阅读说明：本技术 布料缩水率检测用的自动打标识装置 (Automatic marking device for detecting cloth shrinkage ) 是由 吴旭民 于 2020-08-18 设计创作，主要内容包括：本发明公开了一种布料缩水率检测用的自动打标识装置,包括机架、工作台、盖印单元、活动基座及用于驱使所述活动基座运动的驱动器。所述工作台安装于所述机架上,所述驱动器安装于所述机架上,所述活动基座与所述驱动器的输出端装配连接,所述活动基座在所述驱动器的驱使下做靠近或远离所述工作台的配合运动；所述盖印单元安装于所述活动基座并朝所述工作台的方向凸出,所述盖印单元在所述驱动器驱使所述活动基座靠近所述工作台的过程中对所述工作台上的布料盖印出标识；以提高打标识效率和精度,从而确保了布料缩水率检测的可靠性。(The invention discloses an automatic marking device for detecting the cloth shrinkage, which comprises a frame, a workbench, a stamping unit, a movable base and a driver for driving the movable base to move. The workbench is mounted on the rack, the driver is mounted on the rack, the movable base is assembled and connected with the output end of the driver, and the movable base is driven by the driver to move close to or away from the workbench in a matching manner; the stamping unit is arranged on the movable base and protrudes towards the direction of the workbench, and stamps marks on the cloth on the workbench in the process that the driver drives the movable base to be close to the workbench; the marking efficiency and precision are improved, and the reliability of detecting the cloth shrinkage is ensured.)

1. The utility model provides an automatic identification means that beats of cloth shrinkage detection usefulness, its characterized in that includes frame, workstation, stamp unit, activity base and is used for ordering about the driver of activity base motion, the workstation install in the frame, the driver install in the frame, the activity base with the output be assembled between/be connected between of driver, the activity base is in order about of driver do and be close to or keep away from the cooperation motion of workstation, stamp unit install in the activity base is towards the direction protrusion of workstation, stamp unit is in the driver orders about the activity base is close to the in-process of workstation is right cloth stamp out the sign on the workstation.

2. The automatic marking device for detecting the fabric shrinkage of claim 1, wherein the workbench is horizontally arranged, the movable base is located right above the workbench, the movable base is driven by the driver to translate in an up-and-down direction to correspondingly approach or separate from the workbench, and the stamping unit protrudes downwards from the movable base.

3. The automatic marking device for detecting the fabric shrinkage of claim 2, wherein the frame is a frame-type frame.

4. The automatic marking device for detecting the fabric shrinkage of claim 3, wherein the frame-type frame comprises a first beam, a second beam, a mounting bracket, an outer frame, and a first frame and a second frame for layering the outer frame up and down, the second frame is located right above the first frame, the first beam is located above the second frame, the end of the first beam is fixedly connected with the outer frame, the second beam is located right below the first beam and is parallel to the first beam, the end of the second beam is fixedly connected with the second frame, the upper end of the mounting bracket is assembled on the first beam, the lower end of the mounting bracket is assembled on the second beam, the driver is installed on the mounting bracket, the workbench is arranged on the first frame framework.

5. The automatic marking device for detecting the fabric shrinkage of claim 2, wherein the driver is positioned right above the movable base, and an output end of the driver is arranged downwards.

6. The automatic marking device for detecting the fabric shrinkage of claim 2, wherein a mounting disc is arranged in the middle of the top end of the movable base, and the movable base is fixedly connected or detachably assembled with the output end of the driver through the mounting disc.

7. The automatic marking device for detecting the fabric shrinkage of claim 1, wherein the driver is an air cylinder, a hydraulic cylinder or a linear motor.

8. The automatic marking device for detecting the fabric shrinkage of claim 1, wherein the number of the stamping units is one or more, and a plurality of the stamping units are arranged on the movable base in a matrix.

9. The automatic marking device for detecting the fabric shrinkage of claim 1, wherein the stamping unit is a flip-flop stamping mechanism.

10. The automatic marking device for detecting the fabric shrinkage of claim 1, wherein the movable base is of a transparent or semitransparent structure.

