on the sock taking assembly clamp and take down the socks shaped on the plurality of shaping plates, uneven angles are avoided when the socks are taken down, the friction force between the socks and the shaping plates is overlarge, and the phenomenon that the socks are pulled and deformed or even damaged is avoided, so that the production quality is improved; and through setting up the linkage subassembly, make receive socks subassembly and fold the socks of taking off and take off to conveniently pack socks, improved production efficiency.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory only and are not restrictive of the disclosure.

This document provides an overview of various implementations or examples of the technology described in this disclosure, and is not a comprehensive disclosure of the full scope or all of the features of the technology disclosed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

FIG. 1 is a schematic diagram of an overall structure according to an embodiment of the present application;

FIG. 2 is a schematic view of an overall reverse side structure provided in an embodiment of the present application;

FIG. 3 is a schematic view of a rail frame according to an embodiment of the present application;

FIG. 4 is a schematic view of a base structure according to an embodiment of the present application;

FIG. 5 is an enlarged view at A provided by an embodiment of the present application;

FIG. 6 is a side view of a rotating housing according to an embodiment of the present application;

fig. 7 is a schematic view of the internal structure of a sliding housing according to an embodiment of the present application;

FIG. 8 is a schematic view of a skateboard according to an embodiment of the present application;

FIG. 9 is a schematic diagram of a clamping plate structure according to an embodiment of the present application;

FIG. 10 is a cross-sectional view of a clamping plate and a sliding housing according to an embodiment of the present application;

fig. 11 is a schematic diagram of an internal structure of a sliding seat according to an embodiment of the present application.

Reference numerals illustrate:

1. a base; 11. a limiting frame; 2. shaping plates; 3. a guide rail frame; 31. a push rod; 32. a sliding block; 33. a first connecting rope; 4. a sliding housing; 41. a clamping plate; 42. a first spring; 43. a fixed block; 44. a slide plate; 45. a first push block; 46. a second push block; 5. a sliding seat; 51. a guide rod; 52. folding sock stems; 53. a second spring; 54. a third spring; 55. pulling blocks; 56. a first reel; 57. a second reel; 58. a second connecting rope; 6. a column; 61. a lifting rod; 62. a fourth spring; 63. a compensation rod; 64. a fifth spring; 65. a compensation block; 66. a connecting rod; 7. a hydraulic rod; 71. rotating the shell; 72. a telescopic rod; 8. and (5) a control member.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present disclosure more apparent, the technical solutions of the embodiments of the present disclosure will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present disclosure. It will be apparent that the described embodiments are some, but not all, of the embodiments of the present disclosure. All other embodiments, which can be made by one of ordinary skill in the art without the need for inventive faculty, are within the scope of the present disclosure, based on the described embodiments of the present disclosure.

Referring to fig. 1 to 11, an intelligent system and method for producing a sock with a light weight and high heat preservation effect, comprising a base 1, and further comprising: a sock taking assembly for taking down socks from the shaping plate 2; the sock taking assembly comprises a sliding shell 4, a plurality of clamping plates 41 are arranged on the sliding shell 4 in a sliding manner, and the clamping plates 41 are matched with the shaping plates 2; the sock taking assembly is used for taking the socks taken down by the sock taking assembly and folding the socks; the linkage assembly is used for taking the socks from the shaping plate 2, placing the socks on the socks collecting assembly after the socks are taken down from the shaping plate 2, enabling the socks collecting assembly to fold the socks through the linkage assembly and take down the socks when the socks are taken down, in the embodiment, ironing and shaping the socks on the shaping plate 2 through the socks firstly and taking down the socks on the socks collecting assembly through the clamping plate 41 on the socks collecting assembly, clamping the socks on the shaping plate 2 through the clamping plate 41, taking down the socks through the clamping plate 41 by sliding the sliding shell 4, avoiding the phenomenon that the angle is deviated when taking down the socks, enabling the friction force between the socks and the shaping plate 2 to be too large, causing the socks to be pulled and deformed or even damaged, improving the production quality, placing the socks on the socks collecting assembly after taking down, folding and taking down the socks on the socks collecting assembly through the linkage assembly when resetting to clamp the socks on the next group of socks, avoiding the occurrence of manual folding and packaging after taking down, thereby reducing the manual operation strength and improving the production efficiency; in this embodiment, each two clamping plates 41 corresponds to one shaping plate 2, and socks on the shaping plates 2 are clamped by the relative sliding fit of the two clamping plates 41; it should be noted that, the forming plate 2 and the conveying device of the forming plate 2 in the present embodiment are related art, and the working principle and the usage manner thereof are common general knowledge and conventional technical means of the person skilled in the art, and are not repeated.

