CN219745709U - Tool for sorting down - Google Patents

Abstract

The utility model discloses a tool for sorting down feather, which comprises a table, a dust cover, flannelette, a glass plate and an LED lamp, wherein the flannelette is paved on the table, the dust cover is fixed on the table to form a sorting cavity, and an operation port is arranged on one side of the dust cover; the glass board sets up in the letter sorting chamber to press on the flannelette, the top in letter sorting chamber is installed to the LED lamp. The utility model provides a stable sorting environment for down sorting through the dust cover and the table; through setting up clean mechanism at the letter sorting intracavity and clean the glass board for the glass board can accomplish the cleanness in the frock, avoids secondary pollution. The movable rubber roller and the static rubber roller are arranged, so that the operation habit of operators is fully considered, the two rubber rollers are guaranteed to be clung to the surface of the glass plate, and a good cleaning effect is achieved. The sorting frame is additionally arranged to reduce the operation area, prevent the down from diffusing, and facilitate the subsequent collection of the down; sorting frame passes through magnet absorption, conveniently dismantles.

Description

Tool for sorting down

Technical Field

The utility model relates to the field of quality detection, in particular to a tool for down feather sorting.

Background

The content of the down is one of important indexes showing the variety of the down, and generally, the higher the content of the down is, the better the warmth retention property of the down is. Therefore, before the clothes leave the factory, the down feather content needs to be detected according to the national standard requirements; containing the velvet: the content percentage of the down and the down silk in the down feather. In the down detection experiment, a detector is required to sort down, down yarn, wool chips, down yarn, impurities and the like out of 4g of samples, and the down content is obtained by calculating the percentage of the down and the down yarn in the content of the samples. The detection of the down feather content is also the most important experiment in the detection of the down feather, because the down feather content reflects the quality of the down feather, the good or bad warmth retention effect and the economic value. The down feather is light in weight, is harsh to sorting environment, and can cause the sample to blow away by a little carelessness. Therefore, in order to solve the defects, a more stable sorting environment is created; in the existing detection mechanism, down is usually placed in a relatively airtight box body for sorting; but wherein the following drawbacks are present: after the down sorting is finished, the down residues on the sorting plate are not easy to clean, and if the residual down is mixed into the next test sample, the test result can be influenced.

Disclosure of Invention

Aiming at the defects existing in the prior art, the main purpose of the utility model is to overcome the defects of the prior art, and discloses a tool for sorting down, which comprises a table, a dust cover, down cloths, a glass plate and LED lamps, wherein the down cloths are paved on the table, the dust cover is fixed on the table to form a sorting cavity, and an operation port is arranged on one side of the dust cover; the glass plate is arranged in the sorting cavity and is pressed on the flannelette, and the LED lamp is arranged at the top of the sorting cavity;

an opening is formed in the surface of the table, a cleaning mechanism is arranged at the opening, and the surface of the glass plate is cleaned by the aid of the cleaning mechanism.

Further, the cleaning mechanism comprises a support, a first rubber roller, a second rubber roller, a bearing seat, a guide rail and a spring, wherein the first rubber roller is fixed on the support through the bearing seat, the second rubber roller is horizontally arranged on the support in a sliding manner through the bearing seat and the guide rail, and the spring is utilized to pull the second rubber roller to move towards the first rubber roller.

Further, a roller shutter door is arranged at the operation opening.

Further, a sorting frame is detachably arranged on the glass plate.

Further, the sorting frame comprises a metal frame in a shape of a mouth, and a rubber layer is wrapped outside the metal frame.

Further, the metal frame is an iron block, magnets are arranged on the glass plate, and the magnets correspond to four sides of the metal frame respectively.

Further, the lower surface of the glass plate is concavely provided with a mounting cavity, and the magnet is arranged in the mounting cavity.

Further, the first rubber roller is close to the operation port.

Further, the bearing seat comprises an upper bearing seat and a lower bearing seat, and the upper bearing seat and the lower bearing seat are fixed through bolts.

The utility model has the beneficial effects that:

the utility model provides a stable sorting environment for down sorting through the dust cover and the table; through setting up clean mechanism at the letter sorting intracavity and clean the glass board for the glass board can accomplish the cleanness in the frock, avoids secondary pollution. The movable rubber roller and the static rubber roller are arranged, so that the operation habit of operators is fully considered, the two rubber rollers are guaranteed to be clung to the surface of the glass plate, and a good cleaning effect is achieved. The sorting frame is additionally arranged to reduce the operation area, prevent the down from diffusing, and facilitate the subsequent collection of the down; sorting frame passes through magnet absorption, conveniently dismantles.

