CN115538077A - Hot-pressing type sock setting machine - Google Patents

Abstract

The invention provides a hot-pressing type sock forming machine which comprises a base, a stand column, a clamp, a telescopic rod, a top slideway, a refrigerator, a supporting plate, a plurality of supporting components, two main slideways and a steam forming press. The upright post, the slide way and the support plate are all arranged on the base, and the top slide way is arranged at the top of the upright post. The telescopic rod is in sliding fit with the bottom of the top slideway, and the clamp is arranged at the movable end of the telescopic rod. This hot pressing formula socks forming machine through mutually supporting of base, stand, anchor clamps, telescopic link, top slide, refrigerator, extension board, a plurality of supporting component, two main slides and the steam forming press that sets up. The sock can be quickly frozen before being sleeved, so that the socks have certain hardness, and are convenient for people to sleeve, and the situation that the socks are creased due to the fact that the socks are extruded by the support and are simultaneously subjected to transverse force applied by the hands of the people is not easy to happen to the sleeve, so that the socks are convenient for the people to use.

Description

Hot-pressing type sock setting machine

Technical Field

The invention relates to the technical field of sock manufacturing equipment, in particular to a hot-pressing type sock setting machine.

Background

In the coming years, with the improvement of the industrial level, the textile industry in China has been developed at an unprecedented high speed, and part of textile machinery has come out of China and has an important position in the total value of national production and export earning. The development of new products of socks mainly is novel raw materials and the directional development that has special function, just so requires that the hosiery machine has stronger functionality, also puts forward higher requirement to the variety that the hosiery machine was woven, just can constantly adapt to future market demand. The socks need to be shaped after being knitted so as to ensure that the socks always keep a certain shape after being penetrated and prolong the service life of the socks. The existing sock shaping mainly adopts steam shaping, and cotton threads of the socks are shaped through the steam.

Therefore socks need a support to prop up it, in order to guarantee its design effect, its support often sets up in socks, therefore personnel need with the manual cover of socks in support and arrange in order. However, the sock is soft and elastic, so that the work efficiency of the person is low when the person wears the traditional suit.

Summary of the invention

(II) technical problem to be solved

Aiming at the defects of the prior art, the invention provides a hot-pressing type sock setting machine.

(III) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a hot pressing formula socks forming machine, includes base, stand, anchor clamps, telescopic link, top slide, refrigerator, extension board, a plurality of supporting component, two main slides and steam forming press. The upright post, the slide way and the support plate are all arranged on the base, and the top slide way is arranged at the top of the upright post. The telescopic rod is in sliding fit with the bottom of the top slideway, and the clamp is arranged at the movable end of the telescopic rod. Socks are clamped on the clamp, the refrigerator is arranged on the support plate, and one side of each sock corresponds to the refrigerator. A plurality of supporting components are in sliding fit on the slide, the bottom opening of the sock corresponds to the supporting components, and the two main slides are arranged on the base along the front-back direction of the base. The steam shaping presses are in sliding fit with the main slideway, and the socks are positioned between the two steam shaping presses.

Preferably, the supporting component comprises a sliding block, a first supporting strip plate, a second supporting strip plate, four telescopic frames, two side plates and a connecting strip plate. The sliding block is in sliding fit with the slide way, and the supporting strip plate II and the supporting strip plate I are hinged with each other. The side plates are connected with the second supporting strip plate through the telescopic frames, and the first connecting strip plate is connected with the first supporting strip plate through the telescopic frames.

The supporting component further comprises a limiting strip, two connecting leather strips, two iron movable rods and a hinge seat. The limiting strips are arranged between the movable rods and the side plates and correspond to the heel parts of the socks. And two ends of the connecting leather strip are respectively connected with the first supporting strip plate and the second supporting strip plate. The movable rod is connected with the top end of the connecting batten through the hinged seat.

Preferably, the support assembly further comprises a chute, a slot, a small slider and a top cap plate. The chute is arranged on the first support strip plate, the open groove is formed in the chute, and the small sliding block is in sliding fit with the chute. The top cap plate is coaxially connected with the small sliding block. The top cap plate corresponds to the sock tip of the sock.

