CN220952410U

CN220952410U - Template frame

Info

Publication number: CN220952410U
Application number: CN202322759268.0U
Authority: CN
Inventors: 邱枫
Original assignee: Jianghan University
Current assignee: Jianghan University
Priority date: 2023-10-12
Filing date: 2023-10-12
Publication date: 2024-05-14
Anticipated expiration: 2033-10-12

Abstract

The utility model relates to the field of clothing processing, in particular to a template frame. Technical problems: in the process of clothing manufacture, the common template cannot be simultaneously suitable for cut pieces with various sizes, so that the template is often abandoned due to incapability of being reused, and resource waste is caused. The technical scheme is as follows: a template frame comprises a bottom frame assembly, a fixed frame assembly and a displacement assembly. According to the utility model, the bottom frame assembly is arranged to hold the cut pieces, the middle frame assembly is arranged to fix the cut pieces, the fixed frame assembly is arranged to fix the adjusting piece, and the template frame can adjust the positions of the supporting strips and the pressing strips inside through the limiting and adjusting structure so as to adapt to the cut pieces with different sizes; and the setting of cut-parts dragging device lets the user drag the cut-parts through the device when processing rectangular shape's cut-parts, lets the user need not the next position of recalibration position alright direct processing cut-parts to time has still been practiced thrift in avoiding the wasting of resources.

Description

Template frame

Technical Field

The utility model relates to the field of clothing processing, in particular to a template frame.

Background

The clothing template is one of the appurtenances commonly used in the clothing manufacturing production process, in order to ensure the accuracy and the stitch smoothness of the cut-parts sewing, the processing requirement of the template is generally higher, and in the traditional production process, different templates are required to be manufactured for the cut-parts with different sizes so as to fix the cut-parts, so that the used templates are often abandoned because the templates are not suitable for the cut-parts with other sizes any more, and resource waste is caused.

Disclosure of utility model

In order to solve the problems that in the garment manufacturing process, a common template cannot be simultaneously applied to cut pieces with various sizes, so that the template is often abandoned due to incapability of being reused, and resource waste is caused.

The technical scheme of the utility model is as follows: a template frame comprises a bottom frame component, a middle frame component, a fixed frame component and a displacement component; the upper end of the bottom frame component is provided with a middle frame component for clamping the cut pieces; the upper end of the middle layer frame component is provided with a fixed frame component for fixing the adjusting piece; one side of the bottom frame component is provided with a displacement component for dragging the cutting piece.

Preferably, the bottom frame assembly is used for holding the cut-parts, the middle frame assembly is used for fixing the cut-parts, the fixed frame assembly is used for fixing the adjusting piece, and the displacement assembly is used for dragging the cut-parts so as to facilitate feeding.

Preferably, the bottom frame assembly comprises a supporting plate, a first vertical limit groove, a vertical supporting strip, a first horizontal limit groove, a horizontal supporting strip, a first magnetic block, a first hinge plate and a second hinge plate; the supporting plate is provided with a first vertical limit groove; a vertical supporting strip is arranged in the first vertical limiting groove; the front end and the rear end of the vertical supporting strip are respectively provided with a first transverse limiting groove; a transverse supporting strip is arranged in the first transverse limiting groove; the two sides of the transverse supporting strip are provided with first magnetic attraction blocks. The first vertical limiting groove and the first horizontal limiting groove are respectively used for limiting the positions of the vertical supporting strip and the horizontal supporting strip.

Preferably, the rear end of the supporting plate is provided with a first hinge plate; the upper end of the first hinge plate is provided with a second hinge plate. The first hinge plate is connected with the supporting plate and the pressing plate, and enables the supporting plate and the pressing plate to be connected in a rotating mode, and the second hinge plate is connected with the pressing plate and the fixing plate, and enables the pressing plate and the fixing plate to be connected in a rotating mode.

Preferably, the middle layer frame assembly comprises a pressing plate, a magnetic attraction groove, a second transverse limit groove, a transverse pressing strip, a second vertical limit groove, a vertical pressing strip, a sliding pressing block and a first fixed pressing block; the upper end of the first magnetic block is provided with a pressing plate; four corners of the upper end and the lower end of the pressing plate are respectively provided with a magnetic attraction groove; the both sides of clamp plate lower extreme all are provided with first fixed briquetting. The clamp plate is used for pushing down cut-parts and horizontal support strip, and the magnetic suction groove is in the same place with the adsorption of clamp plate with first magnetic suction piece coaction messenger's layer board, and first fixed briquetting is used for pushing down vertical support strip.