Drawings

Fig. 1 is a schematic structural view of a tooling for down sorting according to the present utility model;

FIG. 2 is a schematic perspective view of a cleaning mechanism;

FIG. 3 is a schematic structural view of a cleaning mechanism;

FIG. 4 is a schematic view of a connection structure of a bearing seat and a spring;

fig. 5 is a schematic view of a sorting frame;

FIG. 6 is a schematic view of a glass plate and magnet assembly;

the reference numerals are as follows:

1. table, 2, dust cover, 3, flannelette, 4, glass board, 5, LED lamp, 6, rolling slats door, 7, letter sorting frame, 8, magnet, 9, clean mechanism, 11, letter sorting chamber, 21, operation mouth, 41, installation cavity, 91, support, 92, first rubber roll, 93, second rubber roll, 94, bearing frame, 95, guide rail, 96, spring.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

A tool for sorting down feather is shown in fig. 1, and comprises a table 1, a dust cover 2, flannelette 3, a glass plate 4 and an LED lamp 5, wherein the flannelette 3 is paved on the table 1, the dust cover 2 is fixed on the table 1 to form a sorting cavity 11, and an operation port 21 is arranged on one side of the dust cover 2; the glass plate 4 is arranged in the sorting chamber 11 and pressed on the flannelette 3, and the LED lamp 5 is arranged at the top of the sorting chamber 11. When the device is used, the surface of the glass plate 4 and the sorting cavity 11 are cleaned, so that larger errors of detection results caused by impurities are prevented. Turning on the LED lamp, placing the sample on the glass plate 4, and sorting out all components in the sample by manual sorting; after sorting is completed, the sorting chamber 11 also needs to be collected, so that the sample is guaranteed to be completely collected.

In one embodiment, as shown in fig. 1-4, an opening is provided in the top of the table 1, a cleaning mechanism 9 is provided in the opening, and the cleaning mechanism 9 is used to clean the surface of the glass plate 4. Thereby ensuring the accuracy of the down detection result. Preferably, the cleaning mechanism 9 is provided on a side remote from the operation port 11.

Specifically, as shown in fig. 1 to 4, the cleaning mechanism 9 includes a bracket 91, a first rubber roller 92, a second rubber roller 93, a bearing seat 94, a guide rail 95 and a spring 96, wherein the first rubber roller 92 is fixed on the bracket 91 through the bearing seat 94, the second rubber roller 93 is horizontally slidably arranged on the bracket 91 through the bearing seat 94 and the guide rail 95, and the second rubber roller 93 is pulled to move towards the first rubber roller 92 by the spring 96. That is, the bearing blocks 94 are slidably provided on the guide rail 95, and both ends of the spring 96 are connected to the bearing block 94 of the first rubber roller 92 and the bearing block 94 of the second rubber roller 93, and further the spring 96 provides a driving force for the second rubber roller 93 to move toward the first rubber roller 92. When the glass plate 4 is cleaned, the glass plate 4 is inserted between the first rubber roller 92 and the second rubber roller 93, at this time, the second rubber roller 93 is far away from the first rubber roller 92, and meanwhile, the spring 96 pulls the second rubber roller 93 to move towards the first rubber roller 92, so that the first rubber roller 92 and the second rubber roller 93 are tightly attached to the surface of the glass plate 4. The surface of the glass plate 4 is cleaned by the first rubber roller 92 and the second rubber roller 93 while the glass plate 4 is moved up and down. Wherein the surfaces of the first rubber roller 92 and the second rubber roller 93 have adhesiveness.

In the above embodiment, as shown in fig. 1 to 4, the first rubber roller 92 is close to the operation port 11. I.e. the distance of the first glue roller 92 from the operation opening 11 is smaller than the distance of the second glue roller 93 from the operation opening 11. The operator is provided with the operation opening 11 at the operation position when cleaning the glass plate 4, and therefore, the glass plate 4 is tilted when being inserted into the cleaning mechanism 9, and the glass plate 4 can be supported by the first rubber roller 92. To ensure that the lower surface of the glass sheet 4 is in close contact with the first glue roller 92. The second rubber roller 93 is brought into close contact with the upper surface of the glass plate 4 by the spring 96.