Preferably, the telescopic frame comprises an X-shaped frame, two iron movable seats and a fixed hinged seat. Two fixed hinged seats are respectively fixed on the side plate and the support slat II, and two iron movable seats are arranged at two ends of the top of the X-shaped frame. And two ends of the bottom of the X-shaped frame are pivoted with the two fixed hinged seats.

Preferably, still include the formula control assembly that inhales at the base. The magnetic type control assembly comprises a vertical plate, an auxiliary telescopic rod, a first connecting plate, a two-way telescopic rod, a second connecting plate, four auxiliary telescopic rods, a first two electromagnets and a second four electromagnets. The vertical plate is vertically arranged on the base, the vertical plate is located between the support plate and the steam shaping press, and the auxiliary telescopic rod is transversely arranged on the vertical plate. The first connecting plate and the second connecting plate are hinged to each other, the movable end of the auxiliary telescopic rod is connected with the hinged position of the first connecting plate and the second connecting plate, and the bidirectional telescopic rod is arranged on the second connecting plate. The two electromagnets I are respectively arranged at two ends of the bidirectional telescopic rod and correspond to the movable rod. Four auxiliary telescopic links and four iron sliding seats one-to-one, two auxiliary telescopic links set up on connecting plate one, two in addition auxiliary telescopic links set up on connecting plate two. The second electromagnet is arranged at the movable end of the auxiliary telescopic rod and corresponds to the iron movable seat.

Preferably, the device also comprises a small-sized slide block, a motor and a telescopic electromagnet. The small-sized sliding block is in sliding fit with the back of the second connecting plate, and the motor is arranged on the small-sized sliding block. The telescopic electromagnet is arranged at the output end of the motor and corresponds to the small sliding block.

Preferably, the device further comprises two auxiliary guide assemblies, two motors and a connecting seat. Two connecting seats are all pivoted on the movable end of the auxiliary telescopic rod, and the motor is arranged on the connecting seats. Two supplementary direction subassemblies symmetry set up on the connecting seat, supplementary direction subassembly contacts with the outward flange of socks. Supplementary direction subassembly includes belt, a plurality of universal seats and roller, universal seats sets up on the connecting seat, the roller pin joint is served in the activity of universal seats. The belt is sleeved on the rollers, and the motor is connected with the rollers in a linkage mode.

(IV) advantageous effects

The invention provides a hot-pressing type sock setting machine. The method has the following beneficial effects:

1. this hot pressing formula socks forming machine through mutually supporting of base, stand, anchor clamps, telescopic link, top slide, refrigerator, extension board, a plurality of supporting component, two main slides and the steam forming press that sets up. The sock can be quickly frozen before being sleeved, so that the socks have certain hardness, and are convenient for people to sleeve, and the situation that the socks are creased due to the fact that the socks are extruded by the support and are simultaneously subjected to transverse force applied by the hands of the people is not easy to happen to the sleeve, so that the socks are convenient for the people to use.

Drawings

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

FIG. 2 is a perspective view of a first partial component of the present invention;

FIG. 3 is a perspective view of a second partial component of the present invention;

FIG. 4 is a perspective view of a third partial component of the present invention;

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

FIG. 6 is an enlarged view taken at A of FIG. 5 in accordance with the present invention;

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

FIG. 8 is an enlarged view of the invention at B in FIG. 7.

In the figure: the device comprises a base 1, a main slideway 2, a slideway 3, a supporting component 4, a vertical plate 5, a refrigerator 6, a supporting plate 7, an upright post 8, a secondary supporting component 9, a slideway 10, an expansion link 11, socks 12, a steam shaping press 13, a sliding block 14, an auxiliary expansion link 15, a first connecting plate 16, a magnetic control component 17, a second connecting plate 18, a limiting strip 19, a connecting strip 20, a small sliding block 21, a first electromagnet 22, a two-way expansion link 23, a movable rod 24, a first supporting strip 25, a sliding channel 26, a slotted groove 27, a small sliding block 28, a top hat plate 29, a telescopic electromagnet 30, a motor 31, a leather connecting strip 32, a side plate 33, a second supporting strip 34, a second electromagnet 35, a roller 36, an auxiliary guiding component 37, a belt 38, a universal base 39, a motor 40, a connecting base 41, an auxiliary expansion link 42, a telescopic base 43, a telescopic base 44 iron base, a fixed hinged base 45, a 46X-shaped base and a 47 base.