Preferably, the pressing plate is provided with a second transverse limit groove; a transverse pressing strip is arranged in the second transverse limiting groove; two sides of the transverse pressing strip are provided with second vertical limiting grooves; a vertical pressing strip is arranged in the second vertical limiting groove; the vertical pressing strip is provided with a sliding pressing block. The second transverse limiting groove and the second vertical limiting groove are respectively used for limiting the positions of the transverse pressing strip and the vertical pressing strip, and the transverse pressing strip, the vertical pressing strip and the sliding pressing block are all used for pressing the cutting piece.

Preferably, the fixed frame assembly comprises a fixed plate, a second magnetic block and a second fixed pressing block; a fixed plate is arranged above the sliding pressing block; the lower end of the fixed plate is provided with a second magnetic block; the fixed plate is provided with a second fixed pressing block. The fixed plate is used for fixing the adjusting piece in a mode of pressing the vertical pressing strip and the sliding pressing block by utilizing the second fixing pressing block, and the pressing plate and the fixed plate are adsorbed together under the combined action of the second magnetic attraction block and the magnetic attraction groove.

Preferably, the displacement assembly comprises a chute, a sliding block, a clamping strip, a base plate and a rotating roller; the front end of the supporting plate is provided with a chute; a sliding block is arranged in the sliding groove; the slide block is provided with a clamping strip; the lower end of the holding strip is provided with a backing plate; the backing plate is provided with a rotating roller. The sliding groove and the sliding block jointly act to limit the displacement distance and the angle of the clamping strip, and the rotary roller is used for assisting a user in dragging the cutting piece.

The utility model has the beneficial effects that:

1. The position of the supporting strip and the pressing strip inside the template frame can be adjusted by arranging the limiting and adjusting structure so as to adapt to cut pieces with different sizes; and the setting of cut-parts dragging device lets the user drag the cut-parts through the device when processing the cut-parts of rectangular shape, lets the user need not the next position of recalibration position alright direct processing cut-parts to when avoiding the wasting of resources, still practiced thrift the time.

2. The stress positions of the clamped cut pieces can be adjusted by placing the vertical supporting strips, the horizontal pressing strips and the vertical pressing strips in the proper limiting grooves, so that the template frame can adapt to the cut pieces with various sizes, and the problem of source waste is avoided;

3. By sliding the clamping strip, the cutting piece can be dragged by utilizing friction force, and when the shape of the processed cutting piece is long-strip-shaped, and the cutting piece needs to be processed at a plurality of positions, the method can enable a user to directly process the next position of the cutting piece without recalibrating the position, so that the time is saved.

Drawings

FIG. 1 shows a schematic view of the overall construction of the present utility model;

FIG. 2 is a schematic view of a first hinge plate construction of the present utility model;

FIG. 3 shows a schematic view of the platen construction of the present utility model;

Fig. 4 shows a schematic view of the clip strip construction of the present utility model.

Reference numerals illustrate: 1. a base frame assembly; 2. a middle layer frame assembly; 3. a fixed frame assembly; 4. a displacement assembly; 101. a supporting plate; 102. the first vertical limit groove; 103. vertical supporting strips; 104. the first transverse limit groove; 105. a transverse supporting strip; 106. a first magnetic block; 107. a first hinge plate; 108. a second hinge plate; 201. a pressing plate; 202. a magnetic attraction groove; 203. the second transverse limit groove; 204. a transverse pressing bar; 205. the second vertical limit groove; 206. vertical pressing strips; 207. a sliding pressing block; 208. a first fixed press block; 301. a fixing plate; 302. a second magnetic block; 303. a second fixed pressing block; 401. a chute; 402. a slide block; 403. clamping strips; 404. a backing plate; 405. and (5) rotating the roller.

Detailed Description

The utility model is further described below with reference to the drawings and examples.