Specifically, a sliding plate 44 is slidably disposed on the sliding housing 4, a plurality of first push blocks 45 and second push blocks 46 are fixedly disposed on the sliding plate 44, a plurality of fixing blocks 43 are fixedly disposed on the plurality of clamping plates 41, the plurality of first push blocks 45 and the plurality of second push blocks 46 are respectively matched with the fixing blocks 43, and the first push blocks 45 and the second push blocks 46 are respectively and selectively clamped with the fixing blocks 43, in this embodiment, by disposing the sliding plate 44 and disposing the first push blocks 45 and the second push blocks 46 on the sliding plate 44, when the sliding plate 44 slides, the first push blocks 45 and the second push blocks 46 can be in abutting and clamping with the fixing blocks 43 on the two opposite clamping plates 41, so as to control the relative sliding of the clamping plates 41, and the clamping opening and closing of the clamping plates 41 can be controlled by sliding the sliding plate 44; in this embodiment, the single first push block 45 and the single second push block 46 correspond to the two clamping plates 41, and are in contact with the fixed blocks 43 on the two clamping plates 41, so that the conscious two clamping plates 41 slide relatively to clamp or relax the sock; and through fixed setting up first spring 42 between grip block 41 and slip shell 4 for grip block 41 can make grip block 41 more stable through the extrusion and the tensile to first spring 42 when carrying out the slip, avoids appearing grip block 41 and slides the too big grip block 41 rocking of frictional force between the lateral wall, promotes grip block 41 stability.

In a further provided embodiment of the present application, the sock folding assembly includes a sliding seat 5 slidably disposed on the base 1, a guide rod 51 is slidably disposed on the sliding seat 5, and a plurality of sock folding rods 52 corresponding to the shaping plate 2 one by one are slidably disposed on the guide rod 51, so that after the sock is removed by the sock taking assembly, the sock is moved to a position crossing the sock folding rods 52 by the sock taking assembly, and the sliding seat 5 slides to translate the sock folding rods 52, and thereafter, the sliding shell 4 slides continuously, so that the sock can be folded in half on the sock folding rods 52, thereby realizing the folding of the sock.

Further, the fixed guide rail frame 3 that is provided with on the base 1, sliding shell 4 slides and sets up on guide rail frame 3, and fixed being provided with ejector pin 31 on the guide rail frame 3, and fixed being provided with spacing 11 on the base 1, and ejector pin 31 and spacing 11 all contradict with slide 44 selectivity, in this embodiment, sliding direction of sliding shell 4 is by the inclination control of guide rail frame 3, its inclination is for sliding shell 4 slides and takes off the socks through grip block 41, the minimum angle of frictional force between socks and the shaped plate 2, through setting up sliding shell 4 on guide rail frame 3, the shell makes sliding shell 4 slide along guide rail frame 3, so that the socks that will take off place on the folding rod 52, and through setting up ejector pin 31 and spacing 11, make when carrying out the centre gripping to socks, can spacing 11 support slide 44, make second ejector 46 on slide 44 make two relative grip blocks 41 relatively slide and carry out the centre gripping to socks on shaped plate 2, and second ejector pin 46 can make grip block 43 clamp the socks and make the socks and take place the socks and make the socks and keep on the jack-off the jack rod 52 and make the socks and keep on the jack-up 45 when the jack rod 43 and make the socks and the jack-up 45 and keep on the jack-off the jack plate 41, the jack-up the socks and the jack-up 45.

Further, the upright post 6 is fixedly arranged on the base 1, the lifting rod 61 and the compensating rod 63 are slidably arranged on the upright post 6, the fourth spring 62 is arranged between the lifting rod 61 and the base 1, the fifth spring 64 is arranged between the lifting rod 61 and the compensating rod 63, the connecting rod 66 is arranged between the lifting rod 61 and the sliding seat 5, and two ends of the connecting rod 66 are respectively and rotatably connected with the lifting rod 61 and the sliding seat 5.

In a further embodiment of the present application, the compensation rod 63 is slidably provided with the compensation block 65, and the sliding shell 4 is abutted against the compensation block 65, in this embodiment, by providing the compensation block 65 on the compensation rod 63, the sliding shell 4 is pressed down on the compensation rod 63, and sliding friction between the sliding shell 4 and the compensation rod 63 is avoided by using sliding of the compensation block 65, so that abrasion of the sliding shell 4 is avoided.

