CN112575489A - Buckle boiling hot template and automatic buckle boiling hot device - Google Patents

Abstract

The utility model belongs to the technical field of the technique of clothing preparation and specifically relates to a detain boiling hot template and automatic knot and scald device is related to, and it includes removable mounting in the bottom plate on processing platform surface, and the up end level of bottom plate link up and has seted up the spout, and the bottom plate top surface is provided with the turn-ups subassembly in the spout top, and cut-parts width is greater than the groove width of spout, still sets up the push pedal in the spout including the activity, and the one end of push pedal is the contained angle that the closed angle set up and closed angle and cut-. This application has the effect that improves sword head's turn-ups precision.

Description

Buckle boiling hot template and automatic buckle boiling hot device

Technical Field

The application relates to the technical field of clothing manufacturing, in particular to a buckle ironing template and an automatic buckle ironing device.

Background

At present, shoulder loops and sleeve loops of sword-shaped head styles are common garment parts in the market and are mainly used for over-the-clothes, windcheaters, overcoat and various military style garments.

When a garment processing factory processes the shoulder tabs and the sleeve tabs of the conventional type, a manual sewing program is generally adopted: cloth cutting → flanging and ironing → shaping and ironing → sewing and stitching the cloth.

Because the cut-parts spare volume after cloth piece is tailor is smaller, especially in turn-ups in-process, requires that the sword head is flat and well-done, the closed angle is squarely, in case do not align slightly, easily leads to the skew of dislocation when detaining to scald and causes the rejection rate higher, and finished product quality is difficult to obtain guaranteeing, so this urgent need to improve.

Disclosure of the invention

In order to improve the turn-ups precision of sword head, this application provides detain scalds template and automatic knot and scalds device.

In a first aspect, the application provides a buckle ironing template, which adopts the following technical scheme:

the buckling and ironing template comprises a bottom plate which is detachably arranged on the surface of the processing table, the upper end surface of the bottom plate is horizontally provided with a sliding groove in a through manner, a flanging assembly is arranged above the sliding groove on the top surface of the bottom plate, and the width of a cut piece is larger than the width of the sliding groove;

still including the activity set up in push pedal in the spout, the one end of push pedal is the closed angle setting and the contained angle of closed angle unanimous with cut-parts closed angle.

Through adopting above-mentioned technical scheme, operating personnel will wait that the cut-parts of processing shelve on the surface of turn-ups subassembly, utilize the push pedal to push down the part of cut-parts afterwards, until cut-parts together with the push pedal embedding spout in, the border of spout makes the unnecessary turn-ups position of cut-parts stick up, then promote the push pedal and advance towards the turn-ups subassembly, turn over a turn-ups under turn-ups subassembly, the turn-ups position of cut-parts progressively wraps on the push pedal is on the surface, realize one step of turn-ups, it is higher to compare in its efficiency of manual book of turning over in the manual work, it is higher to turn over.

Optionally, the flanging component comprises a tip turning plate, a side pressing plate and a straight-edge pressing plate which are elastically arranged and integrally formed;

the side walls of the tip turning plate and the side pressure plate respectively form inclined sides with the included angles consistent with the sharp angles of the cut pieces, the inclined sides of the side pressure plate extend to form flanging gaps, and the tip turning plate and the side pressure plate are arranged in a staggered mode in the vertical direction to form gaps for the flanging of the cut pieces to pass through;

the surface of the straight edge pressing plate faces the tip turning plate and is provided with a first straight edge groove which is flush with the inner wall of the sliding groove, one end of the first straight edge groove extends to be provided with a folding edge gap parallel to the folding edge gap, and the straight edge pressing plate and the side edge pressing plate are arranged in a staggered mode along the vertical direction and form a gap for the folding edges of the cut pieces to pass through.

