CN118266669B - Clothes size measuring device for clothes production - Google Patents

Abstract

The invention relates to the technical field of clothes size measurement, and provides a clothes size measurement device for clothes production, which comprises a conveying component, a shell arranged on the conveying component, a driving component arranged on the shell, and a measurement component driven by the driving component; the clothes to be measured are placed on the conveying component and conveyed to the lower part of the measuring component for measurement; the measuring assembly comprises a mounting seat arranged in the shell and a plurality of pressing assemblies arranged on the mounting seat; the mounting seat is arranged parallel to the conveying plate of the conveying assembly; the pressing assembly comprises a driving seat, a pressing piece, an elastic piece, a driving gear and a moving seat, wherein the driving seat is arranged on the mounting seat, the pressing piece is movably arranged on the driving seat, the elastic piece is sleeved on the pressing piece, the driving gear is rotatably arranged on the pressing piece, and the moving seat is movably arranged in the mounting seat. The clothes size measuring device for clothes production provided by the invention can realize rapid and accurate automatic measurement of clothes sizes, and improves the measurement efficiency.

Description

Clothes size measuring device for clothes production

Technical Field

The invention relates to the technical field of clothes size measurement, in particular to a clothes size measurement device for clothes production.

Background

The clothing production comprises a clothing size measurement procedure, and the size of the produced clothing is measured to detect whether the clothing meets the production standard or not, so that the clothing quality is ensured. The existing clothes size measurement procedure needs to carry out spot check on produced clothes, then an inspector holds a flexible rule to carry out clothes size measurement on a spot-checked sample, so that the clothes size measurement process is time-consuming and labor-consuming, the measurement efficiency is low, and the problem of inaccurate measurement data exists.

Disclosure of Invention

In view of the above, it is an object of the present invention to provide a garment size measuring device for garment production that solves or at least alleviates the above-mentioned problems, so as to enable a quick and accurate automatic measurement of the garment size, and to improve the measurement efficiency.

The technical scheme provided by the invention is as follows: a garment size measuring device for garment production comprising a conveying assembly, a housing mounted on the conveying assembly, a drive assembly mounted on the housing, and a measuring assembly driven by the drive assembly; the clothes to be measured are placed on the conveying assembly and conveyed to the position below the measuring assembly for measurement; the measuring assembly comprises a mounting seat arranged in the shell and a plurality of pressing assemblies arranged on the mounting seat; the mounting seat is arranged parallel to a conveying plate of the conveying assembly; the pressing assembly comprises a driving seat, a pressing piece, an elastic piece, a driving gear and a moving seat, wherein the driving seat is installed on the installation seat, the pressing piece is movably arranged on the driving seat, the elastic piece is sleeved on the pressing piece, the driving gear is rotatably arranged on the pressing piece, and the moving seat is movably arranged in the installation seat.

In some embodiments, the drive base includes a mounting plate and a first rack; the mounting plate is mounted on the axial end, adjacent to the conveying plate, of the mounting hole of the mounting seat; the first rack is arranged on the upper side of the mounting plate and is formed by extending upwards perpendicular to the mounting plate; the mounting plate is circular, the center of mounting plate is equipped with the trompil, press the piece to pass the trompil.

In some embodiments, the pressing piece comprises a pressing part, a connecting column, a flange and a mounting part which are sequentially arranged from bottom to top; the pressing part, the connecting column and the flange are all cylindrical, the diameter of the connecting column is smaller than that of the pressing part and the diameter of the flange, and the connecting column penetrates through the hole of the mounting plate; the elastic piece is abutted between the mounting plate and the pressing part; the mounting portion is provided with the drive gear, and the drive gear is engaged with the first rack.

In some embodiments, the mobile seat comprises a sleeve and a second rack; the sleeve is a hollow cylinder with one end open; the second rack is disposed inside the sleeve and opposite to the first rack, and the second rack is engaged with the driving gear.

In some embodiments, a side of the first rack facing away from the drive gear is fitted on an inner side of the sleeve.

In some embodiments, the outer diameter of the sleeve is equal to the diameter of the mounting plate of the drive socket.

In some embodiments, the drive assembly includes a motor mounted on the housing, a driving member mounted on an output shaft of the motor, and a driven member driven by the driving member.

In some embodiments, the driven member is cylindrical, an engagement groove is formed in a side, facing away from the driving member, of the driven member, and a connecting block is formed in a side, facing toward the driving member, of the driven member; the connecting block is arranged on the driving piece, and the connecting block deviates from the circle center of the driven piece.

