CN207193536U - Three-dimensional cut-parts positioning fixture - Google Patents

Abstract

The utility model discloses a kind of three-dimensional cut-parts positioning fixture.The three-dimensional cut-parts positioning fixture includes bottom plate, spacer, fastener, the first pressure strip, the second pressure strip, the first compression driving part and the second compression driving part.The quantity of the spacer is multiple, and multiple spacers are connected to the upper surface of the bottom plate by the fastener respectively, and position of each spacer on the bottom plate is adjustable.The first compression driving part and the second compression driving part are each provided at the upper surface of the bottom plate and are oppositely arranged, the first compression driving part is connected to first pressure strip for driving the first pressure strip movement, and the second compression driving part is connected to second pressure strip for driving the second pressure strip movement.The three-dimensional cut-parts positioning fixture can ensure the tension force that bottom cut-parts are stretched and make finished product accomplish to prevent from deforming and prevent to fly neck.

Description

Three-dimensional cut-parts positioning fixture

Technical field

Garment production field is the utility model is related to, more particularly to a kind of three-dimensional cut-parts positioning fixture.

Background technology

In garment making industry, it is often necessary to by several cut-parts along its edge sewing together, current automation clothing is set In standby, much all push down cut-parts simply with a pressing element and stitched in the enterprising driving of sewing machine panel, this sewing type is to sewing machine panel The cooperation of smoothness and pressing element bottom surface and sewing machine panel require higher, as pressing element is pushed down after cut-parts and sewing machine panel can not be fine Develop, then can cause the situation that cut-parts are walked or deformed in moving process.In addition, as some three-dimensional positions, such as serve as a contrast The neck and cuff of shirt, sewing are that bending is three-dimensional on clothes.If simply simply by its sewing together.Easily cause After being fabricated to ready-made clothes, collar and cuff fly up or deformed.

Utility model content

Based on this, it is necessary to provide a kind of tension force that can ensure bottom cut-parts and be stretched and make finished product accomplish to prevent from becoming The three-dimensional cut-parts positioning fixture of shape and anti-winged neck.

A kind of three-dimensional cut-parts positioning fixture, including bottom plate, positioning strip, fastener, the first pressure strip, the second pressure strip, One compresses driving part and the second compression driving part；

The quantity of the positioning strip is multiple, and multiple positioning strips are connected to the bottom plate by the fastener respectively Upper surface, position of each positioning strip on the bottom plate is adjustable；

It is described first compression driving part and it is described second compression driving part be each provided at the bottom plate upper surface and It is oppositely arranged, the first compression driving part is connected to first pressure strip for driving first pressure strip to move Dynamic, the second compression driving part is connected to second pressure strip for driving the second pressure strip movement.

In one of the embodiments, there is the adjustment hole of strip, the fastener is arranged in institute on the positioning strip Adjustment hole is stated so that the positioning strip is fixed on the bottom plate.

In one of the embodiments, described first compress driving part and have first laterally to compress driving element and the One longitudinal direction compresses driving element；The first longitudinal direction compresses driving element and is connected to first pressure strip for described in driving First pressure strip vertically moves relative to the bottom plate；Described first, which laterally compresses driving element, is located on the bottom plate and connects Driving element is compressed in the first longitudinal direction, described first, which laterally compresses driving element, is used to drive the first longitudinal direction compression to drive Dynamic element drives first pressure strip relative to the bottom plate transverse shifting.

In one of the embodiments, the bottom plate, which runs through, the first through hole of its upper surface and bottom surface, and described first The bottom surface that driving element is connected to the bottom plate is laterally compressed, the first longitudinal direction compresses driving element and is arranged in described first Through hole.

In one of the embodiments, described second compress driving part and have second laterally to compress driving element and the Two longitudinal directions compress driving element；The second longitudinal direction compresses driving element and is connected to second pressure strip for described in driving Second pressure strip vertically moves relative to the bottom plate；Described second, which laterally compresses driving element, is located on the bottom plate and connects Driving element is compressed in the second longitudinal direction, described second, which laterally compresses driving element, is used to drive the second longitudinal direction compression to drive Dynamic element drives second pressure strip relative to the bottom plate transverse shifting.