Detailed Description

The embodiment of the invention provides a hot-pressing type sock setting machine, which comprises a base 1, an upright post 8, a clamp 9, a telescopic rod 11, a top slideway 10, a refrigerator 6, a support plate 7, a plurality of support components 4, two main slideways 2 and a steam setting press 13, as shown in figures 1 to 8. The upright post 8, the slideway 3 and the support plate 7 are all arranged on the base 1, and the top slideway 10 is arranged at the top of the upright post 8. The telescopic rod 11 is in sliding fit with the bottom of the top slideway 10, and the clamp 9 is arranged at the movable end of the telescopic rod 11. Socks 12 are clamped on the clamp 9, the refrigerator 6 is arranged on the support plate 7, and one side of each sock 12 corresponds to the refrigerator 6. A plurality of supporting components 4 are in sliding fit on the slide 3, the bottom opening of the sock 12 corresponds to the supporting components 4, and the two main slides 2 are arranged on the base 1 along the front-back direction of the base 1. The steam shaping presses 13 are a sliding fit on the main runner 2, and the socks 12 are located between the two steam shaping presses 13.

The support assembly 4 includes a slide 14, a first brace bar plate 25, a second brace bar plate 34, four telescoping brackets 43, two side plates 33, and a connecting bar plate 20. The sliding block 14 is in sliding fit on the slideway 3, and the supporting strip two 34 and the supporting strip one 25 are hinged with each other. The side plate 33 is connected with the second brace slat 34 through an expansion bracket 43, and the connecting slat 20 is connected with the first brace slat 25 through the expansion bracket 43.

The supporting assembly 4 further comprises a limiting strip 19, two connecting leather strips 32, two iron movable rods 24 and a hinge seat 47. A stop strip 19 is arranged between the movable bar 24 and the side plate 33, the stop strip 19 corresponding to the heel of the sock 12. The two ends of the connecting leather strip 32 are respectively connected with the first brace lath 25 and the second brace lath 34. The movable bar 24 is connected to the top end of the connection bar plate 20 through a hinge seat 47.

The support assembly 4 further includes a chute 26, a slot 27, a small slide 28, and a top hat plate 29. A slide groove 26 is provided on the first brace bar plate 25, a slot 27 is provided on the slide groove 26, and a small slider 28 is slidably fitted on the slide groove 26. The top cap plate 29 is coaxially connected to the small slide 28. The top cap plate 29 corresponds to the toe of the sock 12.

The telescopic frame 43 comprises an X-shaped frame 46, two iron movable seats 44 and a fixed hinged seat 45. Two fixed hinged seats 45 are respectively fixed on the side plate 33 and the second supporting strip plate 34, and two iron movable seats 44 are arranged at two ends of the top of the X-shaped frame 46. Two ends of the bottom of the X-shaped frame 46 are pivotally connected to the two fixed hinge bases 45.

The magnetic control device further comprises a magnetic control component 17 arranged on the base 1. The magnetic control assembly 17 comprises a vertical plate 5, an auxiliary telescopic rod 42, a first connecting plate 16, a two-way telescopic rod 23, a second connecting plate 18, four auxiliary telescopic rods 15, a first two electromagnets 22 and a second four electromagnets 35. The vertical plate 5 is vertically arranged on the base 1, the vertical plate 5 is positioned between the support plate 7 and the steam shaping press 13, and the auxiliary telescopic rod 42 is transversely arranged on the vertical plate 5. The first connecting plate 16 and the second connecting plate 18 are hinged to each other, the movable end of the auxiliary telescopic rod 42 is connected with the hinged position of the first connecting plate 16 and the second connecting plate 18, and the bidirectional telescopic rod 23 is arranged on the second connecting plate 18. Two electromagnets one 22 are respectively arranged on two ends of the bidirectional telescopic rod 23, and the electromagnets one 22 corresponds to the movable rod 24. Four auxiliary telescopic rods 15 correspond to four iron movable seats 44 one by one, two auxiliary telescopic rods 15 are arranged on the first connecting plate 16, and the other two auxiliary telescopic rods 15 are arranged on the second connecting plate 18. The second electromagnet 35 is arranged at the movable end of the auxiliary telescopic rod 15, and the second electromagnet 35 corresponds to the iron movable seat 44.