By adopting the technical scheme, in the advancing process of the push plate, the sharp corner of the cutting piece is turned over at one side close to the tip turning plate and is pressed between the push plate and the tip turning plate; then, one side of the cut piece which is tilted by the extrusion of the push plate directly moves through the first straight edge groove, and the other tilted side is folded and pressed into the bottom of the side edge pressure plate when being extruded with the side edge pressure plate; then the oblique side of the side pressing plate turns over the other side of the tip of the cut piece and presses the side turning-over surface and the front tip oblique surface; finally, the perk one side that will be located first straight edge inslot is impeld to carry out the turn-ups in pushing the hem gap along the continuation of push pedal, to sum up, only need utilize the push pedal to hold the cut-parts pressure, then promote the push pedal and impel along the spout, alright under the cooperation of turn-ups subassembly, realize automatic turn-ups operation.

Optionally, the corners of the tip turning plate, the side pressing plate and the straight pressing plate are all arranged in a round angle manner.

Through adopting above-mentioned technical scheme, at turn-ups in-process, the fillet has played smooth transition effect to reduce the propulsion degree of difficulty of push pedal, and be difficult for appearing colluding phenomenons such as cloth, card cloth, improved the turn-ups's of cutting out the cloth success rate.

Optionally, a second straight-edge groove is formed in the straight-edge pressing plate in parallel on the other side of the first straight-edge groove, and a positioning gap parallel to the folding gap is formed in one end of the second straight-edge groove in an extending mode.

Through adopting above-mentioned technical scheme, for solving the turn-ups existence successively turn over the probability problem of rolling over, if turn over the one side back of rolling over cut-parts closed angle when the pointed end, the side clamp plate takes the lead to the cut-parts perk one side will not get into the bottom of side clamp plate with the opposite side immediately, but push into the positioning gap along the second straight limit groove and turn over the edge again to ensure that the turn-ups of cut-parts can all be realized under two kinds of turn-ups circumstances.

Optionally, the surface of the bottom plate is provided with a limiting member for positioning the cutting piece.

Through adopting above-mentioned technical scheme for the suggestion operating personnel shelves every cut-parts intermittent type in locating part department, plays the effect of warning and location.

Optionally, a plurality of air holes are formed in the bottom wall of the sliding groove, and the air holes are located at the tail end of the flanging component.

Through adopting above-mentioned technical scheme, after the turn-ups subassembly is released through the push pedal to the cut-parts, can set the turn-ups under the ironing of flatiron, the steam that sets up of gas pocket made the ironing can discharge.

In a second aspect, the application provides an automatic buckle ironing device for buckle ironing templates, which adopts the following technical scheme:

detain automation of boiling hot template and detain boiling hot device, set up in a plurality of including vertical lift the ironing device that the gas pocket top is used for detaining boiling hot cut-parts.

Through adopting above-mentioned technical scheme, ironing device is coordinating advancing of push pedal, presses down automatically and irones, need not operating personnel manual work, and degree of automation is higher.

Optionally, the lifting mechanism further comprises a lifting plate arranged on the surface of the bottom plate, a driving piece for driving the lifting plate to vertically lift is arranged at the bottom of the bottom plate, the push plate is arranged on the upper end surface of the lifting plate in a sliding mode, and a pushing piece for pushing the lifting plate to slide back and forth along the sliding groove is arranged at the top end of the lifting plate.

Through adopting above-mentioned technical scheme, the lifter plate is driven vertical rising by the driving piece, and then impeller drive push pedal slides to most advanced turning plate and side clamp plate contained angle top, and back lifter plate descends and pushes down behind the cut-parts, and the impeller restarts and drives the push pedal and slide in the spout, so reciprocating operation can realize the automation of push pedal and carry out.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the cutting pieces are placed on the limiting piece, the cutting pieces are pressed downwards under the matching of the driving piece and the pushing piece to be embedded into the sliding groove, the push plate is gradually pushed to penetrate through the flanging component, the flanging of the cutting pieces is coated on the push plate, and then the automatic flanging ironing of the sword head is realized under the ironing of the ironing device, so that the efficiency is higher and the accuracy is higher compared with manual folding;

2. one side of the sharp corner of the cut piece is turned over by the extrusion of the tip turning plate, and is pressed between the push plate and the tip turning plate, the other side of the cut piece is pressed between the push plate and the tip turning plate by the extrusion of the side pressing plate, the other side of the cut piece is pressed into the bottom of the side pressing plate by the turning of the side pressing plate, then the two sides of the cut piece are successively turned over by the first straight edge groove and the second straight edge groove respectively under the turning of the gap between the turning gap and the positioning gap, the turning process is finished at one.