In some embodiments, the driving member includes a driving member body, and an adjustment member rotatably mounted on the driving member body; the driving part body is cylindrical, and a guide groove formed by sinking along the axial direction of the driving part body is formed in the axial end, away from the motor, of the driving part body; the adjusting piece is arranged in the guide groove in a penetrating manner along the radial direction of the driving piece body; the connecting block is engaged in the guide groove; the connecting block is provided with a through hole, and the adjusting piece is arranged in the through hole in a penetrating way.

In some embodiments, the mount comprises a mount body, a connecting rod, a connecting seat, and a protrusion; the mounting seat body is a square plate and is provided with a plurality of mounting holes, the pressing assembly is mounted in the mounting holes, and the mounting holes are through holes perpendicular to the conveying plate; the connecting rod is perpendicular to the mounting seat body, and the connecting seat is connected between the connecting rod and the mounting seat body; one side plate of the shell is provided with a slot, the slot is arranged in parallel with the connecting rod, and the connecting seat is partially engaged in the slot; the protrusion is arranged on one end of the connecting rod far away from the mounting seat body and extends towards the shell, and is cylindrical and slidably engaged in the engagement groove of the driven member.

Compared with the prior art, the invention has at least the following beneficial effects:

1. the clothes size measuring device for clothes production provided by the invention can realize rapid and accurate automatic measurement of clothes sizes, and improves the measurement efficiency.

2. The adjusting member can be rotated to adjust the position of the driven member relative to the driving member so as to compensate for deviations of the driven member due to wear after a long period of use.

3. When the pressing part of the pressing part moves upwards relative to the mounting seat, the driving gear also moves upwards relative to the mounting seat and rotates relative to the mounting part under the action of the first rack, and meanwhile, the second rack of the moving seat is driven to move upwards, so that the sleeve of the moving seat extends upwards relative to the mounting seat, the moving distance of the sleeve is twice as long as that of the pressing part, and the sleeve extending upwards is obviously different from the sleeve not extending upwards, so that the measurement of the size of the subsequent clothes is facilitated.

Drawings

Fig. 1 shows a perspective view of a garment size measuring device for garment production according to an embodiment of the present invention.

Fig. 2 shows an exploded view of the garment size measuring device for garment production shown in fig. 1.

Fig. 3 shows an exploded view of the drive assembly of the garment size measuring device for garment production shown in fig. 1, with parts omitted.

Fig. 4 shows an exploded view of the drive assembly of fig. 3 in another orientation.

Fig. 5 shows an exploded view of the measuring assembly of the garment size measuring device for garment production shown in fig. 1, with parts omitted.

Fig. 6 shows an exploded view of the pressing assembly of the measuring assembly shown in fig. 5.

Fig. 7 shows an exploded view of the pressing assembly of fig. 6 in another orientation.

Fig. 8 shows a plan view of a pressing assembly of the measuring assembly shown in fig. 5.

Fig. 9 shows a cross-sectional view along line A-A in fig. 8.

Reference numerals illustrate: 1-a transfer assembly; 11-a supporting seat; 12-a transfer plate; 13-a transfer roller; 2-a housing; 21-top plate; 22-side plates; 221-slotting; 3-a drive assembly; 31-an electric motor; 32-an active member; 321-an active member body; 211-guide grooves; 322-an adjusting member; 323-a first elastic member; 33-a follower; 331-an engagement groove; 332-connecting blocks; 4-a measurement assembly; 41-mounting seats; 411-mount body; 412-a connecting rod; 413-a connection socket; 414-bump; 42-pressing assembly; 421-a pusher; 261-pressing part; 262-connecting columns; 263-flange; 264-mounting part; 422-a second elastic member; 423-a drive seat; 231-mounting plates; 232-a first rack; 424-drive gear; 425-a mobile seat; 251-sleeve; 252-second rack.

Detailed Description

The invention will be further described with reference to the drawings and the specific embodiments.

It should be noted that the following detailed description is illustrative and is intended to provide further explanation of the invention. 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.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of exemplary embodiments according to the present invention. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

In the present invention, terms such as "upper", "lower", "left", "right", "front", "rear", "vertical", "horizontal", "side", "bottom", etc. refer to an orientation or a positional relationship based on that shown in the drawings, and are merely relational terms, which are used for convenience in describing structural relationships of various components or elements of the present invention, and do not denote any one of the components or elements of the present invention, and are not to be construed as limiting the present invention.

In the present invention, terms such as "fixedly attached," "connected," "coupled," and the like are to be construed broadly and refer to either a fixed connection or an integral or removable connection; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the terms in the present invention can be determined according to circumstances by a person skilled in the relevant art or the art, and is not to be construed as limiting the present invention.

