CN115538077B - Hot-pressing type sock shaping machine - Google Patents

Abstract

The invention provides a hot-pressing type sock shaping machine which comprises a base, an upright post, a clamp, a telescopic rod, a top slideway, a refrigerator, a support plate, a plurality of support components, two main slideways and a steam shaping press. The stand, slide and extension board all set up on the base, top slide sets up the top at the stand. The telescopic rod is in sliding fit with the bottom of the top slideway, and the clamp is arranged on the movable end of the telescopic rod. This hot pressing formula socks forming machine through the base, stand, anchor clamps, telescopic link, top slide, refrigerator, extension board, a plurality of supporting component, two main slides and the cooperation of steam forming press that set up. The sock surface quick-freezing machine can quickly freeze the surface of the sock before sleeving, so that the sock has certain hardness, the sleeving of personnel is facilitated, and the sleeving is not easy to cause the sock to be crumpled due to the fact that the support extrudes the sock and the lateral force applied by the hand of the personnel is applied, so that the sock is convenient for the personnel to use.

Description

Hot-pressing type sock shaping machine

Technical Field

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

Background

In the last year, with the improvement of the industrial level, the textile industry in China has advanced unprecedented high-speed development, and part of textile machinery has started to go out of home, thus having important roles in national production total value and export foreign exchange. The development of new sock products mainly comprises the development of new raw materials and directions with special functions, so that the sock machine is required to have stronger functionality, and higher requirements are also provided for the diversity of knitting of the sock machine, so that the sock machine can continuously adapt to future market demands. After the sock is woven, the sock needs to be shaped, so that the sock is ensured to be always kept in a certain shape after passing through, and the service life of the sock is prolonged. The prior art mainly adopts steam shaping to shape the socks, and the cotton threads of the socks are shaped by the steam.

Therefore, the sock needs to be supported by a bracket, and in order to ensure the shaping effect, the support is often arranged in the sock, so that personnel need to manually sleeve the sock on the bracket and arrange the sock. However, since the sock is soft and elastic, the staff has a low work efficiency when performing the conventional suit.

Summary of the invention

(II) solving the technical problems

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

(III) technical scheme

In order to achieve the above purpose, the invention is realized by the following technical scheme: a hot-pressing type sock shaping machine comprises a base, an upright post, a clamp, a telescopic rod, a top slideway, a refrigerator, a support plate, a plurality of support assemblies, two main slideways and a steam shaping press. The stand, slide and extension board all set up on the base, top slide sets up the top at the stand. The telescopic rod is in sliding fit with the bottom of the top slideway, and the clamp is arranged on 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. The support assemblies are in sliding fit on the sliding ways, the bottom openings of the socks correspond to the support assemblies, and the two main sliding ways are arranged on the base along the front-back direction of the base. The steam shaping presses are in sliding fit on the main slide rail, and the socks are positioned between the two steam shaping presses.

Preferably, the support assembly comprises a sliding block, a first support slat, a second support slat, four telescopic brackets, two side plates and a connecting slat. The sliding block is in sliding fit on the slideway, and the second support slat and the first support slat are hinged with each other. The side plate is connected with the second supporting strip plate through the expansion bracket, and the connecting strip plate is connected with the first supporting strip plate through the expansion bracket.

The support assembly further comprises a limiting strip, two connecting leather strips, two iron movable rods and a hinging seat. The limit strip is arranged between the movable rod and the side plate, and corresponds to the heel of the sock. And two ends of the connecting leather strip are respectively connected with the first support strip plate and the second support strip plate. The movable rod is connected with the top end of the connecting slat through the hinging seat.

Preferably, the support assembly further comprises a slideway slot, a small sliding block and a top cap plate. The sliding channel groove is arranged on the first supporting strip plate, the groove is arranged on the sliding channel groove, and the small sliding block is in sliding fit on the sliding channel groove. The top cap plate is connected with the small sliding block through the coaxial center. 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 hinge seat. Two fixed hinge seats are respectively fixed on the side plate and the second supporting slat, and two iron movable seats are arranged at two ends of the top of the X-shaped frame. Two ends of the bottom of the X-shaped frame are pivoted with the two fixed hinging seats.

