CN220019099U

CN220019099U - Sample preparation cloth crusher for detecting PH value of textile

Info

Publication number: CN220019099U
Application number: CN202320942189.0U
Authority: CN
Inventors: 赵向旭; 欧孟尼; 朱露; 李文荔; 苗欣雨
Original assignee: Zoomlion Quality Inspection Shanghai Technical Service Co ltd
Current assignee: Zoomlion Quality Inspection Shanghai Technical Service Co ltd
Priority date: 2023-04-24
Filing date: 2023-04-24
Publication date: 2023-11-14
Anticipated expiration: 2033-04-24

Abstract

The utility model relates to a sample preparation cloth crusher for detecting the PH value of textiles, which comprises an operation platform, wherein the operation platform is connected with a mounting rack; the mounting frame is connected with a horizontal moving assembly; the moving end of the horizontal moving component is connected with a vertical moving component; the movable end of the vertical movement assembly is connected with a cutting assembly, and the cutting assembly can cut textile cloth; the operation platform is connected with a pressing plate assembly, and the pressing plate assembly can fix and rotate the textile fabric. According to the utility model, the textile fabric is fixed through the pressing plate assembly, then the cutting assembly is moved to the cutting area through the vertical moving assembly, the cutting assembly is started, the textile fabric is cut in the horizontal direction through the horizontal moving assembly, after the cutting in the horizontal direction is finished, the textile fabric is rotated by 90 degrees through the pressing plate assembly to be cut again, and the sample fabric with the size of 5mm is obtained, so that the cutting sampling is realized.

Description

Sample preparation cloth crusher for detecting PH value of textile

Technical Field

The utility model relates to the technical field of textile detection, in particular to a sample preparation cloth crusher for detecting the PH value of textiles.

Background

In the detection technical field, in the work of carrying out harmful component assay, pH value test and the like on various textile fabrics, sheet-shaped products and various material fabrics, the conventional method is to destroy various fabric products into small size by a manual method, then separate out or separate out chemical components to be tested by a solvent, purify and weigh the chemical components to obtain a test result.

The method for crushing the fabric product is generally completed by manually cutting the fabric into fragments through scissors, and then detection operation is carried out.

Disclosure of Invention

The utility model aims to provide a sample preparation cloth crusher for detecting the PH value of textiles, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the sample preparation cloth crusher for detecting the PH value of the textile comprises an operation platform, wherein the operation platform is connected with a mounting rack; the mounting frame is connected with a horizontal moving assembly; the moving end of the horizontal moving component is connected with a vertical moving component; the movable end of the vertical movement assembly is connected with a cutting assembly, and the cutting assembly can cut textile cloth; the operation platform is connected with a pressing plate assembly, and the pressing plate assembly can fix and rotate the textile fabric.

Optionally, the horizontal movement assembly includes a sliding rail mounted on the mounting frame, and an electric slider is slidingly connected to the sliding rail.

Optionally, the vertical movement component is a pressing cylinder.

Optionally, the cutting assembly includes the installation shell, be connected with the motor on the installation shell, the output of motor is connected with the transmission shaft, be connected with the cutting piece on the transmission shaft.

Optionally, the pressing plate assembly comprises a fixed disc, and a rotating disc is rotatably connected to the fixed disc; a positioning rotating assembly is arranged between the rotating discs, and the positioning rotating assembly can position when the rotating angle of the rotating discs is 90 degrees; the rotating disc is provided with a fixing assembly, and the fixing assembly can fix the textile fabric.

Optionally, the positioning rotating assembly comprises a magnetic block a arranged on the fixed disk and a magnetic block b arranged on the rotating disk, wherein the magnetic blocks a and b are uniformly distributed on the fixed disk and the rotating disk along the circumferential direction respectively, and the number of the magnetic blocks a and b is four.

Optionally, the fixed component comprises a magnetic block c fixedly installed on the rotating disk, and a pressing plate is magnetically connected to the magnetic block c.

Optionally, a stabilizing assembly is connected between the vertical movement assembly and the cutting assembly.

Optionally, the stabilizing component comprises a Z-axis sliding rod on the operating platform, a mounting piece is connected to the Z-axis sliding rod in a sliding manner, an X-axis sliding rod is connected to the mounting piece, a connecting seat is connected to the X-axis sliding rod in a sliding manner, and the connecting seat is connected with the moving end of the vertical moving component and the cutting component.