Technical Field

The invention relates to the field of cloth shrinkage detection, in particular to an automatic marking device for cloth shrinkage detection.

Background

With the continuous development of economy and the continuous progress of society, various material consumer goods are provided for the life of people, and articles such as clothes using cloth are one of the material consumer goods.

In order to ensure that the produced clothes of various types still keep a proper size range after being washed and dried for many times, manufacturers detect the shrinkage rate of the cloth used by the clothes, and select proper sizes for the production of the clothes of various types.

In the detection of the shrinkage rate of the cloth, a certain number of marks are not marked on the cloth, for example, a first mark and a second mark which are separated from each other by a preset distance are marked on the cloth; after the cloth is washed and dried for many times, the actual distance between the first mark and the second mark is measured, and finally the difference between the actual distance and the preset distance is divided by the preset distance to calculate the shrinkage rate.

However, the mark on the existing cloth is processed by an operator holding a tool and according to the mark outline reserved by the mark template covered on the cloth, so that the defects of low efficiency and low precision exist, and the reliability of detecting the cloth shrinkage is influenced.

Therefore, there is a need for an automatic marking device for detecting the shrinkage rate of cloth to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide an automatic marking device for detecting the cloth shrinkage, which can automatically mark a cloth to improve marking efficiency and precision and ensure the reliability of the cloth shrinkage detection.

In order to achieve the purpose, the automatic marking device for detecting the cloth shrinkage comprises a frame, a workbench, a stamping unit, a movable base and a driver for driving the movable base to move. The workbench is mounted on the rack, the driver is mounted on the rack, the movable base is assembled and connected with the output end of the driver, and the movable base is driven by the driver to move close to or away from the workbench in a matching manner; the stamping unit is arranged on the movable base and protrudes towards the direction of the workbench, and marks are stamped on the cloth on the workbench in the process that the driver drives the movable base to be close to the workbench.

Preferably, the workbench is arranged horizontally, the movable base is located right above the workbench, the movable base is driven by the driver to translate along the up-down direction so as to correspondingly approach or separate from the workbench, and the stamping unit protrudes downwards from the movable base.

Preferably, the frame is a frame.

Preferably, the frame type rack includes a first beam, a second beam, a mounting bracket, an outer frame skeleton, and a first frame skeleton and a second frame skeleton layered from top to bottom with the outer frame skeleton, the second frame skeleton is located directly above the first frame skeleton, the first beam is located above the second frame skeleton, the end of the first beam is fixedly connected with the outer frame skeleton, the second beam is located directly below the first beam and parallel to the first beam, the end of the second beam is fixedly connected with the second frame skeleton, the upper end of the mounting bracket is assembled on the first beam, the lower end of the mounting bracket is assembled on the second beam, the driver is installed on the mounting bracket, and the workbench is installed on the first frame skeleton.

Preferably, the driver is located right above the movable base, and an output end of the driver is arranged downward.

Preferably, a mounting plate is arranged in the middle of the top end of the movable base, and the movable base is fixedly connected or detachably assembled and connected with the output end of the driver through the mounting plate

Preferably, the driver is an air cylinder, a hydraulic cylinder or a linear motor.

Preferably, the number of the stamping units is one or more, and more stamping units are arranged on the movable base in a matrix manner.

Preferably, the stamping unit is a flip stamping mechanism.

Preferably, the movable base is a transparent or semitransparent structure.

Compared with the prior art, the automatic marking device for detecting the cloth shrinkage rate comprises a rack, a workbench, a marking unit, a movable base and a driver for driving the movable base to move, wherein the workbench is installed on the rack, the driver is installed on the rack, the movable base is assembled and connected with the output end of the driver, and the marking unit is installed on the movable base and protrudes towards the workbench. In addition, the automatic marking device for detecting the fabric shrinkage rate has the advantages of simple structure and convenience in operation.

Drawings

Fig. 1 is a schematic perspective view of an automatic marking device for detecting fabric shrinkage rate according to the present invention.

Fig. 2 is a schematic perspective view of the frame, the table and the controller of the automatic marking device for detecting the shrinkage of cloth according to the present invention.

