CN222455492U - Cut-parts clamping frame - Google Patents

Abstract

The utility model relates to the field of embroidery machine manufacturing, and discloses a cutting piece clamping frame, including: a cutting piece supporting plate, a bearing hinge pad, a bearing hinge, a cutting piece pressing plate, an anti-skid sticker, a clamping block, a Z-type rotating clamping block pad, a bent plate, a Z-type rotating clamping block right, a rotating fixed pin one, a Z-type rotating clamping block left, a magnetic fixed block mounting plate, a magnetic fixed block connecting plate, a magnetic fixed block, and a rotating fixed pin two. The bearing hinge pad, the magnetic fixed block mounting plate, the bent plate, and the Z-type rotating clamping block pad are installed on the cutting piece supporting plate; the cutting piece pressing plate is installed on the bearing hinge; the anti-skid sticker and the clamping block are installed on the cutting piece pressing plate; the rotating fixed pin one and the rotating fixed pin two are installed on the Z-type rotating clamping block pad; the utility model overcomes the problem of unnecessary damage to the fabric caused by the traditional fabric fixing method. Through the design of the utility model, the scrap rate can be reduced, and the production efficiency and aesthetics can be improved.

Description

Cut-parts clamping frame

Technical Field

The utility model belongs to the field of embroidery machines, and is mainly applied to the field of embroidery machines, in particular to a cut-part clamping frame.

Background

When the embroidery machine embroiders on cut pieces with a good size, particularly small-size logo on cut pieces with a small size, firstly, the small cut pieces are fixed, then embroidery can be started, if the cut pieces cannot be well fixed and positioned, the phenomenon of position shifting can occur in the embroidery process, so that the rejection rate is increased, the traditional small cut piece fixing method has two methods, namely, the cut pieces can be effectively fixed by means of a nylon small embroidery frame, but the cut pieces cannot be prevented from being creased, meanwhile, certain stretching can be generated on the cut pieces with larger elasticity, and the cut pieces are damaged, and secondly, the double sided adhesive tape is used for fixing, although the method is well avoided, the adverse effect on the cut pieces is generated, but when embroidery is finished, part of double sided adhesive tape sometimes remains on the cut pieces, so that the cut pieces are polluted, and the probability of waste is increased.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art, provides the cut piece clamping frame, meets the special requirements of small-size cut pieces in logo embroidery, and effectively solves the problem of high rejection rate caused by damage to the cut pieces by the traditional cut piece fixing method.

The utility model aims at realizing the following technical scheme:

The cutting piece clamping frame comprises a cutting piece supporting plate, a bearing hinge base plate, a bearing hinge, a cutting piece pressing plate, an anti-slip paste, a pressing block, a Z-shaped rotary pressing block base plate, a bent plate, a Z-shaped rotary pressing block right, a rotary fixing pin I, a Z-shaped rotary pressing block left, a magnetic fixing block mounting plate, a magnetic fixing block connecting plate, a magnetic fixing block and a rotary fixing pin II.

The bearing hinge backing plate is arranged on the cutting piece supporting plate;

the bearing hinge is arranged on the bearing hinge backing plate;

the cutting piece pressing plate is arranged on the bearing hinge;

the anti-slip patch is arranged on the cut-part pressing plate and used for preventing the cut-part from sliding;

The compaction block is arranged on the cut-part pressing plate;

the Z-shaped rotary compaction block base plate is arranged on the cutting piece supporting plate;

the first rotary fixing pin is arranged on the Z-shaped rotary compacting block backing plate;

The Z-shaped rotary compacting block is installed on the first rotary fixing pin on the right;

The second rotary fixing pin is arranged on the Z-shaped rotary compacting block backing plate;

the Z-shaped rotary compacting block is arranged on the left side of the rotary fixing pin II;

the bending plate is fixedly arranged on the cutting piece supporting plate;

The magnetic fixing block mounting plate is arranged on the cutting piece supporting plate;

the magnetic fixing block connecting plate is arranged on the magnetic fixing block mounting plate;

The magnetic fixing block is arranged on the magnetic fixing block connecting plate and can be connected with the embroidery machine embroidery frame through the magnetic fixing block.

The utility model solves the problem of unnecessary damage to the fabric caused by the traditional fabric fixing method, and through the design of the utility model, the rejection rate can be reduced, and the production efficiency and the attractiveness are improved.

Drawings

FIG. 1 is a cut-segment clamping frame overall view;

FIG. 2 is a schematic view of a panel positioning template;

FIG. 3 is a schematic view of a small cut-out after being secured to a cut-out clamping frame;

Fig. 4 is an assembly schematic of the panel clamping frame on the complete machine.

1. The cutting blade support plate 2, the bearing hinge base plate 3, the bearing hinge 4, the cutting blade pressing plate 5, the anti-slip paste 6, the pressing block 7, the Z-shaped rotary pressing block base plate 8, the right 10 of the bent plate 9.Z-shaped rotary pressing block, the first rotary fixing pin 11-the left 12 of the Z-shaped rotary pressing block, the magnetic fixing block mounting plate 13, the magnetic fixing block connecting plate 14, the magnetic fixing block 15 and the second rotary fixing pin.

