CN214040684U - M-shaped quantitative positioning instrument - Google Patents

Abstract

The utility model provides a M type quantitative positioning appearance, including four piece at least quantitative locating plates, seted up two at least locating holes on each quantitative locating plate, each quantitative locating plate meets through the swing joint spare of wearing to locate the locating hole to form two at least isosceles triangle that are used for the volume to get the sample. The utility model discloses simple structure, convenient operation is applicable to the outer packaging material that can carry out the heat-seal, when carrying out the even sampling operation of a lot of to the material, operates in the material outside, has reduced the exposure risk of material, and the sampling point position is even, and sample quantity is impartial, has shortened operating time simultaneously, has improved work efficiency, can be applied to the sample of multiple materials such as rubber buffer for the injection, plastic-aluminum combined cover, oral bottle, divide the appearance process.

Description

M-shaped quantitative positioning instrument

Technical Field

The utility model relates to a material separation device, specifically speaking are M type quantitative positioning appearance.

Background

Sampling is a common operation in manufacturing enterprises, and a direct method is generally adopted for sampling, namely, a material package is opened for sampling, but the direct sampling method may pollute the material or the sample, so that quality risks are brought, particularly, sampling and sample dividing processes with high requirements on cleanliness of the material and products (such as rubber stoppers for injection, aluminum-plastic combined covers, oral bottles and the like) are required, in order to reduce the quality risks possibly brought by the sampling operation, the sampling and sample dividing processes need to be carried out in an air cleanliness A-level environment, so that high requirements on sampling tools, material transfer, sampling environments, operation processes and the like are required, and the steps are complicated and time-consuming.

Meanwhile, in the sampling process, multiple times of sampling respectively are often needed, in order to ensure uniform sampling, the approximate positions of the upper part, the middle part and the lower part are usually determined by visual inspection, and then ideal weight or quantity is obtained by a method of successive weighing or successive visual inspection counting.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a M type quantitative positioning appearance to solve present sample, the branch appearance in-process that requires very high to material and product cleanliness factor and be difficult to the accurate problem of guaranteeing that the sample volume is the same.

The utility model discloses a realize like this:

the utility model provides a M type quantitative locator, includes four piece at least quantitative locating plates, has seted up two at least locating holes on each quantitative locating plate, and each locating plate meets through the movable connecting piece who locates the locating hole to form two at least isosceles triangle that are used for the volume to get the sample.

Optionally, the movable connecting element is a common movable connecting element such as a fastening screw, a drawing pin and the like.

Preferably, the quantitative locating plate is a stainless steel quantitative locating plate which is not deformed and does not fall scraps.

The quantity of the quantitative positioning plates can be adjusted according to actual needs. Preferably, the M-shaped quantitative positioning instrument comprises six quantitative positioning plates.

The quantity of the positioning holes on the quantitative positioning plate can be adjusted according to actual needs. Preferably, 5 positioning holes are formed in the quantitative positioning plate.

The size of the quantitative positioning plate and the distance between the positioning holes can be adjusted according to actual needs. Preferably, the quantitative locator plate has a size of 20 x 1.5cm x 0.2 (length x width x thickness); more preferably, the positioning holes on the quantitative positioning plate are spaced by 5 cm.

The utility model discloses can also realize like this:

the utility model provides a M type quantitative locator, includes four piece at least quantitative locating plates the connecting hole has been seted up at the both ends of quantitative locating plate be provided with connecting portion in the connecting hole, two piece adjacent quantitative locating plates meet through swing joint spare, swing joint spare with connecting portion cooperate.

Optionally, the movable connecting piece is a fastening screw, and the connecting portion is an internal thread.

Optionally, at least one positioning hole is formed between the connecting holes.

Preferably, the quantitative locating plate is a stainless steel quantitative locating plate which is not deformed and does not fall scraps.

The quantity of the quantitative positioning plates can be adjusted according to actual needs. Preferably, the M-shaped quantitative positioning instrument comprises six quantitative positioning plates.

The quantity of the connecting holes and the quantity of the positioning holes on the quantitative positioning plate can be adjusted according to actual needs. Preferably, two connecting holes are formed in two ends of the quantitative positioning plate, and 3 positioning holes are formed between the two connecting holes.

Preferably, the quantitative locator plate has a size of 20 x 1.5cm x 0.2 (length x width x thickness); more preferably, the positioning holes on the quantitative positioning plate are spaced by 5 cm.

The utility model discloses simple structure, convenient operation is applicable to the outer packaging material that can carry out the heat-seal, when carrying out multiple even sampling operation to the material, operate in the material outside, need not to open the packing, the exposure risk of material has been reduced, do not need repeated weighing and count, it is even to guarantee the sampling point position, sample quantity is impartial, operating time has been shortened simultaneously, work efficiency is improved, can be applied to the sample of multiple materials such as rubber buffer for the injection, plastic-aluminum combined cover, oral bottle, divide the appearance process.

Drawings

Fig. 1 is a schematic structural diagram of a use state of the M-type quantitative positioning apparatus of the present invention.

Fig. 2 is a schematic structural diagram of another use state of the M-type quantitative positioning apparatus of the present invention.

In the figure, 1, a quantitative positioning plate, 2, a positioning hole, 3 and a movable connecting piece.

