CN107326546B - Three-dimensional cut-parts positioning fixture - Google Patents

Abstract

The invention discloses a three-dimensional cut piece positioning fixture. The three-dimensional cutting piece positioning fixture comprises a bottom plate, a positioning piece, a fastening piece, a first pressing plate, a second pressing plate, a first pressing driving part and a second pressing driving part. The number of the positioning pieces is multiple, the plurality of positioning pieces are connected to the upper surface of the bottom plate through the fasteners respectively, and the positions of the positioning pieces on the bottom plate are adjustable. The first pressing driving part and the second pressing driving part are arranged on the upper surface of the bottom plate and are arranged oppositely, the first pressing driving part is connected to the first pressing plate to drive the first pressing plate to move, and the second pressing driving part is connected to the second pressing plate to drive the second pressing plate to move. This three-dimensional cut-parts positioning fixture can guarantee that the bottom cut-parts receive tensile tension and make the finished product accomplish to prevent to warp and prevent to fly the neck.

Description

Three-dimensional cut-parts positioning fixture

Technical Field

The invention relates to the field of clothing production, in particular to a three-dimensional cut piece positioning fixture.

Background

In the clothing industry, several cut-parts often need to be sewn together along the edges of the cut-parts, in the current automatic clothing manufacturing equipment, many cut-parts are sewn on a panel of a clothing vehicle only by using a pressing tool, the smoothness of the panel of the clothing vehicle and the matching requirement of the bottom surface of the pressing tool and the panel of the clothing vehicle are higher in the sewing mode, and if the pressing tool presses the cut-parts and the panel of the clothing vehicle cannot be well attached, the cut-parts can be out of position or deformed in the moving process. In addition, stitching is curved and solid on the garment, like some solid parts, such as the collar and the meson of a shirt. If it is simply sewn together. The collar and the meson are easy to fly or deform after being made into the ready-made clothes.

Disclosure of Invention

Based on this, it is necessary to provide a three-dimensional cut piece positioning fixture which can ensure that the bottom cut piece is subjected to tensile tension, so that the finished product is prevented from deforming and flying.

A three-dimensional cut-part positioning clamp comprises a bottom plate, a positioning strip, a fastening piece, a first pressing plate, a second pressing plate, a first pressing driving part and a second pressing driving part;

the number of the positioning strips is multiple, the positioning strips are connected to the upper surface of the bottom plate through the fasteners respectively, and the positions of the positioning strips on the bottom plate are adjustable;

the first pressing driving part and the second pressing driving part are arranged on the upper surface of the bottom plate and are arranged oppositely, the first pressing driving part is connected to the first pressing plate to drive the first pressing plate to move, and the second pressing driving part is connected to the second pressing plate to drive the second pressing plate to move.

In one embodiment, the positioning strip is provided with an elongated adjusting hole, and the fastener penetrates through the adjusting hole to fix the positioning strip on the bottom plate.

In one embodiment, the first compression drive component has a first transverse compression drive element and a first longitudinal compression drive element; the first longitudinal pressing driving element is connected to the first pressing plate and used for driving the first pressing plate to move longitudinally relative to the bottom plate; the first transverse pressing driving element is arranged on the bottom plate and connected to the first longitudinal pressing driving element, and the first transverse pressing driving element is used for driving the first longitudinal pressing driving element to drive the first pressing plate to transversely move relative to the bottom plate.

In one embodiment, the bottom plate is provided with a first through hole penetrating through the upper surface and the lower bottom surface thereof, the first transverse pressing driving element is connected to the lower bottom surface of the bottom plate, and the first longitudinal pressing driving element is arranged through the first through hole.

In one embodiment, the second compression drive component has a second transverse compression drive element and a second longitudinal compression drive element; the second longitudinal pressing driving element is connected to the second pressing plate and used for driving the second pressing plate to move longitudinally relative to the bottom plate; the second transverse pressing driving element is arranged on the bottom plate and connected to the second longitudinal pressing driving element, and the second transverse pressing driving element is used for driving the second longitudinal pressing driving element to drive the second pressing plate to transversely move relative to the bottom plate.