In one of the embodiments, the bottom plate, which runs through, the second through hole of its upper surface and bottom surface, and described second The bottom surface that driving element is connected to the bottom plate is laterally compressed, the second longitudinal direction compresses driving element and is arranged in described second Through hole.

In one of the embodiments, in addition to projection, the bottom surface of the bottom plate are connected with multiple projections.

In one of the embodiments, multiple projections are distributed in each edge of the bottom plate bottom surface.

Above-mentioned three-dimensional cut-parts positioning fixture, there is provided multiple positioning strips, multiple positioning strips are connected by fastener respectively In the upper surface of bottom plate, position of each positioning strip on bottom plate is adjustable；The position of multiple positioning strips can be according to actual production The shapes at edge of cut-parts be adjusted correspondingly.First compression driving part and the second compression driving part are each provided at bottom The upper surface of plate and it is oppositely arranged, the first compression driving part is connected to the first pressure strip and moved for the first pressure strip of driving Dynamic, the second compression driving part is connected to the second pressure strip for driving the second pressure strip movement.First pressure strip and Two pressure strips be respectively used to compress cut-parts both ends and be respectively further from movement it is exceptionally straight so that cut-parts to be tensed, avoid the gauffer of cut-parts, By above-mentioned three-dimensional cut-parts positioning fixture, the tension force that bottom cut-parts are stretched can be ensured and make finished product accomplish to prevent from deforming Fly neck with anti-.

Brief description of the drawings

Fig. 1 is that an embodiment solid cut-parts position overlapping structural scheme of mechanism；

Fig. 2 is that three-dimensional cut-parts position overlapping mechanism and cut-parts cooperation schematic diagram shown in Fig. 1；

Fig. 3 is the three-dimensional cut-parts positioning fixture schematic diagram that three-dimensional cut-parts shown in Fig. 1 position overlapping mechanism；

Fig. 4 is the first compression driving part schematic diagram of three-dimensional cut-parts positioning fixture shown in Fig. 3；

Fig. 5 is the second compression driving part schematic diagram of three-dimensional cut-parts positioning fixture shown in Fig. 3；

Fig. 6 is three-dimensional cut-parts positioning fixture schematic bottom view shown in Fig. 3；

Fig. 7 is the adjustable sewing fixture exploded perspective view that three-dimensional cut-parts shown in Fig. 1 position overlapping mechanism.

Description of reference numerals

10th, three-dimensional cut-parts position overlapping mechanism；100th, three-dimensional cut-parts positioning fixture；110th, bottom plate；120th, positioning strip；130、 Projection；140th, the first pressure strip；150th, the second pressure strip；160th, first driving part is compressed；161st, first driving is laterally compressed Element；162nd, first longitudinal direction compresses driving element；170th, second driving part is compressed；171st, second driving element is laterally compressed； 172nd, second longitudinal direction compresses driving element；200th, adjustable sewing fixture；210th, fixed seat；211st, slot to make way；220th, the first folder Plate；230th, second clamping plate；240th, spacer；250th, material folding driving part；260th, connector；270th, regulating part；271st, base is adjusted Seat；272nd, regulating block；300th, fastener；20th, first cut-parts；30th, second cut-parts.

Embodiment

For the ease of understanding the utility model, the utility model is more fully retouched below with reference to relevant drawings State.Preferred embodiment of the present utility model is given in accompanying drawing.But the utility model can come in fact in many different forms It is existing, however it is not limited to embodiment described herein.On the contrary, the purpose for providing these embodiments is made to public affairs of the present utility model Open the understanding more thorough and comprehensive of content.

It should be noted that when element is referred to as " being fixed on " another element, it can be directly on another element Or there may also be element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all of technologies and scientific terms used here by the article is led with belonging to technology of the present utility model The implication that the technical staff in domain is generally understood that is identical.It is simply in term used in the description of the present utility model herein The purpose of description specific embodiment, it is not intended that in limitation the utility model.Term as used herein "and/or" includes The arbitrary and all combination of one or more related Listed Items.

