CN215481335U - Titanium plate metal recovery device - Google Patents

Abstract

The utility model belongs to the field of mechanical structures, and provides a titanium plate metal recovery device, which comprises: the device is provided with an electrolytic bath, which comprises a support frame, wherein a cylinder is arranged below the support frame; one end of the titanium plate is connected with the cylinder; the recovery box is arranged on the electrolytic cell, and the titanium plate penetrates through the bottom of the recovery box and is arranged in the electrolytic cell; the telescopic plate is arranged at the bottom of the recovery box and movably abutted against the titanium plate, and an opening is formed when the telescopic plate is telescopic towards the bottom of the recovery box; when the expansion plate forms and is greater than the titanium board opening, the cylinder can drive the titanium board and rise, and when the expansion plate formed the opening of titanium board width, the cylinder drove the titanium board and descends and can let the metal on the titanium board stay in retrieving the box when passing the opening. Compared with the prior art, the titanium plate metal recovery device has the advantages that the opening larger than the titanium plate is formed by opening the telescopic plate, the cylinder can drive the titanium plate to ascend without hindrance, and when the telescopic plate is closed to the opening of the titanium plate, the cylinder drives the titanium plate to descend so as to retain metal on the titanium plate in the recovery box, so that full-automatic and high-efficiency metal collection is realized.

Description

Titanium plate metal recovery device

Technical Field

The utility model belongs to the field of mechanical structures, and particularly relates to a titanium plate metal recovery device.

Background

In the field of machining, metal formed by the reaction of a titanium plate and an electrolyte sometimes needs to be taken out, but the main defects of the traditional metal recovery of the titanium plate are as follows: the traditional method for separating the metal on the titanium plate is manually operated by workers, the titanium plate is taken out of an electrolytic bath at present, and then the metal on two surfaces of the titanium plate is shoveled down. This kind of mode is wasted time and energy, often handles to half workman and will make the speed slow down with fatigue, and the electrolyte on the titanium board is that well hydrochloric acid has very strong corrosivity and has very big potential safety hazard in addition, and this kind of method is not too tried on large-scale electrolytic device clearance titanium board, leads to appearing that the speed is slow, and the clearance is unclean, damages the titanium board easily, shortcomings such as very big potential safety hazard.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem of providing a titanium plate metal recovery device aiming at the current situation of the prior art.

In order to solve the above technical problem, the present invention provides a titanium plate metal recovery device, which comprises an electrolytic bath, comprising:

the air cylinder is arranged below the supporting frame;

one end of the titanium plate is connected with the cylinder;

the recovery box is arranged on the electrolytic cell, and the titanium plate penetrates through the bottom of the recovery box and is arranged in the electrolytic cell;

the telescopic plate is arranged at the bottom of the recovery box and movably abutted against the titanium plate, and an opening is formed when the telescopic plate is telescopic towards the bottom of the recovery box;

when the retractable plate is larger than the opening of the titanium plate, the cylinder can drive the titanium plate to ascend, and when the retractable plate forms the opening with the width of the titanium plate, the cylinder drives the titanium plate to descend to penetrate through the opening, and metal on the titanium plate can be left in the recovery box.

In the above titanium plate metal recovery device, the expansion plate includes: the first expansion plate is abutted against one side of the titanium plate and is movably connected with the bottom of the recovery box;

and the second expansion plate is abutted against the other side of the titanium plate and is movably connected with the bottom of the recovery box.

In the above titanium plate metal recycling device, the recycling box includes: the first groove is arranged at the bottom of the recovery box and is movably connected with the first expansion plate;

the second groove is arranged at the bottom of the recovery box and is movably connected with the second expansion plate.

In the above titanium plate metal recovery device, the cylinder is provided with a connecting rod, and the connecting rod penetrates through the titanium plate.

Compared with the prior art, the titanium plate metal recovery device has the advantages that the opening larger than the titanium plate is formed by opening the telescopic plate, the cylinder can drive the titanium plate to ascend without hindrance, and when the telescopic plate is closed to the opening of the titanium plate, the cylinder drives the titanium plate to descend so as to retain metal on the titanium plate in the recovery box, so that full-automatic and high-efficiency metal collection is realized.

Drawings

Embodiments of the utility model are described in further detail below with reference to the attached drawing figures, wherein:

FIG. 1 is a perspective view of a titanium plate metal recovery device;

FIG. 2 is a perspective view of a recovery box of the titanium plate metal recovery device.

In the figure, 1, a support frame; 2. a cylinder; 3. an electrolytic cell; 4. a titanium plate; 5. a first expansion plate; 6. a second expansion plate; 7. an opening; 8. a first groove; 9. a second groove; 10. a connecting rod; 11. and (6) recovering the box.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 and 2, the titanium plate metal recovery device is provided with an electrolytic bath 3, and comprises a support frame 1, wherein a cylinder 2 is arranged below the support frame 1; a titanium plate 4, one end of which is connected with the cylinder 2; the recovery box 11 is arranged on the electrolytic cell 3, and the titanium plate 4 penetrates through the bottom of the recovery box 11 and is arranged in the electrolytic cell 3; the telescopic plate is arranged at the bottom of the recovery box 11 and is movably abutted against the titanium plate 4, and an opening 7 is formed when the telescopic plate is telescopic towards the bottom of the recovery box 11; when the expansion plate forms opening 7 that is greater than titanium plate 4, cylinder 2 can drive titanium plate 4 and rise, and when the expansion plate formed opening 7 of titanium plate 4 width, cylinder 2 drove titanium plate 4 and descends and pass opening 7 and can let the metal on titanium plate 4 remain in retrieving box 11.