In one embodiment, the bottom plate is provided with a second through hole penetrating through the upper surface and the lower bottom surface thereof, the second transverse pressing driving element is connected to the lower bottom surface of the bottom plate, and the second longitudinal pressing driving element is arranged through the second through hole.

In one embodiment, the device further comprises a bump, and a plurality of bumps are connected to the lower bottom surface of the bottom plate.

In one embodiment, a plurality of the bumps are distributed at each corner of the lower bottom surface of the bottom plate.

The three-dimensional cut piece positioning fixture is provided with a plurality of positioning strips, the plurality of positioning strips are respectively connected to the upper surface of the bottom plate through fasteners, and the positions of the positioning strips on the bottom plate are adjustable; the positions of the plurality of positioning strips can be correspondingly adjusted according to the shape of the edge of the cut piece which is actually produced. The first pressing driving part and the second pressing driving part are arranged on the upper surface of the bottom plate and are arranged oppositely, the first pressing driving part is connected to the first pressing plate to drive the first pressing plate to move, and the second pressing driving part is connected to the second pressing plate to drive the second pressing plate to move. First pressure strip and second pressure strip are used for compressing tightly the both ends of cut-parts respectively and keep away from respectively and remove in order to tighten cut-parts tight straight, avoid the fold of cut-parts, through foretell three-dimensional cut-parts positioning fixture, can guarantee that the bottom cut-parts receive tensile tension and make the finished product accomplish to prevent to warp and prevent to fly to lead.

Drawings

FIG. 1 is a schematic view of a three-dimensional cut-part positioning and overlapping mechanism according to an embodiment;

FIG. 2 is a schematic view of the three-dimensional cut-parts positioning and overlapping mechanism shown in FIG. 1 in cooperation with a cut-part;

FIG. 3 is a schematic view of a three-dimensional cut piece positioning fixture of the three-dimensional cut piece positioning and overlapping mechanism shown in FIG. 1;

FIG. 4 is a schematic view of a first pressing driving part of the fixture for positioning cut pieces shown in FIG. 3;

FIG. 5 is a schematic view of a second pressing driving member of the three-dimensional cut segment positioning fixture shown in FIG. 3;

FIG. 6 is a bottom view of the fixture for positioning cut pieces in FIG. 3;

FIG. 7 is a schematic view of an adjustable sewing clamp of the three-dimensional cut piece positioning and overlapping mechanism shown in FIG. 1;

FIG. 8 is an exploded view of the adjustable sewing clamp shown in FIG. 7.

Description of the reference numerals

10. A three-dimensional cut piece positioning and overlapping mechanism; 100. a three-dimensional cut piece positioning clamp; 110. a base plate; 120. a positioning bar; 130. a bump; 140. a first compression plate; 150. a second compression plate; 160. a first pressing drive part; 161. a first lateral compression drive element; 162. a first longitudinal compression drive element; 170. a second pressing drive part; 171. a second lateral compression drive element; 172. a second longitudinal compression drive element; 200. an adjustable sewing clamp; 210. a fixed seat; 211. a yielding groove; 220. a first splint; 230. a second splint; 240. positioning plates; 250. a material clamping driving part; 260. a connecting member; 270. an adjustment member; 271. an adjusting base; 272. a regulating block; 300. a fastener; 20. a first cut segment; 30. and a second panel.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and 2, the present embodiment relates to a three-dimensional cut-part positioning and overlapping mechanism 10. This three-dimensional cut-parts location overlaps mechanism 10 includes three-dimensional cut-parts positioning fixture 100, transfers seam anchor clamps and control unit. Preferably, the control part may be a PLC.