Preferably, the device further comprises a magnetic control assembly arranged on the base. The magnetic attraction type control assembly comprises a vertical plate, an auxiliary telescopic rod, a first connecting plate, a bidirectional telescopic rod, a second connecting plate, four auxiliary telescopic rods, two electromagnets I and four electromagnets II. The vertical setting of riser is on the base, the riser is located between extension board and the steam setting press, supplementary telescopic link transversely sets up on the riser. 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 first electromagnets are respectively arranged at two ends of the bidirectional telescopic rod, and the first electromagnets correspond to the movable rod. Four auxiliary telescopic rods are in one-to-one correspondence with four iron movable seats, two auxiliary telescopic rods are arranged on the first connecting plate, and the other two auxiliary telescopic rods are arranged on the second connecting plate. The electromagnet II is arranged on the movable end of the auxiliary telescopic rod, and corresponds to the iron movable seat.

Preferably, the device also comprises a small sliding block, a motor and an extension 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. The two connecting seats are pivoted on the movable end of the auxiliary telescopic rod, and the motor is arranged on the connecting seats. The two auxiliary guide components are symmetrically arranged on the connecting seat, and the auxiliary guide components are contacted with the outer edge of the sock. The auxiliary guide assembly comprises a belt, a plurality of universal seats and rollers, wherein the universal seats are arranged on the connecting seats, and the rollers are pivoted on the movable ends of the universal seats. The belt is sleeved on the rollers, and the motor is connected with the rollers in a linkage way.

(IV) beneficial effects

The invention provides a hot-pressing sock shaping machine. The beneficial effects are as follows:

1. this hot pressing formula socks forming machine through the base, stand, anchor clamps, telescopic link, top slide, refrigerator, extension board, a plurality of supporting component, two main slides and the cooperation of steam forming press that set up. The sock surface quick-freezing machine can quickly freeze the surface of the sock before sleeving, so that the sock has certain hardness, the sleeving of personnel is facilitated, and the sleeving is not easy to cause the sock to be crumpled due to the fact that the support extrudes the sock and the lateral force applied by the hand of the personnel is applied, so that the sock is convenient for the personnel 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 of FIG. 5A 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 fig. 7 at B of the present invention.

In the figure: 1 base, 2 main slideway, 3 slideway, 4 supporting component, 5 vertical plate, 6 refrigerator, 7 supporting plate, 8 column, 9 auxiliary supporting component, 10 top slideway, 11 telescopic link, 12 sock, 13 steam shaping press, 14 slide block, 15 auxiliary telescopic link, 16 connecting plate I, 17 magnetic attraction control component, 18 connecting plate II, 19 limit bar, 20 connecting slat, 21 small slide block, 22 electromagnet I, 23 bidirectional telescopic link, 24 movable link, 25 supporting slat I, 26 slideway slot, 27 slotting, 28 small slide block, 29 top hat plate, 30 telescopic electromagnet, 31 motor, 32 connecting leather strap, 33 side plate, 34 supporting slat II, 35 electromagnet II, 36 roller, 37 auxiliary guiding component, 38 belt, 39 universal seat, 40 motor, 41 connecting seat, 42 auxiliary telescopic link, 43 telescopic frame, 44 iron movable seat, 45 fixed hinge seat, 46X type frame, 47 hinge seat.

Detailed Description

The embodiment of the invention provides a hot-pressing sock shaping machine, which is shown in figures 1-8 and comprises a base 1, a stand column 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 shaping press 13. The upright post 8, the slide way 3 and the support plate 7 are all arranged on the base 1, and the top slide way 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 on the movable end of the telescopic rod 11. The clamp 9 is clamped with socks 12, 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 sliding ways 3, the bottom openings of the socks 12 correspond to the supporting components 4, and the two main sliding ways 2 are arranged on the base 1 along the front-back direction of the base 1. The steam shaping presses 13 are in sliding fit on the main slideway 2, and the sock 12 is positioned between the two steam shaping presses 13.

The support assembly 4 comprises a slider 14, a first support slat 25, a second support slat 34, four telescopic brackets 43, two side plates 33 and a connecting slat 20. The slide block 14 is in sliding fit on the slideway 3, and the second supporting slat 34 and the first supporting slat 25 are hinged with each other. The side plate 33 is connected to the second support lath 34 by means of a telescopic frame 43, and the connecting lath 20 is connected to the first support lath 25 by means of a telescopic frame 43.

The support assembly 4 further comprises a limit bar 19, two connecting leather strips 32, two iron movable rods 24 and a hinge seat 47. The limit bar 19 is arranged between the movable bar 24 and the side plate 33, and the limit bar 19 corresponds to the heel of the sock 12. The connecting strips 32 are connected at both ends to the first 25 and second 34 support strips, respectively. The movable bar 24 is connected to the top end of the connecting slat 20 through a hinge seat 47.