As shown in fig. 1 and 2, a garment size measuring apparatus for clothing production according to an embodiment of the present invention includes a transfer assembly 1, a housing 2 mounted on the transfer assembly 1, a driving assembly 3 mounted on the housing 2, and a measuring assembly 4 driven by the driving assembly 3. In the present embodiment, the transfer assembly 1 includes a support base 11, a plurality of transfer rollers 13 rotatably mounted on the support base 11, and a transfer plate 12 driven by the transfer rollers 13. The clothes to be measured are flatly placed on the conveying plate 12, and the conveying roller 13 drives the conveying plate 12 to move, so that the clothes to be measured are conveyed below the measuring assembly 4. The supporting base 11, the transfer plate 12 and the transfer roller 13 may be constructed as known in the art, and will not be described in detail herein.

The housing 2 is a hollow cylinder with a substantially lower opening, and includes a top plate 21 and side plates 22 disposed around the top plate 21. The drive assembly 3 is mounted on the top plate 21 of the housing 2. Referring also to fig. 2 to 4, the driving assembly 3 includes a motor 31, a driving member 32 mounted on an output shaft of the motor 31, and a driven member 33 driven by the driving member 32. In this embodiment, the motor 31 is mounted on the top plate 21. The driving member 32 includes a driving member body 321, an adjusting member 322 rotatably mounted on the driving member body 321, and a first elastic member 323 sleeved on the adjusting member 322. Preferably, the driving member body 321 is substantially cylindrical. The axial end of the driving member body 321 far away from the motor 31 is provided with a guiding groove 211 recessed along the axial direction of the driving member body 321. The adjusting member 322 is inserted into the guide groove 211 along the radial direction of the driving member body 321. Preferably, the adjusting member 322 is a bolt, two ends of the adjusting member 322 are rotatably supported in the guide groove 211 through bearings, respectively, and a user can manually rotate the adjusting member 322 to adjust the position of the driven member 33 relative to the driving member 32, so as to compensate for the deviation of the driven member 33 caused by abrasion after long-term use. The first elastic member 323 abuts between the driving member 32 and the driven member 33. Preferably, the first elastic member 323 is a spring.

The follower 33 is substantially cylindrical. The side of the driven member 33 facing away from the driving member 32 is provided with an engagement groove 331, and the side of the driven member 33 facing toward the driving member 32 is provided with a connection block 332. The engagement groove 331 is formed in a circular ring shape, and is recessed from a side of the driven member 33 facing away from the driving member 32 in an axial direction of the driven member 33. The connection block 332 is mounted on the driving member 32. In this embodiment, the connection piece 332 engages in the guide groove 211 of the driving piece 32. The connecting block 332 is provided with a through hole, the adjusting member 322 is inserted in the through hole, the through hole is provided with an internal thread matched with the external thread of the adjusting member 322, and when the adjusting member 322 rotates, the connecting block 332 is moved, so that the position of the driven member 33 relative to the driving member 32 is adjusted. The connecting block 332 is disposed offset from the center of the follower 33. When the driving member 32 is driven by the motor 31, the driving member 32 drives the driven member 33 to eccentrically rotate through the connecting block 332, so that the driven member 33 drives the measuring assembly 4 to move up and down.

Referring to fig. 2, 5 to 9 together, the measuring assembly 4 includes a mount 41 and a plurality of pressing assemblies 42 mounted on the mount 41. In the present embodiment, the mount 41 is mounted in the housing 2. The mounting seat 41 comprises a mounting seat body 411, a connecting rod 412, a connecting seat 413 and a protrusion 414. The mounting body 411 is a substantially square plate, which is disposed parallel to the transfer plate 12. The mount body 411 is provided with a plurality of mounting holes in which the pressing assembly 42 is mounted. The mounting holes are through holes, which are arranged perpendicular to the transfer plate 12. The connecting rod 412 is perpendicular to the mounting base body 411, and the connecting base 413 is connected between the connecting rod 412 and the mounting base body 411. In the present embodiment, one side plate 22 of the housing 2 is interposed between the mount body 411 and the connection seat 413, wherein the side plate 22 is provided with a slot 221, the slot 221 is disposed in parallel with the connection rod 412, and the connection seat 413 is partially engaged in the slot 221, so that the moving direction of the mount 41 can be defined. The projection 414 is provided on an end of the connecting rod 412 remote from the mount body 411 and extends toward the housing 2. In the present embodiment, the projection 414 is substantially cylindrical and slidably engaged in the engagement groove 331 of the follower 33. When the driving member 32 drives the driven member 33 to eccentrically rotate through the connection block 332, the engagement groove 331 drives the protrusion 414 to move up and down, so that the mounting seat 41 can move up and down, thereby driving the pressing assembly 42 mounted on the mounting seat 41 to move up and down.