Referring to fig. 3, the three-dimensional cut segment positioning jig 100 includes a base plate 110, a positioning bar 120, a fastener 300, a first pressing plate 140, a second pressing plate 150, a first pressing driving member 160, and a second pressing driving member 170.

Referring to fig. 3, the number of the lock bar 120 is plural. The plurality of spacer bars 120 are respectively coupled to the upper surface of the base plate 110 by fasteners 300, and the position of each spacer bar 120 on the base plate 110 is adjustable.

Referring to fig. 3, the first pressing driving part 160 and the second pressing driving part 170 are disposed on the upper surface of the base plate 110 and are opposite to each other. The first pressing driving part 160 is connected to the first pressing plate 140 for driving the first pressing plate 140 to move, and the second pressing driving part 170 is connected to the second pressing plate 150 for driving the second pressing plate 150 to move. The control part is electrically connected to the first pressing driving part 160 and the second pressing driving part 170.

Referring to fig. 3, in the present embodiment, the positioning bar has an elongated adjustment hole, and a fastener 300 is inserted through the adjustment hole to fix the positioning bar to the bottom plate 110.

Further, referring to fig. 4, the first pressing driving part 160 has a first transverse pressing driving element 161 and a first longitudinal pressing driving element 162. A first longitudinal compression drive element 162 is coupled to the first compression plate 140 for driving the first compression plate 140 to move longitudinally relative to the base plate 110. A first lateral compression drive element 161 is provided on the base plate 110 and is connected to a first longitudinal compression drive element 162. The first lateral pressing driving element 161 is used to drive the first longitudinal pressing driving element 162 to drive the first pressing plate 140 to move laterally relative to the base plate 110. The control part is electrically connected to the first transverse pressing driving element 161 and the first longitudinal pressing driving element 162.

Further, referring to fig. 3, the base plate 110 is formed with a first through hole penetrating the upper surface and the lower bottom surface thereof. The first lateral pressing driving element 161 is connected to the lower bottom surface of the base plate 110, and the first longitudinal pressing driving element 162 is inserted into the first through hole.

Further, as shown in fig. 5, the second pressing drive part 170 has a second transverse pressing drive element 171 and a second longitudinal pressing drive element 172. The second longitudinal compression drive element 172 is coupled to the second compression plate 150 for driving the second compression plate 150 to move longitudinally relative to the base plate 110. A second lateral pressing drive member 171 is provided on the base plate 110 and is connected to a second longitudinal pressing drive member 172. The second lateral pressing driving element 171 is used to drive the second longitudinal pressing driving element 172 to move the second pressing plate 150 laterally relative to the base plate 110. The control unit is electrically connected to the second transversal pressing driving element 171 and the second longitudinal pressing driving element 172.

Further, as shown in fig. 3, the bottom plate 110 has a second through hole penetrating through the upper surface and the lower bottom surface thereof. The second lateral pressing driving element 171 is connected to the lower bottom surface of the base plate 110, and the second longitudinal pressing driving element 172 is inserted into the second through hole.

Further, as shown in fig. 6, the portable electronic device further includes a plurality of bumps 130, and a plurality of bumps 130 are connected to the bottom surface of the bottom plate 110. Preferably, the plurality of protrusions 130 are distributed at each corner of the lower bottom surface of the base plate 110.

Referring to fig. 7, the adjustable stitching fixture 200 includes a fixing base 210, a first clamping plate 220, a second clamping plate 230, a positioning bar 120, and a clamping driving member 250. The control part is electrically connected to the material clamping driving part 250.

Referring to fig. 8, the number of the first clamping plates 220 is at least two. The plurality of first clamping plates 220 are connected to the fixing base 210, and the position of the plurality of first clamping plates 220 on the fixing base 210 is adjustable.

The clamping driving member 250 is connected to the fixing base 210. The material clamping driving part 250 is connected with a second clamping plate 230, and the second clamping plate 230 is positioned above the first clamping plate 220. The clamping driving member 250 is used to drive the corresponding second clamping plate 230 to move or reset toward the first clamping plate 220. A plurality of registration bars 120 are attached to the second clamping plate 230. The position of the plurality of registration bars 120 on the second clamping plate 230 is adjustable.