Referring to shown in Fig. 1 and Fig. 2, the present embodiment relate to a kind of three-dimensional cut-parts and position overlapping mechanism 10.The three-dimensional cut-parts Positioning overlapping mechanism 10 includes three-dimensional cut-parts positioning fixture 100, shunts and stitch fixture and control unit.Preferably, above-mentioned control Part processed can be PLC.

It is shown in Figure 3, above-mentioned three-dimensional cut-parts positioning fixture 100 include bottom plate 110, positioning strip 120, fastener 300, First pressure strip 140, the second pressure strip 150, first compress driving part 160 and second and compress driving part 170.

Shown in Figure 3, the quantity of positioning strip 120 is multiple.Multiple positioning strips 120 are connected by fastener 300 respectively In the upper surface of bottom plate 110, position of each positioning strip 120 on bottom plate 110 is adjustable.

Shown in Figure 3, the first compression driving part 160 and second compresses driving part 170 and is each provided at bottom plate 110 Upper surface and it is oppositely arranged.First compression driving part 160 is connected to the first pressure strip 140 for driving the first pressure strip 140 movements, the second compression driving part 170 are connected to the second pressure strip 150 and moved for the second pressure strip 150 of driving.Control Part processed is electrically connected at the first compression driving part 160 and second and compresses driving part 170.

It is shown in Figure 3, in the present embodiment, there is the adjustment hole of strip on positioning strip, fastener 300 is arranged in Adjustment hole is so that positioning strip is fixed on bottom plate 110.

Further, it is shown in Figure 4, first compress driving part 160 have first laterally compress driving element 161 with And first longitudinal direction compresses driving element 162.First longitudinal direction compresses driving element 162 and is connected to the first pressure strip 140 for driving Dynamic first pressure strip 140 vertically moves relative to bottom plate 110.First, which laterally compresses driving element 161, is located on bottom plate 110 and connects It is connected to first longitudinal direction and compresses driving element 162.First, which laterally compresses driving element 161, is used to drive first longitudinal direction to compress driving member Part 162 drives the first pressure strip 140 relative to the transverse shifting of bottom plate 110.Control unit is electrically connected at first and laterally compresses drive Dynamic element 161 and first longitudinal direction compress driving element 162.

Further, shown in Figure 3, bottom plate 110 runs through the first through hole for having its upper surface and bottom surface.First laterally The bottom surface that driving element 161 is connected to bottom plate 110 is compressed, first longitudinal direction compresses driving element 162 and is arranged in first through hole.

Further, it is shown in Figure 5, second compress driving part 170 have second laterally compress driving element 171 with And second longitudinal direction compresses driving element 172.Second longitudinal direction compresses driving element 172 and is connected to the second pressure strip 150 for driving Dynamic second pressure strip 150 vertically moves relative to bottom plate 110.Second, which laterally compresses driving element 171, is located on bottom plate 110 and connects It is connected to second longitudinal direction and compresses driving element 172.Second, which laterally compresses driving element 171, is used to drive second longitudinal direction to compress driving member Part 172 drives the second pressure strip 150 relative to the transverse shifting of bottom plate 110.Control unit is electrically connected at second and laterally compresses drive Dynamic element 171 and second longitudinal direction compress driving element 172.

Further, shown in Figure 3, bottom plate 110 runs through the second through hole for having its upper surface and bottom surface.Second laterally The bottom surface that driving element 171 is connected to bottom plate 110 is compressed, second longitudinal direction compresses driving element 172 and is arranged in the second through hole.

Further, it is shown in Figure 6, in addition to projection 130, the bottom surface of bottom plate 110 be connected with multiple projections 130. Preferably, multiple projections 130 are distributed in each edge of the bottom surface of bottom plate 110.

Above-mentioned adjustable sewing fixture 200 includes fixed seat 210, first clamping plate 220, second clamping plate 230, positioning strip 120 And material folding driving part 250.Control unit is electrically connected at material folding driving part 250.

Shown in Figure 7, the quantity of first clamping plate 220 is at least two.Multiple first clamping plates 220 are connected to fixed seat On 210, position of multiple first clamping plates 220 in fixed seat 210 is adjustable.