Fig. 3 is a schematic perspective view of a movable base on which a stamping unit of the automatic marking device for detecting shrinkage of cloth according to the present invention is mounted.

Fig. 4 is a schematic perspective view of a stamping unit in the automatic marking device for detecting shrinkage of cloth according to the present invention.

Fig. 5 is a schematic plan view showing a state where the movable base is not driven to approach the cloth on the table together with the imprinting unit by the driver in the automatic marking device for detecting the shrinkage of the cloth according to the present invention.

Fig. 6 is a schematic plan view showing a state where the driver of the automatic marking and identifying apparatus for detecting the shrinkage of a cloth according to the present invention has moved the movable base together with the stamping unit toward the cloth on the table to abut against the cloth.

Fig. 7 is a schematic plan view showing a state where the driver of the automatic marking and identifying apparatus for detecting shrinkage of cloth according to the present invention has driven the movable base together with the stamping unit to translate toward a direction close to the cloth on the worktable to abut against the cloth and form a mark.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1 to 5, an automatic marking device 100 for detecting a shrinkage rate of a fabric according to the present invention includes a frame 10, a table 20, a stamping unit 30, a movable base 40, and a driver 50 for driving the movable base 40 to move. The working platform 20 is installed on the frame 10, and the frame 10 provides a supporting function for the working platform 20, and preferably, the working platform 20 is horizontally arranged and is a platform, so that an operator can conveniently lay the cloth 200 on the working platform 20. The driver 50 is mounted on the frame 10, and the frame 10 provides a supporting and fixing function for the driver 50; preferably, the driver 50 is located right above the movable base 40, and the output end 51 of the driver 50 is arranged downward, so that the design can simplify the assembling connection relationship between the movable base 40 and the driver 50; for example, the driver 50 is a pneumatic cylinder, and of course, a hydraulic cylinder or a linear motor is selected according to actual requirements, so the invention is not limited thereto. The movable base 40 is assembled with the output end 51 of the driver 50, and the movable base 40 is driven by the driver 50 to move close to or away from the workbench 20. The stamping unit 30 is installed on the movable base 40 and protrudes toward the workbench 20, and the stamping unit 30 stamps marks on the cloth 200 on the workbench 20 in the process that the driver 50 drives the movable base 40 to approach the workbench 20. Specifically, in fig. 1, the movable base 40 is located directly above the worktable 20, the movable base 40 is driven by the driver 50 to translate in the up-down direction to correspondingly approach or separate from the worktable 20, and the stamping unit 30 protrudes downward from the movable base 40, so that the movable base 40 is driven by the driver 50 to translate up and down to approach or separate from the worktable 20, and therefore, the moving manner of the movable base 40 approaching or separating from the worktable 20 is simpler and more reliable, but not limited thereto. More specifically, the following:

as shown in fig. 1 and 2, the frame 10 is a frame so that its structure is compact. Specifically, the frame type frame includes a first beam 11, a second beam 12, a mounting bracket 13, an outer frame skeleton 14, and a first frame skeleton 15 and a second frame skeleton 16 for layering the outer frame skeleton 14 up and down. The second frame framework 16 is positioned right above the first frame framework 15, the first beam 11 is positioned above the second frame framework 16, and the tail end of the first beam 11 is fixedly connected with the outer frame framework 14, so that the first beam 11 and the top of the outer frame framework 14 are fixed into a whole, and the first beam 11 is suspended in the top of the outer frame framework 14; the second beam 12 is positioned right below the first beam 11 and is parallel to the first beam 11, and the tail end of the second beam 12 is fixedly connected with the second frame framework 16, so that the second beam 12 and the second frame framework 16 are fixed into a whole, and the second beam 12 is suspended in the outer frame framework 14; the upper end of the mounting bracket 13 is assembled on the first cross beam 11, preferably, the upper end of the mounting bracket 13 is assembled in the middle of the first cross beam 11; the lower end of the mounting bracket 13 is assembled on the second cross beam 12, preferably, the lower end of the mounting bracket 13 is assembled in the middle of the second cross beam 12; the driver 50 is arranged on the mounting bracket 13, and the workbench 20 is arranged on the first frame framework 15; the design makes the arrangement of the movable base 40, the driver 50 and the worktable 20 on the frame 10 more reasonable and compact. For example, the outer frame 14 is square, but of course, may have other shapes as needed, and thus, the invention is not limited thereto.