Further, referring to fig. 7, the number of the first clamping plates 220 is two, and the positions of the two first clamping plates 220 on the fixing base 210 are adjustable. It will be appreciated that the number of first clamping plates 220 may also be other numbers, such as three, four, etc.

Further, as shown in fig. 7 and 8, the number of the clamping driving members 250 is two. Two clamping driving members 250 are respectively connected to opposite ends of the upper surface of the second clamping plate 230.

Preferably, as shown in fig. 8, each of the lock bars 120 is connected to the second clamping plate 230 by a fastener 300. The second clamping plate 230 has a plurality of limiting grooves. The fastening member 300 is disposed in each of the limiting grooves, and the plurality of positioning strips 120 are disposed below the second clamping plate 230.

Further, as shown in fig. 8, a connecting member 260 is further included. Both ends of the connecting member 260 are vertically bent. One end of the connecting member 260 is connected to the first pressing plate, and the other end is connected to the fixing base 210. The connecting member 260 is connected to the fixing base 210 by a fastener 300.

Preferably, as shown in fig. 8, the fixing base 210 has a plurality of relief grooves 211. The number of the receding grooves 211 is the same as that of the connecting member 260, and one end of the connecting member 260 is located in the receding groove 211 and connected to the fixing base 210.

Further, as shown in fig. 7 and 8, an adjusting member 270 is further included. The adjuster 270 has an adjustment base 271 and an adjustment block 272. The adjusting base 271 is disposed on the fixing base 210, the adjusting block 272 is connected to the adjusting base 271, and the position of the adjusting block 272 on the adjusting base 271 is adjustable. The connector 260 is connected to the adjustment block 272 by a fastener 300.

Referring to fig. 7 and 8, the outward edges of the second clamping plates 230 are flush. The second clip 230 has a T-shape, the T-shaped tail of the second clip 230 is connected to the connecting member 260, and the two arms of the T-shape of the second clip 230 face outward.

The three-dimensional cut-part positioning and overlapping mechanism 10 is provided with at least two adjustable sewing clamps 200, the number of the first clamping plates 220 is at least two, the plurality of first clamping plates 220 are connected to the fixed seat 210, and the positions of the plurality of first clamping plates 220 on the fixed seat 210 are adjustable, so that the first clamping plates 220 can adapt to cut-parts with different sizes; the material clamping driving component 250 is connected with a second clamping plate 230, the second clamping plate 230 is located above the first clamping plate 220, the material clamping driving component 250 is used for driving the corresponding second clamping plate 230 to move or reset towards the first clamping plate 220, the second clamping plate 230 is connected with a plurality of positioning pieces 240, the positions of the positioning pieces 240 on the second clamping plate 230 are adjustable, so that the positioning pieces 240 can be adjusted correspondingly according to the shapes and the sizes of the cut pieces produced actually, the size of the cut pieces clamped by the adjustable sewing clamp 200 is adjustable, and the use is convenient.

The three-dimensional cut-part positioning and overlapping mechanism 10 is provided with the three-dimensional cut-part positioning fixture 100 and a plurality of positioning pieces 240, the plurality of positioning pieces 240 are respectively connected to the upper surface of the bottom plate 110 through the fasteners 300, and the positions of the positioning pieces 240 on the bottom plate 110 are adjustable; the positions of the plurality of positioning pieces 240 can be adjusted accordingly according to the shape of the edge of the cut piece actually produced. The first pressing driving part 160 and the second pressing driving part 170 are disposed on the upper surface of the bottom plate 110 and are opposite to each other, the first pressing driving part 160 is connected to the first pressing plate 140 for driving the first pressing plate 140 to move, and the second pressing driving part 170 is connected to the second pressing plate 150 for driving the second pressing plate 150 to move. First pressure strip 140 and second pressure strip 150 are used for compressing tightly the both ends of cut-parts respectively and keep away from respectively and remove in order to tighten up the cut-parts straight, avoid the fold of cut-parts, through foretell three-dimensional cut-parts positioning fixture 100, can guarantee that the bottom cut-parts receive tensile tension and make the finished product accomplish to prevent to warp and prevent to fly to lead.