Compared with the prior art, the utility model has the beneficial effects that:

1. according to the utility model, the textile fabric is fixed through the pressing plate assembly, then the cutting assembly is moved to the cutting area through the vertical moving assembly, the cutting assembly is started, the textile fabric is cut in the horizontal direction through the horizontal moving assembly, after the cutting in the horizontal direction is finished, the textile fabric is rotated by 90 degrees through the pressing plate assembly to be cut again, and the sample fabric with the size of 5mm is obtained, so that the cutting sampling is realized.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is an exploded view of the structure of the platen assembly of the present utility model;

FIG. 3 is a cross-sectional view of the structure of the cutting assembly of the present utility model;

FIG. 4 is a schematic structural view of the stabilizing assembly of the present utility model.

Detailed Description

In order to further describe the technical means and effects adopted by the present utility model for achieving the intended purpose, the following detailed description will refer to the specific implementation, structure, characteristics and effects according to the present utility model with reference to the accompanying drawings and preferred embodiments.

As shown in fig. 1 to 4, a sample preparation breaker for detecting PH of textile comprises an operation platform 100, wherein a mounting frame 110 is connected to the operation platform 100;

the mounting frame 110 is connected with a horizontal movement assembly 200; specifically, the horizontal moving assembly 200 includes a sliding rail 210 installed on the mounting frame 110, an electric slider 220 is slidingly connected to the sliding rail 210, the electric slider 220 translates left and right on the sliding rail 210 by starting the electric slider 220, and the vertical moving assembly 600 on the electric slider 220 is driven to move left and right by the horizontal translation of the electric slider 220.

The moving end of the horizontal moving assembly 200 is connected with a vertical moving assembly 600; specifically, the vertical moving assembly 600 is a pressing cylinder, and the cutting assembly 400 at the extending end thereof is driven to move up and down by the extension and contraction of the pressing cylinder.

The moving end of the vertical moving assembly 600 is connected with a cutting assembly 400, and the cutting assembly 400 can cut the textile fabric; specifically, the cutting assembly 400 includes a mounting shell 410, a motor 420 is connected to the mounting shell 410, a transmission shaft 430 is connected to an output end of the motor 420, a cutting blade 440 is connected to the transmission shaft 430, the transmission shaft 430 is driven to rotate through the operation of the motor 420, the transmission shaft 430 drives the cutting blade 440 to rotate at a high speed, the cutting effect is achieved, meanwhile, a distance between the two cutting blades 440 is 5mm, and the detection effect is most accurate because textile samples are 5mm when the textile samples are 5mm in size.

The operation platform 100 is connected with a pressing plate assembly 300, and the pressing plate assembly 300 can fix and rotate textile cloth; the specific platen assembly 300 includes a fixed plate 310, and a rotating plate 320 is rotatably connected to the fixed plate 310;

a positioning rotating assembly 330 is arranged between the rotating discs 320, and the positioning rotating assembly 330 can position when the rotating angle of the rotating discs 320 is 90 degrees; specifically, the positioning rotating assembly 330 includes a magnetic block a331 mounted on the fixed disk 310 and a magnetic block b332 mounted on the rotating disk 320, where the magnetic blocks a331 and b332 are uniformly distributed on the fixed disk 310 and the rotating disk 320 along the circumferential direction, and the number of the magnetic blocks a331 and b332 is four.

The magnetic blocks between the rotating disc 320 and the fixed disc 310 are magnetically connected, and because the magnetic blocks are uniformly distributed along the circumferential direction, the included angle between the circle centers of two adjacent magnetic blocks to the rotating disc 320 or the fixed disc 310 is 90 degrees, and when the rotating disc 320 rotates 90 degrees, the magnetic blocks are attracted to realize positioning and fixing.

The rotating disc 320 is provided with a fixing assembly 340, and the fixing assembly 340 can fix the textile fabric; specifically, the fixing assembly 340 includes a magnet c341 fixedly mounted on the rotating disk 320, and a pressing plate 342 is magnetically connected to the magnet c 341.

Through tiling weaving cloth on the upper surface of rolling disc 320, through the correspondence on with clamp plate 342 and rolling disc 320, through magnetic path c341 magnetism suction clamp plate 342 with weaving cloth centre gripping fixed.