As shown in fig. 1, a mounting plate 60 is disposed at a middle portion of a top end of the movable base 40, and the movable base 40 is fixedly connected to the output end 51 of the driver 50 through the mounting plate 60, but may be detachably assembled to the output end 51 of the driver 50 through the mounting plate 60, so that the movable base 40 and the stamping unit 40 are assembled and disassembled together.

As shown in fig. 1 and 3, eight stamping units 30 are provided, and eight stamping units 30 are arranged on the movable base 40 in a matrix, for example, eight stamping units 30 shown in fig. 3 are arranged in a square frame, so as to stamp out a mark in the form of a square frame on the cloth 200; specifically, the stamping unit 30 is a flip stamping mechanism, that is, the stamping unit 30 includes a hollow telescopic press block 31, a flip mold core 32 and an installation shell 33, the installation shell 33 is assembled in the movable base 40, the flip mold core 32 is located in the installation shell 33 and performs a flipping motion relative to the installation shell 33, the telescopic press block 31 is installed in the installation shell 33 and protrudes downward from the movable base 40, so that when the movable base 40 continues to translate downward after the telescopic press block 31 is pressed against the cloth 200 on the workbench 20, the telescopic press block 31 is pushed by the workbench 20 and retracts into the installation shell 33, and the flip mold core 32 is turned over to the right below and penetrates through the telescopic press block 31 to stamp the mark on the cloth 200. In addition, the movable base 40 is a transparent structure or a semitransparent structure, so as to reduce the obstruction of the movable base 40 to the visual field of the operator, and improve the operation convenience. It is understood that the number of the stamping units 30 may be one, two, three, four, five, six or seven, and is not limited thereto.

Compared with the prior art, the automatic marking device 100 for detecting the fabric shrinkage rate comprises a frame 10, a workbench 20, a marking unit 30, a movable base 40 and a driver 50 for driving the movable base 40 to move, wherein the workbench 20 is arranged on the frame 10, the driver 50 is arranged on the frame 10, the movable base 40 is assembled and connected with an output end 51 of the driver 50, and the marking unit 30 is arranged on the movable base 40 and protrudes towards the workbench 20, so that when the fabric 200 is marked, the fabric 200 is firstly paved on the workbench 20, and the state is shown in fig. 5; then, the driver 50 drives the movable base 40 to move horizontally toward the direction close to the worktable 20 until the retractable pressing block 31 of the stamping unit 30 on the movable base 40 presses against the cloth 200 at the worktable 20, as shown in fig. 6; at this time, the driver 50 continues to drive the movable base 40 to move horizontally in the original direction, and the movable base 40 moves horizontally to retract the telescopic pressing block 31 of the stamping unit 30 on the movable base 40 into the mounting shell 33, and simultaneously, the cover-turning mold core 32 of the stamping unit 30 is turned over to the right lower side and penetrates out from the inside of the telescopic pressing block 31, so that the cover-turning mold core 32 stamps marks on the cloth 200, and the state is shown in fig. 7; therefore, the automatic marking device 100 for detecting the fabric shrinkage rate of the invention can automatically mark the fabric 200, so as to improve the marking efficiency and precision and ensure the reliability of the fabric shrinkage rate detection. In addition, the automatic marking device 100 for detecting the fabric shrinkage rate also has the advantages of simple structure and convenient operation.

It should be noted that, in order to realize the full-automatic control, the automatic marking device 100 for detecting the shrinkage of the fabric of the present invention can be electrically connected to an existing controller 70, and the controller 70 is preferably installed at the top of the outer frame framework 14.

The above disclosure is only a preferred embodiment of the present invention, and should not be taken as limiting the scope of the invention, so that the appended claims are intended to cover all such modifications and changes as fall within the true spirit of the invention.