When the three-dimensional cut piece positioning and overlapping mechanism 10 is used, a three-dimensional cut piece positioning and overlapping method is included. The three-dimensional cut piece positioning and overlapping method comprises the following steps:

adjusting the plurality of locator bars 120 to conform to the shape of the edges of the pre-positioned overlapping first panel 20;

placing a first panel 20 on the bottom panel 110 and aligning the edges of the first panel 20 over the edges of the respective registration bars 120;

the first pressing driving component 160 drives the first pressing plate 140 to press down to one end of the first cut segment 20, the second pressing driving component 170 drives the second pressing plate 150 to press down to the other end of the first cut segment 20, and the first pressing driving component 160 and the second pressing driving component 170 respectively drive the first pressing plate 140 and the second pressing plate 150 to be distributed and far away, so that the first cut segment 20 is straightened and tightened;

placing the second panel 30 over the first panel 20 and in alignment with the first panel 20;

the material clamping driving component 250 drives the first clamping plate 220 to be far away from the second clamping plate 230, the adjustable sewing clamp 200 moves towards the first cut piece and the second cut piece 30, and the first clamping plate 220 and the second clamping plate 230 clamp the first cut piece and the second cut piece 30; the clip driving member 250 drives the first clamping plate 220 to move towards the second clamping plate 230 to bite the first cut segment and the second cut segment 30;

the adjustable sewing jig 200 is moved away from the base panel 110 to hold the first panel and the second panel 30 in place.

Further, the method for positioning and overlapping the three-dimensional cut pieces further comprises the following steps:

when the adjustable sewing jig 200 moves towards the first and second cut-parts 30, the first clamping plate 220 is located above the first and second cut-parts 30, the second clamping plate 230 is located below the bottom plate 110, and the clamping driving member 250 drives the first clamping plate 220 to move towards the second clamping plate 230 so as to bite the first and second cut-parts 30 and the bottom plate 110.

Further, the method for positioning and overlapping the three-dimensional cut pieces further comprises the following steps:

before the clipping driving part 250 drives the clipping, the positions of the positioning pieces 240 on the first clamping plate 220 are adjusted so that the shape of the combination of the positioning pieces 240 matches the shape of the first cut piece and the second cut piece 30.

Further, the above-mentioned adjusting the positions of the plurality of positioning pieces 240 on the first clamping plate 220 comprises the following steps:

the fastener 300 on the locating tab 240 is rotated so that the locating tab 240 rotates to a predetermined position relative to the first clamping plate 220.

Further, the adjustment of the plurality of positioning bars 120 to the shape of the edge of the first cut segment 20 to be pre-positioned and overlapped comprises the following steps:

the fasteners 300 on the positioning strips 120 are loosened, and the positions of the positioning strips 120 are moved according to the shape and size of the edges of the first panel, so that the shape and size of the edges of the plurality of positioning strips 120 are matched with the shape and size of the edges of the first panel, and the fasteners 300 are fastened.

Further, the method further includes the following steps after adjusting the position of the lock bar 120: the positions of the plurality of second clamping plates 230 are adjusted.

Further, the adjusting the positions of the plurality of second clamping plates 230 includes the following steps:

the position of the connecting member 260 connected to the second clamping plate 230 on the fixing base 210 is adjusted so that the plurality of second clamping plates 230 are formed in a shape matching the shape and size of the second cut segment 30.

