CN221038648U - Sticky test steel ball transfer tool - Google Patents

Abstract

The utility model relates to the field of label viscosity detection, in particular to a viscous test steel ball transferring tool, which comprises a clamping body, wherein clamping parts are fixedly arranged at the clamping ends of the clamping body, a containing cavity for containing steel balls is arranged on the clamping parts, and the containing cavities of a plurality of clamping parts are opposite. The steel ball clamping device realizes stable clamping and transferring of the steel balls, and the steel balls are not easy to fall off.

Description

Sticky test steel ball transfer tool

Technical Field

The utility model relates to the field of label viscosity detection, in particular to a steel ball transferring tool for viscosity test.

Background

At present, when the viscosity of the label is tested, a rolling ball method is adopted for testing, and the specific testing method is as follows: the label is fixed on an inclined detection plate, one sticky surface of the label faces upwards, then a steel ball with a clean surface is released from the top of the detection plate, the steel ball rolls downwards along the detection plate, the viscosity of the label is tested at the position of the label when the steel ball stops rolling, namely the viscosity of the label is small, the distance between the steel ball and the bottom of the detection plate is large, the viscosity of the label is small, and the distance between the steel ball and the bottom of the detection plate is small. If the viscosity of the label is not in accordance with the standard, the steel ball will roll down into the collection box at the bottom of the detection plate and be collected.

In the process of detecting the viscosity of the label, the steel ball transferring process is realized through tweezers (if the steel ball is directly transferred by using a hand, if the hand is dirty, the surface of the steel ball is possibly dirty, the detecting result is affected, and therefore the steel ball is not easy to hold and transfer by using a hand), for example, the steel ball is taken out from a collecting box, and is put into the top of a detecting plate, and the steel ball is clamped by the tweezers, so that the steel ball transferring process is completed. But the surface of the steel ball is smooth, the steel ball is clamped by using tweezers, the stability of the tweezers for clamping the steel ball is poor, and the steel ball easily slides off from the clamping end of the tweezers, so that the steel ball is lost.

Disclosure of utility model

The utility model aims to provide a viscous test steel ball transferring tool for realizing stable clamping and transferring of steel balls.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the utility model provides a viscidity test steel ball transfer instrument, includes the centre gripping body, and the centre gripping tip of centre gripping body is all fixed to be equipped with clamping part, is equipped with the chamber of holding that holds the steel ball on the clamping part, and the chamber of holding of a plurality of clamping parts is relative.

The principle and the advantages of the scheme are as follows: this scheme is when carrying out the centre gripping to the steel ball, and clamping part on the centre gripping body carries out the centre gripping to the steel ball, and the steel ball is arranged in holding the chamber, and the inner wall in holding the chamber of a plurality of clamping parts contacts with the steel ball, and clamping part is spacing to the steel ball for the steel ball is difficult for droing from the centre gripping tip of centre gripping body, compares the centre gripping tip of centre gripping body and directly carries out the centre gripping to the steel ball, has improved the stability to the steel ball centre gripping, and the steel ball is difficult for dropping at the transfer in-process.

Preferably, as an improvement, the clamping portion includes an arc block fixedly connected to a clamping end portion of the clamping body, and the accommodating cavity is a space inside the arc block. The clamping part adopts the structure of arc piece, simple structure, and the arc piece is the arc, and when the arc piece carried out the centre gripping to the steel ball, the arc inner wall of arc piece and the arc lateral wall phase-match of steel ball, compare tweezers tip straight setting, improved the stability to the steel ball centre gripping.

Preferably, as an improvement, a rubber pad is fixedly arranged on the inner side wall of the arc-shaped block. The rubber pad can improve the frictional force between the arc-shaped block and the steel ball, so that the steel ball is clamped by the arc-shaped block and is not easy to slide off from the clamping part.

Preferably, as an improvement, the arc-shaped block is vertically arranged, and the top end of the arc-shaped block is fixedly connected to the clamping end part of the clamping body.

Preferably, as a modification, the bottom of the arc-shaped block is provided with a tip. The arrangement of the bottom tip is convenient for the steel ball to enter between the clamping parts to be clamped.

Preferably, as an improvement, the clamping part comprises an arc-shaped bottom bracket and an arc-shaped side limiting part, the side limiting part is fixedly connected between the bottom bracket and the clamping end part, and the accommodating cavity is a space on the inner side of the bending of the side limiting part.

The side limiting part is arc-shaped and can be matched with the arc-shaped outer wall of the steel ball. Therefore, when the clamping part clamps the steel ball, the steel ball is positioned above the collet, and the side limiting part limits the periphery of the side surface of the steel ball, so that the steel ball is prevented from falling from the side of the clamping part, the collet limits the bottom of the steel ball, and the steel ball is prevented from falling from the bottom of the clamping part. Therefore, when the steel ball is clamped, the periphery of the steel ball is jointly limited by the side limiting part and the bottom bracket, so that the clamping stability of the steel ball is better, and the steel ball is less prone to falling. The collet is the arc, and the collet can carry out spacingly around the bottom of steel ball, and spacing anti-drop effect is better.