The supporting frame 1 is provided with an air cylinder 2, the air cylinder 2 is connected with a titanium plate 4 so as to drive the titanium plate 4 to freely lift, the recovery box 11 is arranged on the electrolytic bath 3, the titanium plate 4 can penetrate through the bottom of the recovery box 11 and then is arranged in the electrolytic bath 3 to generate electrolytic reaction, the bottom of the recovery box 11 is provided with a retractable plate which is movably abutted against the titanium plate 4, when the retractable plate is retracted towards the bottom of the recovery box 11 along the horizontal direction, an opening 7 is formed, the titanium plate 4 can freely lift by opening the opening 7, when the retractable plate retracts to the bottom of the recovery box 11 to form an opening 7 which is larger than the titanium plate 4, the cylinder 2 can drive the titanium plate 4 to ascend without hindrance, and when the titanium plate 4 needs to descend, the telescopic plate can be controlled to extend outwards to the opening 7 with the width of the titanium plate 4, at the moment, the cylinder 2 is used for driving the titanium plate 4 to descend, the titanium plate 4 just can penetrate through the opening 7 to return to the electrolytic bath 3, and the metal on the titanium plate 4 is automatically left on the recovery box 11 due to the limitation of the opening 7.

The expansion plate comprises a first expansion plate 5 which is abutted against one side of the titanium plate 4 and is movably connected with the bottom of the recovery box 11; and the second expansion plate 6 is abutted against the other side of the titanium plate 4 and is movably connected with the bottom of the recovery box 11.

The expansion plate comprises first expansion plate 5 and second expansion plate 6, first expansion plate 5 with retrieve 11 bottom swing joint of box and lean on in one side of titanium plate 4, second expansion plate 6 with retrieve 11 bottom swing joint of box and lean on the opposite side of titanium plate 4, consequently can form when first expansion plate 5 and second expansion plate 6 with opposite direction to retrieving box 11 bottom in flexible and be greater than the opening 7 of titanium plate 4 can form when stretching out and drawing back the opening 7 of box 4 width with relative direction when controlling first expansion plate 5 and second expansion plate 6.

The recovery box 11 comprises a first groove 8 which is arranged at the bottom of the recovery box 11, and the first groove 8 is movably connected with the first expansion plate 5; and the second groove 9 is arranged at the bottom of the recovery box 11, and the second groove 9 is movably connected with the second expansion plate 6.

Retrieve 11 interior symmetries of box bottom and be provided with first recess 8 and second recess 9, first recess 8 and 5 swing joint of first expansion plate, second recess 9 and 6 swing joint of second expansion plate, when opening 7 will be opened, first expansion plate 5 is to first recess 8 indentation, second expansion plate 6 is to the indentation of second recess 9, and then form and be greater than opening 7 of titanium plate 4, when opening 7 will be closed and only leave opening 7 of 4 width of titanium plate, then withdraw from first recess 8 with first expansion plate 5, second expansion plate 6 withdraws from second recess 9, control required 4 opening 7 width of titanium plate.

The cylinder 2 is provided with a connecting rod 10, and the connecting rod 10 penetrates through the titanium plate 4.

The lower extreme of cylinder 2 is provided with connecting rod 10, and runs through titanium board 4 on the connecting rod 10, then cylinder 2 drives connecting rod 10 and reciprocates and then can drive titanium board 4 and realize freely going up and down.

The specific embodiments described herein are merely illustrative of the utility model. Various modifications, additions and substitutions for the described embodiments may be made by those skilled in the art without departing from the scope of the utility model as defined in the accompanying claims.

Claims (4)

1. A titanium plate metal recovery device is provided with an electrolytic bath, and is characterized by comprising:

the air cylinder is arranged below the supporting frame;

one end of the titanium plate is connected with the cylinder;

the recovery box is arranged on the electrolytic cell, and the titanium plate penetrates through the bottom of the recovery box and is arranged in the electrolytic cell;

the telescopic plate is arranged at the bottom of the recovery box and movably abutted against the titanium plate, and an opening is formed when the telescopic plate is telescopic towards the bottom of the recovery box;

when the retractable plate is larger than the opening of the titanium plate, the cylinder can drive the titanium plate to ascend, and when the retractable plate forms the opening with the width of the titanium plate, the cylinder drives the titanium plate to descend to penetrate through the opening, and metal on the titanium plate can be left in the recovery box.

2. The titanium plate metal recycling device of claim 1, wherein said expansion plate comprises:

the first expansion plate is abutted against one side of the titanium plate and is movably connected with the bottom of the recovery box;

and the second expansion plate is abutted against the other side of the titanium plate and is movably connected with the bottom of the recovery box.

3. A titanium sheet metal recycling apparatus according to claim 2, wherein said recycling box comprises:

the first groove is arranged at the bottom of the recovery box and is movably connected with the first expansion plate;

the second groove is arranged at the bottom of the recovery box and is movably connected with the second expansion plate.

4. The metal recovery device of claim 1, wherein the cylinder is provided with a connecting rod, and the connecting rod penetrates through the titanium plate.

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