In the three-dimensional cut-parts positioning and overlapping method, the first compression plate 140 and the second compression plate 150 are respectively used for compressing the two ends of the cut-parts and respectively keeping away from the movement so as to tighten and straighten the cut-parts, thereby avoiding wrinkles of the cut-parts, and through the three-dimensional cut-parts positioning fixture 100, the situation that the bottom cut-parts are stretched can be ensured, so that the finished product is prevented from being deformed and prevented from flying. According to the three-dimensional cut piece positioning and overlapping method, before sewing, the first cut piece 20 at the lower layer is tensioned and straightened, so that the first cut piece 20 at the bottom layer of the sewn collar or the medium material has certain tension, and after the first cut piece is bent and sewn on the ready-made clothes, a good effect of preventing flying collar and deformation can be achieved, and the clothes are stiff and smooth.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that various changes and modifications can be made by those skilled in the art without departing from the spirit of the invention, and these changes and modifications are all within the scope of the invention. Therefore, the protection scope of the present patent should be subject to the appended claims.

Claims (8)

1. A three-dimensional cut-part positioning clamp is characterized by comprising a bottom plate, a positioning strip, a fastener, a first compression plate, a second compression plate, a first compression driving part and a second compression driving part;

the number of the positioning strips is multiple, the positioning strips are connected to the upper surface of the bottom plate through the fasteners respectively, and the positions of the positioning strips on the bottom plate are adjustable;

the first pressing driving part is connected to the first pressing plate to drive the first pressing plate to move, and the second pressing driving part is connected to the second pressing plate to drive the second pressing plate to move; first pressure strip and second pressure strip are used for compressing tightly the both ends of cut-parts respectively and keep away from respectively and remove in order to tighten cut-parts tight straight.

2. The three-dimensional cut-parts positioning fixture according to claim 1, wherein the positioning strip is provided with a long strip-shaped adjusting hole, and the fastener is arranged in the adjusting hole in a penetrating manner to fix the positioning strip on the bottom plate.

3. The three-dimensional cut piece positioning jig according to claim 1 or 2, wherein the first pressing drive part has a first transverse pressing drive member and a first longitudinal pressing drive member; the first longitudinal pressing driving element is connected to the first pressing plate and used for driving the first pressing plate to move longitudinally relative to the bottom plate; the first transverse pressing driving element is arranged on the bottom plate and connected to the first longitudinal pressing driving element, and the first transverse pressing driving element is used for driving the first longitudinal pressing driving element to drive the first pressing plate to transversely move relative to the bottom plate.

4. The three-dimensional cut-parts positioning fixture according to claim 3, wherein the bottom plate is provided with a first through hole penetrating through the upper surface and the lower bottom surface thereof, the first transverse pressing driving element is connected to the lower bottom surface of the bottom plate, and the first longitudinal pressing driving element is arranged through the first through hole.

5. The stereoscopic cut segment positioning jig of claim 1 or 2, wherein the second pressing driving part has a second transverse pressing driving element and a second longitudinal pressing driving element; the second longitudinal pressing driving element is connected to the second pressing plate and used for driving the second pressing plate to move longitudinally relative to the bottom plate; the second transverse pressing driving element is arranged on the bottom plate and connected to the second longitudinal pressing driving element, and the second transverse pressing driving element is used for driving the second longitudinal pressing driving element to drive the second pressing plate to transversely move relative to the bottom plate.

6. The fixture for positioning three-dimensional cut pieces according to claim 5, wherein the bottom plate is provided with a second through hole penetrating through the upper surface and the lower bottom surface thereof, the second transverse pressing driving element is connected to the lower bottom surface of the bottom plate, and the second longitudinal pressing driving element is arranged through the second through hole.

7. The stereoscopic cut-parts positioning jig of claim 1 or 2, further comprising a plurality of projections, wherein the lower bottom surface of the bottom plate is connected with the plurality of projections.

8. The stereoscopic cut segment positioning jig according to claim 7, wherein a plurality of the projections are distributed at each corner of the lower bottom surface of the bottom plate.

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