The support assembly 4 further comprises a slideway slot 26, a slot 27, a small slide 28 and a top cap plate 29. The slideway slot 26 is arranged on the first supporting slat 25, the slot 27 is arranged on the slideway slot 26, and the small slide block 28 is in sliding fit on the slideway slot 26. The top cap plate 29 is connected with the small slide block 28 coaxially. 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 hinge seat 45. Two fixed hinge seats 45 are respectively fixed on the side plate 33 and the second supporting slat 34, and two iron movable seats 44 are arranged at two ends of the top of the X-shaped frame 46. The two ends of the bottom of the X-shaped frame 46 are pivoted with two fixed hinging seats 45.

And also comprises a magnetic attraction type control assembly 17 arranged on the base 1. The magnetic attraction type control assembly 17 comprises a vertical plate 5, an auxiliary telescopic rod 42, a first connecting plate 16, a bidirectional telescopic rod 23, a second connecting plate 18, four auxiliary telescopic rods 15, two electromagnets one 22 and four electromagnets two 35. The riser 5 is vertical to be set up on base 1, and riser 5 is located between extension board 7 and steam setting press 13, and supplementary telescopic link 42 transversely sets up on riser 5. The first connecting plate 16 and the second connecting plate 18 are mutually hinged, 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 22 are respectively arranged at two ends of the bidirectional telescopic rod 23, and the electromagnets 22 correspond to the movable rod 24. The four auxiliary telescopic rods 15 are in one-to-one correspondence with the four iron movable seats 44, 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 on the movable end of the auxiliary telescopic rod 15, and the second electromagnet 35 corresponds to the iron movable seat 44.

Also included are a small slider 21, a motor 31 and a telescoping electromagnet 30. The small-sized slider 21 is slidably fitted on the back surface of the second connection plate 18, and the motor 31 is provided on the small-sized slider 21. The telescopic electromagnet 30 is arranged at the output end of the motor 31, and the telescopic electromagnet 30 corresponds to the small sliding block 28.

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

Working principle: when the sock 12 is used, the clamp 9 clamps the top of the sock 12, the refrigerator 6 is controlled to perform refrigeration molding on the surface of the sock 12, the sock 12 is moved to the vicinity of the supporting component 4, at the moment, a person is located in the opposite direction of the vertical plate 5, the electromagnet I22 is electrified and is adsorbed by the movable rod 24, the movable rod 24 is contracted through the bidirectional telescopic rod 23, the movable rod 24 is made to be close to each other to form a sharp angle, the person can conveniently sleeve the movable rod into an opening of the sock 12, the electromagnet I22 is loosened and retracted, and the person continuously sleeves the sock 12. When the sock 12 is completely sleeved on the supporting component 4, the auxiliary telescopic rod 15 and the electromagnet II 35 are controlled, so that the movable rod 24, the connecting slat 20 and the side plate 33 are opened on two sides, meanwhile, the small sliding block 21 moves on the connecting plate II 18, then the telescopic electromagnet 30 works to absorb the small sliding block 28, then the motor 31 works, the small sliding block 28 finds rotation to rotate the top cap plate 29, then the small sliding block 21 is pushed to prop the top cap plate 29 to the sock tip of the sock 12 through the sock 12, the whole support of the sock 12 is completed, meanwhile, the sock 12 is elastically restored due to the indoor temperature in the operation process, and wrinkles generated by the movement and absorption of the electromagnet are automatically stretched. Drying and shaping are then completed in a steam shaping press 13.

In summary, the hot-pressing sock shaping machine is provided with the base 1, the upright posts 8, the clamp 9, the telescopic rods 11, the top slide ways 10, the refrigerator 6, the support plates 7, the plurality of support assemblies 4, the two main slide ways 2 and the steam shaping press 13 which are matched with each other. The sock surface quick-freezing machine can quickly freeze the surface of the sock before sleeving, so that the sock has certain hardness, the sleeving of personnel is facilitated, and the sleeving is not easy to cause the sock to be crumpled due to the fact that the support extrudes the sock and the lateral force applied by the hand of the personnel is applied, so that the sock is convenient for the personnel to use.

Claims (8)

1. A hot pressing type socks forming machine which is characterized in that: including base (1), stand (8), anchor clamps (9), telescopic link (11), top slide (10), slide (3), refrigerator (6), extension board (7), a plurality of supporting component (4), two main slide (2) and steam shaping press (13), stand (8), slide (3) and extension board (7) all set up on base (1), top slide (10) set up the top in stand (8), telescopic link (11) sliding fit is in the bottom of top slide (10), anchor clamps (9) set up on the movable 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 and refrigerator (6) of socks (12) are corresponding, a plurality of supporting component (4) sliding fit are on slide (3), the bottom opening and the supporting component (4) of socks (12) are corresponding, two main slide (2) all set up on base (1) back direction along base (1), two main slide (2) are located between steam shaping press (13) and are located between two socks (13).