A stabilizing assembly 500 is connected between the vertical moving assembly 600 and the cutting assembly 400; specifically, the stabilizing assembly 500 includes a Z-axis sliding rod 510 on the operating platform 100, a mounting plate 520 slidably connected to the Z-axis sliding rod 510, an X-axis sliding rod 530 connected to the mounting plate 520, and a connection base 540 slidably connected to the X-axis sliding rod 530, where the connection base 540 is connected to the moving end of the vertical moving assembly 600 and the cutting assembly 400.

By arranging the Z-axis sliding rod 510 and the X-axis sliding rod 530, the device can provide a certain supporting track for the cutting assembly 400 when moving, so that the overall structure of the device is more problematic.

When the device is used, textile cloth is fixed through the pressing plate assembly 300, then the cutting assembly 400 is moved to a cutting area through the vertical movement assembly 600, the cutting assembly 400 is started, the textile cloth is cut in the horizontal direction through the horizontal movement assembly 200, after the cutting in the horizontal direction is finished, the textile cloth is rotated by 90 degrees through the pressing plate assembly 300 to be cut again, and the sample cloth with the size of 5mm is obtained, so that cutting and sampling are realized.

The present utility model is not limited to the above embodiments, but is capable of modification and variation in detail, and other modifications and variations can be made by those skilled in the art without departing from the scope of the present utility model.

Claims

1. The sample preparation cloth crusher for detecting the PH value of the textile is characterized by comprising an operation platform (100), wherein the operation platform (100) is connected with a mounting rack (110);

the mounting frame (110) is connected with a horizontal movement assembly (200);

the movable end of the horizontal movement assembly (200) is connected with a vertical movement assembly (600);

the movable end of the vertical movement assembly (600) is connected with a cutting assembly (400), and the cutting assembly (400) can cut textile cloth;

the operation platform (100) is connected with a pressing plate assembly (300), and the pressing plate assembly (300) can fix and rotate textile cloth.

2. The sample preparation breaker for textile PH detection of claim 1, wherein the horizontal movement assembly (200) comprises a sliding rail (210) mounted on a mounting frame (110), and the sliding rail (210) is slidably connected with an electric slider (220).

3. The sample preparation breaker for textile PH detection as recited in claim 1, wherein said vertical movement assembly (600) is a hold down cylinder.

4. The sample preparation breaker for detecting the PH of textiles according to claim 1, wherein the cutting assembly (400) comprises a mounting case (410), a motor (420) is connected to the mounting case (410), a transmission shaft (430) is connected to an output end of the motor (420), and a cutting blade (440) is connected to the transmission shaft (430).

5. The sample preparation breaker for textile PH detection of claim 1, wherein the platen assembly (300) comprises a stationary plate (310), and a rotating plate (320) is rotatably connected to the stationary plate (310);

a positioning rotating assembly (330) is arranged between the rotating discs (320), and the positioning rotating assembly (330) can position when the rotating angle of the rotating discs (320) is 90 degrees;

the rotating disc (320) is provided with a fixing assembly (340), and the fixing assembly (340) can fix the textile fabric.

6. The sample preparation breaker for detecting the PH of textiles according to claim 5, wherein the positioning rotating assembly (330) comprises a magnet a (331) mounted on the fixed disk (310) and a magnet b (332) mounted on the rotating disk (320), the magnet a (331) and the magnet b (332) are uniformly distributed on the fixed disk (310) and the rotating disk (320) along the circumferential direction, and the number of the magnet a (331) and the magnet b (332) is four.

7. The sample preparation breaker for textile PH detection as recited in claim 5, wherein the stationary assembly (340) comprises a magnet c (341) fixedly mounted on a rotating disc (320), and a pressing plate (342) is magnetically connected to the magnet c (341).

8. The sample preparation breaker for textile PH detection as recited in claim 5, wherein a stabilizing assembly (500) is connected between the vertical movement assembly (600) and the cutting assembly (400).

9. The sample preparation breaker for textile PH detection according to claim 8, wherein the stabilizing assembly (500) comprises a Z-axis slide bar (510) on the operating platform (100), a mounting piece (520) is slidably connected to the Z-axis slide bar (510), an X-axis slide bar (530) is connected to the mounting piece (520), a connection base (540) is slidably connected to the X-axis slide bar (530), and the connection base (540) is connected to the moving end of the vertical moving assembly (600) and the cutting assembly (400).