In one embodiment, as shown in fig. 1-4, the bearing housing 94 includes an upper bearing housing and a lower bearing housing, which are secured by bolts. Therefore, the first rubber roller 92 and the second rubber roller 93 can be conveniently detached and cleaned or replaced periodically to ensure the cleaning effect on the glass plate 4.

In one embodiment, as shown in fig. 1, a roll-up door 6 is provided at the operation port 21. Therefore, when not in use, or when the operator temporarily leaves, the shutter door 6 is closed, so that the sorting chamber 11 is in a relatively airtight environment, thereby protecting the sample.

In one embodiment, as shown in fig. 1, a sorting frame 7 is removably provided on the glass sheet 4. The sorting frame 7 circles a small area on the glass plate 4 for an operator sorts down in the sorting frame 7, thereby preventing the down from diffusing into the edge gap between the glass plate 4 and the dust cover 2.

Specifically, as shown in fig. 1 and 5, the sorting frame 7 includes a metal frame in a "mouth" shape, and a rubber layer is wrapped around the metal frame. Firstly, shaping a metal frame to ensure the shape of a sorting frame 7, and protecting a glass plate 4 by a rubber layer to prevent the metal frame from damaging the surface of the glass plate 4; meanwhile, the rubber layer has certain elasticity, so that the sealing between the contact surfaces of the sorting frame 7 and the glass plate 4 can be ensured.

In the above embodiment, as shown in fig. 1 and 5, the metal frame is an iron block, the magnets 8 are provided on the glass plate 4, and the magnets 8 correspond to four sides of the metal frame, respectively. Preferably, the magnet 8 is disposed in the sorting frame 7, and the magnet 8 is disposed at the corresponding position on the glass plate 4, and the magnet 8 in the sorting frame 7 is opposite to the magnet 8 on the glass plate 4. Thereby achieving the positioning and fixing of the sorting frame 7.

In the above embodiment, as shown in fig. 1 and 6, the lower surface of the glass plate 4 is recessed with the installation cavity 41, and the magnet 8 is disposed in the installation cavity 41.

The foregoing is merely a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model; modifications and equivalent substitutions are intended to be included in the scope of the claims without departing from the spirit and scope of the present utility model.

Claims (8)

1. The tool for sorting down feather is characterized by comprising a table, a dust cover, flannelette, a glass plate and an LED lamp, wherein the flannelette is paved on the table, the dust cover is fixed on the table to form a sorting cavity, and an operation port is arranged on one side of the dust cover; the glass plate is arranged in the sorting cavity and is pressed on the flannelette, and the LED lamp is arranged at the top of the sorting cavity;

an opening is formed in the table surface of the table, a cleaning mechanism is arranged at the opening, and the surface of the glass plate is cleaned by the cleaning mechanism; the cleaning mechanism comprises a support, a first rubber roller, a second rubber roller, a bearing seat, a guide rail and a spring, wherein the first rubber roller is fixed on the support through the bearing seat, the second rubber roller is horizontally arranged on the support in a sliding manner through the bearing seat and the guide rail, and the spring is utilized to pull the second rubber roller to move towards the first rubber roller.

2. A tooling for down sorting according to claim 1, wherein a roller shutter door is provided at the operation opening.

3. A tooling for down sorting according to claim 1, wherein the glass plate is detachably provided with a sorting frame.

4. A tooling for down feather sorting as claimed in claim 3 wherein the sorting frame comprises a "mouth" shaped metal frame, the metal frame being over wrapped with a rubber layer.

5. The tooling for down feather sorting of claim 4 wherein the metal frame is an iron block, magnets are arranged on the glass plate, and the magnets correspond to four sides of the metal frame respectively.

6. The tooling for down feather sorting of claim 5 wherein the lower surface of the glass plate is recessed with a mounting cavity and the magnet is disposed within the mounting cavity.

7. A tooling for down sorting according to claim 1, wherein the first glue roller is adjacent to the operating port.

8. The tooling for down feather sorting of claim 7 wherein the bearing housing comprises an upper bearing housing and a lower bearing housing, the upper bearing housing and the lower bearing housing being secured by bolts.