Detailed Description

For a further understanding of the nature, features, and efficacy of the present utility model, the following examples are set forth to illustrate, but are not limited to, the utility model. The present embodiments are to be considered as illustrative and not restrictive, and the scope of the utility model is not to be limited thereto.

The cutting piece clamping frame comprises a cutting piece supporting plate 1, a bearing hinge backing plate 2, a bearing hinge 3, a cutting piece pressing plate 4, an anti-slip paste 5, a pressing block 6, a Z-shaped rotary pressing block backing plate 7, a bending plate 8, a Z-shaped rotary pressing block right 9, a first rotary fixing pin 10, a left Z-shaped rotary pressing block 11, a magnetic fixing block mounting plate 12, a magnetic fixing block connecting plate 13, a magnetic fixing block 14 and a second rotary fixing pin 15.

The bearing hinge backing plate 2 is arranged on the cutting piece supporting plate 1;

The bearing hinge 3 is arranged on the bearing hinge backing plate 2;

The cutting piece pressing plate 4 is arranged on the bearing hinge 3;

the anti-slip patch 5 is arranged on the cut piece pressing plate 4 and is used for preventing cut pieces from sliding;

the compressing block 6 is arranged on the cut piece compressing plate 4;

the Z-shaped rotary compacting block base plate 7 is arranged on the cutting piece supporting plate 1;

the first rotary fixing pin 10 is arranged on the Z-shaped rotary compacting block backing plate 7;

The right 9 of the Z-shaped rotary compacting block is arranged on the first rotary fixing pin 10;

the second rotary fixing pin 15 is arranged on the Z-shaped rotary compacting block backing plate 7;

The left side 11 of the Z-shaped rotary compacting block is arranged on the second rotary fixing pin 15;

The bending plate 8 is fixedly arranged on the cutting piece supporting plate 1;

the magnetic fixed block mounting plate 12 is arranged on the cut-part supporting plate 1;

the magnetic fixing block connecting plate 13 is arranged on the magnetic fixing block mounting plate 12;

The magnetic fixing block 14 is arranged on the magnetic fixing block connecting plate 13, and can be connected with an embroidery machine tabouret through the magnetic fixing block 14.

The cutting piece clamping frame is placed in a cutting piece positioning template positioning groove (shown as a graphic illustration 2), the right 9 of the Z-shaped rotary pressing block and the left 11 of the Z-shaped rotary pressing block are manually rotated to open the cutting piece pressing plate 4, the prepared cutting pieces are placed along the outline of the cutting piece on the cutting piece positioning template, the cutting piece pressing plate 4 is closed and pressed on the placed cutting pieces, the right 9 of the Z-shaped rotary pressing block and the left 11 of the Z-shaped rotary pressing block are manually rotated to the lower part of the pressing block 6 to press the cutting piece pressing plate 4 (shown as a graphic illustration 3), the cutting piece clamping frame is taken out from the cutting piece positioning template, the cutting piece clamping frame is installed on the embroidery machine embroidery frame according to the graphic illustration 4, the steps are repeated, a plurality of cutting piece clamping frames can be installed on the embroidery machine embroidery frame (shown as a graphic illustration 4), and the production efficiency is improved.

Claims (3)

1. A cutting piece clamping frame comprises a cutting piece supporting plate, a bearing hinge base plate, a bearing hinge, a cutting piece pressing plate, an anti-slip paste, a pressing block, a Z-shaped rotary pressing block base plate, a bending plate, a Z-shaped rotary pressing block right, a rotary fixing pin first, a Z-shaped rotary pressing block left, a magnetic fixing block mounting plate, a magnetic fixing block connecting plate, a magnetic fixing block second and a rotary fixing pin second, wherein the bearing hinge base plate is mounted on the cutting piece supporting plate, the bearing hinge is mounted on the bearing hinge base plate, the cutting piece pressing plate is mounted on the bearing hinge, the pressing block is mounted on the cutting piece pressing plate, the Z-shaped rotary pressing block base plate is mounted on the cutting piece supporting plate, the rotary fixing pin first is mounted on the Z-shaped rotary pressing block base plate, the Z-shaped rotary pressing block right is mounted on the rotary fixing pin first, the rotary fixing pin second is mounted on the Z-shaped rotary pressing block base plate, the Z-shaped rotary pressing block left is mounted on the rotary fixing pin second, the bending plate is fixedly mounted on the cutting piece, the magnetic fixing block is mounted on the cutting piece, the Z-fixing block fixing plate is mounted on the magnetic fixing plate, the Z-fixing block mounting plate is mounted on the fixing plate.

2. The sheet clamping frame of claim 1, wherein the anti-slip patch is mounted on the sheet pressing plate for preventing sliding of the sheet.

3. The clamping frame for cutting pieces according to claim 1, wherein the magnetic attraction fixing block is arranged on a magnetic attraction fixing block connecting plate and can be connected with an embroidery machine embroidery frame through the magnetic attraction fixing block.