The small-sized slide block 21, the motor 31 and the telescopic electromagnet 30 are further included. The small-sized sliding block 21 is in sliding fit with the back of the second connecting plate 18, and the motor 31 is arranged on the small-sized sliding block 21. The telescopic electromagnet 30 is arranged on the output end of the motor 31, and the telescopic electromagnet 30 corresponds to the small slide block 28.

Two auxiliary guide assemblies 37, two motors 40 and a connecting base 41 are further included. Two connecting bases 41 are pivoted on the movable end of the auxiliary telescopic rod 42, and the motor 40 is arranged on the connecting bases 41. Two auxiliary guide members 37 are symmetrically arranged on the connecting seat 41, and the auxiliary guide members 37 are in contact with the outer edge of the sock 12. The auxiliary guide assembly 37 comprises a belt 38, a plurality of universal seats 39 and a roller 36, wherein the universal seats 39 are arranged on a connecting seat 41, and the roller 36 is pivoted on the movable end of the universal seats 39. The belt 38 is fitted over the plurality of rollers 36 and the motor 40 is coupled to the rollers 36.

The working principle is as follows: during the use, at first anchor clamps 9 clip the top of socks 12, control refrigerator 6 to carry out the refrigeration moulding to socks 12 surface after that, remove socks 12 near supporting component 4 next, the personnel is located the opposite direction of riser 5 this moment, and electro-magnet 22 is circular telegram and active rod 24 adsorb firmly after that, and then shrink through two-way telescopic link 23 for active rod 24 is close to each other, forms the closed angle, makes things convenient for personnel to embolia it in socks 12 opening, and electro-magnet 22 loosens to retract after that, and personnel continue to put the socks 12 down the cover. When the socks 12 are completely sleeved on the supporting component 4, the auxiliary telescopic rod 15 and the second electromagnet 35 are controlled, so that the movable rod 24, the connecting strip plate 20 and the side plate 33 can be opened at two sides thereof, and simultaneously the small slide block 21 can move on the connecting plate two 18, then the small slide block 28 can be adsorbed by the operation of the telescopic electromagnet 30, then the motor 31 can be operated, the small slide block 28 can be found to rotate, the top cap plate 29 can be rotated, then the small slide block 21 can be pushed to push the top cap plate 29 to the toe of the socks 12 through the socks 12, the whole supporting of the socks 12 can be completed, meanwhile, the self elasticity of the socks 12 can be recovered due to the indoor temperature in the operation process, and wrinkles generated by the movement and adsorption of the electromagnet can be automatically stretched out. Then, the drying and setting are completed in the steam setting press 13.

In conclusion, the hot-pressing sock forming machine is characterized in that the base 1, the upright post 8, the clamp 9, the telescopic rod 11, the top slide way 10, the refrigerator 6, the support plate 7, the plurality of support assemblies 4, the two main slide ways 2 and the steam forming press 13 are matched with each other. The sock can be quickly frozen before being sleeved, so that the socks have certain hardness, and are convenient for people to sleeve, and the situation that the socks are creased due to the fact that the socks are extruded by the support and are simultaneously subjected to transverse force applied by the hands of the people is not easy to happen to the sleeve, so that the socks are convenient for the people to use.

Claims (8)

1. The utility model provides a hot pressing formula socks forming machine which characterized in that: including base (1), stand (8), anchor clamps (9), telescopic link (11), top slide (10), refrigerator (6), extension board (7), a plurality of supporting component (4), two main slide (2) and steam design press (13), stand (8), slide (3) and extension board (7) all set up on base (1), top slide (10) set up the top at stand (8), telescopic link (11) sliding fit is in the bottom of top slide (10), anchor clamps (9) set up on the activity end of telescopic link (11), the centre gripping has socks (12) on anchor clamps (9), refrigerator (6) set up on extension board (7), one side of socks (12) is corresponding with refrigerator (6), a plurality of socks supporting component (4) sliding fit are on slide (3), the bottom opening of socks (12) is corresponding with supporting component (4), two main slide (2) all set up on base (1) along base (1) fore-and-aft direction, steam design press (13) sliding fit is located between two main slide (13) steam design press (13).