Referring to fig. 1-2, the present utility model provides an embodiment: a template frame comprises a bottom frame component 1, a middle layer frame component 2, a fixed frame component 3 and a displacement component 4; the upper end of the bottom frame component 1 is provided with a middle frame component 2 for clamping the cut pieces; the upper end of the middle layer frame component 2 is provided with a fixed frame component 3 for fixing an adjusting piece; one side of the base frame assembly 1 is provided with a displacement assembly 4 for dragging the cut pieces. The bottom frame assembly 1 is used for holding the cut-parts, the middle layer frame assembly 2 is used for fixing the cut-parts, the fixed frame assembly 3 is used for fixing the adjusting part, and the displacement assembly 4 is used for dragging the cut-parts so as to facilitate feeding. The bottom frame assembly 1 comprises a supporting plate 101, a first vertical limit groove 102, a vertical supporting strip 103, a first horizontal limit groove 104, a horizontal supporting strip 105, a first magnetic block 106, a first hinge plate 107 and a second hinge plate 108; the supporting plate 101 is provided with a first vertical limit groove 102; a vertical supporting strip 103 is arranged in the first vertical limiting groove 102; the front end and the rear end of the vertical supporting strip 103 are respectively provided with a first transverse limiting groove 104; a transverse supporting strip 105 is arranged in the first transverse limiting groove 104; the two sides of the transverse supporting strip 105 are provided with first magnetic attraction blocks 106. The first vertical limiting groove 102 and the first horizontal limiting groove 104 are used for limiting the positions of the vertical supporting strip 103 and the horizontal supporting strip 105 respectively. The rear end of the supporting plate 101 is provided with a first hinge plate 107; the upper end of the first hinge plate 107 is provided with a second hinge plate 108. The first hinge plate 107 connects the pallet 101 to the platen 201 and connects them to rotate, and the second hinge plate 108 connects the platen 201 to the fixed plate 301 and connects them to rotate. The middle layer frame assembly 2 comprises a pressing plate 201, a magnetic attraction groove 202, a second transverse limit groove 203, a transverse pressing bar 204, a second vertical limit groove 205, a vertical pressing bar 206, a sliding pressing block 207 and a first fixed pressing block 208; the upper end of the first magnetic block 106 is provided with a pressing plate 201; four corners of the upper end and the lower end of the pressing plate 201 are respectively provided with a magnetic attraction groove 202; both sides of the lower end of the pressing plate 201 are provided with first fixing pressing blocks 208. The pressing plate 201 is used for pressing the cut pieces and the transverse supporting strips 105, the magnetic attraction grooves 202 and the first magnetic attraction blocks 106 work together to enable the supporting plate 101 to be attracted with the pressing plate 201, and the first fixing pressing blocks 208 are used for pressing the vertical supporting strips 103. The pressing plate 201 is provided with a second transverse limiting groove 203; a transverse pressing strip 204 is arranged in the second transverse limiting groove 203; second vertical limiting grooves 205 are formed in two sides of the transverse pressing strips 204; a vertical pressing strip 206 is arranged in the second vertical limiting groove 205; a sliding pressing block 207 is arranged on the vertical pressing bar 206. The second transverse limiting groove 203 and the second vertical limiting groove 205 are used for limiting positions of the transverse pressing bar 204 and the vertical pressing bar 206, and the transverse pressing bar 204, the vertical pressing bar 206 and the sliding pressing block 207 are all used for pressing the cut pieces.

Referring to fig. 3 to 4, in the present embodiment, the fixed frame assembly 3 includes a fixed plate 301, a second magnetic block 302, and a second fixed pressing block 303; a fixed plate 301 is arranged above the sliding press block 207; the lower end of the fixed plate 301 is provided with a second magnetic block 302; the fixing plate 301 is provided with a second fixing presser 303. The fixing plate 301 fixes the adjusting member by pressing the vertical pressing bar 206 and the sliding pressing bar 207 with the second fixing pressing block 303, and the second magnetic block 302 and the magnetic groove 202 cooperate to attract the pressing plate 201 and the fixing plate 301 together. The displacement assembly 4 comprises a chute 401, a sliding block 402, a clamping strip 403, a base plate 404 and a rotating roller 405; the front end of the supporting plate 101 is provided with a chute 401; a sliding block 402 is arranged in the sliding groove 401; the slide block 402 is provided with a clamping strip 403; the lower end of the holding strip 403 is provided with a backing plate 404; the backing plate 404 is provided with a roller 405. The chute 401 cooperates with the slider 402 to limit the displacement distance and angle of the clip strip 403 and the roller 405 serves to assist the user in dragging the cut piece.

During operation, the supporting plate 101 and the pressing plate 201 which are adsorbed together by the first magnetic attraction block 106 are separated, the positions of the vertical supporting strip 103 and the horizontal supporting strip 105 in the first vertical limiting groove 102 and the first horizontal limiting groove 104 are adjusted to adapt to the size of the cut pieces, then cloth is placed above the supporting plate 101, the cut pieces are placed above the cloth, and the pressing plate 201 is closed. Then, the pressing plate 201 and the fixing plate 301 that are attracted together by the second magnetic attraction block 302 are separated, and the positions of the transverse pressing bar 204 and the vertical pressing bar 206 in the second transverse limiting groove 203 and the second vertical limiting groove 205 are adjusted, so that the transverse pressing bar 204 presses on the transverse supporting bar 105, the sliding pressing block 207 presses on the vertical supporting bar 103, and then the fixing plate 301 is closed, so that the second fixing pressing block 303 presses the transverse pressing bar 204 and the vertical pressing bar 206. Finally, the template frame clamping the cut pieces is placed under the sewing equipment to start processing.