In the embodiment provided by the application, the linkage assembly comprises the sliding block 32 which is arranged on the guide rail frame 3 in a sliding way, the sliding block 32 is in contact with the sliding shell 4, the first connecting rope 33 is arranged between the sliding block 32 and the guide rod 51, two ends of the first connecting rope 33 are respectively fixedly connected with the guide rod 51 and the sliding block 32, and the sliding block 32 arranged on the guide rail frame 3 can push the sliding block 32 to slide when the sliding shell 4 resets, and the sliding block 32 pulls the first connecting rope 33 to enable the guide rod 51 to slide with the sock folding rod 52, so that the sock folding rod 52 is retracted into the sliding seat 5, and the folded sock can be conveniently taken down.

Specifically, a plurality of third springs 54 are disposed between the guide rod 51 and the sliding seat 5, and two ends of the third springs 54 are fixedly connected with the guide rod 51 and the sliding seat 5 respectively, in this embodiment, by disposing the third springs 54, when the guide rod 51 slides to retract the sock folding rod 52 into the sliding seat 5, the third springs 54 are extruded, the sliding shell 4 slides when the next batch of socks is taken down, the restoring force of the third springs 54 pushes the guide rod 51 to restore the sock folding rod 52 so as to fold the next batch of socks, and when the guide rod 51 resets, the sliding block 32 can be pulled by the first connecting rope 33 to restore the sock folding rod.

In the scheme provided by the application further, the linkage assembly further comprises a pull block 55 which is arranged on the guide rod 51 in a sliding manner, a first scroll 56 is rotatably arranged on the sliding seat 5, a second connecting rope 58 is arranged between the first scroll 56 and the pull block 55, and two ends of the second connecting rope 58 are fixedly connected with the pull block 55 and the first scroll 56 respectively and are wound on the first scroll 56; a second spring 53 is arranged between the sock folding rods 52, and two ends of the second spring 53 are fixedly connected with the adjacent sock folding rods 52 respectively; the first reel 56 is fixedly provided with a second reel 57, a control member 8 is arranged between the second reel 57 and the sliding shell 4, and the control member 8 comprises a pull rope and a tension spring, in this embodiment, when the first reel 56 winds the second connecting rope 58, the pull block 55 can push the sock folding rod 52 to slide, and in the sliding process, the second spring 53 is extruded, the sock folding rod 52 slides to the tail end of the second spring to be mutually attached, and the folded sock can be gathered so as to be taken down; the second reel 57 is arranged to be connected with the sliding shell 4 through control, when the sliding shell 4 slides and resets to clamp and take down the next batch of socks, the second reel 57 can be controlled to rotate through a pull rope in the control piece 8, the first reel 56 is used for winding the second connecting rope 58 to pull the pull block 55, the sock folding rod 52 slides, and when the sock folding rod 52 is in close contact, the first reel 56 and the second reel 57 cannot continuously rotate under the action of the second connecting rope 58, at the moment, the sliding shell 4 continuously resets and slides, the tension spring can be used for compensation, so that the condition of continuously resetting and sliding is met, and when the sliding shell 4 clamps the socks to slide downwards, the tension spring is firstly loosened, then the pull rope is loosened, at the moment, the sock folding rod 52 resets under the action of the second spring 53, and the socks are folded and taken up.

In the application, the driving mode is that the hydraulic rod 7 is provided, the hydraulic rod 7 is fixedly arranged on the base 1, the telescopic end of the hydraulic rod 7 is rotationally connected with the rotating shell 71, the rotating shell 71 is provided with the telescopic rod 72 in a sliding way, the telescopic rod 72 is rotationally connected with the sliding shell 4, the hydraulic rod 7 is lengthened or shortened, the sliding shell 4 can slide along the guide rail frame 3 by adjusting the rotation of the rotating shell 71, meanwhile, the telescopic rod 72 also slides on the rotating shell 71, and the distance generated when the sliding shell 4 slides can be compensated by sliding the telescopic rod 72 on the rotating shell 71, so that the sliding shell 4 can normally slide along the guide rail frame 3.