Preferably, as a modification, the side limiting portion is an arc plate. The arc-shaped plate can be directly punched into an arc shape by a plate, and the side limiting part is convenient to manufacture.

Preferably, as an improvement, the side limiting part is an arc rod, the top ends of the arc rods are fixedly connected at the clamping end parts, the bottom ends of the arc rods are fixedly connected to the bottom support, and the bottom ends of the arc rods are distributed along the arc shape of the bottom support.

Therefore, the bottoms of the arc rods are distributed in an arc shape on the collet, and when the steel ball is clamped by the clamping part, the arc rods are positioned around the steel ball and limit the steel ball, so that the steel ball is prevented from falling. Gaps are arranged between the arc rods, so that the material consumption of the side limiting parts can be reduced.

Preferably, as a modification, the holding body has a tweezer structure.

Preferably, as an improvement, the clamping body has a scissor type structure.

Drawings

Fig. 1 is a schematic structural view of a steel ball transfer tool for viscosity test of the scissor type construction of example 1.

Fig. 2 is a schematic structural view of a steel ball transferring tool for adhesive test in the tweezer type structure of example 2.

Detailed Description

The following is a further detailed description of the embodiments:

Reference numerals in the drawings of the specification include: the clamping device comprises a first clamping rod 1, a pin shaft 2, an operation part 3, a hole 4, a bottom bracket 5, an arc-shaped rod 6, a second clamping rod 7, an arc-shaped block 8, a rubber pad 9, a first magnetic sheet 10, a second magnetic sheet 11, tweezers 12 and a containing cavity 13.

Example 1

Substantially as shown in figure 1: the utility model provides a viscidity test steel ball transfer instrument, includes the centre gripping body, and the centre gripping body in this embodiment is scissors formula structure, and specific scissors formula structure is: the centre gripping body includes first clamp lever 1, second clamp lever 7, and first clamp lever 1 middle part and second clamp lever 7 middle part are connected through round pin axle 2 rotation, and the top of first clamp lever 1 and the top of second clamp lever 7 all are equipped with operating portion 3, are equipped with the hole 4 that is used for making the finger pass through on the operating portion 3, are similar to the scissors, consequently are scissors formula structure.

The clamping ends of the clamping body are fixedly provided with clamping portions, and in this embodiment, the bottom of the first clamping rod 1 and the bottom of the second clamping rod 7 are fixedly provided with clamping portions. Referring to fig. 1, the clamping portion includes an arc-shaped bottom bracket 5 and an arc-shaped side limiting portion, the bottom bracket 5 is semi-annular, the side limiting portion is a plurality of arc-shaped arc rods 6, and the top ends of the arc rods 6 are welded to the bottom of the first clamping rod 1 or the bottom of the second clamping rod 7. The bottom of the arc-shaped rod 6 is welded on the bottom bracket 5. The bottom ends of the arc rods 6 are welded and distributed on the bottom support 5 along the arc shape of the bottom support 5. The shoe 5 on the first clamping bar 1 is opposite to the shoe 5 on the second clamping bar 7, and the arc-shaped bar 6 protrudes on the shoe 5 towards the outer side direction of the shoe 5. In this way, the space inside the curve of the arc-shaped bar 6 and the space above the shoe 5 form a receiving chamber 13 for receiving the steel ball. The receiving cavities 13 of the two clamping portions are opposite.

Thus, when the tool is used, like a scissors, a finger is put into the hole 4 of the operation portion 3, and the first clamp lever 1 and the second clamp lever 7 are manipulated so that the bottom of the first clamp lever 1 and the bottom of the second clamp lever 7 are opened or closed. By opening the two clamping portions, the two clamping portions are placed on two sides of the steel ball, then the two clamping portions are made to be close to each other, the two clamping portions clamp the steel ball, and the steel ball enters the accommodating cavity 13 formed by surrounding the two clamping portions. The outside of steel ball is spacing by arc pole 6, and the bottom of steel ball is spacing by collet 5, and the steel ball can not fall out from holding chamber 13, compares the centre gripping tip of centre gripping body and directly carries out the centre gripping to the steel ball, has improved the stability to the steel ball centre gripping, and the steel ball is difficult for dropping in the transfer process. After the steel ball is transferred to the corresponding position, the two clamping parts are opened, and the steel ball is released from between the two clamping parts.

In the above embodiment, the side limiting parts are a plurality of arc-shaped rods 6, but in other embodiments, the side limiting parts can be arc-shaped plates which are punched, and grooves for accommodating the steel balls are formed in the arc-shaped plates, namely the grooves are called accommodating cavities 13.