Drawings

FIG. 1 is a schematic structural diagram of an embodiment of the present application;

FIG. 2 is a schematic top view of an embodiment of the present application;

fig. 3 is an enlarged view at a in fig. 2.

Reference numerals: 1. a base plate; 2. a chute; 3. a flanging component; 30. mounting a plate; 31. a tip turning plate; 32. a side pressing plate; 33. a straight-edge pressing plate; 34. an oblique side; 35. a flanging gap; 36. a first straight-sided slot; 37. folding the edge gap; 38. a second straight-sided slot; 39. positioning the gap; 4. pushing the plate; 5. a limiting strip; 6. air holes; 7. an ironing device; 71. a transverse plate; 72. a hydraulic lever; 73. an iron; 8. a first cylinder; 9. a second cylinder; 10. a vertical plate; 11. a lifting plate.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, the embodiment of the application discloses a detain and scald template, bottom plate 1 including the rectangle, the four corners department of bottom plate 1 assembles on the surface of processing platform through bolt screw thread, bottom plate 1's up end level link up has seted up spout 2, slide 2 sliding embedding in spout is equipped with a push pedal 4, push pedal 4 is rectangular plastic sheet, the one end of push pedal 4 is the contained angle of closed angle setting and closed angle and cut-parts closed angle and keeps unanimous, the cut-parts width is greater than the groove width of spout 2, the one end of spout 2 is pan feeding end and the other end is the discharge end, the most advanced of push pedal 4 slides in from 2 pan feeding ends of spout, a plurality of gas pockets 6 have been seted up on the diapire of spout 2, gas pocket 6 all is.

Referring to fig. 1 and 2, the top surface of the bottom plate 1 is fixedly provided with two mounting plates 30 respectively tangent to the edges of the sliding chute 2, a flanging component 3 is further arranged between the two mounting plates 30 and right above the sliding chute 2, the sharp corner of the cut piece is placed on the surface of the flanging component 3, the cut piece is pressed between the push plate 4 and the bottom of the sliding chute 2, and the flanging component 3 is used for automatically flanging the cut piece in place in one step under the pushing of the push plate 4; the surfaces of the two mounting plates 30 are symmetrically and fixedly provided with limiting parts along the groove 2, the cut pieces to be processed are placed on the surface of the flanging component 3 by taking the limiting parts as references, and the limiting parts are limiting strips 5 (in other embodiments, the limiting strips 5 can also be scale marks, scales, labels and the like).

Referring to fig. 2 and 3, the flanging component 3 includes an elastically arranged and integrally formed tip turning plate 31, a side pressing plate 32 and a straight pressing plate 33, the tip turning plate 31, the side pressing plate 32 and the straight pressing plate 33 are all made of metal sheets, and corners of the tip turning plate 31, the side pressing plate 32 and the straight pressing plate 33 are all arranged in a round angle manner so as to play a role of smooth transition in the flanging process of each plate.