The application also provides a method for producing the light-weight sock with high heat preservation effect, which is prepared by the intelligent system for producing the light-weight sock with high heat preservation effect, and comprises the following steps of:

s1: the socks on the shaping plate are clamped through the clamping plates on the sock taking assembly, and the socks are taken down through sliding of the sliding shells on the guide rail frames;

s2: taking the socks on the shaping plate off by the socks taking assembly, and placing the socks on the socks collecting assembly;

s3: after the sock taking component places the sock on the sock collecting component, the sock collecting component folds and collects the sock through the linkage component when resetting is performed again.

Working principle: after the sock is ironed and shaped on the shaping plate 2, the hydraulic rod 7 is extended, the sliding shell 4 slides and pushes the sliding block 32, the sliding block 32 pulls the guide rod 51 through the first connecting rope 33, the third spring 54 compresses the sock folding rod 52 into the sliding seat 5, the sliding plate 44 on the sliding shell 4 is in contact with the limiting frame 11, the sliding plate 44 slides the second pushing block 46 against the fixed blocks 43 on the two opposite clamping plates 41, the first spring 42 stretches, the clamping plates 41 slide relatively to clamp the sock on the shaping plate 2, then the hydraulic rod 7 shortens, the rotating shell 71 rotates, the telescopic rod 72 slides out and stretches and slides the sliding shell 4 along the guide rail frame 3, the clamping plate 41 is taken off from the shaping plate 2, the clamping plate 41 clamps the sock to move on the guide rail frame 3 along with the sliding shell 4 when the sliding shell 4 slides, under the action of the restoring force of the third spring 54, the sock folding rod 52 extends out of the sliding seat 5, the sliding block 32 is restored along the sliding groove on the guide rail frame 3 by pulling the pull rope until the sock folding rod 52 extends out, then the sliding shell 4 continues to slide along the guide rail frame 3, when the sock is slid until the sock and the sock folding rod 52 are crossed, one end of the sliding shell 4 abuts against the compensating block 65 and continues to slide downwards, the fourth spring 62 compresses first, the lifting rod 61 slides downwards, the sliding seat 5 slides through the connecting rod 66, the sliding seat 5 slides, the sock folding rod 52 translates, the sliding shell 4 continues to slide downwards, the fifth spring 64 compresses, the sock is not dried downwards, the gap for compensating the downward movement of the lifting rod 61 required to continue the downward movement of the sliding shell 4 is provided, then the sock is lapped on the sock folding rod 52 through the clamping plate 41, the slide plate 44 on the sliding shell 4 is abutted against the ejector rod 31, the slide plate 44 slides to separate the second push block 46 from the fixed block 43 on the clamping plate 41, the first spring 42 is reset, the clamping plate 41 is separated from clamping the socks, the first push block 45 is abutted against the fixed block 43 on the clamping plate 41, the first spring 42 is compressed to ensure that the clamping plate 41 is completely separated from the socks, then when the next batch of socks are taken down and folded, the hydraulic rod 7 is extended to reset the sliding shell 4, when the sliding shell 4 is reset, the second scroll 57 is rotated by elongating the pull rope to drive the first scroll 56 to rotate, when the first scroll 56 rotates, the second connecting rope 58 is wound, the pull block 55 is pulled to slide, and the pull block 55 pushes the sock folding rod 52 to slide, and make a plurality of second springs 53 advance and compress in proper order to reduce the distance between each and fold socks pole 52, make the socks that are taking up on the socks pole 52 and gather, in order to conveniently take off socks, when each is folding socks pole 52 slides to the laminating, slide shell 4 keeps on resetting, and make slide shell 4 keep on sliding reset through the extension spring in the extension control piece 8, wait that slide shell 4 slides to slider 32 department and can support slider 32 and make it slide, slider 32 is sliding and is using first connecting rope 33 to pull guide arm 51, make folding socks pole 52 draw into slide seat 5, make socks and folding socks pole 52 break away from, can be convenient for take off the socks after folding, simultaneously wait that slide 44 on slide shell 4 and limit frame 11 are contradicted, slide 44 slides and can make, grip plate 41 carries out the centre gripping to socks on the next batch of shaping board 2.

While certain exemplary embodiments of the present application have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the application. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the application, which is defined by the appended claims.