Detailed Description

As shown in figure 1, the utility model discloses a M type quantitative locator includes six quantitative locating plates, and the quantity of quantitative locating plate can be selected according to actual need. The six quantitative positioning plates are made of stainless steel plates with the same material and size, and the size is 20 x 1.5cm x 0.2 (length, width and thickness). Of course, quantitative positioning plates of other materials and sizes can be selected according to the properties and the quantity of the sampling materials.

Optionally, 5 positioning holes are formed in the quantitative positioning plate, the interval between the positioning holes is 5cm, and the distance between the positioning holes can be adjusted according to the sampling amount. The positions of the connecting holes and/or the positioning holes on the six quantitative positioning plates are completely overlapped so that two adjacent quantitative positioning plates are connected through a movable connecting piece penetrating through the positioning holes, and the movable connecting piece can be a common connecting piece such as a drawing pin, so that three isosceles triangles for measuring and sampling samples are formed. The positioning holes on the quantitative positioning plates can be connected with any positioning hole on the adjacent quantitative positioning plates, when the sampling amount needs to be adjusted, as shown in figure 2, the movable connecting piece is loosened, and isosceles triangles with different areas and used for measuring samples can be obtained by adjusting the connecting positions of the positioning holes. By parity of reasoning, triangles with different areas are obtained by adjusting the connecting positions of the movable connecting pieces on the two adjacent quantitative positioning plates, so that different sampling quantity requirements are met.

Optionally, two connecting holes are formed at two ends of each quantitative locating plate, and a connecting portion (such as an internal thread) is arranged in each connecting hole, so that the movable connecting member is matched with the connecting portion to connect two adjacent quantitative locating plates. 3 positioning holes are formed between the two connecting holes, the interval between each connecting hole and the adjacent positioning hole is 5cm, and the interval between the adjacent positioning holes is 5 cm. The movable connecting piece can be a fastening screw, and other common connecting parts and movable connecting pieces can be adopted to movably connect two adjacent quantitative positioning plates. The connecting holes on the quantitative positioning plates can be connected with any positioning hole or connecting hole on the adjacent quantitative positioning plates, when the sampling amount needs to be adjusted, the movable connecting piece is loosened, and isosceles triangles with different areas and used for measuring samples can be obtained by adjusting the connecting positions of the connecting holes. By parity of reasoning, triangles with different areas are obtained by adjusting the connecting positions of the movable connecting pieces on the two adjacent quantitative positioning plates, so that different sampling quantity requirements are met.

When the M-shaped quantitative locator is adopted to measure materials such as rubber plugs for injection, aluminum-plastic combined covers, oral bottles and the like, the outer packaging bags of the materials are all made of packaging materials capable of being heat-sealed. When in use, the materials are concentrated at one position of the outer packaging bag, the vacant space is arranged, the M-shaped quantitative positioning instrument is placed above the vacant space of the outer packaging bag, and three isosceles triangles are formed by means of the bottom edges of the outer packaging bag; then, one side of the inner side of the M-shaped positioning and quantifying instrument is subjected to heat sealing, and the other side is not sealed to form a V shape; filling materials to be measured into the isosceles triangle, and performing heat sealing on the rest side when the triangle is filled with the volumes of the materials; the samples were cut along the heat seal tape with scissors to obtain three equal samples.

Claims (10)

1. The utility model provides a M type quantitative positioning appearance, its characterized in that includes four piece at least quantitative locating plates, has seted up two at least locating holes on each quantitative locating plate, and two piece adjacent quantitative locating plates meet through the movable connecting piece who locates the locating hole to form two at least isosceles triangle that are used for the volume sample of getting.

2. The M-type quantitative locator according to claim 1, wherein the movable connecting member is a fastening screw, a screw or a drawing pin.

3. The M-type quantitative locator according to claim 1, wherein the M-type quantitative locator comprises six quantitative locating plates.

4. The M-shaped quantitative positioning instrument according to claim 1, wherein 5 positioning holes are formed in the quantitative positioning plate, and the positioning holes are spaced by 5 cm.

5. The M-shaped quantitative positioning instrument is characterized by comprising at least four quantitative positioning plates, wherein each quantitative positioning plate is provided with a connecting hole, a connecting part is arranged in each connecting hole, two adjacent quantitative positioning plates are connected through a movable connecting part, and the movable connecting parts are matched with the connecting parts.

6. The M-shaped quantitative positioning instrument according to claim 5, wherein at least one positioning hole is provided between the connecting holes on each quantitative positioning plate.

7. The M-shaped quantitative locator according to claim 5 or 6, wherein the connecting part is an internal thread.

8. The M-shaped quantitative locator according to claim 5 or 6, wherein the movable connecting piece is a fastening screw, a screw or a drawing pin.

9. The M-type quantitative locator according to claim 5 or 6, wherein the M-type quantitative locator comprises six quantitative locating plates.

10. The M-shaped quantitative positioning instrument according to claim 5 or 6, wherein two connecting holes are formed at two ends of the quantitative positioning plate, 3 positioning holes are formed between the two connecting holes, the connecting holes are spaced from the positioning holes by 5cm, and the positioning holes are spaced from each other by 5 cm.

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