Referring to fig. 3, the tip turning plate 31 is triangular, the side pressing plate 32 is equilateral quadrilateral, the side walls of the tip turning plate 31 and the side pressing plate 32 respectively form an inclined side 34 with an included angle consistent with the sharp angle of the cutting piece, and the inclined side 34 of the side pressing plate 32 is extended to form a flanging gap 35; the tip turning plate 31 and the side pressing plate 32 are arranged along the vertical direction in a staggered mode to form a gap for the flanging of the cut piece to pass through, and the tip turning plate 31 is arranged to be lower than the side pressing plate 32 towards one corner of the side pressing plate 32, so that the cut piece can be extruded by the tip turning plate 31 firstly. An operator firstly aligns the tip of the push plate 4 at an included angle formed by the tip turning plate 31 and the side pressure plate 32, then presses the push plate 4 downwards to enable the redundant turning parts of the cut pieces to be turned upwards, and the side, close to the tip turning plate 31, of the sharp corner of the cut piece is turned over firstly and is pressed between the push plate 4 and the tip turning plate 31.

Referring to fig. 3, a first straight groove 36 flush with the inner wall of the chute 2 is formed in the surface of the straight pressing plate 33 facing the tip turning plate 31, a folding gap 37 parallel to the folding gap 35 is formed in one end of the first straight groove 36 in an extending manner, and the straight pressing plate 33 and the side pressing plate 32 are arranged in a staggered manner in the vertical direction to form a gap through which the folding edges of the cut pieces pass. The operator continues to push the push plate 4, when the side pressing plate 32 turns over the cutting piece to be close to the tilted side of the inner wall of the chute 2, the inclined side 34 of the side pressing plate 32 turns over the other side of the tip of the cutting piece, and presses and covers the side turning surface and the previous tip inclined surface, meanwhile, the other tilted side directly advances through the first straight groove 36, and the tilted side in the first straight groove 36 is pushed into the folding gap 37 to be turned over in the continuous pushing process, so that the automatic flanging operation is realized.

Referring to fig. 3, in order to solve the probability problem of the turn-ups, when the edge wiping pressing plate turns up the edge of one side of the sharp corner of the cut piece, the straight edge pressing plate 33 is provided with a second straight edge groove 38 in parallel with the other side of the first straight edge groove 36, one end of the second straight edge groove 38 extends to provide a positioning gap 39 parallel with the turn-up gap 37, one side of the cut piece which is turned up will not enter the bottom of the side pressing plate 32, but is pushed into the positioning gap 39 along the second straight edge groove 38 to turn up the edge, so as to ensure that the turn-ups of the cut piece can be realized under two turn-ups conditions.

The embodiment of the application also discloses an automatic buckle ironing device for the buckle ironing template, which adopts the following technical scheme:

referring to fig. 1, the ironing device 7 is vertically lifted and arranged above a plurality of air holes 6 and used for buckling and ironing cut pieces, the ironing device 7 comprises a plurality of hydraulic rods 72 vertically embedded in a processing table, the telescopic ends of the hydraulic rods 72 penetrate through the processing table and extend to the top of the processing table, a rectangular transverse plate 71 is horizontally and fixedly arranged at the end parts of the plurality of hydraulic rods 72, and an iron 73 is fixedly arranged on the bottom surface of the transverse plate 71; the push plate 4 continuously pushes after the flanging operation is finished, and when the push plate is stopped right below the iron 73, the hydraulic rod 72 is started to stretch and drive the iron 73 to automatically press down and iron the cut pieces so as to realize one-time completion of flanging and ironing, and the automation degree is high.

Referring to fig. 1, the lifting plate 11 is slidably connected to the surface of the bottom plate 1, a driving member for driving the lifting plate 11 to vertically lift is vertically embedded in the inner wall of the bottom plate 1, and the driving member is a first cylinder 8; the push plate 4 is in sliding contact with the upper end face of the lifting plate 11, a vertical plate 10 is vertically and fixedly arranged at one end, away from the tip end of the push plate 4, of the push plate, a pushing part for pushing the lifting plate 11 to slide along the groove 2 of the sliding groove in the reciprocating mode is fixedly arranged on the top face of the lifting plate 11, the pushing part is a second air cylinder 9, and the telescopic end of the second air cylinder 9 is fixed to one side of the vertical plate 10. The lifter plate 11 is driven by the driving piece and is vertically risen, then the push plate 4 is driven by the pushing piece to slide to the tip and turn over the board 31 and the top of the included angle of the side pressing plate 32, then the lifter plate 11 descends and pushes down the cut piece, the pushing piece is restarted and drives the push plate 4 to slide in the chute 2, so the reciprocating operation can realize the automatic pushing of the push plate 4.