Claims (7)

1. An intelligent system for producing light high heat preservation effect socks, includes base (1), its characterized in that still includes:

the sock taking assembly is used for taking down socks from the shaping plate (2);

the sock taking assembly comprises a sliding shell (4), a plurality of clamping plates (41) are arranged on the sliding shell (4) in a sliding mode, and the clamping plates (41) are matched with the plurality of shaping plates (2);

the sock taking assembly is used for taking the socks taken down by the sock taking assembly and folding the socks;

the linkage assembly is used for placing the socks on the sock collecting assembly after the sock collecting assembly takes down the socks from the shaping plate (2), and the sock collecting assembly is used for folding the socks through the linkage assembly and taking down the socks when the sock collecting assembly resets;

a sliding plate (44) is arranged on the sliding shell (4) in a sliding manner, a plurality of first pushing blocks (45) and second pushing blocks (46) are fixedly arranged on the sliding plate (44), a plurality of fixing blocks (43) are fixedly arranged on the clamping plates (41), the first pushing blocks (45) and the second pushing blocks (46) are matched with the fixing blocks (43), and the first pushing blocks (45) and the second pushing blocks (46) are selectively clamped with the fixing blocks (43);

the sock folding assembly comprises a sliding seat (5) which is arranged on the base (1) in a sliding manner, a guide rod (51) is arranged on the sliding seat (5) in a sliding manner, and a plurality of sock folding rods (52) which are in one-to-one correspondence with the shaping plates (2) are arranged on the guide rod (51) in a sliding manner;

the novel sliding shell is characterized in that a guide rail frame (3) is fixedly arranged on the base (1), the sliding shell (4) is arranged on the guide rail frame (3) in a sliding mode, an ejector rod (31) is fixedly arranged on the guide rail frame (3), a limiting frame (11) is fixedly arranged on the base (1), and the ejector rod (31) and the limiting frame (11) are in selective interference with the sliding plate (44).

2. The intelligent system for producing the socks with the light high heat preservation effect according to claim 1, wherein the upright post (6) is fixedly arranged on the base (1), the lifting rod (61) and the compensating rod (63) are slidably arranged on the upright post (6), a fourth spring (62) is arranged between the lifting rod (61) and the base (1), a fifth spring (64) is arranged between the lifting rod (61) and the compensating rod (63), a connecting rod (66) is arranged between the lifting rod (61) and the sliding seat (5), and two ends of the connecting rod (66) are respectively connected with the lifting rod (61) and the sliding seat (5) in a rotating mode.

3. An intelligent system for producing lightweight high thermal insulation effect socks according to claim 2, characterized in that the compensating rod (63) is slidingly provided with a compensating block (65), and the sliding shell (4) is abutted with the compensating block (65).

4. An intelligent system for producing socks with light weight and high heat preservation effect according to claim 1, characterized in that the linkage assembly comprises a sliding block (32) arranged on the guide rail frame (3) in a sliding way, the sliding block (32) is in conflict with the sliding shell (4), a first connecting rope (33) is arranged between the sliding block (32) and the guide rod (51), and two ends of the first connecting rope (33) are fixedly connected with the guide rod (51) and the sliding block (32) respectively.

5. An intelligent system for producing socks with light weight and high heat preservation effect according to claim 1, characterized in that a plurality of third springs (54) are arranged between the guide rod (51) and the sliding seat (5), and two ends of the third springs (54) are fixedly connected with the guide rod (51) and the sliding seat (5) respectively.

6. An intelligent system for producing socks with light weight and high heat preservation effect according to claim 1, characterized in that the linkage assembly further comprises a pull block (55) arranged on the guide rod (51) in a sliding way, a first scroll (56) is rotatably arranged on the sliding seat (5), a second connecting rope (58) is arranged between the first scroll (56) and the pull block (55), and two ends of the second connecting rope (58) are fixedly connected with the pull block (55) and the first scroll (56) respectively and are wound on the first scroll (56);

a second spring (53) is arranged between the sock folding rods (52), and two ends of the second spring (53) are fixedly connected with the adjacent sock folding rods (52) respectively;

the first scroll (56) is fixedly provided with a second scroll (57), a control piece (8) is arranged between the second scroll (57) and the sliding shell (4), and the control piece (8) comprises a pull rope and a tension spring.

7. A method for producing a lightweight high thermal insulation sock, prepared by an intelligent system for producing a lightweight high thermal insulation sock as claimed in any of claims 1 to 6, characterized in that the method for producing a lightweight high thermal insulation sock comprises the steps of:

s1: the socks on the shaping plate are clamped through the clamping plates on the sock taking assembly, and the socks are taken down through sliding of the sliding shells on the guide rail frames;

s2: taking the socks on the shaping plate off by the socks taking assembly, and placing the socks on the socks collecting assembly;

s3: after the sock taking component places the sock on the sock collecting component, the sock collecting component folds and collects the sock through the linkage component when resetting is performed again.