CN112157637A - On-spot metallography detects supporting toolbox - Google Patents

Abstract

This patent belongs to on-the-spot metallographic detection field, concretely relates to on-the-spot metallographic detection supporting tool case. In practice, tools such as angle grinders for cutting, hair dryers for haircutting, etc. are used, which often require an external power source for power supply, or are self-powered but have insufficient endurance, which affects the efficiency of operation. The device comprises a pull rod, a box body, a drawer, a clapboard and the like. The interior of the box body is divided into three layers which are separated by a partition board and respectively comprise an upper-layer tool storage area, a middle-layer power supply area and a lower-layer winder area. The invention designs a professional matched tool kit for on-site metallographic detection, which can finish a polishing and blowing task and has higher convenience, safety and long endurance.

Description

On-spot metallography detects supporting toolbox

Technical Field

This patent belongs to on-the-spot metallographic detection field, concretely relates to on-the-spot metallographic detection supporting tool case.

Background

In the work of failure analysis, metal material research and the like, metallographic detection is an indispensable technology. The internal structure of the material can be directly observed through the procedures of sampling, cutting, grinding, polishing, eroding and the like of the equipment workpiece, and then the performance, the tissue composition, the processing technology and the like of the material are correspondingly evaluated. However, in many cases, the workpiece device cannot be cut and sampled due to the limited conditions, and therefore, the on-site metallographic detection technology is produced.

The on-site metallographic detection technology is used for observing the metallographic structure by directly performing operations such as grinding, polishing and erosion on a device workpiece. The tools that often need to be used are grinders, hair dryers, portable metallographic microscopes, and the like. At present, a professional metallographic grinder is over miniaturized, power is insufficient, efficiency is low, and the effort is not good when a large number of gold phase points need to be processed. While tools in other fields such as angle grinders for cutting, hair dryers for haircut and the like are used, the tools often need an external power supply to provide power, or the tools are provided with a power supply and have insufficient endurance, so that a lot of limitations are caused on the continuity of the field detection, and the working efficiency is influenced. And cables and the like of the tool are not easy to store, and the field is disordered after the tool is used, so that the potential safety hazard exists for detection personnel who trip easily.

Therefore, in order to guarantee that on-site metallographic detection can be carried out efficiently, continuously and safely, a professional on-site metallographic detection kit is designed, and the on-site metallographic detection kit can finish the polishing and blowing task and has higher convenience and safety and long endurance.

Disclosure of Invention

1. The purpose is as follows:

the purpose of this patent is in order to can be high-efficient continuous safe carrying on the spot metallography detection design a supporting toolbox of inventing.

2. The technical scheme is as follows:

a matched tool box for on-site metallographic examination comprises a pull rod, a box body, a drawer, a partition plate and the like. The interior of the box body is divided into three layers which are separated by a partition board A and a partition board B and respectively comprise an upper-layer tool storage area, a middle-layer power supply area and a lower-layer winder area.

The main part of the upper-layer tool storage area is a drawer, the drawer is divided into three storage areas, the two storage areas on the two sides are used for storing the angle grinder and the suction blower respectively, and the middle storage area is used for storing the portable metallographic microscope and sundries.

The angle grinder and the washing blower both adopt 12V direct current power supplies.

The middle layer power supply area is a high-capacity 12V direct current lithium battery.

The lower layer winder area is mainly provided with a winder A and a winder B which are respectively arranged at the left side and the right side of the lower layer winding area.

The box body is integrally cubic, the front surface of the box body is covered with a cover plate, and the cover plate can cover the middle layer and the lower layer simultaneously.

The left side and the right side of the box body are respectively provided with a hook A and a hook B; the angle grinder and the air suction blower are respectively hung on the hook A and the hook B.

When the angle grinder is hung on the hook A, the power supply is automatically disconnected; the power supply is switched on when the angle grinder is taken off from the hook A.

An outlet is formed in the right side plate of the box body; the rear part is provided with a pull rod; four bottom feet and rollers are fixed on the bottom surface.

3. The effect is as follows:

this supporting tool case accomodates the design through the drawer and all accomodates into the tool case with angle mill etc. that on-the-spot metallographic examination needs used to portable transports. The angle grinder is used for replacing the traditional metallographic grinder, so that the angle grinder can have stronger power. The angle grinder adopts a compact head-shell type, so that the angle grinder can be ensured to go deep into each corner; replace the hair-dryer with inhaling the hair-dryer, it can not blow to inhale the hair-dryer, but also possesses the dust absorption function, can absorb the dust of grinding down after polishing the completion to guarantee the clean and tidy of factory building. The angle grinder and the blower of inhaling pass through the winder and link to each other with the power, and the cable in the winder can freely stretch out and draw back during the use can, then can automatic indentation winder after the use is accomplished, just so avoided that the scene cable drags all to be the risk of stumbling everywhere. The angle grinder air suction blower is powered by a high-capacity direct-current power supply, so that certain long endurance can be realized while convenience is guaranteed.