The implementation principle of the embodiment is as follows:

lay the cut-parts along spacing 5 on the surface of turn-ups subassembly 3, press down cut-parts embedding spout 2 under the cooperation of first cylinder 8 and second cylinder 9 in to push away push pedal 4 gradually and pass turn-ups subassembly 3, cut-parts border will turn over the edge and cladding on push pedal 4 immediately, then realize the automatic turn-ups of sword head and iron under ironing device 7's ironing, it is higher and turn over a precision also higher to compare in artifical manual turn-ups its efficiency.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. Detain and scald template, its characterized in that: the cutting device comprises a bottom plate (1) which is detachably mounted on the surface of a processing table, a sliding groove (2) is horizontally formed in the upper end surface of the bottom plate (1) in a through mode, a flanging component (3) is arranged on the top surface of the bottom plate (1) above the sliding groove (2), and the width of a cutting piece is larger than the groove width of the sliding groove (2);

still including the activity set up in push pedal (4) in spout (2), the one end of push pedal (4) is the closed angle setting and the contained angle of closed angle is unanimous with cut-parts closed angle.

2. The ironing board according to claim 1, characterized in that: the flanging component (3) comprises a tip turning plate (31), a side pressure plate (32) and a straight side pressure plate (33) which are arranged elastically and formed integrally;

the side walls of the tip turning plate (31) and the side pressure plate (32) respectively form an inclined side (34) with an included angle consistent with the sharp angle of the cut pieces, the inclined side (34) of the side pressure plate (32) extends to form a flanging gap (35), and the tip turning plate (31) and the side pressure plate (32) are arranged in a staggered mode along the vertical direction and form a gap for the flanging of the cut pieces to pass through;

the surface of straight flange clamp plate (33) is towards pointed end turns over board (31) seted up with first straight flange groove (36) that spout (2) inner wall flushed, the one end of first straight flange groove (36) extend seted up with turn-ups gap (35) parallel hem gap (37), straight flange clamp plate (33) with side clamp plate (32) are dislocation set and form the clearance that supplies the cut-parts turn-ups to pass through along vertical direction.

3. The ironing board according to claim 2, characterized in that: the corners of the tip turning plate (31), the side pressing plate (32) and the straight pressing plate (33) are all arranged in a round angle mode.

4. The ironing board according to claim 3, wherein: and a second straight-edge groove (38) is formed in the straight-edge pressing plate (33) on the other side of the first straight-edge groove (36) in parallel, and a positioning gap (39) parallel to the folding gap (37) is formed in one end of the second straight-edge groove (38) in an extending mode.

5. The ironing board according to claim 1, characterized in that: the surface of the bottom plate (1) is provided with a limiting part for positioning the cutting pieces.

6. The ironing board according to claim 1, characterized in that: a plurality of air holes (6) are formed in the bottom wall of the sliding groove (2), and the air holes (6) are located at the tail ends of flanges of the flange components (3).

7. The automatic buckle ironing device of the buckle ironing template according to any one of claims 1 to 6, characterized in that: comprises an ironing device (7) which is vertically arranged above the plurality of air holes (6) and is used for ironing cut pieces.

8. The automatic buckle ironing device of buckle ironing template according to claim 7, characterized in that: the lifting plate is characterized by further comprising a lifting plate (11) arranged on the surface of the bottom plate (1), a driving piece for driving the lifting plate (11) to vertically lift is arranged at the bottom of the bottom plate (1), the push plate (4) is arranged on the upper end face of the lifting plate (11) in a sliding mode, and a pushing piece for pushing the lifting plate (11) to slide back and forth along the groove of the sliding groove (2) is arranged at the top end of the lifting plate (11).

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