If the processed cloth is in a strip shape and a plurality of cut pieces are needed to be sewn on the cloth, the template frame can be taken out after the first place of the cloth is processed, the supporting plate 101 and the pressing plate 201 are separated, then the cut pieces are clamped by the clamping strips 403 arranged on the sliding blocks 402, the clamping strips 403 are pushed to enable the cut pieces to be displaced, another cut piece is placed on the cloth, finally the pressing plate 201 is closed again, and the template frame is placed under the sewing equipment again.

Through the steps, the bottom frame assembly 1 is arranged for supporting the cut pieces, the middle frame assembly 2 is arranged for fixing the cut pieces, the fixed frame assembly 3 is arranged for fixing the adjusting piece, and the positions of the supporting strips and the pressing strips inside the template frame can be adjusted through the limiting and adjusting structure so as to adapt to the cut pieces with different sizes; and the setting of cut-parts dragging device lets the user drag the cut-parts through the device when processing the cut-parts of rectangular shape, lets the user need not the next position of recalibration position alright direct processing cut-parts to when avoiding the wasting of resources, still practiced thrift the time.

Claims

1. A template frame comprises a bottom frame component (1); the method is characterized in that: the device also comprises a middle layer frame assembly (2), a fixed frame assembly (3) and a displacement assembly (4); the upper end of the bottom frame component (1) is provided with a middle frame component (2) for clamping the cut pieces; the upper end of the middle layer frame component (2) is provided with a fixed frame component (3) for fixing an adjusting piece; one side of the bottom frame component (1) is provided with a displacement component (4) for dragging the cut pieces; the bottom frame assembly (1) comprises a supporting plate (101), a first vertical limit groove (102), a vertical supporting strip (103), a first horizontal limit groove (104), a horizontal supporting strip (105), a first magnetic block (106), a first hinge plate (107) and a second hinge plate (108); a first vertical limit groove (102) is formed in the supporting plate (101); a vertical supporting strip (103) is arranged in the first vertical limiting groove (102); the front end and the rear end of the vertical supporting strip (103) are provided with first transverse limiting grooves (104); a transverse supporting strip (105) is arranged in the first transverse limiting groove (104); the two sides of the transverse supporting strip (105) are provided with first magnetic attraction blocks (106).

2. A form panel according to claim 1, wherein: the rear end of the supporting plate (101) is provided with a first hinge plate (107); the upper end of the first hinge plate (107) is provided with a second hinge plate (108).

3. A form panel according to claim 1, wherein: the middle layer frame assembly (2) comprises a pressing plate (201), a magnetic attraction groove (202), a second transverse limit groove (203), a transverse pressing bar (204), a second vertical limit groove (205), a vertical pressing bar (206), a sliding pressing block (207) and a first fixed pressing block (208); the upper end of the first magnetic block (106) is provided with a pressing plate (201); four corners of the upper end and the lower end of the pressing plate (201) are respectively provided with a magnetic slot (202); both sides of the lower end of the pressing plate (201) are provided with first fixed pressing blocks (208).

4. A form panel according to claim 3, wherein: the pressing plate (201) is provided with a second transverse limit groove (203); a transverse pressing strip (204) is arranged in the second transverse limiting groove (203); two sides of the transverse pressing strip (204) are provided with second vertical limiting grooves (205); a vertical pressing strip (206) is arranged in the second vertical limiting groove (205); a sliding pressing block (207) is arranged on the vertical pressing bar (206).

5. A form panel according to claim 4, wherein: the fixed frame component (3) comprises a fixed plate (301), a second magnetic block (302) and a second fixed pressing block (303); a fixed plate (301) is arranged above the sliding pressing block (207); the lower end of the fixed plate (301) is provided with a second magnetic block (302); the fixing plate (301) is provided with a second fixing pressing block (303).

6. A form panel according to claim 1, wherein: the displacement assembly (4) comprises a chute (401), a sliding block (402), a clamping strip (403), a backing plate (404) and a rotating roller (405); the front end of the supporting plate (101) is provided with a chute (401); a sliding block (402) is arranged in the sliding groove (401); the slide block (402) is provided with a clamping strip (403); the lower end of the holding strip (403) is provided with a backing plate (404); the backing plate (404) is provided with a rotating roller (405).