Material folding driving part 250 is connected in fixed seat 210.Material folding driving part 250 is connected with second clamping plate 230, the Second splint 230 is located at the top of first clamping plate 220.Material folding driving part 250 is used to drive corresponding second clamping plate 230 towards the One clamping plate 220 is moved or resetted.Multiple positioning strips 120 are connected with second clamping plate 230.Multiple positioning strips 120 are in the second folder Position on plate 230 is adjustable.

Further, shown in Figure 7, the quantity of first clamping plate 220 is two, and two first clamping plates 220 are in fixed seat Position on 210 is adjustable.It can be appreciated that the quantity of first clamping plate 220 can also be other quantity, such as three, four.

Further, shown in Figure 7, the quantity of material folding driving part 250 is two.Two material folding driving parts 250 It is connected to the relative both ends of the upper surface of second clamping plate 230.

Preferably, shown in Figure 7, each positioning strip 120 is connected by fastener 300 with second clamping plate 230.The There are multiple stopper slots on second splint 230.Fastener 300 is equipped with each stopper slot, multiple positioning strips 120 are respectively positioned on The lower section of second splint 230.

Further, it is shown in Figure 7, in addition to connector 260.The perpendicular bending in both ends of connector 260.Connector 260 one end is connected to the first pressing plate, and the other end is connected to fixed seat 210.Connector 260 passes through fastener with fixed seat 210 300 connections.

Preferably, it is shown in Figure 7, there are multiple slots to make way 211 in fixed seat 210.The quantity of slot to make way 211 and connection The quantity of part 260 is consistent, and one end of connector 260 is located in slot to make way 211 and is connected with fixed seat 210.

Further, it is shown in Figure 7, in addition to regulating part 270.Regulating part 270 has regulation pedestal 271 and adjusted Locking nub 272.Regulation pedestal 271 is located in fixed seat 210, and regulating block 272 is connected on regulation pedestal 271, and regulating block 272 is being adjusted The position saved on pedestal 271 is adjustable.Connector 260 is connected on regulating block 272 by fastener 300.

Shown in Figure 7, the edge of multiple second clamping plates 230 outwardly is concordant.Second clamping plate 230 is T-shaped, second clamping plate 230 T-shaped afterbody is connected with connector 260, and two arms of the T-shaped of second clamping plate 230 are outwardly.

Above-mentioned three-dimensional cut-parts position overlapping mechanism 10 and are provided with adjustable sewing fixture 200, the quantity of first clamping plate 220 For at least two, multiple first clamping plates 220 are connected in fixed seat 210, position of multiple first clamping plates 220 in fixed seat 210 Put it is adjustable, to cause first clamping plate 220 to can adapt in various sizes of cut-parts；Material folding driving part 250 is connected with the second folder Plate 230, second clamping plate 230 are located at the top of first clamping plate 220, and material folding driving part 250 is used to drive corresponding second clamping plate 230 are moved or reset towards first clamping plate 220, and multiple spacers 240, multiple spacers 240 are connected with second clamping plate 230 Position in second clamping plate 230 is adjustable, to enable spacer 240 to be done according to the shape and size of the cut-parts of actual production Go out corresponding adjustment, above-mentioned adjustable sewing fixture 200 grips the size adjustable of cut-parts, convenient use.

Above-mentioned three-dimensional cut-parts position overlapping mechanism 10 and are provided with three-dimensional cut-parts positioning fixture 100, and there is provided multiple positioning Piece 240, multiple spacers 240 are connected to the upper surface of bottom plate 110 by fastener 300 respectively, and each spacer 240 is in bottom plate Position on 110 is adjustable；The position of multiple spacers 240 can carry out corresponding according to the shape at the edge of the cut-parts of actual production Adjustment.First compression driving part 160 and second compresses driving part 170 and is each provided at the upper surface of bottom plate 110 and relative Setting, the first compression driving part 160 is connected to the first pressure strip 140 and moved for the first pressure strip 140 of driving, and second Compress driving part 170 and be connected to the second pressure strip 150 for driving the second pressure strip 150 to move.First pressure strip 140 And second pressure strip 150 be respectively used to compress cut-parts both ends and be respectively further from movement it is exceptionally straight so that cut-parts to be tensed, avoid cutting out The gauffer of piece, by above-mentioned three-dimensional cut-parts positioning fixture 100, the tension force that bottom cut-parts are stretched can be ensured and make finished product Accomplish to prevent from deforming and prevent to fly neck.