2. A hot-press sock setter as set forth in claim 1, wherein: supporting component (4) include slider (14), support slat one (25), support slat two (34), four expansion bracket (43), two curb plate (33) and connect slat (20), slider (14) sliding fit is on slide (3), support slat two (34) and support slat one (25) articulated each other, curb plate (33) link to each other with support slat two (34) through expansion bracket (43), it links to each other with support slat one (25) to connect slat (20) through expansion bracket (43).

3. A hot-press sock setter as set forth in claim 2, wherein: support assembly (4) still include spacing (19), two connection leather straps (32), two iron movable rods (24) and articulated seat (47), spacing (19) set up between movable rod (24) and curb plate (33), spacing (19) are corresponding with the heel of socks (12), the both ends of connecting leather strap (32) link to each other with supporting slat one (25) and supporting slat two (34) respectively, movable rod (24) link to each other through articulated seat (47) and the top of being connected slat (20).

4. A hot-press sock setter as set forth in claim 3, wherein: the supporting component (4) further comprises a sliding channel groove (26), a groove (27), a small sliding block (28) and a top cap plate (29), the sliding channel groove (26) is arranged on the supporting strip plate (25), the groove (27) is arranged on the sliding channel groove (26), the small sliding block (28) is in sliding fit with the sliding channel groove (26), the top cap plate (29) is connected with the small sliding block (28) through the same axle center, and the top cap plate (29) corresponds to the sock tip of the sock (12).

5. The hot-press sock setter of claim 4, wherein: expansion bracket (43) include X type frame (46), two iron sliding seats (44) and fixed hinge seat (45), and two fixed hinge seats (45) are fixed respectively on curb plate (33) and support slat two (34), and two iron sliding seats (44) set up the top both ends at X type frame (46), the bottom both ends and two fixed hinge seat (45) pin joints of X type frame (46).

6. A hot-press sock setter as set forth in claim 5, wherein: the steam shaping machine is characterized by further comprising a magnetic type control assembly (17) arranged on the base (1), wherein the magnetic type control assembly (17) comprises a vertical plate (5), an auxiliary telescopic rod (42), a first connecting plate (16), a two-way telescopic rod (23), a second connecting plate (18), four auxiliary telescopic rods (15), a first electromagnet (22) and a second electromagnet (35), the vertical plate (5) is vertically arranged on the base (1), the vertical plate (5) is located between the support plate (7) and the steam shaping press (13), the auxiliary telescopic rods (42) are transversely arranged on the vertical plate (5), the first connecting plate (16) and the second connecting plate (18) are hinged to each other, the movable end of each auxiliary telescopic rod (42) is connected with the hinged position of the first connecting plate (16) and the second connecting plate (18), the two first electromagnets (22) are respectively arranged at two ends of the two-way telescopic rod (23), the first electromagnets (22) correspond to the movable rods (24), the four auxiliary telescopic rods (15) correspond to the four movable seats (44), and the two auxiliary telescopic rods (15) are arranged on the first connecting plate (18), the second electromagnet (35) is arranged at the movable end of the auxiliary telescopic rod (15), and the second electromagnet (35) corresponds to the iron movable seat (44).

7. The hot-press sock setter of claim 6, wherein: still include small-size slider (21), motor (31) and flexible electro-magnet (30), small-size slider (21) sliding fit is at connecting plate two (18) back, motor (31) set up on small-size slider (21), flexible electro-magnet (30) set up on the output of motor (31), flexible electro-magnet (30) correspond with small slider (28).

8. A heat and pressure type sock setter as set forth in claim 7, wherein: still include two supplementary direction subassemblies (37), two motors (40) and connecting seat (41), two connecting seats (41) all pin joint are served in the activity of supplementary telescopic link (42), motor (40) set up on connecting seat (41), and two supplementary direction subassemblies (37) symmetry set up on connecting seat (41), supplementary direction subassembly (37) contact with the outward flange of socks (12), supplementary direction subassembly (37) include belt (38), a plurality of universe seat (39) and roller (36), universe seat (39) set up on connecting seat (41), roller (36) pin joint is served in the activity of universe seat (39), belt (38) cover is on a plurality of roller (36), motor (40) and roller (36) linkage are connected.

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