The pressing assembly 42 includes a driving seat 423 installed on the mounting seat 41, a pressing member 421 movably disposed on the driving seat 423, a second elastic member 422 sleeved on the pressing member 421, a driving gear 424 rotatably disposed on the pressing member 421, and a moving seat 425 movably disposed in the mounting seat 41.

The driving seat 423 includes a mounting plate 231 and a first rack 232. In this embodiment, the mounting plate 231 is mounted on the axial end of the mounting seat 41 adjacent to the transfer plate 12. The first rack 232 is disposed on the upper side of the mounting plate 231 and extends upward perpendicular to the mounting plate 231. Preferably, the mounting plate 231 is generally circular. The center of the mounting plate 231 is provided with an opening through which the pressing member 421 passes.

The pressing member 421 includes a pressing portion 261, a connection post 262, a flange 263, and a mounting portion 264, which are sequentially disposed from bottom to top. The pressing portion 261, the connecting post 262 and the flange 263 are all cylindrical, the diameter of the connecting post 262 is smaller than that of the pressing portion 261, and is also smaller than that of the flange 263, and the connecting post 262 is penetrated in the opening of the mounting plate 231. That is, the diameters of the pressing portion 261 and the flange 263 are each larger than the diameter of the opening of the mounting plate 231. The second elastic member 422 abuts between the mounting plate 231 and the pressing portion 261. Preferably, the second elastic member 422 is a spring. The driving gear 424 is mounted on the mounting portion 264. The drive gear 424 is engaged with the first rack 232 of the drive seat 423. When the pressing part 261 of the pressing piece 421 approaches the clothing to be measured on the transfer plate 12, the pressing part 261 abuts against the clothing, as the mount 41 further approaches the transfer plate 12, the pressing part 261 moves upward with respect to the mount 41, the driving gear 424 also moves upward with respect to the mount 41 while rotating with respect to the mount 264 under the action of the first rack 232, and the rotation of the driving gear 424 drives the moving seat 425 to move upward.

The movable seat 425 includes a sleeve 251 and a second rack 252. The sleeve 251 is a hollow cylinder having one end opened. The outer circumference of the sleeve 251 is fitted on the inner side of the mounting hole of the mount body 411. The second racks 252 are disposed inside the sleeve 251 and are opposite to each other with respect to the first racks 232. The second rack 252 is engaged with the drive gear 424, that is, the drive gear 424 is interposed between the first rack 232 and the second rack 252. In the present embodiment, the side of the first rack 232 facing away from the drive gear 424 is attached to the inner side of the sleeve 251. Preferably, the outer diameter of sleeve 251 is equal to the diameter of mounting plate 231 of drive socket 423.