Above-mentioned three-dimensional cut-parts position overlapping mechanism 10, when in use, include a kind of three-dimensional cut-parts positioning method of superposition. The three-dimensional cut-parts positioning method of superposition comprises the following steps：

Multiple positioning strips 120 are adjusted to be adapted to the shape at the edge of first overlapping cut-parts 20 of pre-determined bit；

First cut-parts 20 is placed on bottom plate 110, and the edge of first cut-parts 20 is aligned in each positioning On the edge of bar 120；

First compression driving part 160 drives the first pressure strip 140 to press on the one end of first cut-parts 20, and second Compressing driving part 170 drives the second pressure strip 150 to press on the other end of first cut-parts 20, and first compresses drive division It is remote that the compression driving part 170 of part 160, second drives the first pressure strip 140, the second pressure strip 150 to be distributed respectively so that first Individual cut-parts 20, which stretch, tightens；

Second cut-parts 30 is placed in the top of first cut-parts 20, and alignd with first cut-parts 20；

Material folding driving part 250 drives first clamping plate 220 away from second clamping plate 230, and adjustable sewing fixture 200 is towards the One cut-parts and second direction of cut-parts 30 movement, first clamping plate 220 clamp the first cut-parts and second sanction with second clamping plate 230 Piece 30；Material folding driving part 250 drives first clamping plate 220 to be moved towards second clamping plate 230 to bite the first cut-parts and second Individual cut-parts 30；

First cut-parts and second cut-parts 30 are clamped away from bottom plate 110 and are sent to pre-determined bit by adjustable sewing fixture 200 Put.

Further, above-mentioned three-dimensional cut-parts positioning method of superposition also comprises the following steps：

Towards when the first cut-parts and second direction of cut-parts 30 movement, first clamping plate 220 is located at adjustable sewing fixture 200 First cut-parts, the top of second cut-parts 30, second clamping plate 230 are located at the lower section of bottom plate 110, and material folding driving part 250 drives First clamping plate 220 is moved towards second clamping plate 230 to bite the first cut-parts, second cut-parts 30 and bottom plate 110.

Further, above-mentioned three-dimensional cut-parts positioning method of superposition also comprises the following steps：

Before material folding driving part 250 drives material folding, the position of multiple spacers 240 in first clamping plate 220 is adjusted Put so that the shape of the composition of multiple spacers 240 and the form fit of the first cut-parts and second cut-parts 30.

Further, the position of multiple spacers 240 in above-mentioned adjustment first clamping plate 220, comprises the following steps：

Fastener 300 on rotational positioning piece 240, spacer 240 turn to precalculated position relative to first clamping plate 220.

Further, the above-mentioned side that multiple positioning strips 120 are adjusted to be adapted to first overlapping cut-parts 20 of pre-determined bit Comprise the following steps during the shape of edge：

The fastener 300 on positioning strip 120 is unclamped, according to the shape and size running fix bar at the edge of the first cut-parts 120 position, so that the shape for obtaining the edge composition of multiple positioning strips 120 is matched with the shape at the edge of the first cut-parts with size And size, securable fastener 300.

Further, it is above-mentioned also to comprise the following steps after the position of adjustment positioning strip 120：Adjust multiple second clamping plates 230 position.

Further, comprise the following steps during the position of the multiple second clamping plates 230 of above-mentioned adjustment：

Position of the connector 260 being connected with second clamping plate 230 in fixed seat 210 is adjusted, so as to obtain multiple second folders The shape that plate 230 is formed matches with the shape and size of second cut-parts 30.