Drawings

FIG. 1 is a schematic view of the inside of a kit for on-site metallographic examination

FIG. 2 schematic diagram of drawer of on-site metallographic examination kit

FIG. 3 is a schematic diagram of the usage status of the on-site metallographic detection kit

FIG. 4 is an overall schematic view of a kit for on-site metallographic examination

In the figure: 1. a pull rod; 2. a box body; 3. an angle grinder; 4. a suction blower; 5. a drawer; 6. a separator A; 7. a hook groove; 8. a lithium battery; 9. a partition board B; 10. a cover plate; 11. a winder A; 12. a reel B; 13. a roller; 14. footing; 15. an outlet; 16. a hook A; 17. a hook B; 18. a cable.

Detailed Description

This patent is a supporting toolbox of on-the-spot metallographic examination.

As shown in figures 1 and 4, the device mainly comprises a pull rod 1, a box body 2, a hook groove 7, a roller 13, a foot 14 and a wire outlet 15 which form the external part. The interior of the box body is mainly divided into three layers, which are divided by a partition A6 and a partition B9 and are respectively an upper layer tool storage area, a middle layer power supply area and a lower layer winder area.

As shown in figure 2, the main component of the upper-layer tool storage area is a drawer 5, the drawer 5 is divided into three storage areas, the two storage areas are respectively used for storing the angle grinder 3 and the suction blower 4, and the middle storage area is used for storing the portable metallographic microscope and other impurities. The angle grinder 3 and the suction blower 4 both adopt a 12V direct current power supply. The middle layer power supply area is a high-capacity 12V direct current lithium battery 8 which can provide stable and continuous power output. The lower reel areas are mainly reel A11 and reel B12. The cover plate 10 may cover both the middle and lower regions.

As shown in figure 3, when in use, the hook A16 and the hook B17 are turned out from the hook groove 7, and the angle grinder 3 and the suction blower 4 are hung on the hook A. When the angle grinder 3 is hung on the hook A, the power supply is automatically cut off. The power supply can be automatically switched on only when the angle grinder is taken down from the hook, and the suction blower and the blower are similar.

When the angle grinder is used, the matched tool box is firstly placed at a proper position on site, the hook A is turned out from the hook groove 7, and then the angle grinder 3 and the suction blower 4 are taken out from the drawer 5 and hung on the hook A and the hook B. The cable is drawn out from the outlet and connected to the angle grinder 3 and the suction blower 4, and the grinding can be started by starting the power supply. After the angle grinder 3 finishes grinding, the dust after grinding is sucked away by using the dust suction function of the suction blower 4, and then operations such as polishing, corrosion and the like are carried out.

Claims (9)

1. The utility model provides an on-spot metallography detects kit which characterized in that: the interior of the box body (2) is divided into three layers which are divided by a partition board A (6) and a partition board B (9) and respectively comprise an upper-layer tool storage area, a middle-layer power supply area and a lower-layer winder area.

2. The kit for on-site metallographic examination according to claim 1, wherein said kit comprises: the main part of the upper-layer tool storage area is a drawer (5), the drawer (5) is divided into three storage areas, the two storage areas on the two sides are used for storing the angle grinder (3) and the suction blower (4) respectively, and the middle storage area is used for storing the portable metallographic microscope and sundries.

3. The kit for on-site metallographic examination according to claim 2, wherein: the angle grinder (3) and the washing blower (4) both adopt 12V direct current power supplies.

4. The kit for on-site metallographic examination according to claim 1, wherein said kit comprises: the middle layer power supply area is a high-capacity 12V direct current lithium battery (8).

5. The kit for on-site metallographic examination according to claim 1, wherein said kit comprises: the lower layer winder area mainly comprises a winder A (11) and a winder B (12) which are respectively arranged at the left side and the right side of the lower layer winder area.

6. The kit for on-site metallographic examination according to claim 1, wherein said kit comprises: the box body (2) is integrally cubic, a cover plate (10) covers the front surface of the box body, and the cover plate (10) can cover the middle layer area and the lower layer area simultaneously.

7. The kit for on-site metallographic examination according to claim 1, wherein said kit comprises: the left side and the right side of the box body (2) are respectively provided with a hook A (16) and a hook B (17); the angle grinder (3) and the air suction blower (4) are respectively hung on the hook A (16) and the hook B (17).

8. The kit for on-site metallographic examination according to claim 7, wherein said kit comprises: when the angle grinder (3) is hung on the hook A (16), the power supply is automatically cut off; when the angle grinder (3) is taken off from the hook A (16), the power supply is switched on.

9. The kit for on-site metallographic examination according to claim 1, wherein said kit comprises: a wire outlet (15) is formed in the right side plate of the box body (2); the rear part is provided with a pull rod (1); four bottom feet (14) and rollers (13) are fixed on the bottom surface.

Images