When the pressing part 261 of the pressing piece 421 moves upward with respect to the mounting seat 41, the driving gear 424 also moves upward with respect to the mounting seat 41 and rotates with respect to the mounting part 264 under the action of the first rack 232, and simultaneously drives the second rack 252 of the moving seat 425 to move upward, so that the sleeve 251 of the moving seat 425 protrudes upward with respect to the mounting seat 41. The above arrangement makes the moving distance of the sleeve 251 twice as long as that of the pressing piece 421, thereby making the upwardly protruded sleeve significantly different from the sleeve not upwardly protruded, thereby facilitating the subsequent measurement of the clothes size. When the pressing part 261 of the pressing member 421 abuts against the area of the conveying plate 12 where no clothes are placed, at this time, the protrusion 414 of the mounting seat 41 is located at the position of the engagement groove 331 of the driven member 33 farthest from the driving member 32, the motor 31 stops running, the mounting seat 41 stops moving, and the area formed by the sleeve 251 extending upward at this time is the contour area of the clothes to be measured, so that the sensor can detect the clothes of different colors or different designs under the same condition, the influence caused by inconsistent gray scales is eliminated, and the calculation amount of the subsequent size measurement is reduced. It is conceivable that a plurality of image sensors are mounted inside the top plate 21 of the housing 2 to be able to detect an area (outline area of the garment to be measured) constituted by the sleeve 251 protruding upward, and send the detected image to a control device (not shown) to perform measurement of the garment size. When the size measurement of the clothes to be measured is completed, the motor 31 continues to operate, the driving member 32 drives the driven member 33 to eccentrically rotate through the connecting block 332, and the engaging groove 331 drives the protrusion 414 to move upwards, so that the mounting seat 41 can move upwards, and the pressing assembly 42 mounted on the mounting seat 41 is driven to move upwards for the next measurement.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, but various modifications and variations can be made to the present invention by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. A garment size measuring device for garment production comprising a conveying assembly, a housing mounted on the conveying assembly, a drive assembly mounted on the housing, and a measuring assembly driven by the drive assembly; the clothes to be measured are placed on the conveying assembly and conveyed to the position below the measuring assembly for measurement; the driving assembly comprises a motor, a driving piece and a driven piece, wherein the motor is installed on the shell, the driving piece is installed on an output shaft of the motor, and the driven piece is driven by the driving piece; the driven piece is cylindrical, a joint groove is formed in one side, facing away from the driving piece, of the driven piece, and a connecting block is arranged on one side, facing towards the driving piece, of the driven piece; the connecting block is arranged on the driving piece and deviates from the circle center of the driven piece; the measuring assembly comprises a mounting seat arranged in the shell and a plurality of pressing assemblies arranged on the mounting seat; the mounting seat is parallel to the conveying plate of the conveying assembly and comprises a mounting seat body, a connecting rod, a connecting seat and a protrusion; the mounting seat body is a square plate and is provided with a plurality of mounting holes, the pressing assembly is mounted in the mounting holes, and the mounting holes are through holes perpendicular to the conveying plate; the connecting rod is perpendicular to the mounting seat body, and the connecting seat is connected between the connecting rod and the mounting seat body; one side plate of the shell is provided with a slot, the slot is arranged in parallel with the connecting rod, and the connecting seat is partially engaged in the slot; the bulge is arranged on one end of the connecting rod far away from the mounting seat body, extends towards the shell, and is cylindrical and slidably engaged in the engagement groove of the driven piece; the pressing assembly comprises a driving seat, a pressing piece, an elastic piece, a driving gear and a moving seat, wherein the driving seat is installed on the installation seat, the pressing piece is movably arranged on the driving seat, the elastic piece is sleeved on the pressing piece, the driving gear is rotatably arranged on the pressing piece, and the moving seat is movably arranged in the installation seat; when the driving piece drives the driven piece to eccentrically rotate through the connecting block, the joint groove drives the protrusion to move up and down, so that the mounting seat can move up and down, and the pressing component mounted on the mounting seat is driven to move up and down; when the pressing piece moves upwards relative to the mounting seat, the driving gear also moves upwards relative to the mounting seat and rotates relative to the pressing piece, and meanwhile, the moving seat is driven to move upwards, so that the moving seat protrudes upwards from the mounting hole relative to the mounting seat.

2. The garment size measurement device for apparel production of claim 1 wherein the drive base includes a mounting plate and a first rack; the mounting plate is mounted on the axial end, adjacent to the conveying plate, of the mounting hole of the mounting seat; the first rack is arranged on the upper side of the mounting plate and is formed by extending upwards perpendicular to the mounting plate; the mounting plate is circular, the center of mounting plate is equipped with the trompil, press the piece to pass the trompil.

3. The garment size measurement device for garment production according to claim 2, wherein the pressing member comprises a pressing portion, a connecting post, a flange and a mounting portion, which are sequentially provided from bottom to top; the pressing part, the connecting column and the flange are all cylindrical, the diameter of the connecting column is smaller than that of the pressing part and the diameter of the flange, and the connecting column penetrates through the hole of the mounting plate; the elastic piece is abutted between the mounting plate and the pressing part; the mounting portion is provided with the drive gear, and the drive gear is engaged with the first rack.

4. A garment size measurement device for garment production according to claim 3, wherein the mobile station comprises a sleeve and a second rack; the sleeve is a hollow cylinder with one end open; the second rack is disposed inside the sleeve and opposite to the first rack, and the second rack is engaged with the driving gear.

5. A garment size measurement device for apparel production according to claim 4 wherein the side of the first rack facing away from the drive gear is fitted on the inside of the sleeve.

6. A garment size measurement device for apparel production according to claim 5 wherein the outer diameter of the sleeve is equal to the diameter of the mounting plate of the drive socket.

7. The garment size measurement device for apparel production of claim 1 wherein the active member comprises an active member body and an adjustment member rotatably mounted on the active member body; the driving part body is cylindrical, and a guide groove formed by sinking along the axial direction of the driving part body is formed in the axial end, away from the motor, of the driving part body; the adjusting piece is arranged in the guide groove in a penetrating manner along the radial direction of the driving piece body; the connecting block is engaged in the guide groove; the connecting block is provided with a through hole, and the adjusting piece is arranged in the through hole in a penetrating way.