2. The hot-press sock setting machine according to claim 1, wherein: the support assembly (4) comprises a sliding block (14), a first support slat (25), a second support slat (34), four telescopic brackets (43), two side plates (33) and a connecting slat (20), wherein the sliding block (14) is in sliding fit on a sliding way (3), the second support slat (34) and the first support slat (25) are hinged to each other, the side plates (33) are connected with the second support slat (34) through the telescopic brackets (43), and the connecting slat (20) is connected with the first support slat (25) through the telescopic brackets (43).

3. The hot-press sock setting machine according to claim 2, wherein: the support assembly (4) further comprises a limiting strip (19), two connecting leather strips (32), two iron movable rods (24) and a hinging seat (47), wherein the limiting strip (19) is arranged between the connecting slat (20) and the side plate (33), the limiting strip (19) corresponds to the heel of the sock (12), two ends of the connecting leather strips (32) are respectively connected with the connecting slat (20) and the side plate (33), and the movable rods (24) are connected with the top end of the connecting slat (20) through the hinging seat (47).

4. A hot-press sock setting machine according to claim 3, wherein: the support assembly (4) further comprises a slide groove (26), a groove (27), a small sliding block (28) and a top cap plate (29), wherein the slide groove (26) is arranged on the first support slat (25), the groove (27) is arranged on the slide groove (26), the small sliding block (28) is in sliding fit on the slide groove (26), the top cap plate (29) is connected with the small sliding block (28) in a coaxial mode, and the top cap plate (29) corresponds to a sock tip of the sock (12).

5. The hot-press sock setting machine according to claim 4, wherein: the telescopic frame (43) comprises an X-shaped frame (46), two iron movable seats (44) and fixed hinging seats (45), wherein the two fixed hinging seats (45) in the telescopic frame (43) close to the sliding block (14) are respectively fixed on the side plate (33) and the support lath II (34), the two fixed hinging seats (45) in the telescopic frame (43) close to the top cap plate (29) are fixed on the connecting lath (20) and the support lath I (25), the two iron movable seats (44) are arranged at the two ends of the top of the X-shaped frame (46), and the two ends of the bottom of the X-shaped frame (46) are pivoted with the two fixed hinging seats (45).

6. The hot-press sock setting machine according to claim 5, wherein: the magnetic type steam molding press 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 second connecting plate (18), four auxiliary telescopic rods (15), two first electromagnets (22) and four second 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 molding 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 mutually hinged, the movable end of the auxiliary telescopic rod (42) is connected with the hinged part of the first connecting plate (16) and the second connecting plate (18), the bidirectional telescopic rod (23) is arranged on the second connecting plate (18), the two first electromagnets (22) are respectively arranged on the two ends of the bidirectional telescopic rod (23), the first electromagnets (22) are corresponding to the movable rod (24), the four auxiliary telescopic rods (15) are arranged on the second connecting plate (18) in a one-to-one correspondence mode, the two auxiliary telescopic rods (15) are arranged on the second connecting plate (16), 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 setting machine according to claim 6, wherein: the telescopic electromagnet is characterized by further comprising a small sliding block (21), a motor (31) and a telescopic electromagnet (30), wherein the small sliding block (21) is in sliding fit with the back of the second connecting plate (18), the motor (31) is arranged on the small sliding block (21), the telescopic electromagnet (30) is arranged at the output end of the motor (31), and the telescopic electromagnet (30) corresponds to the small sliding block (28).

8. The hot-press sock setting machine according to claim 7, wherein: still include two supplementary direction subassemblies (37), two motor (40) and connecting seat (41), two connecting seats (41) are all the pin joint on the movable end of supplementary telescopic link (42), motor (40) set up on connecting seat (41), two supplementary direction subassemblies (37) symmetry set up on connecting seat (41), supplementary direction subassembly (37) are contacted with the outward flange of socks (12), supplementary direction subassembly (37) include belt (38), a plurality of universal seat (39) and roller (36), universal seat (39) set up on connecting seat (41), roller (36) pin joint is on the movable end of universal seat (39), belt (38) cover is on a plurality of rollers (36), motor (40) are connected with roller (36) linkage.