As shown in fig. 1, magnetic pieces are bonded on opposite sides of the first clamping bar 1 and the second clamping bar 7, namely a first magnetic piece 10 and a second magnetic piece 11, and the magnetism of opposite parts of the first magnetic piece 10 and the second magnetic piece 11 is opposite. Thus, after the first clamping rod 1 and the second clamping rod 7 are overlapped, that is, the two clamping parts are in a clamping state, the first clamping rod 1 and the second clamping rod 7 are adsorbed together through the first magnetic sheet 10 and the second magnetic sheet 11, and the first clamping rod 1 and the second clamping rod 7 are not easy to separate, so that the situation that the two clamping parts are opened to release the steel ball due to the fact that the first clamping rod 1 and the second clamping rod 7 rotate by mistake in the steel ball transferring process is avoided. In this embodiment, the positions of the first magnetic sheet 10 and the second magnetic sheet 11 can be adjusted by appropriately changing according to the actual situation, so that the first magnetic sheet 10 and the second magnetic sheet 11 are attracted by being opposite to each other when the steel ball is clamped.

Example 2

Embodiment 1 discloses a clip body of a scissors structure, and of course, as shown in fig. 2, the clip body may also be a tweezer 12 structure, and the clip body is a conventional tweezer 12. The ends of the tweezers 12 are welded with the grip portions in embodiment 1, respectively.

Example 3

As shown in fig. 2, this embodiment discloses a clamping part of another structure, the clamping part includes an arc block 8, the arc block 8 is vertically arranged, the top welding fixed connection of the arc block 8 is on the clamping end of tweezers 12, two arc blocks 8 are opposite, and the inner space of the arc block 8 is for holding the holding cavity 13 of steel ball.

Thus, the two clamping parts are close to each other, the steel ball is positioned in the accommodating cavity 13, and the steel ball is clamped by the two arc-shaped blocks 8, compared with the clamping of the bottom of the tweezers 12 in fig. 2, the shape of the inner wall of the arc-shaped block 8 is matched with that of the outer side wall of the steel ball, so that the stable clamping of the steel ball is realized.

In order to realize more stable clamping of the steel ball, the rubber pad 9 is fixedly adhered to the inner side wall of the arc-shaped block 8, so that the friction force of the steel ball is improved, and the steel ball is not easy to fall. Meanwhile, the bottom of each arc-shaped block 8 is provided with a tip, so that the steel balls can enter between the two arc-shaped blocks 8 during clamping.

Of course, in other embodiments, the arcuate blocks 8 may be disposed laterally as well.

Example 4

Of course, the clamping portions in fig. 2 may also be provided on the first clamping bar 1 and the second clamping bar 7 in embodiment 1.

The foregoing is merely exemplary of the present utility model, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present utility model, and these should also be regarded as the protection scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the practical applicability of the patent. The protection scope of the present utility model is subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.

Claims (8)

1. A sticky test steel ball transfer tool which is characterized in that: the steel ball clamping device comprises a clamping body, clamping parts are fixedly arranged at the clamping ends of the clamping body, containing cavities for containing steel balls are arranged on the clamping parts, and the containing cavities of the clamping parts are opposite;

The clamping part comprises an arc-shaped block, the arc-shaped block is fixedly connected to the clamping end part of the clamping body, and the accommodating cavity is a space on the inner side of the arc-shaped block in a bending way; or alternatively

The clamping part comprises an arc-shaped collet and an arc-shaped side limiting part, the side limiting part is fixedly connected between the collet and the clamping end part, and the accommodating cavity is a space on the inner side of the bending side limiting part.

2. The adhesion test ball transfer tool of claim 1, wherein: and a rubber pad is fixedly arranged on the inner side wall of the arc-shaped block.

3. The adhesion test ball transfer tool of claim 1, wherein: the arc piece is vertical to be set up, and the top fixed connection of arc piece is on the centre gripping tip of centre gripping body.

4. A viscous test ball transfer tool according to claim 3, wherein: the bottom of the arc-shaped block is provided with a tip.

5. The adhesion test ball transfer tool of claim 1, wherein: the side limiting part is an arc-shaped plate.

6. The adhesion test ball transfer tool of claim 1, wherein: the side limit portion is the arc pole, and the equal fixed connection in clamping end department in the top of a plurality of arc poles, the bottom fixed connection of a plurality of arc poles is on the collet, and the arc shape distribution setting of collet is followed to the bottom of a plurality of arc poles.

7. A viscous test ball transfer tool according to any one of claims 1-6, wherein: the clamping body is of a tweezer type structure.

8. A viscous test ball transfer tool according to any one of claims 1-6, wherein: the clamping body is of a scissor type structure.