Above-mentioned three-dimensional cut-parts positioning method of superposition, the first pressure strip 140 and the second pressure strip 150 are respectively used to compress The both ends of cut-parts and be respectively further from movement it is exceptionally straight so that cut-parts to be tensed, avoid the gauffer of cut-parts, determined by above-mentioned three-dimensional cut-parts Position fixture 100, the tension force that bottom cut-parts are stretched can be ensured and make finished product accomplish to prevent from deforming and prevent to fly neck.Above-mentioned is vertical Type piece positions method of superposition, before sewing, first cut-parts 20 of lower floor is tensed exceptionally straight, makes neck or cuff sheet after sewing First cut-parts 20 of bottom of body carry certain tension force, so bending and sewing to after above ready-made clothes with regard to that can reach anti-well Fly the distortion-free effect of neck so that clothes is well-pressed.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

Embodiment described above only expresses several embodiments of the present utility model, and its description is more specific and detailed, But therefore it can not be interpreted as the limitation to the utility model patent scope.It should be pointed out that for the common of this area For technical staff, without departing from the concept of the premise utility, various modifications and improvements can be made, these all belong to In the scope of protection of the utility model.Therefore, the protection domain of the utility model patent should be determined by the appended claims.

Claims (8)

1. a kind of three-dimensional cut-parts positioning fixture, it is characterised in that including bottom plate, positioning strip, fastener, the first pressure strip, second Pressure strip, first compress driving part and the second compression driving part；

The quantity of the positioning strip is multiple, and multiple positioning strips are connected to the upper of the bottom plate by the fastener respectively Surface, position of each positioning strip on the bottom plate is adjustable；

The first compression driving part and the second compression driving part are each provided at the upper surface of the bottom plate and relative Set, the first compression driving part is connected to first pressure strip for driving the first pressure strip movement, institute State the second compression driving part and be connected to second pressure strip for driving the second pressure strip movement.

2. three-dimensional cut-parts positioning fixture according to claim 1, it is characterised in that with strip on the positioning strip Adjustment hole, the fastener are arranged in the adjustment hole so that the positioning strip is fixed on the bottom plate.

3. three-dimensional cut-parts positioning fixture according to claim 1 or 2, it is characterised in that described first compresses driving part Driving element is laterally compressed with first and first longitudinal direction compresses driving element；The first longitudinal direction compresses driving element connection Vertically moved in first pressure strip for driving first pressure strip relative to the bottom plate；Described first laterally presses Tight driving element, which is located on the bottom plate and is connected to the first longitudinal direction, compresses driving element, and described first laterally compresses driving Element is used to drive the first longitudinal direction to compress driving element drive first pressure strip relative to the bottom plate transverse shifting.

4. three-dimensional cut-parts positioning fixture according to claim 3, it is characterised in that the bottom plate through have its upper surface and The first through hole of bottom surface, described first laterally compresses the bottom surface that driving element is connected to the bottom plate, the first longitudinal direction Compress driving element and be arranged in the first through hole.

5. three-dimensional cut-parts positioning fixture according to claim 1 or 2, it is characterised in that described second compresses driving part Driving element is laterally compressed with second and second longitudinal direction compresses driving element；The second longitudinal direction compresses driving element connection Vertically moved in second pressure strip for driving second pressure strip relative to the bottom plate；Described second laterally presses Tight driving element, which is located on the bottom plate and is connected to the second longitudinal direction, compresses driving element, and described second laterally compresses driving Element is used to drive the second longitudinal direction to compress driving element drive second pressure strip relative to the bottom plate transverse shifting.

6. three-dimensional cut-parts positioning fixture according to claim 5, it is characterised in that the bottom plate through have its upper surface and Second through hole of bottom surface, described second laterally compresses the bottom surface that driving element is connected to the bottom plate, the second longitudinal direction Compress driving element and be arranged in second through hole.

7. three-dimensional cut-parts positioning fixture according to claim 1 or 2, it is characterised in that also including projection, the bottom plate Bottom surface is connected with multiple projections.

8. three-dimensional cut-parts positioning fixture according to claim 7, it is characterised in that multiple projections are distributed in the bottom Each edge of plate bottom surface.